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Diffstat (limited to 'gcc-4.9/gcc/doc/gcc.1')
-rw-r--r-- | gcc-4.9/gcc/doc/gcc.1 | 21501 |
1 files changed, 21501 insertions, 0 deletions
diff --git a/gcc-4.9/gcc/doc/gcc.1 b/gcc-4.9/gcc/doc/gcc.1 new file mode 100644 index 000000000..1ed57fcbb --- /dev/null +++ b/gcc-4.9/gcc/doc/gcc.1 @@ -0,0 +1,21501 @@ +.\" Automatically generated by Pod::Man 2.27 (Pod::Simple 3.28) +.\" +.\" Standard preamble: +.\" ======================================================================== +.de Sp \" Vertical space (when we can't use .PP) +.if t .sp .5v +.if n .sp +.. +.de Vb \" Begin verbatim text +.ft CW +.nf +.ne \\$1 +.. +.de Ve \" End verbatim text +.ft R +.fi +.. +.\" Set up some character translations and predefined strings. \*(-- will +.\" give an unbreakable dash, \*(PI will give pi, \*(L" will give a left +.\" double quote, and \*(R" will give a right double quote. \*(C+ will +.\" give a nicer C++. Capital omega is used to do unbreakable dashes and +.\" therefore won't be available. \*(C` and \*(C' expand to `' in nroff, +.\" nothing in troff, for use with C<>. +.tr \(*W- +.ds C+ C\v'-.1v'\h'-1p'\s-2+\h'-1p'+\s0\v'.1v'\h'-1p' +.ie n \{\ +. ds -- \(*W- +. ds PI pi +. if (\n(.H=4u)&(1m=24u) .ds -- \(*W\h'-12u'\(*W\h'-12u'-\" diablo 10 pitch +. if (\n(.H=4u)&(1m=20u) .ds -- \(*W\h'-12u'\(*W\h'-8u'-\" diablo 12 pitch +. ds L" "" +. ds R" "" +. ds C` "" +. ds C' "" +'br\} +.el\{\ +. ds -- \|\(em\| +. ds PI \(*p +. ds L" `` +. ds R" '' +. ds C` +. ds C' +'br\} +.\" +.\" Escape single quotes in literal strings from groff's Unicode transform. +.ie \n(.g .ds Aq \(aq +.el .ds Aq ' +.\" +.\" If the F register is turned on, we'll generate index entries on stderr for +.\" titles (.TH), headers (.SH), subsections (.SS), items (.Ip), and index +.\" entries marked with X<> in POD. Of course, you'll have to process the +.\" output yourself in some meaningful fashion. +.\" +.\" Avoid warning from groff about undefined register 'F'. +.de IX +.. +.nr rF 0 +.if \n(.g .if rF .nr rF 1 +.if (\n(rF:(\n(.g==0)) \{ +. if \nF \{ +. de IX +. tm Index:\\$1\t\\n%\t"\\$2" +.. +. if !\nF==2 \{ +. nr % 0 +. nr F 2 +. \} +. \} +.\} +.rr rF +.\" +.\" Accent mark definitions (@(#)ms.acc 1.5 88/02/08 SMI; from UCB 4.2). +.\" Fear. Run. Save yourself. No user-serviceable parts. +. \" fudge factors for nroff and troff +.if n \{\ +. ds #H 0 +. ds #V .8m +. ds #F .3m +. ds #[ \f1 +. ds #] \fP +.\} +.if t \{\ +. ds #H ((1u-(\\\\n(.fu%2u))*.13m) +. ds #V .6m +. ds #F 0 +. ds #[ \& +. ds #] \& +.\} +. \" simple accents for nroff and troff +.if n \{\ +. ds ' \& +. ds ` \& +. ds ^ \& +. ds , \& +. ds ~ ~ +. ds / +.\} +.if t \{\ +. ds ' \\k:\h'-(\\n(.wu*8/10-\*(#H)'\'\h"|\\n:u" +. ds ` \\k:\h'-(\\n(.wu*8/10-\*(#H)'\`\h'|\\n:u' +. ds ^ \\k:\h'-(\\n(.wu*10/11-\*(#H)'^\h'|\\n:u' +. ds , \\k:\h'-(\\n(.wu*8/10)',\h'|\\n:u' +. ds ~ \\k:\h'-(\\n(.wu-\*(#H-.1m)'~\h'|\\n:u' +. ds / \\k:\h'-(\\n(.wu*8/10-\*(#H)'\z\(sl\h'|\\n:u' +.\} +. \" troff and (daisy-wheel) nroff accents +.ds : \\k:\h'-(\\n(.wu*8/10-\*(#H+.1m+\*(#F)'\v'-\*(#V'\z.\h'.2m+\*(#F'.\h'|\\n:u'\v'\*(#V' +.ds 8 \h'\*(#H'\(*b\h'-\*(#H' +.ds o \\k:\h'-(\\n(.wu+\w'\(de'u-\*(#H)/2u'\v'-.3n'\*(#[\z\(de\v'.3n'\h'|\\n:u'\*(#] +.ds d- \h'\*(#H'\(pd\h'-\w'~'u'\v'-.25m'\f2\(hy\fP\v'.25m'\h'-\*(#H' +.ds D- D\\k:\h'-\w'D'u'\v'-.11m'\z\(hy\v'.11m'\h'|\\n:u' +.ds th \*(#[\v'.3m'\s+1I\s-1\v'-.3m'\h'-(\w'I'u*2/3)'\s-1o\s+1\*(#] +.ds Th \*(#[\s+2I\s-2\h'-\w'I'u*3/5'\v'-.3m'o\v'.3m'\*(#] +.ds ae a\h'-(\w'a'u*4/10)'e +.ds Ae A\h'-(\w'A'u*4/10)'E +. \" corrections for vroff +.if v .ds ~ \\k:\h'-(\\n(.wu*9/10-\*(#H)'\s-2\u~\d\s+2\h'|\\n:u' +.if v .ds ^ \\k:\h'-(\\n(.wu*10/11-\*(#H)'\v'-.4m'^\v'.4m'\h'|\\n:u' +. \" for low resolution devices (crt and lpr) +.if \n(.H>23 .if \n(.V>19 \ +\{\ +. ds : e +. ds 8 ss +. ds o a +. ds d- d\h'-1'\(ga +. ds D- D\h'-1'\(hy +. ds th \o'bp' +. ds Th \o'LP' +. ds ae ae +. ds Ae AE +.\} +.rm #[ #] #H #V #F C +.\" ======================================================================== +.\" +.IX Title "GCC 1" +.TH GCC 1 "2014-04-22" "gcc-4.9.0" "GNU" +.\" For nroff, turn off justification. Always turn off hyphenation; it makes +.\" way too many mistakes in technical documents. +.if n .ad l +.nh +.SH "NAME" +gcc \- GNU project C and C++ compiler +.SH "SYNOPSIS" +.IX Header "SYNOPSIS" +gcc [\fB\-c\fR|\fB\-S\fR|\fB\-E\fR] [\fB\-std=\fR\fIstandard\fR] + [\fB\-g\fR] [\fB\-pg\fR] [\fB\-O\fR\fIlevel\fR] + [\fB\-W\fR\fIwarn\fR...] [\fB\-Wpedantic\fR] + [\fB\-I\fR\fIdir\fR...] [\fB\-L\fR\fIdir\fR...] + [\fB\-D\fR\fImacro\fR[=\fIdefn\fR]...] [\fB\-U\fR\fImacro\fR] + [\fB\-f\fR\fIoption\fR...] [\fB\-m\fR\fImachine-option\fR...] + [\fB\-o\fR \fIoutfile\fR] [@\fIfile\fR] \fIinfile\fR... +.PP +Only the most useful options are listed here; see below for the +remainder. \fBg++\fR accepts mostly the same options as \fBgcc\fR. +.SH "DESCRIPTION" +.IX Header "DESCRIPTION" +When you invoke \s-1GCC,\s0 it normally does preprocessing, compilation, +assembly and linking. The \*(L"overall options\*(R" allow you to stop this +process at an intermediate stage. For example, the \fB\-c\fR option +says not to run the linker. Then the output consists of object files +output by the assembler. +.PP +Other options are passed on to one stage of processing. Some options +control the preprocessor and others the compiler itself. Yet other +options control the assembler and linker; most of these are not +documented here, since you rarely need to use any of them. +.PP +Most of the command-line options that you can use with \s-1GCC\s0 are useful +for C programs; when an option is only useful with another language +(usually \*(C+), the explanation says so explicitly. If the description +for a particular option does not mention a source language, you can use +that option with all supported languages. +.PP +The \fBgcc\fR program accepts options and file names as operands. Many +options have multi-letter names; therefore multiple single-letter options +may \fInot\fR be grouped: \fB\-dv\fR is very different from \fB\-d\ \-v\fR. +.PP +You can mix options and other arguments. For the most part, the order +you use doesn't matter. Order does matter when you use several +options of the same kind; for example, if you specify \fB\-L\fR more +than once, the directories are searched in the order specified. Also, +the placement of the \fB\-l\fR option is significant. +.PP +Many options have long names starting with \fB\-f\fR or with +\&\fB\-W\fR\-\-\-for example, +\&\fB\-fmove\-loop\-invariants\fR, \fB\-Wformat\fR and so on. Most of +these have both positive and negative forms; the negative form of +\&\fB\-ffoo\fR is \fB\-fno\-foo\fR. This manual documents +only one of these two forms, whichever one is not the default. +.SH "OPTIONS" +.IX Header "OPTIONS" +.SS "Option Summary" +.IX Subsection "Option Summary" +Here is a summary of all the options, grouped by type. Explanations are +in the following sections. +.IP "\fIOverall Options\fR" 4 +.IX Item "Overall Options" +\&\fB\-c \-S \-E \-o\fR \fIfile\fR \fB\-no\-canonical\-prefixes +\&\-pipe \-pass\-exit\-codes +\&\-x\fR \fIlanguage\fR \fB\-v \-### \-\-help\fR[\fB=\fR\fIclass\fR[\fB,...\fR]] \fB\-\-target\-help +\&\-\-version \-wrapper @\fR\fIfile\fR \fB\-fplugin=\fR\fIfile\fR \fB\-fplugin\-arg\-\fR\fIname\fR\fB=\fR\fIarg\fR +\&\fB\-fdump\-ada\-spec\fR[\fB\-slim\fR] \fB\-fada\-spec\-parent=\fR\fIunit\fR \fB\-fdump\-go\-spec=\fR\fIfile\fR +.IP "\fIC Language Options\fR" 4 +.IX Item "C Language Options" +\&\fB\-ansi \-std=\fR\fIstandard\fR \fB\-fgnu89\-inline +\&\-aux\-info\fR \fIfilename\fR \fB\-fallow\-parameterless\-variadic\-functions +\&\-fno\-asm \-fno\-builtin \-fno\-builtin\-\fR\fIfunction\fR +\&\fB\-fhosted \-ffreestanding \-fopenmp \-fopenmp\-simd \-fms\-extensions +\&\-fplan9\-extensions \-trigraphs \-traditional \-traditional\-cpp +\&\-fallow\-single\-precision \-fcond\-mismatch \-flax\-vector\-conversions +\&\-fsigned\-bitfields \-fsigned\-char +\&\-funsigned\-bitfields \-funsigned\-char\fR +.IP "\fI\*(C+ Language Options\fR" 4 +.IX Item " Language Options" +\&\fB\-fabi\-version=\fR\fIn\fR \fB\-fno\-access\-control \-fcheck\-new +\&\-fconstexpr\-depth=\fR\fIn\fR \fB\-ffriend\-injection +\&\-fno\-elide\-constructors +\&\-fno\-enforce\-eh\-specs +\&\-ffor\-scope \-fno\-for\-scope \-fno\-gnu\-keywords +\&\-fno\-implicit\-templates +\&\-fno\-implicit\-inline\-templates +\&\-fno\-implement\-inlines \-fms\-extensions +\&\-fno\-nonansi\-builtins \-fnothrow\-opt \-fno\-operator\-names +\&\-fno\-optional\-diags \-fpermissive +\&\-fno\-pretty\-templates +\&\-frepo \-fno\-rtti \-fstats \-ftemplate\-backtrace\-limit=\fR\fIn\fR +\&\fB\-ftemplate\-depth=\fR\fIn\fR +\&\fB\-fno\-threadsafe\-statics \-fuse\-cxa\-atexit \-fno\-weak \-nostdinc++ +\&\-fvisibility\-inlines\-hidden +\&\-fvtable\-verify=\fR\fIstd|preinit|none\fR +\&\fB\-fvtv\-counts \-fvtv\-debug +\&\-fvisibility\-ms\-compat +\&\-fext\-numeric\-literals +\&\-Wabi \-Wconversion\-null \-Wctor\-dtor\-privacy +\&\-Wdelete\-non\-virtual\-dtor \-Wliteral\-suffix \-Wnarrowing +\&\-Wnoexcept \-Wnon\-virtual\-dtor \-Wreorder +\&\-Weffc++ \-Wstrict\-null\-sentinel +\&\-Wno\-non\-template\-friend \-Wold\-style\-cast +\&\-Woverloaded\-virtual \-Wno\-pmf\-conversions +\&\-Wsign\-promo\fR +.IP "\fIObjective-C and Objective\-\*(C+ Language Options\fR" 4 +.IX Item "Objective-C and Objective- Language Options" +\&\fB\-fconstant\-string\-class=\fR\fIclass-name\fR +\&\fB\-fgnu\-runtime \-fnext\-runtime +\&\-fno\-nil\-receivers +\&\-fobjc\-abi\-version=\fR\fIn\fR +\&\fB\-fobjc\-call\-cxx\-cdtors +\&\-fobjc\-direct\-dispatch +\&\-fobjc\-exceptions +\&\-fobjc\-gc +\&\-fobjc\-nilcheck +\&\-fobjc\-std=objc1 +\&\-freplace\-objc\-classes +\&\-fzero\-link +\&\-gen\-decls +\&\-Wassign\-intercept +\&\-Wno\-protocol \-Wselector +\&\-Wstrict\-selector\-match +\&\-Wundeclared\-selector\fR +.IP "\fILanguage Independent Options\fR" 4 +.IX Item "Language Independent Options" +\&\fB\-fmessage\-length=\fR\fIn\fR +\&\fB\-fdiagnostics\-show\-location=\fR[\fBonce\fR|\fBevery-line\fR] +\&\fB\-fdiagnostics\-color=\fR[\fBauto\fR|\fBnever\fR|\fBalways\fR] +\&\fB\-fno\-diagnostics\-show\-option \-fno\-diagnostics\-show\-caret\fR +.IP "\fIWarning Options\fR" 4 +.IX Item "Warning Options" +\&\fB\-fsyntax\-only \-fmax\-errors=\fR\fIn\fR \fB\-Wpedantic +\&\-pedantic\-errors +\&\-w \-Wextra \-Wall \-Waddress \-Waggregate\-return +\&\-Waggressive\-loop\-optimizations \-Warray\-bounds +\&\-Wno\-attributes \-Wno\-builtin\-macro\-redefined +\&\-Wc++\-compat \-Wc++11\-compat \-Wcast\-align \-Wcast\-qual +\&\-Wchar\-subscripts \-Wclobbered \-Wcomment \-Wconditionally\-supported +\&\-Wconversion \-Wcoverage\-mismatch \-Wdate\-time \-Wdelete\-incomplete \-Wno\-cpp +\&\-Wno\-deprecated \-Wno\-deprecated\-declarations \-Wdisabled\-optimization +\&\-Wno\-div\-by\-zero \-Wdouble\-promotion \-Wempty\-body \-Wenum\-compare +\&\-Wno\-endif\-labels \-Werror \-Werror=* +\&\-Wfatal\-errors \-Wfloat\-equal \-Wformat \-Wformat=2 +\&\-Wno\-format\-contains\-nul \-Wno\-format\-extra\-args \-Wformat\-nonliteral +\&\-Wformat\-security \-Wformat\-y2k +\&\-Wframe\-larger\-than=\fR\fIlen\fR \fB\-Wno\-free\-nonheap\-object \-Wjump\-misses\-init +\&\-Wignored\-qualifiers +\&\-Wimplicit \-Wimplicit\-function\-declaration \-Wimplicit\-int +\&\-Winit\-self \-Winline \-Wmaybe\-uninitialized +\&\-Wno\-int\-to\-pointer\-cast \-Wno\-invalid\-offsetof +\&\-Winvalid\-pch \-Wlarger\-than=\fR\fIlen\fR \fB\-Wunsafe\-loop\-optimizations +\&\-Wlogical\-op \-Wlong\-long +\&\-Wmain \-Wmaybe\-uninitialized \-Wmissing\-braces \-Wmissing\-field\-initializers +\&\-Wmissing\-include\-dirs +\&\-Wno\-multichar \-Wnonnull \-Wno\-overflow \-Wopenmp\-simd +\&\-Woverlength\-strings \-Wpacked \-Wpacked\-bitfield\-compat \-Wpadded +\&\-Wparentheses \-Wpedantic\-ms\-format \-Wno\-pedantic\-ms\-format +\&\-Wpointer\-arith \-Wno\-pointer\-to\-int\-cast +\&\-Wredundant\-decls \-Wno\-return\-local\-addr +\&\-Wreturn\-type \-Wsequence\-point \-Wshadow +\&\-Wsign\-compare \-Wsign\-conversion \-Wfloat\-conversion +\&\-Wsizeof\-pointer\-memaccess +\&\-Wstack\-protector \-Wstack\-usage=\fR\fIlen\fR \fB\-Wstrict\-aliasing +\&\-Wstrict\-aliasing=n \-Wstrict\-overflow \-Wstrict\-overflow=\fR\fIn\fR +\&\fB\-Wsuggest\-attribute=\fR[\fBpure\fR|\fBconst\fR|\fBnoreturn\fR|\fBformat\fR] +\&\fB\-Wmissing\-format\-attribute +\&\-Wswitch \-Wswitch\-default \-Wswitch\-enum \-Wsync\-nand +\&\-Wsystem\-headers \-Wtrampolines \-Wtrigraphs \-Wtype\-limits \-Wundef +\&\-Wuninitialized \-Wunknown\-pragmas \-Wno\-pragmas +\&\-Wunsuffixed\-float\-constants \-Wunused \-Wunused\-function +\&\-Wunused\-label \-Wunused\-local\-typedefs \-Wunused\-parameter +\&\-Wno\-unused\-result \-Wunused\-value \-Wunused\-variable +\&\-Wunused\-but\-set\-parameter \-Wunused\-but\-set\-variable +\&\-Wuseless\-cast \-Wvariadic\-macros \-Wvector\-operation\-performance +\&\-Wvla \-Wvolatile\-register\-var \-Wwrite\-strings \-Wzero\-as\-null\-pointer\-constant\fR +.IP "\fIC and Objective-C-only Warning Options\fR" 4 +.IX Item "C and Objective-C-only Warning Options" +\&\fB\-Wbad\-function\-cast \-Wmissing\-declarations +\&\-Wmissing\-parameter\-type \-Wmissing\-prototypes \-Wnested\-externs +\&\-Wold\-style\-declaration \-Wold\-style\-definition +\&\-Wstrict\-prototypes \-Wtraditional \-Wtraditional\-conversion +\&\-Wdeclaration\-after\-statement \-Wpointer\-sign\fR +.IP "\fIDebugging Options\fR" 4 +.IX Item "Debugging Options" +\&\fB\-d\fR\fIletters\fR \fB\-dumpspecs \-dumpmachine \-dumpversion +\&\-fsanitize=\fR\fIstyle\fR +\&\fB\-fdbg\-cnt\-list \-fdbg\-cnt=\fR\fIcounter-value-list\fR +\&\fB\-fdisable\-ipa\-\fR\fIpass_name\fR +\&\fB\-fdisable\-rtl\-\fR\fIpass_name\fR +\&\fB\-fdisable\-rtl\-\fR\fIpass-name\fR\fB=\fR\fIrange-list\fR +\&\fB\-fdisable\-tree\-\fR\fIpass_name\fR +\&\fB\-fdisable\-tree\-\fR\fIpass-name\fR\fB=\fR\fIrange-list\fR +\&\fB\-fdump\-noaddr \-fdump\-unnumbered \-fdump\-unnumbered\-links +\&\-fdump\-translation\-unit\fR[\fB\-\fR\fIn\fR] +\&\fB\-fdump\-class\-hierarchy\fR[\fB\-\fR\fIn\fR] +\&\fB\-fdump\-ipa\-all \-fdump\-ipa\-cgraph \-fdump\-ipa\-inline +\&\-fdump\-passes +\&\-fdump\-statistics +\&\-fdump\-tree\-all +\&\-fdump\-tree\-original\fR[\fB\-\fR\fIn\fR] +\&\fB\-fdump\-tree\-optimized\fR[\fB\-\fR\fIn\fR] +\&\fB\-fdump\-tree\-cfg \-fdump\-tree\-alias +\&\-fdump\-tree\-ch +\&\-fdump\-tree\-ssa\fR[\fB\-\fR\fIn\fR] \fB\-fdump\-tree\-pre\fR[\fB\-\fR\fIn\fR] +\&\fB\-fdump\-tree\-ccp\fR[\fB\-\fR\fIn\fR] \fB\-fdump\-tree\-dce\fR[\fB\-\fR\fIn\fR] +\&\fB\-fdump\-tree\-gimple\fR[\fB\-raw\fR] +\&\fB\-fdump\-tree\-dom\fR[\fB\-\fR\fIn\fR] +\&\fB\-fdump\-tree\-dse\fR[\fB\-\fR\fIn\fR] +\&\fB\-fdump\-tree\-phiprop\fR[\fB\-\fR\fIn\fR] +\&\fB\-fdump\-tree\-phiopt\fR[\fB\-\fR\fIn\fR] +\&\fB\-fdump\-tree\-forwprop\fR[\fB\-\fR\fIn\fR] +\&\fB\-fdump\-tree\-copyrename\fR[\fB\-\fR\fIn\fR] +\&\fB\-fdump\-tree\-nrv \-fdump\-tree\-vect +\&\-fdump\-tree\-sink +\&\-fdump\-tree\-sra\fR[\fB\-\fR\fIn\fR] +\&\fB\-fdump\-tree\-forwprop\fR[\fB\-\fR\fIn\fR] +\&\fB\-fdump\-tree\-fre\fR[\fB\-\fR\fIn\fR] +\&\fB\-fdump\-tree\-vtable\-verify +\&\-fdump\-tree\-vrp\fR[\fB\-\fR\fIn\fR] +\&\fB\-fdump\-tree\-storeccp\fR[\fB\-\fR\fIn\fR] +\&\fB\-fdump\-final\-insns=\fR\fIfile\fR +\&\fB\-fcompare\-debug\fR[\fB=\fR\fIopts\fR] \fB\-fcompare\-debug\-second +\&\-feliminate\-dwarf2\-dups \-fno\-eliminate\-unused\-debug\-types +\&\-feliminate\-unused\-debug\-symbols \-femit\-class\-debug\-always +\&\-fenable\-\fR\fIkind\fR\fB\-\fR\fIpass\fR +\&\fB\-fenable\-\fR\fIkind\fR\fB\-\fR\fIpass\fR\fB=\fR\fIrange-list\fR +\&\fB\-fdebug\-types\-section \-fmem\-report\-wpa +\&\-fmem\-report \-fpre\-ipa\-mem\-report \-fpost\-ipa\-mem\-report \-fprofile\-arcs +\&\-fopt\-info +\&\-fopt\-info\-\fR\fIoptions\fR[\fB=\fR\fIfile\fR] +\&\fB\-frandom\-seed=\fR\fIstring\fR \fB\-fsched\-verbose=\fR\fIn\fR +\&\fB\-fsel\-sched\-verbose \-fsel\-sched\-dump\-cfg \-fsel\-sched\-pipelining\-verbose +\&\-fstack\-usage \-ftest\-coverage \-ftime\-report \-fvar\-tracking +\&\-fvar\-tracking\-assignments \-fvar\-tracking\-assignments\-toggle +\&\-g \-g\fR\fIlevel\fR \fB\-gtoggle \-gcoff \-gdwarf\-\fR\fIversion\fR +\&\fB\-ggdb \-grecord\-gcc\-switches \-gno\-record\-gcc\-switches +\&\-gstabs \-gstabs+ \-gstrict\-dwarf \-gno\-strict\-dwarf +\&\-gvms \-gxcoff \-gxcoff+ +\&\-fno\-merge\-debug\-strings \-fno\-dwarf2\-cfi\-asm +\&\-fdebug\-prefix\-map=\fR\fIold\fR\fB=\fR\fInew\fR +\&\fB\-femit\-struct\-debug\-baseonly \-femit\-struct\-debug\-reduced +\&\-femit\-struct\-debug\-detailed\fR[\fB=\fR\fIspec-list\fR] +\&\fB\-p \-pg \-print\-file\-name=\fR\fIlibrary\fR \fB\-print\-libgcc\-file\-name +\&\-print\-multi\-directory \-print\-multi\-lib \-print\-multi\-os\-directory +\&\-print\-prog\-name=\fR\fIprogram\fR \fB\-print\-search\-dirs \-Q +\&\-print\-sysroot \-print\-sysroot\-headers\-suffix +\&\-save\-temps \-save\-temps=cwd \-save\-temps=obj \-time\fR[\fB=\fR\fIfile\fR] +.IP "\fIOptimization Options\fR" 4 +.IX Item "Optimization Options" +\&\fB\-faggressive\-loop\-optimizations \-falign\-functions[=\fR\fIn\fR\fB] +\&\-falign\-jumps[=\fR\fIn\fR\fB] +\&\-falign\-labels[=\fR\fIn\fR\fB] \-falign\-loops[=\fR\fIn\fR\fB] +\&\-fassociative\-math \-fauto\-inc\-dec \-fbranch\-probabilities +\&\-fbranch\-target\-load\-optimize \-fbranch\-target\-load\-optimize2 +\&\-fbtr\-bb\-exclusive \-fcaller\-saves +\&\-fcheck\-data\-deps \-fcombine\-stack\-adjustments \-fconserve\-stack +\&\-fcompare\-elim \-fcprop\-registers \-fcrossjumping +\&\-fcse\-follow\-jumps \-fcse\-skip\-blocks \-fcx\-fortran\-rules +\&\-fcx\-limited\-range +\&\-fdata\-sections \-fdce \-fdelayed\-branch +\&\-fdelete\-null\-pointer\-checks \-fdevirtualize \-fdevirtualize\-speculatively \-fdse +\&\-fearly\-inlining \-fipa\-sra \-fexpensive\-optimizations \-ffat\-lto\-objects +\&\-ffast\-math \-ffinite\-math\-only \-ffloat\-store \-fexcess\-precision=\fR\fIstyle\fR +\&\fB\-fforward\-propagate \-ffp\-contract=\fR\fIstyle\fR \fB\-ffunction\-sections +\&\-fgcse \-fgcse\-after\-reload \-fgcse\-las \-fgcse\-lm \-fgraphite\-identity +\&\-fgcse\-sm \-fhoist\-adjacent\-loads \-fif\-conversion +\&\-fif\-conversion2 \-findirect\-inlining +\&\-finline\-functions \-finline\-functions\-called\-once \-finline\-limit=\fR\fIn\fR +\&\fB\-finline\-small\-functions \-fipa\-cp \-fipa\-cp\-clone +\&\-fipa\-pta \-fipa\-profile \-fipa\-pure\-const \-fipa\-reference +\&\-fira\-algorithm=\fR\fIalgorithm\fR +\&\fB\-fira\-region=\fR\fIregion\fR \fB\-fira\-hoist\-pressure +\&\-fira\-loop\-pressure \-fno\-ira\-share\-save\-slots +\&\-fno\-ira\-share\-spill\-slots \-fira\-verbose=\fR\fIn\fR +\&\fB\-fisolate\-erroneous\-paths\-dereference \-fisolate\-erroneous\-paths\-attribute +\&\-fivopts \-fkeep\-inline\-functions \-fkeep\-static\-consts \-flive\-range\-shrinkage +\&\-floop\-block \-floop\-interchange \-floop\-strip\-mine \-floop\-nest\-optimize +\&\-floop\-parallelize\-all \-flto \-flto\-compression\-level +\&\-flto\-partition=\fR\fIalg\fR \fB\-flto\-report \-flto\-report\-wpa \-fmerge\-all\-constants +\&\-fmerge\-constants \-fmodulo\-sched \-fmodulo\-sched\-allow\-regmoves +\&\-fmove\-loop\-invariants \-fno\-branch\-count\-reg +\&\-fno\-defer\-pop \-fno\-function\-cse \-fno\-guess\-branch\-probability +\&\-fno\-inline \-fno\-math\-errno \-fno\-peephole \-fno\-peephole2 +\&\-fno\-sched\-interblock \-fno\-sched\-spec \-fno\-signed\-zeros +\&\-fno\-toplevel\-reorder \-fno\-trapping\-math \-fno\-zero\-initialized\-in\-bss +\&\-fomit\-frame\-pointer \-foptimize\-sibling\-calls +\&\-fpartial\-inlining \-fpeel\-loops \-fpredictive\-commoning +\&\-fprefetch\-loop\-arrays \-fprofile\-report +\&\-fprofile\-correction \-fprofile\-dir=\fR\fIpath\fR \fB\-fprofile\-generate +\&\-fprofile\-generate=\fR\fIpath\fR +\&\fB\-fprofile\-use \-fprofile\-use=\fR\fIpath\fR \fB\-fprofile\-values \-fprofile\-reorder\-functions +\&\-freciprocal\-math \-free \-frename\-registers \-freorder\-blocks +\&\-freorder\-blocks\-and\-partition \-freorder\-functions +\&\-frerun\-cse\-after\-loop \-freschedule\-modulo\-scheduled\-loops +\&\-frounding\-math \-fsched2\-use\-superblocks \-fsched\-pressure +\&\-fsched\-spec\-load \-fsched\-spec\-load\-dangerous +\&\-fsched\-stalled\-insns\-dep[=\fR\fIn\fR\fB] \-fsched\-stalled\-insns[=\fR\fIn\fR\fB] +\&\-fsched\-group\-heuristic \-fsched\-critical\-path\-heuristic +\&\-fsched\-spec\-insn\-heuristic \-fsched\-rank\-heuristic +\&\-fsched\-last\-insn\-heuristic \-fsched\-dep\-count\-heuristic +\&\-fschedule\-insns \-fschedule\-insns2 \-fsection\-anchors +\&\-fselective\-scheduling \-fselective\-scheduling2 +\&\-fsel\-sched\-pipelining \-fsel\-sched\-pipelining\-outer\-loops +\&\-fshrink\-wrap \-fsignaling\-nans \-fsingle\-precision\-constant +\&\-fsplit\-ivs\-in\-unroller \-fsplit\-wide\-types \-fstack\-protector +\&\-fstack\-protector\-all \-fstack\-protector\-strong \-fstrict\-aliasing +\&\-fstrict\-overflow \-fthread\-jumps \-ftracer \-ftree\-bit\-ccp +\&\-ftree\-builtin\-call\-dce \-ftree\-ccp \-ftree\-ch +\&\-ftree\-coalesce\-inline\-vars \-ftree\-coalesce\-vars \-ftree\-copy\-prop +\&\-ftree\-copyrename \-ftree\-dce \-ftree\-dominator\-opts \-ftree\-dse +\&\-ftree\-forwprop \-ftree\-fre \-ftree\-loop\-if\-convert +\&\-ftree\-loop\-if\-convert\-stores \-ftree\-loop\-im +\&\-ftree\-phiprop \-ftree\-loop\-distribution \-ftree\-loop\-distribute\-patterns +\&\-ftree\-loop\-ivcanon \-ftree\-loop\-linear \-ftree\-loop\-optimize +\&\-ftree\-loop\-vectorize +\&\-ftree\-parallelize\-loops=\fR\fIn\fR \fB\-ftree\-pre \-ftree\-partial\-pre \-ftree\-pta +\&\-ftree\-reassoc \-ftree\-sink \-ftree\-slsr \-ftree\-sra +\&\-ftree\-switch\-conversion \-ftree\-tail\-merge \-ftree\-ter +\&\-ftree\-vectorize \-ftree\-vrp +\&\-funit\-at\-a\-time \-funroll\-all\-loops \-funroll\-loops +\&\-funsafe\-loop\-optimizations \-funsafe\-math\-optimizations \-funswitch\-loops +\&\-fvariable\-expansion\-in\-unroller \-fvect\-cost\-model \-fvpt \-fweb +\&\-fwhole\-program \-fwpa \-fuse\-ld=\fR\fIlinker\fR \fB\-fuse\-linker\-plugin +\&\-\-param\fR \fIname\fR\fB=\fR\fIvalue\fR +\&\fB\-O \-O0 \-O1 \-O2 \-O3 \-Os \-Ofast \-Og\fR +.IP "\fIPreprocessor Options\fR" 4 +.IX Item "Preprocessor Options" +\&\fB\-A\fR\fIquestion\fR\fB=\fR\fIanswer\fR +\&\fB\-A\-\fR\fIquestion\fR[\fB=\fR\fIanswer\fR] +\&\fB\-C \-dD \-dI \-dM \-dN +\&\-D\fR\fImacro\fR[\fB=\fR\fIdefn\fR] \fB\-E \-H +\&\-idirafter\fR \fIdir\fR +\&\fB\-include\fR \fIfile\fR \fB\-imacros\fR \fIfile\fR +\&\fB\-iprefix\fR \fIfile\fR \fB\-iwithprefix\fR \fIdir\fR +\&\fB\-iwithprefixbefore\fR \fIdir\fR \fB\-isystem\fR \fIdir\fR +\&\fB\-imultilib\fR \fIdir\fR \fB\-isysroot\fR \fIdir\fR +\&\fB\-M \-MM \-MF \-MG \-MP \-MQ \-MT \-nostdinc +\&\-P \-fdebug\-cpp \-ftrack\-macro\-expansion \-fworking\-directory +\&\-remap \-trigraphs \-undef \-U\fR\fImacro\fR +\&\fB\-Wp,\fR\fIoption\fR \fB\-Xpreprocessor\fR \fIoption\fR \fB\-no\-integrated\-cpp\fR +.IP "\fIAssembler Option\fR" 4 +.IX Item "Assembler Option" +\&\fB\-Wa,\fR\fIoption\fR \fB\-Xassembler\fR \fIoption\fR +.IP "\fILinker Options\fR" 4 +.IX Item "Linker Options" +\&\fIobject-file-name\fR \fB\-l\fR\fIlibrary\fR +\&\fB\-nostartfiles \-nodefaultlibs \-nostdlib \-pie \-rdynamic +\&\-s \-static \-static\-libgcc \-static\-libstdc++ +\&\-static\-libasan \-static\-libtsan \-static\-liblsan \-static\-libubsan +\&\-shared \-shared\-libgcc \-symbolic +\&\-T\fR \fIscript\fR \fB\-Wl,\fR\fIoption\fR \fB\-Xlinker\fR \fIoption\fR +\&\fB\-u\fR \fIsymbol\fR +.IP "\fIDirectory Options\fR" 4 +.IX Item "Directory Options" +\&\fB\-B\fR\fIprefix\fR \fB\-I\fR\fIdir\fR \fB\-iplugindir=\fR\fIdir\fR +\&\fB\-iquote\fR\fIdir\fR \fB\-L\fR\fIdir\fR \fB\-specs=\fR\fIfile\fR \fB\-I\- +\&\-\-sysroot=\fR\fIdir\fR \fB\-\-no\-sysroot\-suffix\fR +.IP "\fIMachine Dependent Options\fR" 4 +.IX Item "Machine Dependent Options" +\&\fIAArch64 Options\fR +\&\fB\-mabi=\fR\fIname\fR \fB\-mbig\-endian \-mlittle\-endian +\&\-mgeneral\-regs\-only +\&\-mcmodel=tiny \-mcmodel=small \-mcmodel=large +\&\-mstrict\-align +\&\-momit\-leaf\-frame\-pointer \-mno\-omit\-leaf\-frame\-pointer +\&\-mtls\-dialect=desc \-mtls\-dialect=traditional +\&\-march=\fR\fIname\fR \fB\-mcpu=\fR\fIname\fR \fB\-mtune=\fR\fIname\fR +.Sp +\&\fIAdapteva Epiphany Options\fR +\&\fB\-mhalf\-reg\-file \-mprefer\-short\-insn\-regs +\&\-mbranch\-cost=\fR\fInum\fR \fB\-mcmove \-mnops=\fR\fInum\fR \fB\-msoft\-cmpsf +\&\-msplit\-lohi \-mpost\-inc \-mpost\-modify \-mstack\-offset=\fR\fInum\fR +\&\fB\-mround\-nearest \-mlong\-calls \-mshort\-calls \-msmall16 +\&\-mfp\-mode=\fR\fImode\fR \fB\-mvect\-double \-max\-vect\-align=\fR\fInum\fR +\&\fB\-msplit\-vecmove\-early \-m1reg\-\fR\fIreg\fR +.Sp +\&\fI\s-1ARC\s0 Options\fR +\&\fB\-mbarrel\-shifter +\&\-mcpu=\fR\fIcpu\fR \fB\-mA6 \-mARC600 \-mA7 \-mARC700 +\&\-mdpfp \-mdpfp\-compact \-mdpfp\-fast \-mno\-dpfp\-lrsr +\&\-mea \-mno\-mpy \-mmul32x16 \-mmul64 +\&\-mnorm \-mspfp \-mspfp\-compact \-mspfp\-fast \-msimd \-msoft\-float \-mswap +\&\-mcrc \-mdsp\-packa \-mdvbf \-mlock \-mmac\-d16 \-mmac\-24 \-mrtsc \-mswape +\&\-mtelephony \-mxy \-misize \-mannotate\-align \-marclinux \-marclinux_prof +\&\-mepilogue\-cfi \-mlong\-calls \-mmedium\-calls \-msdata +\&\-mucb\-mcount \-mvolatile\-cache +\&\-malign\-call \-mauto\-modify\-reg \-mbbit\-peephole \-mno\-brcc +\&\-mcase\-vector\-pcrel \-mcompact\-casesi \-mno\-cond\-exec \-mearly\-cbranchsi +\&\-mexpand\-adddi \-mindexed\-loads \-mlra \-mlra\-priority\-none +\&\-mlra\-priority\-compact mlra-priority-noncompact \-mno\-millicode +\&\-mmixed\-code \-mq\-class \-mRcq \-mRcw \-msize\-level=\fR\fIlevel\fR +\&\fB\-mtune=\fR\fIcpu\fR \fB\-mmultcost=\fR\fInum\fR \fB\-munalign\-prob\-threshold=\fR\fIprobability\fR +.Sp +\&\fI\s-1ARM\s0 Options\fR +\&\fB\-mapcs\-frame \-mno\-apcs\-frame +\&\-mabi=\fR\fIname\fR +\&\fB\-mapcs\-stack\-check \-mno\-apcs\-stack\-check +\&\-mapcs\-float \-mno\-apcs\-float +\&\-mapcs\-reentrant \-mno\-apcs\-reentrant +\&\-msched\-prolog \-mno\-sched\-prolog +\&\-mlittle\-endian \-mbig\-endian \-mwords\-little\-endian +\&\-mfloat\-abi=\fR\fIname\fR +\&\fB\-mfp16\-format=\fR\fIname\fR +\&\fB\-mthumb\-interwork \-mno\-thumb\-interwork +\&\-mcpu=\fR\fIname\fR \fB\-march=\fR\fIname\fR \fB\-mfpu=\fR\fIname\fR +\&\fB\-mstructure\-size\-boundary=\fR\fIn\fR +\&\fB\-mabort\-on\-noreturn +\&\-mlong\-calls \-mno\-long\-calls +\&\-msingle\-pic\-base \-mno\-single\-pic\-base +\&\-mpic\-register=\fR\fIreg\fR +\&\fB\-mnop\-fun\-dllimport +\&\-mpoke\-function\-name +\&\-mthumb \-marm +\&\-mtpcs\-frame \-mtpcs\-leaf\-frame +\&\-mcaller\-super\-interworking \-mcallee\-super\-interworking +\&\-mtp=\fR\fIname\fR \fB\-mtls\-dialect=\fR\fIdialect\fR +\&\fB\-mword\-relocations +\&\-mfix\-cortex\-m3\-ldrd +\&\-munaligned\-access +\&\-mneon\-for\-64bits +\&\-mslow\-flash\-data +\&\-mrestrict\-it\fR +.Sp +\&\fI\s-1AVR\s0 Options\fR +\&\fB\-mmcu=\fR\fImcu\fR \fB\-maccumulate\-args \-mbranch\-cost=\fR\fIcost\fR +\&\fB\-mcall\-prologues \-mint8 \-mno\-interrupts \-mrelax +\&\-mstrict\-X \-mtiny\-stack \-Waddr\-space\-convert\fR +.Sp +\&\fIBlackfin Options\fR +\&\fB\-mcpu=\fR\fIcpu\fR[\fB\-\fR\fIsirevision\fR] +\&\fB\-msim \-momit\-leaf\-frame\-pointer \-mno\-omit\-leaf\-frame\-pointer +\&\-mspecld\-anomaly \-mno\-specld\-anomaly \-mcsync\-anomaly \-mno\-csync\-anomaly +\&\-mlow\-64k \-mno\-low64k \-mstack\-check\-l1 \-mid\-shared\-library +\&\-mno\-id\-shared\-library \-mshared\-library\-id=\fR\fIn\fR +\&\fB\-mleaf\-id\-shared\-library \-mno\-leaf\-id\-shared\-library +\&\-msep\-data \-mno\-sep\-data \-mlong\-calls \-mno\-long\-calls +\&\-mfast\-fp \-minline\-plt \-mmulticore \-mcorea \-mcoreb \-msdram +\&\-micplb\fR +.Sp +\&\fIC6X Options\fR +\&\fB\-mbig\-endian \-mlittle\-endian \-march=\fR\fIcpu\fR +\&\fB\-msim \-msdata=\fR\fIsdata-type\fR +.Sp +\&\fI\s-1CRIS\s0 Options\fR +\&\fB\-mcpu=\fR\fIcpu\fR \fB\-march=\fR\fIcpu\fR \fB\-mtune=\fR\fIcpu\fR +\&\fB\-mmax\-stack\-frame=\fR\fIn\fR \fB\-melinux\-stacksize=\fR\fIn\fR +\&\fB\-metrax4 \-metrax100 \-mpdebug \-mcc\-init \-mno\-side\-effects +\&\-mstack\-align \-mdata\-align \-mconst\-align +\&\-m32\-bit \-m16\-bit \-m8\-bit \-mno\-prologue\-epilogue \-mno\-gotplt +\&\-melf \-maout \-melinux \-mlinux \-sim \-sim2 +\&\-mmul\-bug\-workaround \-mno\-mul\-bug\-workaround\fR +.Sp +\&\fI\s-1CR16\s0 Options\fR +\&\fB\-mmac +\&\-mcr16cplus \-mcr16c +\&\-msim \-mint32 \-mbit\-ops +\&\-mdata\-model=\fR\fImodel\fR +.Sp +\&\fIDarwin Options\fR +\&\fB\-all_load \-allowable_client \-arch \-arch_errors_fatal +\&\-arch_only \-bind_at_load \-bundle \-bundle_loader +\&\-client_name \-compatibility_version \-current_version +\&\-dead_strip +\&\-dependency\-file \-dylib_file \-dylinker_install_name +\&\-dynamic \-dynamiclib \-exported_symbols_list +\&\-filelist \-flat_namespace \-force_cpusubtype_ALL +\&\-force_flat_namespace \-headerpad_max_install_names +\&\-iframework +\&\-image_base \-init \-install_name \-keep_private_externs +\&\-multi_module \-multiply_defined \-multiply_defined_unused +\&\-noall_load \-no_dead_strip_inits_and_terms +\&\-nofixprebinding \-nomultidefs \-noprebind \-noseglinkedit +\&\-pagezero_size \-prebind \-prebind_all_twolevel_modules +\&\-private_bundle \-read_only_relocs \-sectalign +\&\-sectobjectsymbols \-whyload \-seg1addr +\&\-sectcreate \-sectobjectsymbols \-sectorder +\&\-segaddr \-segs_read_only_addr \-segs_read_write_addr +\&\-seg_addr_table \-seg_addr_table_filename \-seglinkedit +\&\-segprot \-segs_read_only_addr \-segs_read_write_addr +\&\-single_module \-static \-sub_library \-sub_umbrella +\&\-twolevel_namespace \-umbrella \-undefined +\&\-unexported_symbols_list \-weak_reference_mismatches +\&\-whatsloaded \-F \-gused \-gfull \-mmacosx\-version\-min=\fR\fIversion\fR +\&\fB\-mkernel \-mone\-byte\-bool\fR +.Sp +\&\fI\s-1DEC\s0 Alpha Options\fR +\&\fB\-mno\-fp\-regs \-msoft\-float +\&\-mieee \-mieee\-with\-inexact \-mieee\-conformant +\&\-mfp\-trap\-mode=\fR\fImode\fR \fB\-mfp\-rounding\-mode=\fR\fImode\fR +\&\fB\-mtrap\-precision=\fR\fImode\fR \fB\-mbuild\-constants +\&\-mcpu=\fR\fIcpu-type\fR \fB\-mtune=\fR\fIcpu-type\fR +\&\fB\-mbwx \-mmax \-mfix \-mcix +\&\-mfloat\-vax \-mfloat\-ieee +\&\-mexplicit\-relocs \-msmall\-data \-mlarge\-data +\&\-msmall\-text \-mlarge\-text +\&\-mmemory\-latency=\fR\fItime\fR +.Sp +\&\fI\s-1FR30\s0 Options\fR +\&\fB\-msmall\-model \-mno\-lsim\fR +.Sp +\&\fI\s-1FRV\s0 Options\fR +\&\fB\-mgpr\-32 \-mgpr\-64 \-mfpr\-32 \-mfpr\-64 +\&\-mhard\-float \-msoft\-float +\&\-malloc\-cc \-mfixed\-cc \-mdword \-mno\-dword +\&\-mdouble \-mno\-double +\&\-mmedia \-mno\-media \-mmuladd \-mno\-muladd +\&\-mfdpic \-minline\-plt \-mgprel\-ro \-multilib\-library\-pic +\&\-mlinked\-fp \-mlong\-calls \-malign\-labels +\&\-mlibrary\-pic \-macc\-4 \-macc\-8 +\&\-mpack \-mno\-pack \-mno\-eflags \-mcond\-move \-mno\-cond\-move +\&\-moptimize\-membar \-mno\-optimize\-membar +\&\-mscc \-mno\-scc \-mcond\-exec \-mno\-cond\-exec +\&\-mvliw\-branch \-mno\-vliw\-branch +\&\-mmulti\-cond\-exec \-mno\-multi\-cond\-exec \-mnested\-cond\-exec +\&\-mno\-nested\-cond\-exec \-mtomcat\-stats +\&\-mTLS \-mtls +\&\-mcpu=\fR\fIcpu\fR +.Sp +\&\fIGNU/Linux Options\fR +\&\fB\-mglibc \-muclibc \-mbionic \-mandroid +\&\-tno\-android\-cc \-tno\-android\-ld\fR +.Sp +\&\fIH8/300 Options\fR +\&\fB\-mrelax \-mh \-ms \-mn \-mexr \-mno\-exr \-mint32 \-malign\-300\fR +.Sp +\&\fI\s-1HPPA\s0 Options\fR +\&\fB\-march=\fR\fIarchitecture-type\fR +\&\fB\-mdisable\-fpregs \-mdisable\-indexing +\&\-mfast\-indirect\-calls \-mgas \-mgnu\-ld \-mhp\-ld +\&\-mfixed\-range=\fR\fIregister-range\fR +\&\fB\-mjump\-in\-delay \-mlinker\-opt \-mlong\-calls +\&\-mlong\-load\-store \-mno\-disable\-fpregs +\&\-mno\-disable\-indexing \-mno\-fast\-indirect\-calls \-mno\-gas +\&\-mno\-jump\-in\-delay \-mno\-long\-load\-store +\&\-mno\-portable\-runtime \-mno\-soft\-float +\&\-mno\-space\-regs \-msoft\-float \-mpa\-risc\-1\-0 +\&\-mpa\-risc\-1\-1 \-mpa\-risc\-2\-0 \-mportable\-runtime +\&\-mschedule=\fR\fIcpu-type\fR \fB\-mspace\-regs \-msio \-mwsio +\&\-munix=\fR\fIunix-std\fR \fB\-nolibdld \-static \-threads\fR +.Sp +\&\fIi386 and x86\-64 Options\fR +\&\fB\-mtune=\fR\fIcpu-type\fR \fB\-march=\fR\fIcpu-type\fR +\&\fB\-mtune\-ctrl=\fR\fIfeature-list\fR \fB\-mdump\-tune\-features \-mno\-default +\&\-mfpmath=\fR\fIunit\fR +\&\fB\-masm=\fR\fIdialect\fR \fB\-mno\-fancy\-math\-387 +\&\-mno\-fp\-ret\-in\-387 \-msoft\-float +\&\-mno\-wide\-multiply \-mrtd \-malign\-double +\&\-mpreferred\-stack\-boundary=\fR\fInum\fR +\&\fB\-mincoming\-stack\-boundary=\fR\fInum\fR +\&\fB\-mcld \-mcx16 \-msahf \-mmovbe \-mcrc32 +\&\-mrecip \-mrecip=\fR\fIopt\fR +\&\fB\-mvzeroupper \-mprefer\-avx128 +\&\-mmmx \-msse \-msse2 \-msse3 \-mssse3 \-msse4.1 \-msse4.2 \-msse4 \-mavx +\&\-mavx2 \-mavx512f \-mavx512pf \-mavx512er \-mavx512cd \-msha +\&\-maes \-mpclmul \-mfsgsbase \-mrdrnd \-mf16c \-mfma \-mprefetchwt1 +\&\-msse4a \-m3dnow \-mpopcnt \-mabm \-mbmi \-mtbm \-mfma4 \-mxop \-mlzcnt +\&\-mbmi2 \-mfxsr \-mxsave \-mxsaveopt \-mrtm \-mlwp \-mthreads +\&\-mno\-align\-stringops \-minline\-all\-stringops +\&\-minline\-stringops\-dynamically \-mstringop\-strategy=\fR\fIalg\fR +\&\fB\-mmemcpy\-strategy=\fR\fIstrategy\fR \fB\-mmemset\-strategy=\fR\fIstrategy\fR +\&\fB\-mpush\-args \-maccumulate\-outgoing\-args \-m128bit\-long\-double +\&\-m96bit\-long\-double \-mlong\-double\-64 \-mlong\-double\-80 \-mlong\-double\-128 +\&\-mregparm=\fR\fInum\fR \fB\-msseregparm +\&\-mveclibabi=\fR\fItype\fR \fB\-mvect8\-ret\-in\-mem +\&\-mpc32 \-mpc64 \-mpc80 \-mstackrealign +\&\-momit\-leaf\-frame\-pointer \-mno\-red\-zone \-mno\-tls\-direct\-seg\-refs +\&\-mcmodel=\fR\fIcode-model\fR \fB\-mabi=\fR\fIname\fR \fB\-maddress\-mode=\fR\fImode\fR +\&\fB\-m32 \-m64 \-mx32 \-m16 \-mlarge\-data\-threshold=\fR\fInum\fR +\&\fB\-msse2avx \-mfentry \-m8bit\-idiv +\&\-mavx256\-split\-unaligned\-load \-mavx256\-split\-unaligned\-store +\&\-mstack\-protector\-guard=\fR\fIguard\fR +.Sp +\&\fIi386 and x86\-64 Windows Options\fR +\&\fB\-mconsole \-mcygwin \-mno\-cygwin \-mdll +\&\-mnop\-fun\-dllimport \-mthread +\&\-municode \-mwin32 \-mwindows \-fno\-set\-stack\-executable\fR +.Sp +\&\fI\s-1IA\-64\s0 Options\fR +\&\fB\-mbig\-endian \-mlittle\-endian \-mgnu\-as \-mgnu\-ld \-mno\-pic +\&\-mvolatile\-asm\-stop \-mregister\-names \-msdata \-mno\-sdata +\&\-mconstant\-gp \-mauto\-pic \-mfused\-madd +\&\-minline\-float\-divide\-min\-latency +\&\-minline\-float\-divide\-max\-throughput +\&\-mno\-inline\-float\-divide +\&\-minline\-int\-divide\-min\-latency +\&\-minline\-int\-divide\-max\-throughput +\&\-mno\-inline\-int\-divide +\&\-minline\-sqrt\-min\-latency \-minline\-sqrt\-max\-throughput +\&\-mno\-inline\-sqrt +\&\-mdwarf2\-asm \-mearly\-stop\-bits +\&\-mfixed\-range=\fR\fIregister-range\fR \fB\-mtls\-size=\fR\fItls-size\fR +\&\fB\-mtune=\fR\fIcpu-type\fR \fB\-milp32 \-mlp64 +\&\-msched\-br\-data\-spec \-msched\-ar\-data\-spec \-msched\-control\-spec +\&\-msched\-br\-in\-data\-spec \-msched\-ar\-in\-data\-spec \-msched\-in\-control\-spec +\&\-msched\-spec\-ldc \-msched\-spec\-control\-ldc +\&\-msched\-prefer\-non\-data\-spec\-insns \-msched\-prefer\-non\-control\-spec\-insns +\&\-msched\-stop\-bits\-after\-every\-cycle \-msched\-count\-spec\-in\-critical\-path +\&\-msel\-sched\-dont\-check\-control\-spec \-msched\-fp\-mem\-deps\-zero\-cost +\&\-msched\-max\-memory\-insns\-hard\-limit \-msched\-max\-memory\-insns=\fR\fImax-insns\fR +.Sp +\&\fI\s-1LM32\s0 Options\fR +\&\fB\-mbarrel\-shift\-enabled \-mdivide\-enabled \-mmultiply\-enabled +\&\-msign\-extend\-enabled \-muser\-enabled\fR +.Sp +\&\fIM32R/D Options\fR +\&\fB\-m32r2 \-m32rx \-m32r +\&\-mdebug +\&\-malign\-loops \-mno\-align\-loops +\&\-missue\-rate=\fR\fInumber\fR +\&\fB\-mbranch\-cost=\fR\fInumber\fR +\&\fB\-mmodel=\fR\fIcode-size-model-type\fR +\&\fB\-msdata=\fR\fIsdata-type\fR +\&\fB\-mno\-flush\-func \-mflush\-func=\fR\fIname\fR +\&\fB\-mno\-flush\-trap \-mflush\-trap=\fR\fInumber\fR +\&\fB\-G\fR \fInum\fR +.Sp +\&\fIM32C Options\fR +\&\fB\-mcpu=\fR\fIcpu\fR \fB\-msim \-memregs=\fR\fInumber\fR +.Sp +\&\fIM680x0 Options\fR +\&\fB\-march=\fR\fIarch\fR \fB\-mcpu=\fR\fIcpu\fR \fB\-mtune=\fR\fItune\fR +\&\fB\-m68000 \-m68020 \-m68020\-40 \-m68020\-60 \-m68030 \-m68040 +\&\-m68060 \-mcpu32 \-m5200 \-m5206e \-m528x \-m5307 \-m5407 +\&\-mcfv4e \-mbitfield \-mno\-bitfield \-mc68000 \-mc68020 +\&\-mnobitfield \-mrtd \-mno\-rtd \-mdiv \-mno\-div \-mshort +\&\-mno\-short \-mhard\-float \-m68881 \-msoft\-float \-mpcrel +\&\-malign\-int \-mstrict\-align \-msep\-data \-mno\-sep\-data +\&\-mshared\-library\-id=n \-mid\-shared\-library \-mno\-id\-shared\-library +\&\-mxgot \-mno\-xgot\fR +.Sp +\&\fIMCore Options\fR +\&\fB\-mhardlit \-mno\-hardlit \-mdiv \-mno\-div \-mrelax\-immediates +\&\-mno\-relax\-immediates \-mwide\-bitfields \-mno\-wide\-bitfields +\&\-m4byte\-functions \-mno\-4byte\-functions \-mcallgraph\-data +\&\-mno\-callgraph\-data \-mslow\-bytes \-mno\-slow\-bytes \-mno\-lsim +\&\-mlittle\-endian \-mbig\-endian \-m210 \-m340 \-mstack\-increment\fR +.Sp +\&\fIMeP Options\fR +\&\fB\-mabsdiff \-mall\-opts \-maverage \-mbased=\fR\fIn\fR \fB\-mbitops +\&\-mc=\fR\fIn\fR \fB\-mclip \-mconfig=\fR\fIname\fR \fB\-mcop \-mcop32 \-mcop64 \-mivc2 +\&\-mdc \-mdiv \-meb \-mel \-mio\-volatile \-ml \-mleadz \-mm \-mminmax +\&\-mmult \-mno\-opts \-mrepeat \-ms \-msatur \-msdram \-msim \-msimnovec \-mtf +\&\-mtiny=\fR\fIn\fR +.Sp +\&\fIMicroBlaze Options\fR +\&\fB\-msoft\-float \-mhard\-float \-msmall\-divides \-mcpu=\fR\fIcpu\fR +\&\fB\-mmemcpy \-mxl\-soft\-mul \-mxl\-soft\-div \-mxl\-barrel\-shift +\&\-mxl\-pattern\-compare \-mxl\-stack\-check \-mxl\-gp\-opt \-mno\-clearbss +\&\-mxl\-multiply\-high \-mxl\-float\-convert \-mxl\-float\-sqrt +\&\-mbig\-endian \-mlittle\-endian \-mxl\-reorder \-mxl\-mode\-\fR\fIapp-model\fR +.Sp +\&\fI\s-1MIPS\s0 Options\fR +\&\fB\-EL \-EB \-march=\fR\fIarch\fR \fB\-mtune=\fR\fIarch\fR +\&\fB\-mips1 \-mips2 \-mips3 \-mips4 \-mips32 \-mips32r2 +\&\-mips64 \-mips64r2 +\&\-mips16 \-mno\-mips16 \-mflip\-mips16 +\&\-minterlink\-compressed \-mno\-interlink\-compressed +\&\-minterlink\-mips16 \-mno\-interlink\-mips16 +\&\-mabi=\fR\fIabi\fR \fB\-mabicalls \-mno\-abicalls +\&\-mshared \-mno\-shared \-mplt \-mno\-plt \-mxgot \-mno\-xgot +\&\-mgp32 \-mgp64 \-mfp32 \-mfp64 \-mhard\-float \-msoft\-float +\&\-mno\-float \-msingle\-float \-mdouble\-float +\&\-mabs=\fR\fImode\fR \fB\-mnan=\fR\fIencoding\fR +\&\fB\-mdsp \-mno\-dsp \-mdspr2 \-mno\-dspr2 +\&\-mmcu \-mmno\-mcu +\&\-meva \-mno\-eva +\&\-mvirt \-mno\-virt +\&\-mmicromips \-mno\-micromips +\&\-mfpu=\fR\fIfpu-type\fR +\&\fB\-msmartmips \-mno\-smartmips +\&\-mpaired\-single \-mno\-paired\-single \-mdmx \-mno\-mdmx +\&\-mips3d \-mno\-mips3d \-mmt \-mno\-mt \-mllsc \-mno\-llsc +\&\-mlong64 \-mlong32 \-msym32 \-mno\-sym32 +\&\-G\fR\fInum\fR \fB\-mlocal\-sdata \-mno\-local\-sdata +\&\-mextern\-sdata \-mno\-extern\-sdata \-mgpopt \-mno\-gopt +\&\-membedded\-data \-mno\-embedded\-data +\&\-muninit\-const\-in\-rodata \-mno\-uninit\-const\-in\-rodata +\&\-mcode\-readable=\fR\fIsetting\fR +\&\fB\-msplit\-addresses \-mno\-split\-addresses +\&\-mexplicit\-relocs \-mno\-explicit\-relocs +\&\-mcheck\-zero\-division \-mno\-check\-zero\-division +\&\-mdivide\-traps \-mdivide\-breaks +\&\-mmemcpy \-mno\-memcpy \-mlong\-calls \-mno\-long\-calls +\&\-mmad \-mno\-mad \-mimadd \-mno\-imadd \-mfused\-madd \-mno\-fused\-madd \-nocpp +\&\-mfix\-24k \-mno\-fix\-24k +\&\-mfix\-r4000 \-mno\-fix\-r4000 \-mfix\-r4400 \-mno\-fix\-r4400 +\&\-mfix\-r10000 \-mno\-fix\-r10000 \-mfix\-rm7000 \-mno\-fix\-rm7000 +\&\-mfix\-vr4120 \-mno\-fix\-vr4120 +\&\-mfix\-vr4130 \-mno\-fix\-vr4130 \-mfix\-sb1 \-mno\-fix\-sb1 +\&\-mflush\-func=\fR\fIfunc\fR \fB\-mno\-flush\-func +\&\-mbranch\-cost=\fR\fInum\fR \fB\-mbranch\-likely \-mno\-branch\-likely +\&\-mfp\-exceptions \-mno\-fp\-exceptions +\&\-mvr4130\-align \-mno\-vr4130\-align \-msynci \-mno\-synci +\&\-mrelax\-pic\-calls \-mno\-relax\-pic\-calls \-mmcount\-ra\-address\fR +.Sp +\&\fI\s-1MMIX\s0 Options\fR +\&\fB\-mlibfuncs \-mno\-libfuncs \-mepsilon \-mno\-epsilon \-mabi=gnu +\&\-mabi=mmixware \-mzero\-extend \-mknuthdiv \-mtoplevel\-symbols +\&\-melf \-mbranch\-predict \-mno\-branch\-predict \-mbase\-addresses +\&\-mno\-base\-addresses \-msingle\-exit \-mno\-single\-exit\fR +.Sp +\&\fI\s-1MN10300\s0 Options\fR +\&\fB\-mmult\-bug \-mno\-mult\-bug +\&\-mno\-am33 \-mam33 \-mam33\-2 \-mam34 +\&\-mtune=\fR\fIcpu-type\fR +\&\fB\-mreturn\-pointer\-on\-d0 +\&\-mno\-crt0 \-mrelax \-mliw \-msetlb\fR +.Sp +\&\fIMoxie Options\fR +\&\fB\-meb \-mel \-mno\-crt0\fR +.Sp +\&\fI\s-1MSP430\s0 Options\fR +\&\fB\-msim \-masm\-hex \-mmcu= \-mcpu= \-mlarge \-msmall \-mrelax\fR +.Sp +\&\fI\s-1NDS32\s0 Options\fR +\&\fB\-mbig\-endian \-mlittle\-endian +\&\-mreduced\-regs \-mfull\-regs +\&\-mcmov \-mno\-cmov +\&\-mperf\-ext \-mno\-perf\-ext +\&\-mv3push \-mno\-v3push +\&\-m16bit \-mno\-16bit +\&\-mgp\-direct \-mno\-gp\-direct +\&\-misr\-vector\-size=\fR\fInum\fR +\&\fB\-mcache\-block\-size=\fR\fInum\fR +\&\fB\-march=\fR\fIarch\fR +\&\fB\-mforce\-fp\-as\-gp \-mforbid\-fp\-as\-gp +\&\-mex9 \-mctor\-dtor \-mrelax\fR +.Sp +\&\fINios \s-1II\s0 Options\fR +\&\fB\-G\fR \fInum\fR \fB\-mgpopt \-mno\-gpopt \-mel \-meb +\&\-mno\-bypass\-cache \-mbypass\-cache +\&\-mno\-cache\-volatile \-mcache\-volatile +\&\-mno\-fast\-sw\-div \-mfast\-sw\-div +\&\-mhw\-mul \-mno\-hw\-mul \-mhw\-mulx \-mno\-hw\-mulx \-mno\-hw\-div \-mhw\-div +\&\-mcustom\-\fR\fIinsn\fR\fB=\fR\fIN\fR \fB\-mno\-custom\-\fR\fIinsn\fR +\&\fB\-mcustom\-fpu\-cfg=\fR\fIname\fR +\&\fB\-mhal \-msmallc \-msys\-crt0=\fR\fIname\fR \fB\-msys\-lib=\fR\fIname\fR +.Sp +\&\fI\s-1PDP\-11\s0 Options\fR +\&\fB\-mfpu \-msoft\-float \-mac0 \-mno\-ac0 \-m40 \-m45 \-m10 +\&\-mbcopy \-mbcopy\-builtin \-mint32 \-mno\-int16 +\&\-mint16 \-mno\-int32 \-mfloat32 \-mno\-float64 +\&\-mfloat64 \-mno\-float32 \-mabshi \-mno\-abshi +\&\-mbranch\-expensive \-mbranch\-cheap +\&\-munix\-asm \-mdec\-asm\fR +.Sp +\&\fIpicoChip Options\fR +\&\fB\-mae=\fR\fIae_type\fR \fB\-mvliw\-lookahead=\fR\fIN\fR +\&\fB\-msymbol\-as\-address \-mno\-inefficient\-warnings\fR +.Sp +\&\fIPowerPC Options\fR +See \s-1RS/6000\s0 and PowerPC Options. +.Sp +\&\fI\s-1RL78\s0 Options\fR +\&\fB\-msim \-mmul=none \-mmul=g13 \-mmul=rl78\fR +.Sp +\&\fI\s-1RS/6000\s0 and PowerPC Options\fR +\&\fB\-mcpu=\fR\fIcpu-type\fR +\&\fB\-mtune=\fR\fIcpu-type\fR +\&\fB\-mcmodel=\fR\fIcode-model\fR +\&\fB\-mpowerpc64 +\&\-maltivec \-mno\-altivec +\&\-mpowerpc\-gpopt \-mno\-powerpc\-gpopt +\&\-mpowerpc\-gfxopt \-mno\-powerpc\-gfxopt +\&\-mmfcrf \-mno\-mfcrf \-mpopcntb \-mno\-popcntb \-mpopcntd \-mno\-popcntd +\&\-mfprnd \-mno\-fprnd +\&\-mcmpb \-mno\-cmpb \-mmfpgpr \-mno\-mfpgpr \-mhard\-dfp \-mno\-hard\-dfp +\&\-mfull\-toc \-mminimal\-toc \-mno\-fp\-in\-toc \-mno\-sum\-in\-toc +\&\-m64 \-m32 \-mxl\-compat \-mno\-xl\-compat \-mpe +\&\-malign\-power \-malign\-natural +\&\-msoft\-float \-mhard\-float \-mmultiple \-mno\-multiple +\&\-msingle\-float \-mdouble\-float \-msimple\-fpu +\&\-mstring \-mno\-string \-mupdate \-mno\-update +\&\-mavoid\-indexed\-addresses \-mno\-avoid\-indexed\-addresses +\&\-mfused\-madd \-mno\-fused\-madd \-mbit\-align \-mno\-bit\-align +\&\-mstrict\-align \-mno\-strict\-align \-mrelocatable +\&\-mno\-relocatable \-mrelocatable\-lib \-mno\-relocatable\-lib +\&\-mtoc \-mno\-toc \-mlittle \-mlittle\-endian \-mbig \-mbig\-endian +\&\-mdynamic\-no\-pic \-maltivec \-mswdiv \-msingle\-pic\-base +\&\-mprioritize\-restricted\-insns=\fR\fIpriority\fR +\&\fB\-msched\-costly\-dep=\fR\fIdependence_type\fR +\&\fB\-minsert\-sched\-nops=\fR\fIscheme\fR +\&\fB\-mcall\-sysv \-mcall\-netbsd +\&\-maix\-struct\-return \-msvr4\-struct\-return +\&\-mabi=\fR\fIabi-type\fR \fB\-msecure\-plt \-mbss\-plt +\&\-mblock\-move\-inline\-limit=\fR\fInum\fR +\&\fB\-misel \-mno\-isel +\&\-misel=yes \-misel=no +\&\-mspe \-mno\-spe +\&\-mspe=yes \-mspe=no +\&\-mpaired +\&\-mgen\-cell\-microcode \-mwarn\-cell\-microcode +\&\-mvrsave \-mno\-vrsave +\&\-mmulhw \-mno\-mulhw +\&\-mdlmzb \-mno\-dlmzb +\&\-mfloat\-gprs=yes \-mfloat\-gprs=no \-mfloat\-gprs=single \-mfloat\-gprs=double +\&\-mprototype \-mno\-prototype +\&\-msim \-mmvme \-mads \-myellowknife \-memb \-msdata +\&\-msdata=\fR\fIopt\fR \fB\-mvxworks \-G\fR \fInum\fR \fB\-pthread +\&\-mrecip \-mrecip=\fR\fIopt\fR \fB\-mno\-recip \-mrecip\-precision +\&\-mno\-recip\-precision +\&\-mveclibabi=\fR\fItype\fR \fB\-mfriz \-mno\-friz +\&\-mpointers\-to\-nested\-functions \-mno\-pointers\-to\-nested\-functions +\&\-msave\-toc\-indirect \-mno\-save\-toc\-indirect +\&\-mpower8\-fusion \-mno\-mpower8\-fusion \-mpower8\-vector \-mno\-power8\-vector +\&\-mcrypto \-mno\-crypto \-mdirect\-move \-mno\-direct\-move +\&\-mquad\-memory \-mno\-quad\-memory +\&\-mquad\-memory\-atomic \-mno\-quad\-memory\-atomic +\&\-mcompat\-align\-parm \-mno\-compat\-align\-parm\fR +.Sp +\&\fI\s-1RX\s0 Options\fR +\&\fB\-m64bit\-doubles \-m32bit\-doubles \-fpu \-nofpu +\&\-mcpu= +\&\-mbig\-endian\-data \-mlittle\-endian\-data +\&\-msmall\-data +\&\-msim \-mno\-sim +\&\-mas100\-syntax \-mno\-as100\-syntax +\&\-mrelax +\&\-mmax\-constant\-size= +\&\-mint\-register= +\&\-mpid +\&\-mno\-warn\-multiple\-fast\-interrupts +\&\-msave\-acc\-in\-interrupts\fR +.Sp +\&\fIS/390 and zSeries Options\fR +\&\fB\-mtune=\fR\fIcpu-type\fR \fB\-march=\fR\fIcpu-type\fR +\&\fB\-mhard\-float \-msoft\-float \-mhard\-dfp \-mno\-hard\-dfp +\&\-mlong\-double\-64 \-mlong\-double\-128 +\&\-mbackchain \-mno\-backchain \-mpacked\-stack \-mno\-packed\-stack +\&\-msmall\-exec \-mno\-small\-exec \-mmvcle \-mno\-mvcle +\&\-m64 \-m31 \-mdebug \-mno\-debug \-mesa \-mzarch +\&\-mtpf\-trace \-mno\-tpf\-trace \-mfused\-madd \-mno\-fused\-madd +\&\-mwarn\-framesize \-mwarn\-dynamicstack \-mstack\-size \-mstack\-guard +\&\-mhotpatch[=\fR\fIhalfwords\fR\fB] \-mno\-hotpatch\fR +.Sp +\&\fIScore Options\fR +\&\fB\-meb \-mel +\&\-mnhwloop +\&\-muls +\&\-mmac +\&\-mscore5 \-mscore5u \-mscore7 \-mscore7d\fR +.Sp +\&\fI\s-1SH\s0 Options\fR +\&\fB\-m1 \-m2 \-m2e +\&\-m2a\-nofpu \-m2a\-single\-only \-m2a\-single \-m2a +\&\-m3 \-m3e +\&\-m4\-nofpu \-m4\-single\-only \-m4\-single \-m4 +\&\-m4a\-nofpu \-m4a\-single\-only \-m4a\-single \-m4a \-m4al +\&\-m5\-64media \-m5\-64media\-nofpu +\&\-m5\-32media \-m5\-32media\-nofpu +\&\-m5\-compact \-m5\-compact\-nofpu +\&\-mb \-ml \-mdalign \-mrelax +\&\-mbigtable \-mfmovd \-mhitachi \-mrenesas \-mno\-renesas \-mnomacsave +\&\-mieee \-mno\-ieee \-mbitops \-misize \-minline\-ic_invalidate \-mpadstruct +\&\-mspace \-mprefergot \-musermode \-multcost=\fR\fInumber\fR \fB\-mdiv=\fR\fIstrategy\fR +\&\fB\-mdivsi3_libfunc=\fR\fIname\fR \fB\-mfixed\-range=\fR\fIregister-range\fR +\&\fB\-mindexed\-addressing \-mgettrcost=\fR\fInumber\fR \fB\-mpt\-fixed +\&\-maccumulate\-outgoing\-args \-minvalid\-symbols +\&\-matomic\-model=\fR\fIatomic-model\fR +\&\fB\-mbranch\-cost=\fR\fInum\fR \fB\-mzdcbranch \-mno\-zdcbranch +\&\-mfused\-madd \-mno\-fused\-madd \-mfsca \-mno\-fsca \-mfsrra \-mno\-fsrra +\&\-mpretend\-cmove \-mtas\fR +.Sp +\&\fISolaris 2 Options\fR +\&\fB\-mimpure\-text \-mno\-impure\-text +\&\-pthreads \-pthread\fR +.Sp +\&\fI\s-1SPARC\s0 Options\fR +\&\fB\-mcpu=\fR\fIcpu-type\fR +\&\fB\-mtune=\fR\fIcpu-type\fR +\&\fB\-mcmodel=\fR\fIcode-model\fR +\&\fB\-mmemory\-model=\fR\fImem-model\fR +\&\fB\-m32 \-m64 \-mapp\-regs \-mno\-app\-regs +\&\-mfaster\-structs \-mno\-faster\-structs \-mflat \-mno\-flat +\&\-mfpu \-mno\-fpu \-mhard\-float \-msoft\-float +\&\-mhard\-quad\-float \-msoft\-quad\-float +\&\-mstack\-bias \-mno\-stack\-bias +\&\-munaligned\-doubles \-mno\-unaligned\-doubles +\&\-mv8plus \-mno\-v8plus \-mvis \-mno\-vis +\&\-mvis2 \-mno\-vis2 \-mvis3 \-mno\-vis3 +\&\-mcbcond \-mno\-cbcond +\&\-mfmaf \-mno\-fmaf \-mpopc \-mno\-popc +\&\-mfix\-at697f \-mfix\-ut699\fR +.Sp +\&\fI\s-1SPU\s0 Options\fR +\&\fB\-mwarn\-reloc \-merror\-reloc +\&\-msafe\-dma \-munsafe\-dma +\&\-mbranch\-hints +\&\-msmall\-mem \-mlarge\-mem \-mstdmain +\&\-mfixed\-range=\fR\fIregister-range\fR +\&\fB\-mea32 \-mea64 +\&\-maddress\-space\-conversion \-mno\-address\-space\-conversion +\&\-mcache\-size=\fR\fIcache-size\fR +\&\fB\-matomic\-updates \-mno\-atomic\-updates\fR +.Sp +\&\fISystem V Options\fR +\&\fB\-Qy \-Qn \-YP,\fR\fIpaths\fR \fB\-Ym,\fR\fIdir\fR +.Sp +\&\fITILE-Gx Options\fR +\&\fB\-mcpu=CPU \-m32 \-m64 \-mbig\-endian \-mlittle\-endian +\&\-mcmodel=\fR\fIcode-model\fR +.Sp +\&\fITILEPro Options\fR +\&\fB\-mcpu=\fR\fIcpu\fR \fB\-m32\fR +.Sp +\&\fIV850 Options\fR +\&\fB\-mlong\-calls \-mno\-long\-calls \-mep \-mno\-ep +\&\-mprolog\-function \-mno\-prolog\-function \-mspace +\&\-mtda=\fR\fIn\fR \fB\-msda=\fR\fIn\fR \fB\-mzda=\fR\fIn\fR +\&\fB\-mapp\-regs \-mno\-app\-regs +\&\-mdisable\-callt \-mno\-disable\-callt +\&\-mv850e2v3 \-mv850e2 \-mv850e1 \-mv850es +\&\-mv850e \-mv850 \-mv850e3v5 +\&\-mloop +\&\-mrelax +\&\-mlong\-jumps +\&\-msoft\-float +\&\-mhard\-float +\&\-mgcc\-abi +\&\-mrh850\-abi +\&\-mbig\-switch\fR +.Sp +\&\fI\s-1VAX\s0 Options\fR +\&\fB\-mg \-mgnu \-munix\fR +.Sp +\&\fI\s-1VMS\s0 Options\fR +\&\fB\-mvms\-return\-codes \-mdebug\-main=\fR\fIprefix\fR \fB\-mmalloc64 +\&\-mpointer\-size=\fR\fIsize\fR +.Sp +\&\fIVxWorks Options\fR +\&\fB\-mrtp \-non\-static \-Bstatic \-Bdynamic +\&\-Xbind\-lazy \-Xbind\-now\fR +.Sp +\&\fIx86\-64 Options\fR +See i386 and x86\-64 Options. +.Sp +\&\fIXstormy16 Options\fR +\&\fB\-msim\fR +.Sp +\&\fIXtensa Options\fR +\&\fB\-mconst16 \-mno\-const16 +\&\-mfused\-madd \-mno\-fused\-madd +\&\-mforce\-no\-pic +\&\-mserialize\-volatile \-mno\-serialize\-volatile +\&\-mtext\-section\-literals \-mno\-text\-section\-literals +\&\-mtarget\-align \-mno\-target\-align +\&\-mlongcalls \-mno\-longcalls\fR +.Sp +\&\fIzSeries Options\fR +See S/390 and zSeries Options. +.IP "\fICode Generation Options\fR" 4 +.IX Item "Code Generation Options" +\&\fB\-fcall\-saved\-\fR\fIreg\fR \fB\-fcall\-used\-\fR\fIreg\fR +\&\fB\-ffixed\-\fR\fIreg\fR \fB\-fexceptions +\&\-fnon\-call\-exceptions \-fdelete\-dead\-exceptions \-funwind\-tables +\&\-fasynchronous\-unwind\-tables +\&\-fno\-gnu\-unique +\&\-finhibit\-size\-directive \-finstrument\-functions +\&\-finstrument\-functions\-exclude\-function\-list=\fR\fIsym\fR\fB,\fR\fIsym\fR\fB,... +\&\-finstrument\-functions\-exclude\-file\-list=\fR\fIfile\fR\fB,\fR\fIfile\fR\fB,... +\&\-fno\-common \-fno\-ident +\&\-fpcc\-struct\-return \-fpic \-fPIC \-fpie \-fPIE +\&\-fno\-jump\-tables +\&\-frecord\-gcc\-switches +\&\-freg\-struct\-return \-fshort\-enums +\&\-fshort\-double \-fshort\-wchar +\&\-fverbose\-asm \-fpack\-struct[=\fR\fIn\fR\fB] \-fstack\-check +\&\-fstack\-limit\-register=\fR\fIreg\fR \fB\-fstack\-limit\-symbol=\fR\fIsym\fR +\&\fB\-fno\-stack\-limit \-fsplit\-stack +\&\-fleading\-underscore \-ftls\-model=\fR\fImodel\fR +\&\fB\-fstack\-reuse=\fR\fIreuse_level\fR +\&\fB\-ftrapv \-fwrapv \-fbounds\-check +\&\-fvisibility \-fstrict\-volatile\-bitfields \-fsync\-libcalls\fR +.SS "Options Controlling the Kind of Output" +.IX Subsection "Options Controlling the Kind of Output" +Compilation can involve up to four stages: preprocessing, compilation +proper, assembly and linking, always in that order. \s-1GCC\s0 is capable of +preprocessing and compiling several files either into several +assembler input files, or into one assembler input file; then each +assembler input file produces an object file, and linking combines all +the object files (those newly compiled, and those specified as input) +into an executable file. +.PP +For any given input file, the file name suffix determines what kind of +compilation is done: +.IP "\fIfile\fR\fB.c\fR" 4 +.IX Item "file.c" +C source code that must be preprocessed. +.IP "\fIfile\fR\fB.i\fR" 4 +.IX Item "file.i" +C source code that should not be preprocessed. +.IP "\fIfile\fR\fB.ii\fR" 4 +.IX Item "file.ii" +\&\*(C+ source code that should not be preprocessed. +.IP "\fIfile\fR\fB.m\fR" 4 +.IX Item "file.m" +Objective-C source code. Note that you must link with the \fIlibobjc\fR +library to make an Objective-C program work. +.IP "\fIfile\fR\fB.mi\fR" 4 +.IX Item "file.mi" +Objective-C source code that should not be preprocessed. +.IP "\fIfile\fR\fB.mm\fR" 4 +.IX Item "file.mm" +.PD 0 +.IP "\fIfile\fR\fB.M\fR" 4 +.IX Item "file.M" +.PD +Objective\-\*(C+ source code. Note that you must link with the \fIlibobjc\fR +library to make an Objective\-\*(C+ program work. Note that \fB.M\fR refers +to a literal capital M. +.IP "\fIfile\fR\fB.mii\fR" 4 +.IX Item "file.mii" +Objective\-\*(C+ source code that should not be preprocessed. +.IP "\fIfile\fR\fB.h\fR" 4 +.IX Item "file.h" +C, \*(C+, Objective-C or Objective\-\*(C+ header file to be turned into a +precompiled header (default), or C, \*(C+ header file to be turned into an +Ada spec (via the \fB\-fdump\-ada\-spec\fR switch). +.IP "\fIfile\fR\fB.cc\fR" 4 +.IX Item "file.cc" +.PD 0 +.IP "\fIfile\fR\fB.cp\fR" 4 +.IX Item "file.cp" +.IP "\fIfile\fR\fB.cxx\fR" 4 +.IX Item "file.cxx" +.IP "\fIfile\fR\fB.cpp\fR" 4 +.IX Item "file.cpp" +.IP "\fIfile\fR\fB.CPP\fR" 4 +.IX Item "file.CPP" +.IP "\fIfile\fR\fB.c++\fR" 4 +.IX Item "file.c++" +.IP "\fIfile\fR\fB.C\fR" 4 +.IX Item "file.C" +.PD +\&\*(C+ source code that must be preprocessed. Note that in \fB.cxx\fR, +the last two letters must both be literally \fBx\fR. Likewise, +\&\fB.C\fR refers to a literal capital C. +.IP "\fIfile\fR\fB.mm\fR" 4 +.IX Item "file.mm" +.PD 0 +.IP "\fIfile\fR\fB.M\fR" 4 +.IX Item "file.M" +.PD +Objective\-\*(C+ source code that must be preprocessed. +.IP "\fIfile\fR\fB.mii\fR" 4 +.IX Item "file.mii" +Objective\-\*(C+ source code that should not be preprocessed. +.IP "\fIfile\fR\fB.hh\fR" 4 +.IX Item "file.hh" +.PD 0 +.IP "\fIfile\fR\fB.H\fR" 4 +.IX Item "file.H" +.IP "\fIfile\fR\fB.hp\fR" 4 +.IX Item "file.hp" +.IP "\fIfile\fR\fB.hxx\fR" 4 +.IX Item "file.hxx" +.IP "\fIfile\fR\fB.hpp\fR" 4 +.IX Item "file.hpp" +.IP "\fIfile\fR\fB.HPP\fR" 4 +.IX Item "file.HPP" +.IP "\fIfile\fR\fB.h++\fR" 4 +.IX Item "file.h++" +.IP "\fIfile\fR\fB.tcc\fR" 4 +.IX Item "file.tcc" +.PD +\&\*(C+ header file to be turned into a precompiled header or Ada spec. +.IP "\fIfile\fR\fB.f\fR" 4 +.IX Item "file.f" +.PD 0 +.IP "\fIfile\fR\fB.for\fR" 4 +.IX Item "file.for" +.IP "\fIfile\fR\fB.ftn\fR" 4 +.IX Item "file.ftn" +.PD +Fixed form Fortran source code that should not be preprocessed. +.IP "\fIfile\fR\fB.F\fR" 4 +.IX Item "file.F" +.PD 0 +.IP "\fIfile\fR\fB.FOR\fR" 4 +.IX Item "file.FOR" +.IP "\fIfile\fR\fB.fpp\fR" 4 +.IX Item "file.fpp" +.IP "\fIfile\fR\fB.FPP\fR" 4 +.IX Item "file.FPP" +.IP "\fIfile\fR\fB.FTN\fR" 4 +.IX Item "file.FTN" +.PD +Fixed form Fortran source code that must be preprocessed (with the traditional +preprocessor). +.IP "\fIfile\fR\fB.f90\fR" 4 +.IX Item "file.f90" +.PD 0 +.IP "\fIfile\fR\fB.f95\fR" 4 +.IX Item "file.f95" +.IP "\fIfile\fR\fB.f03\fR" 4 +.IX Item "file.f03" +.IP "\fIfile\fR\fB.f08\fR" 4 +.IX Item "file.f08" +.PD +Free form Fortran source code that should not be preprocessed. +.IP "\fIfile\fR\fB.F90\fR" 4 +.IX Item "file.F90" +.PD 0 +.IP "\fIfile\fR\fB.F95\fR" 4 +.IX Item "file.F95" +.IP "\fIfile\fR\fB.F03\fR" 4 +.IX Item "file.F03" +.IP "\fIfile\fR\fB.F08\fR" 4 +.IX Item "file.F08" +.PD +Free form Fortran source code that must be preprocessed (with the +traditional preprocessor). +.IP "\fIfile\fR\fB.go\fR" 4 +.IX Item "file.go" +Go source code. +.IP "\fIfile\fR\fB.ads\fR" 4 +.IX Item "file.ads" +Ada source code file that contains a library unit declaration (a +declaration of a package, subprogram, or generic, or a generic +instantiation), or a library unit renaming declaration (a package, +generic, or subprogram renaming declaration). Such files are also +called \fIspecs\fR. +.IP "\fIfile\fR\fB.adb\fR" 4 +.IX Item "file.adb" +Ada source code file containing a library unit body (a subprogram or +package body). Such files are also called \fIbodies\fR. +.IP "\fIfile\fR\fB.s\fR" 4 +.IX Item "file.s" +Assembler code. +.IP "\fIfile\fR\fB.S\fR" 4 +.IX Item "file.S" +.PD 0 +.IP "\fIfile\fR\fB.sx\fR" 4 +.IX Item "file.sx" +.PD +Assembler code that must be preprocessed. +.IP "\fIother\fR" 4 +.IX Item "other" +An object file to be fed straight into linking. +Any file name with no recognized suffix is treated this way. +.PP +You can specify the input language explicitly with the \fB\-x\fR option: +.IP "\fB\-x\fR \fIlanguage\fR" 4 +.IX Item "-x language" +Specify explicitly the \fIlanguage\fR for the following input files +(rather than letting the compiler choose a default based on the file +name suffix). This option applies to all following input files until +the next \fB\-x\fR option. Possible values for \fIlanguage\fR are: +.Sp +.Vb 9 +\& c c\-header cpp\-output +\& c++ c++\-header c++\-cpp\-output +\& objective\-c objective\-c\-header objective\-c\-cpp\-output +\& objective\-c++ objective\-c++\-header objective\-c++\-cpp\-output +\& assembler assembler\-with\-cpp +\& ada +\& f77 f77\-cpp\-input f95 f95\-cpp\-input +\& go +\& java +.Ve +.IP "\fB\-x none\fR" 4 +.IX Item "-x none" +Turn off any specification of a language, so that subsequent files are +handled according to their file name suffixes (as they are if \fB\-x\fR +has not been used at all). +.IP "\fB\-pass\-exit\-codes\fR" 4 +.IX Item "-pass-exit-codes" +Normally the \fBgcc\fR program exits with the code of 1 if any +phase of the compiler returns a non-success return code. If you specify +\&\fB\-pass\-exit\-codes\fR, the \fBgcc\fR program instead returns with +the numerically highest error produced by any phase returning an error +indication. The C, \*(C+, and Fortran front ends return 4 if an internal +compiler error is encountered. +.PP +If you only want some of the stages of compilation, you can use +\&\fB\-x\fR (or filename suffixes) to tell \fBgcc\fR where to start, and +one of the options \fB\-c\fR, \fB\-S\fR, or \fB\-E\fR to say where +\&\fBgcc\fR is to stop. Note that some combinations (for example, +\&\fB\-x cpp-output \-E\fR) instruct \fBgcc\fR to do nothing at all. +.IP "\fB\-c\fR" 4 +.IX Item "-c" +Compile or assemble the source files, but do not link. The linking +stage simply is not done. The ultimate output is in the form of an +object file for each source file. +.Sp +By default, the object file name for a source file is made by replacing +the suffix \fB.c\fR, \fB.i\fR, \fB.s\fR, etc., with \fB.o\fR. +.Sp +Unrecognized input files, not requiring compilation or assembly, are +ignored. +.IP "\fB\-S\fR" 4 +.IX Item "-S" +Stop after the stage of compilation proper; do not assemble. The output +is in the form of an assembler code file for each non-assembler input +file specified. +.Sp +By default, the assembler file name for a source file is made by +replacing the suffix \fB.c\fR, \fB.i\fR, etc., with \fB.s\fR. +.Sp +Input files that don't require compilation are ignored. +.IP "\fB\-E\fR" 4 +.IX Item "-E" +Stop after the preprocessing stage; do not run the compiler proper. The +output is in the form of preprocessed source code, which is sent to the +standard output. +.Sp +Input files that don't require preprocessing are ignored. +.IP "\fB\-o\fR \fIfile\fR" 4 +.IX Item "-o file" +Place output in file \fIfile\fR. This applies to whatever +sort of output is being produced, whether it be an executable file, +an object file, an assembler file or preprocessed C code. +.Sp +If \fB\-o\fR is not specified, the default is to put an executable +file in \fIa.out\fR, the object file for +\&\fI\fIsource\fI.\fIsuffix\fI\fR in \fI\fIsource\fI.o\fR, its +assembler file in \fI\fIsource\fI.s\fR, a precompiled header file in +\&\fI\fIsource\fI.\fIsuffix\fI.gch\fR, and all preprocessed C source on +standard output. +.IP "\fB\-v\fR" 4 +.IX Item "-v" +Print (on standard error output) the commands executed to run the stages +of compilation. Also print the version number of the compiler driver +program and of the preprocessor and the compiler proper. +.IP "\fB\-###\fR" 4 +.IX Item "-###" +Like \fB\-v\fR except the commands are not executed and arguments +are quoted unless they contain only alphanumeric characters or \f(CW\*(C`./\-_\*(C'\fR. +This is useful for shell scripts to capture the driver-generated command lines. +.IP "\fB\-pipe\fR" 4 +.IX Item "-pipe" +Use pipes rather than temporary files for communication between the +various stages of compilation. This fails to work on some systems where +the assembler is unable to read from a pipe; but the \s-1GNU\s0 assembler has +no trouble. +.IP "\fB\-\-help\fR" 4 +.IX Item "--help" +Print (on the standard output) a description of the command-line options +understood by \fBgcc\fR. If the \fB\-v\fR option is also specified +then \fB\-\-help\fR is also passed on to the various processes +invoked by \fBgcc\fR, so that they can display the command-line options +they accept. If the \fB\-Wextra\fR option has also been specified +(prior to the \fB\-\-help\fR option), then command-line options that +have no documentation associated with them are also displayed. +.IP "\fB\-\-target\-help\fR" 4 +.IX Item "--target-help" +Print (on the standard output) a description of target-specific command-line +options for each tool. For some targets extra target-specific +information may also be printed. +.IP "\fB\-\-help={\fR\fIclass\fR|[\fB^\fR]\fIqualifier\fR\fB}\fR[\fB,...\fR]" 4 +.IX Item "--help={class|[^]qualifier}[,...]" +Print (on the standard output) a description of the command-line +options understood by the compiler that fit into all specified classes +and qualifiers. These are the supported classes: +.RS 4 +.IP "\fBoptimizers\fR" 4 +.IX Item "optimizers" +Display all of the optimization options supported by the +compiler. +.IP "\fBwarnings\fR" 4 +.IX Item "warnings" +Display all of the options controlling warning messages +produced by the compiler. +.IP "\fBtarget\fR" 4 +.IX Item "target" +Display target-specific options. Unlike the +\&\fB\-\-target\-help\fR option however, target-specific options of the +linker and assembler are not displayed. This is because those +tools do not currently support the extended \fB\-\-help=\fR syntax. +.IP "\fBparams\fR" 4 +.IX Item "params" +Display the values recognized by the \fB\-\-param\fR +option. +.IP "\fIlanguage\fR" 4 +.IX Item "language" +Display the options supported for \fIlanguage\fR, where +\&\fIlanguage\fR is the name of one of the languages supported in this +version of \s-1GCC.\s0 +.IP "\fBcommon\fR" 4 +.IX Item "common" +Display the options that are common to all languages. +.RE +.RS 4 +.Sp +These are the supported qualifiers: +.IP "\fBundocumented\fR" 4 +.IX Item "undocumented" +Display only those options that are undocumented. +.IP "\fBjoined\fR" 4 +.IX Item "joined" +Display options taking an argument that appears after an equal +sign in the same continuous piece of text, such as: +\&\fB\-\-help=target\fR. +.IP "\fBseparate\fR" 4 +.IX Item "separate" +Display options taking an argument that appears as a separate word +following the original option, such as: \fB\-o output-file\fR. +.RE +.RS 4 +.Sp +Thus for example to display all the undocumented target-specific +switches supported by the compiler, use: +.Sp +.Vb 1 +\& \-\-help=target,undocumented +.Ve +.Sp +The sense of a qualifier can be inverted by prefixing it with the +\&\fB^\fR character, so for example to display all binary warning +options (i.e., ones that are either on or off and that do not take an +argument) that have a description, use: +.Sp +.Vb 1 +\& \-\-help=warnings,^joined,^undocumented +.Ve +.Sp +The argument to \fB\-\-help=\fR should not consist solely of inverted +qualifiers. +.Sp +Combining several classes is possible, although this usually +restricts the output so much that there is nothing to display. One +case where it does work, however, is when one of the classes is +\&\fItarget\fR. For example, to display all the target-specific +optimization options, use: +.Sp +.Vb 1 +\& \-\-help=target,optimizers +.Ve +.Sp +The \fB\-\-help=\fR option can be repeated on the command line. Each +successive use displays its requested class of options, skipping +those that have already been displayed. +.Sp +If the \fB\-Q\fR option appears on the command line before the +\&\fB\-\-help=\fR option, then the descriptive text displayed by +\&\fB\-\-help=\fR is changed. Instead of describing the displayed +options, an indication is given as to whether the option is enabled, +disabled or set to a specific value (assuming that the compiler +knows this at the point where the \fB\-\-help=\fR option is used). +.Sp +Here is a truncated example from the \s-1ARM\s0 port of \fBgcc\fR: +.Sp +.Vb 5 +\& % gcc \-Q \-mabi=2 \-\-help=target \-c +\& The following options are target specific: +\& \-mabi= 2 +\& \-mabort\-on\-noreturn [disabled] +\& \-mapcs [disabled] +.Ve +.Sp +The output is sensitive to the effects of previous command-line +options, so for example it is possible to find out which optimizations +are enabled at \fB\-O2\fR by using: +.Sp +.Vb 1 +\& \-Q \-O2 \-\-help=optimizers +.Ve +.Sp +Alternatively you can discover which binary optimizations are enabled +by \fB\-O3\fR by using: +.Sp +.Vb 3 +\& gcc \-c \-Q \-O3 \-\-help=optimizers > /tmp/O3\-opts +\& gcc \-c \-Q \-O2 \-\-help=optimizers > /tmp/O2\-opts +\& diff /tmp/O2\-opts /tmp/O3\-opts | grep enabled +.Ve +.RE +.IP "\fB\-no\-canonical\-prefixes\fR" 4 +.IX Item "-no-canonical-prefixes" +Do not expand any symbolic links, resolve references to \fB/../\fR +or \fB/./\fR, or make the path absolute when generating a relative +prefix. +.IP "\fB\-\-version\fR" 4 +.IX Item "--version" +Display the version number and copyrights of the invoked \s-1GCC.\s0 +.IP "\fB\-wrapper\fR" 4 +.IX Item "-wrapper" +Invoke all subcommands under a wrapper program. The name of the +wrapper program and its parameters are passed as a comma separated +list. +.Sp +.Vb 1 +\& gcc \-c t.c \-wrapper gdb,\-\-args +.Ve +.Sp +This invokes all subprograms of \fBgcc\fR under +\&\fBgdb \-\-args\fR, thus the invocation of \fBcc1\fR is +\&\fBgdb \-\-args cc1 ...\fR. +.IP "\fB\-fplugin=\fR\fIname\fR\fB.so\fR" 4 +.IX Item "-fplugin=name.so" +Load the plugin code in file \fIname\fR.so, assumed to be a +shared object to be dlopen'd by the compiler. The base name of +the shared object file is used to identify the plugin for the +purposes of argument parsing (See +\&\fB\-fplugin\-arg\-\fR\fIname\fR\fB\-\fR\fIkey\fR\fB=\fR\fIvalue\fR below). +Each plugin should define the callback functions specified in the +Plugins \s-1API.\s0 +.IP "\fB\-fplugin\-arg\-\fR\fIname\fR\fB\-\fR\fIkey\fR\fB=\fR\fIvalue\fR" 4 +.IX Item "-fplugin-arg-name-key=value" +Define an argument called \fIkey\fR with a value of \fIvalue\fR +for the plugin called \fIname\fR. +.IP "\fB\-fdump\-ada\-spec\fR[\fB\-slim\fR]" 4 +.IX Item "-fdump-ada-spec[-slim]" +For C and \*(C+ source and include files, generate corresponding Ada specs. +.IP "\fB\-fada\-spec\-parent=\fR\fIunit\fR" 4 +.IX Item "-fada-spec-parent=unit" +In conjunction with \fB\-fdump\-ada\-spec\fR[\fB\-slim\fR] above, generate +Ada specs as child units of parent \fIunit\fR. +.IP "\fB\-fdump\-go\-spec=\fR\fIfile\fR" 4 +.IX Item "-fdump-go-spec=file" +For input files in any language, generate corresponding Go +declarations in \fIfile\fR. This generates Go \f(CW\*(C`const\*(C'\fR, +\&\f(CW\*(C`type\*(C'\fR, \f(CW\*(C`var\*(C'\fR, and \f(CW\*(C`func\*(C'\fR declarations which may be a +useful way to start writing a Go interface to code written in some +other language. +.IP "\fB@\fR\fIfile\fR" 4 +.IX Item "@file" +Read command-line options from \fIfile\fR. The options read are +inserted in place of the original @\fIfile\fR option. If \fIfile\fR +does not exist, or cannot be read, then the option will be treated +literally, and not removed. +.Sp +Options in \fIfile\fR are separated by whitespace. A whitespace +character may be included in an option by surrounding the entire +option in either single or double quotes. Any character (including a +backslash) may be included by prefixing the character to be included +with a backslash. The \fIfile\fR may itself contain additional +@\fIfile\fR options; any such options will be processed recursively. +.SS "Compiling \*(C+ Programs" +.IX Subsection "Compiling Programs" +\&\*(C+ source files conventionally use one of the suffixes \fB.C\fR, +\&\fB.cc\fR, \fB.cpp\fR, \fB.CPP\fR, \fB.c++\fR, \fB.cp\fR, or +\&\fB.cxx\fR; \*(C+ header files often use \fB.hh\fR, \fB.hpp\fR, +\&\fB.H\fR, or (for shared template code) \fB.tcc\fR; and +preprocessed \*(C+ files use the suffix \fB.ii\fR. \s-1GCC\s0 recognizes +files with these names and compiles them as \*(C+ programs even if you +call the compiler the same way as for compiling C programs (usually +with the name \fBgcc\fR). +.PP +However, the use of \fBgcc\fR does not add the \*(C+ library. +\&\fBg++\fR is a program that calls \s-1GCC\s0 and automatically specifies linking +against the \*(C+ library. It treats \fB.c\fR, +\&\fB.h\fR and \fB.i\fR files as \*(C+ source files instead of C source +files unless \fB\-x\fR is used. This program is also useful when +precompiling a C header file with a \fB.h\fR extension for use in \*(C+ +compilations. On many systems, \fBg++\fR is also installed with +the name \fBc++\fR. +.PP +When you compile \*(C+ programs, you may specify many of the same +command-line options that you use for compiling programs in any +language; or command-line options meaningful for C and related +languages; or options that are meaningful only for \*(C+ programs. +.SS "Options Controlling C Dialect" +.IX Subsection "Options Controlling C Dialect" +The following options control the dialect of C (or languages derived +from C, such as \*(C+, Objective-C and Objective\-\*(C+) that the compiler +accepts: +.IP "\fB\-ansi\fR" 4 +.IX Item "-ansi" +In C mode, this is equivalent to \fB\-std=c90\fR. In \*(C+ mode, it is +equivalent to \fB\-std=c++98\fR. +.Sp +This turns off certain features of \s-1GCC\s0 that are incompatible with \s-1ISO +C90 \s0(when compiling C code), or of standard \*(C+ (when compiling \*(C+ code), +such as the \f(CW\*(C`asm\*(C'\fR and \f(CW\*(C`typeof\*(C'\fR keywords, and +predefined macros such as \f(CW\*(C`unix\*(C'\fR and \f(CW\*(C`vax\*(C'\fR that identify the +type of system you are using. It also enables the undesirable and +rarely used \s-1ISO\s0 trigraph feature. For the C compiler, +it disables recognition of \*(C+ style \fB//\fR comments as well as +the \f(CW\*(C`inline\*(C'\fR keyword. +.Sp +The alternate keywords \f(CW\*(C`_\|_asm_\|_\*(C'\fR, \f(CW\*(C`_\|_extension_\|_\*(C'\fR, +\&\f(CW\*(C`_\|_inline_\|_\*(C'\fR and \f(CW\*(C`_\|_typeof_\|_\*(C'\fR continue to work despite +\&\fB\-ansi\fR. You would not want to use them in an \s-1ISO C\s0 program, of +course, but it is useful to put them in header files that might be included +in compilations done with \fB\-ansi\fR. Alternate predefined macros +such as \f(CW\*(C`_\|_unix_\|_\*(C'\fR and \f(CW\*(C`_\|_vax_\|_\*(C'\fR are also available, with or +without \fB\-ansi\fR. +.Sp +The \fB\-ansi\fR option does not cause non-ISO programs to be +rejected gratuitously. For that, \fB\-Wpedantic\fR is required in +addition to \fB\-ansi\fR. +.Sp +The macro \f(CW\*(C`_\|_STRICT_ANSI_\|_\*(C'\fR is predefined when the \fB\-ansi\fR +option is used. Some header files may notice this macro and refrain +from declaring certain functions or defining certain macros that the +\&\s-1ISO\s0 standard doesn't call for; this is to avoid interfering with any +programs that might use these names for other things. +.Sp +Functions that are normally built in but do not have semantics +defined by \s-1ISO C \s0(such as \f(CW\*(C`alloca\*(C'\fR and \f(CW\*(C`ffs\*(C'\fR) are not built-in +functions when \fB\-ansi\fR is used. +.IP "\fB\-std=\fR" 4 +.IX Item "-std=" +Determine the language standard. This option +is currently only supported when compiling C or \*(C+. +.Sp +The compiler can accept several base standards, such as \fBc90\fR or +\&\fBc++98\fR, and \s-1GNU\s0 dialects of those standards, such as +\&\fBgnu90\fR or \fBgnu++98\fR. When a base standard is specified, the +compiler accepts all programs following that standard plus those +using \s-1GNU\s0 extensions that do not contradict it. For example, +\&\fB\-std=c90\fR turns off certain features of \s-1GCC\s0 that are +incompatible with \s-1ISO C90,\s0 such as the \f(CW\*(C`asm\*(C'\fR and \f(CW\*(C`typeof\*(C'\fR +keywords, but not other \s-1GNU\s0 extensions that do not have a meaning in +\&\s-1ISO C90,\s0 such as omitting the middle term of a \f(CW\*(C`?:\*(C'\fR +expression. On the other hand, when a \s-1GNU\s0 dialect of a standard is +specified, all features supported by the compiler are enabled, even when +those features change the meaning of the base standard. As a result, some +strict-conforming programs may be rejected. The particular standard +is used by \fB\-Wpedantic\fR to identify which features are \s-1GNU\s0 +extensions given that version of the standard. For example +\&\fB\-std=gnu90 \-Wpedantic\fR warns about \*(C+ style \fB//\fR +comments, while \fB\-std=gnu99 \-Wpedantic\fR does not. +.Sp +A value for this option must be provided; possible values are +.RS 4 +.IP "\fBc90\fR" 4 +.IX Item "c90" +.PD 0 +.IP "\fBc89\fR" 4 +.IX Item "c89" +.IP "\fBiso9899:1990\fR" 4 +.IX Item "iso9899:1990" +.PD +Support all \s-1ISO C90\s0 programs (certain \s-1GNU\s0 extensions that conflict +with \s-1ISO C90\s0 are disabled). Same as \fB\-ansi\fR for C code. +.IP "\fBiso9899:199409\fR" 4 +.IX Item "iso9899:199409" +\&\s-1ISO C90\s0 as modified in amendment 1. +.IP "\fBc99\fR" 4 +.IX Item "c99" +.PD 0 +.IP "\fBc9x\fR" 4 +.IX Item "c9x" +.IP "\fBiso9899:1999\fR" 4 +.IX Item "iso9899:1999" +.IP "\fBiso9899:199x\fR" 4 +.IX Item "iso9899:199x" +.PD +\&\s-1ISO C99. \s0 This standard is substantially completely supported, modulo +bugs, extended identifiers (supported except for corner cases when +\&\fB\-fextended\-identifiers\fR is used) and floating-point issues +(mainly but not entirely relating to optional C99 features from +Annexes F and G). See +<\fBhttp://gcc.gnu.org/c99status.html\fR> for more information. The +names \fBc9x\fR and \fBiso9899:199x\fR are deprecated. +.IP "\fBc11\fR" 4 +.IX Item "c11" +.PD 0 +.IP "\fBc1x\fR" 4 +.IX Item "c1x" +.IP "\fBiso9899:2011\fR" 4 +.IX Item "iso9899:2011" +.PD +\&\s-1ISO C11,\s0 the 2011 revision of the \s-1ISO C\s0 standard. This standard is +substantially completely supported, modulo bugs, extended identifiers +(supported except for corner cases when +\&\fB\-fextended\-identifiers\fR is used), floating-point issues +(mainly but not entirely relating to optional C11 features from +Annexes F and G) and the optional Annexes K (Bounds-checking +interfaces) and L (Analyzability). The name \fBc1x\fR is deprecated. +.IP "\fBgnu90\fR" 4 +.IX Item "gnu90" +.PD 0 +.IP "\fBgnu89\fR" 4 +.IX Item "gnu89" +.PD +\&\s-1GNU\s0 dialect of \s-1ISO C90 \s0(including some C99 features). This +is the default for C code. +.IP "\fBgnu99\fR" 4 +.IX Item "gnu99" +.PD 0 +.IP "\fBgnu9x\fR" 4 +.IX Item "gnu9x" +.PD +\&\s-1GNU\s0 dialect of \s-1ISO C99. \s0 The name \fBgnu9x\fR is deprecated. +.IP "\fBgnu11\fR" 4 +.IX Item "gnu11" +.PD 0 +.IP "\fBgnu1x\fR" 4 +.IX Item "gnu1x" +.PD +\&\s-1GNU\s0 dialect of \s-1ISO C11. \s0 This is intended to become the default in a +future release of \s-1GCC. \s0 The name \fBgnu1x\fR is deprecated. +.IP "\fBc++98\fR" 4 +.IX Item "c++98" +.PD 0 +.IP "\fBc++03\fR" 4 +.IX Item "c++03" +.PD +The 1998 \s-1ISO \*(C+\s0 standard plus the 2003 technical corrigendum and some +additional defect reports. Same as \fB\-ansi\fR for \*(C+ code. +.IP "\fBgnu++98\fR" 4 +.IX Item "gnu++98" +.PD 0 +.IP "\fBgnu++03\fR" 4 +.IX Item "gnu++03" +.PD +\&\s-1GNU\s0 dialect of \fB\-std=c++98\fR. This is the default for +\&\*(C+ code. +.IP "\fBc++11\fR" 4 +.IX Item "c++11" +.PD 0 +.IP "\fBc++0x\fR" 4 +.IX Item "c++0x" +.PD +The 2011 \s-1ISO \*(C+\s0 standard plus amendments. +The name \fBc++0x\fR is deprecated. +.IP "\fBgnu++11\fR" 4 +.IX Item "gnu++11" +.PD 0 +.IP "\fBgnu++0x\fR" 4 +.IX Item "gnu++0x" +.PD +\&\s-1GNU\s0 dialect of \fB\-std=c++11\fR. +The name \fBgnu++0x\fR is deprecated. +.IP "\fBc++1y\fR" 4 +.IX Item "c++1y" +The next revision of the \s-1ISO \*(C+\s0 standard, tentatively planned for +2014. Support is highly experimental, and will almost certainly +change in incompatible ways in future releases. +.IP "\fBgnu++1y\fR" 4 +.IX Item "gnu++1y" +\&\s-1GNU\s0 dialect of \fB\-std=c++1y\fR. Support is highly experimental, +and will almost certainly change in incompatible ways in future +releases. +.RE +.RS 4 +.RE +.IP "\fB\-fgnu89\-inline\fR" 4 +.IX Item "-fgnu89-inline" +The option \fB\-fgnu89\-inline\fR tells \s-1GCC\s0 to use the traditional +\&\s-1GNU\s0 semantics for \f(CW\*(C`inline\*(C'\fR functions when in C99 mode. + This option +is accepted and ignored by \s-1GCC\s0 versions 4.1.3 up to but not including +4.3. In \s-1GCC\s0 versions 4.3 and later it changes the behavior of \s-1GCC\s0 in +C99 mode. Using this option is roughly equivalent to adding the +\&\f(CW\*(C`gnu_inline\*(C'\fR function attribute to all inline functions. +.Sp +The option \fB\-fno\-gnu89\-inline\fR explicitly tells \s-1GCC\s0 to use the +C99 semantics for \f(CW\*(C`inline\*(C'\fR when in C99 or gnu99 mode (i.e., it +specifies the default behavior). This option was first supported in +\&\s-1GCC 4.3. \s0 This option is not supported in \fB\-std=c90\fR or +\&\fB\-std=gnu90\fR mode. +.Sp +The preprocessor macros \f(CW\*(C`_\|_GNUC_GNU_INLINE_\|_\*(C'\fR and +\&\f(CW\*(C`_\|_GNUC_STDC_INLINE_\|_\*(C'\fR may be used to check which semantics are +in effect for \f(CW\*(C`inline\*(C'\fR functions. +.IP "\fB\-aux\-info\fR \fIfilename\fR" 4 +.IX Item "-aux-info filename" +Output to the given filename prototyped declarations for all functions +declared and/or defined in a translation unit, including those in header +files. This option is silently ignored in any language other than C. +.Sp +Besides declarations, the file indicates, in comments, the origin of +each declaration (source file and line), whether the declaration was +implicit, prototyped or unprototyped (\fBI\fR, \fBN\fR for new or +\&\fBO\fR for old, respectively, in the first character after the line +number and the colon), and whether it came from a declaration or a +definition (\fBC\fR or \fBF\fR, respectively, in the following +character). In the case of function definitions, a K&R\-style list of +arguments followed by their declarations is also provided, inside +comments, after the declaration. +.IP "\fB\-fallow\-parameterless\-variadic\-functions\fR" 4 +.IX Item "-fallow-parameterless-variadic-functions" +Accept variadic functions without named parameters. +.Sp +Although it is possible to define such a function, this is not very +useful as it is not possible to read the arguments. This is only +supported for C as this construct is allowed by \*(C+. +.IP "\fB\-fno\-asm\fR" 4 +.IX Item "-fno-asm" +Do not recognize \f(CW\*(C`asm\*(C'\fR, \f(CW\*(C`inline\*(C'\fR or \f(CW\*(C`typeof\*(C'\fR as a +keyword, so that code can use these words as identifiers. You can use +the keywords \f(CW\*(C`_\|_asm_\|_\*(C'\fR, \f(CW\*(C`_\|_inline_\|_\*(C'\fR and \f(CW\*(C`_\|_typeof_\|_\*(C'\fR +instead. \fB\-ansi\fR implies \fB\-fno\-asm\fR. +.Sp +In \*(C+, this switch only affects the \f(CW\*(C`typeof\*(C'\fR keyword, since +\&\f(CW\*(C`asm\*(C'\fR and \f(CW\*(C`inline\*(C'\fR are standard keywords. You may want to +use the \fB\-fno\-gnu\-keywords\fR flag instead, which has the same +effect. In C99 mode (\fB\-std=c99\fR or \fB\-std=gnu99\fR), this +switch only affects the \f(CW\*(C`asm\*(C'\fR and \f(CW\*(C`typeof\*(C'\fR keywords, since +\&\f(CW\*(C`inline\*(C'\fR is a standard keyword in \s-1ISO C99.\s0 +.IP "\fB\-fno\-builtin\fR" 4 +.IX Item "-fno-builtin" +.PD 0 +.IP "\fB\-fno\-builtin\-\fR\fIfunction\fR" 4 +.IX Item "-fno-builtin-function" +.PD +Don't recognize built-in functions that do not begin with +\&\fB_\|_builtin_\fR as prefix. +.Sp +\&\s-1GCC\s0 normally generates special code to handle certain built-in functions +more efficiently; for instance, calls to \f(CW\*(C`alloca\*(C'\fR may become single +instructions which adjust the stack directly, and calls to \f(CW\*(C`memcpy\*(C'\fR +may become inline copy loops. The resulting code is often both smaller +and faster, but since the function calls no longer appear as such, you +cannot set a breakpoint on those calls, nor can you change the behavior +of the functions by linking with a different library. In addition, +when a function is recognized as a built-in function, \s-1GCC\s0 may use +information about that function to warn about problems with calls to +that function, or to generate more efficient code, even if the +resulting code still contains calls to that function. For example, +warnings are given with \fB\-Wformat\fR for bad calls to +\&\f(CW\*(C`printf\*(C'\fR when \f(CW\*(C`printf\*(C'\fR is built in and \f(CW\*(C`strlen\*(C'\fR is +known not to modify global memory. +.Sp +With the \fB\-fno\-builtin\-\fR\fIfunction\fR option +only the built-in function \fIfunction\fR is +disabled. \fIfunction\fR must not begin with \fB_\|_builtin_\fR. If a +function is named that is not built-in in this version of \s-1GCC,\s0 this +option is ignored. There is no corresponding +\&\fB\-fbuiltin\-\fR\fIfunction\fR option; if you wish to enable +built-in functions selectively when using \fB\-fno\-builtin\fR or +\&\fB\-ffreestanding\fR, you may define macros such as: +.Sp +.Vb 2 +\& #define abs(n) _\|_builtin_abs ((n)) +\& #define strcpy(d, s) _\|_builtin_strcpy ((d), (s)) +.Ve +.IP "\fB\-fhosted\fR" 4 +.IX Item "-fhosted" +Assert that compilation targets a hosted environment. This implies +\&\fB\-fbuiltin\fR. A hosted environment is one in which the +entire standard library is available, and in which \f(CW\*(C`main\*(C'\fR has a return +type of \f(CW\*(C`int\*(C'\fR. Examples are nearly everything except a kernel. +This is equivalent to \fB\-fno\-freestanding\fR. +.IP "\fB\-ffreestanding\fR" 4 +.IX Item "-ffreestanding" +Assert that compilation targets a freestanding environment. This +implies \fB\-fno\-builtin\fR. A freestanding environment +is one in which the standard library may not exist, and program startup may +not necessarily be at \f(CW\*(C`main\*(C'\fR. The most obvious example is an \s-1OS\s0 kernel. +This is equivalent to \fB\-fno\-hosted\fR. +.IP "\fB\-fopenmp\fR" 4 +.IX Item "-fopenmp" +Enable handling of OpenMP directives \f(CW\*(C`#pragma omp\*(C'\fR in C/\*(C+ and +\&\f(CW\*(C`!$omp\*(C'\fR in Fortran. When \fB\-fopenmp\fR is specified, the +compiler generates parallel code according to the OpenMP Application +Program Interface v4.0 <\fBhttp://www.openmp.org/\fR>. This option +implies \fB\-pthread\fR, and thus is only supported on targets that +have support for \fB\-pthread\fR. \fB\-fopenmp\fR implies +\&\fB\-fopenmp\-simd\fR. +.IP "\fB\-fopenmp\-simd\fR" 4 +.IX Item "-fopenmp-simd" +Enable handling of OpenMP's \s-1SIMD\s0 directives with \f(CW\*(C`#pragma omp\*(C'\fR +in C/\*(C+ and \f(CW\*(C`!$omp\*(C'\fR in Fortran. Other OpenMP directives +are ignored. +.IP "\fB\-fcilkplus\fR" 4 +.IX Item "-fcilkplus" +Enable the usage of Cilk Plus language extension features for C/\*(C+. +When the option \fB\-fcilkplus\fR is specified, enable the usage of +the Cilk Plus Language extension features for C/\*(C+. The present +implementation follows \s-1ABI\s0 version 1.2. This is an experimental +feature that is only partially complete, and whose interface may +change in future versions of \s-1GCC\s0 as the official specification +changes. Currently, all features but \f(CW\*(C`_Cilk_for\*(C'\fR have been +implemented. +.IP "\fB\-fgnu\-tm\fR" 4 +.IX Item "-fgnu-tm" +When the option \fB\-fgnu\-tm\fR is specified, the compiler +generates code for the Linux variant of Intel's current Transactional +Memory \s-1ABI\s0 specification document (Revision 1.1, May 6 2009). This is +an experimental feature whose interface may change in future versions +of \s-1GCC,\s0 as the official specification changes. Please note that not +all architectures are supported for this feature. +.Sp +For more information on \s-1GCC\s0's support for transactional memory, +.Sp +Note that the transactional memory feature is not supported with +non-call exceptions (\fB\-fnon\-call\-exceptions\fR). +.IP "\fB\-fms\-extensions\fR" 4 +.IX Item "-fms-extensions" +Accept some non-standard constructs used in Microsoft header files. +.Sp +In \*(C+ code, this allows member names in structures to be similar +to previous types declarations. +.Sp +.Vb 4 +\& typedef int UOW; +\& struct ABC { +\& UOW UOW; +\& }; +.Ve +.Sp +Some cases of unnamed fields in structures and unions are only +accepted with this option. +.Sp +Note that this option is off for all targets but i?86 and x86_64 +targets using ms-abi. +.IP "\fB\-fplan9\-extensions\fR" 4 +.IX Item "-fplan9-extensions" +Accept some non-standard constructs used in Plan 9 code. +.Sp +This enables \fB\-fms\-extensions\fR, permits passing pointers to +structures with anonymous fields to functions that expect pointers to +elements of the type of the field, and permits referring to anonymous +fields declared using a typedef. This is only +supported for C, not \*(C+. +.IP "\fB\-trigraphs\fR" 4 +.IX Item "-trigraphs" +Support \s-1ISO C\s0 trigraphs. The \fB\-ansi\fR option (and \fB\-std\fR +options for strict \s-1ISO C\s0 conformance) implies \fB\-trigraphs\fR. +.IP "\fB\-traditional\fR" 4 +.IX Item "-traditional" +.PD 0 +.IP "\fB\-traditional\-cpp\fR" 4 +.IX Item "-traditional-cpp" +.PD +Formerly, these options caused \s-1GCC\s0 to attempt to emulate a pre-standard +C compiler. They are now only supported with the \fB\-E\fR switch. +The preprocessor continues to support a pre-standard mode. See the \s-1GNU +CPP\s0 manual for details. +.IP "\fB\-fcond\-mismatch\fR" 4 +.IX Item "-fcond-mismatch" +Allow conditional expressions with mismatched types in the second and +third arguments. The value of such an expression is void. This option +is not supported for \*(C+. +.IP "\fB\-flax\-vector\-conversions\fR" 4 +.IX Item "-flax-vector-conversions" +Allow implicit conversions between vectors with differing numbers of +elements and/or incompatible element types. This option should not be +used for new code. +.IP "\fB\-funsigned\-char\fR" 4 +.IX Item "-funsigned-char" +Let the type \f(CW\*(C`char\*(C'\fR be unsigned, like \f(CW\*(C`unsigned char\*(C'\fR. +.Sp +Each kind of machine has a default for what \f(CW\*(C`char\*(C'\fR should +be. It is either like \f(CW\*(C`unsigned char\*(C'\fR by default or like +\&\f(CW\*(C`signed char\*(C'\fR by default. +.Sp +Ideally, a portable program should always use \f(CW\*(C`signed char\*(C'\fR or +\&\f(CW\*(C`unsigned char\*(C'\fR when it depends on the signedness of an object. +But many programs have been written to use plain \f(CW\*(C`char\*(C'\fR and +expect it to be signed, or expect it to be unsigned, depending on the +machines they were written for. This option, and its inverse, let you +make such a program work with the opposite default. +.Sp +The type \f(CW\*(C`char\*(C'\fR is always a distinct type from each of +\&\f(CW\*(C`signed char\*(C'\fR or \f(CW\*(C`unsigned char\*(C'\fR, even though its behavior +is always just like one of those two. +.IP "\fB\-fsigned\-char\fR" 4 +.IX Item "-fsigned-char" +Let the type \f(CW\*(C`char\*(C'\fR be signed, like \f(CW\*(C`signed char\*(C'\fR. +.Sp +Note that this is equivalent to \fB\-fno\-unsigned\-char\fR, which is +the negative form of \fB\-funsigned\-char\fR. Likewise, the option +\&\fB\-fno\-signed\-char\fR is equivalent to \fB\-funsigned\-char\fR. +.IP "\fB\-fsigned\-bitfields\fR" 4 +.IX Item "-fsigned-bitfields" +.PD 0 +.IP "\fB\-funsigned\-bitfields\fR" 4 +.IX Item "-funsigned-bitfields" +.IP "\fB\-fno\-signed\-bitfields\fR" 4 +.IX Item "-fno-signed-bitfields" +.IP "\fB\-fno\-unsigned\-bitfields\fR" 4 +.IX Item "-fno-unsigned-bitfields" +.PD +These options control whether a bit-field is signed or unsigned, when the +declaration does not use either \f(CW\*(C`signed\*(C'\fR or \f(CW\*(C`unsigned\*(C'\fR. By +default, such a bit-field is signed, because this is consistent: the +basic integer types such as \f(CW\*(C`int\*(C'\fR are signed types. +.SS "Options Controlling \*(C+ Dialect" +.IX Subsection "Options Controlling Dialect" +This section describes the command-line options that are only meaningful +for \*(C+ programs. You can also use most of the \s-1GNU\s0 compiler options +regardless of what language your program is in. For example, you +might compile a file \f(CW\*(C`firstClass.C\*(C'\fR like this: +.PP +.Vb 1 +\& g++ \-g \-frepo \-O \-c firstClass.C +.Ve +.PP +In this example, only \fB\-frepo\fR is an option meant +only for \*(C+ programs; you can use the other options with any +language supported by \s-1GCC.\s0 +.PP +Here is a list of options that are \fIonly\fR for compiling \*(C+ programs: +.IP "\fB\-fabi\-version=\fR\fIn\fR" 4 +.IX Item "-fabi-version=n" +Use version \fIn\fR of the \*(C+ \s-1ABI. \s0 The default is version 2. +.Sp +Version 0 refers to the version conforming most closely to +the \*(C+ \s-1ABI\s0 specification. Therefore, the \s-1ABI\s0 obtained using version 0 +will change in different versions of G++ as \s-1ABI\s0 bugs are fixed. +.Sp +Version 1 is the version of the \*(C+ \s-1ABI\s0 that first appeared in G++ 3.2. +.Sp +Version 2 is the version of the \*(C+ \s-1ABI\s0 that first appeared in G++ 3.4. +.Sp +Version 3 corrects an error in mangling a constant address as a +template argument. +.Sp +Version 4, which first appeared in G++ 4.5, implements a standard +mangling for vector types. +.Sp +Version 5, which first appeared in G++ 4.6, corrects the mangling of +attribute const/volatile on function pointer types, decltype of a +plain decl, and use of a function parameter in the declaration of +another parameter. +.Sp +Version 6, which first appeared in G++ 4.7, corrects the promotion +behavior of \*(C+11 scoped enums and the mangling of template argument +packs, const/static_cast, prefix ++ and \-\-, and a class scope function +used as a template argument. +.Sp +See also \fB\-Wabi\fR. +.IP "\fB\-fno\-access\-control\fR" 4 +.IX Item "-fno-access-control" +Turn off all access checking. This switch is mainly useful for working +around bugs in the access control code. +.IP "\fB\-fcheck\-new\fR" 4 +.IX Item "-fcheck-new" +Check that the pointer returned by \f(CW\*(C`operator new\*(C'\fR is non-null +before attempting to modify the storage allocated. This check is +normally unnecessary because the \*(C+ standard specifies that +\&\f(CW\*(C`operator new\*(C'\fR only returns \f(CW0\fR if it is declared +\&\fB\f(BIthrow()\fB\fR, in which case the compiler always checks the +return value even without this option. In all other cases, when +\&\f(CW\*(C`operator new\*(C'\fR has a non-empty exception specification, memory +exhaustion is signalled by throwing \f(CW\*(C`std::bad_alloc\*(C'\fR. See also +\&\fBnew (nothrow)\fR. +.IP "\fB\-fconstexpr\-depth=\fR\fIn\fR" 4 +.IX Item "-fconstexpr-depth=n" +Set the maximum nested evaluation depth for \*(C+11 constexpr functions +to \fIn\fR. A limit is needed to detect endless recursion during +constant expression evaluation. The minimum specified by the standard +is 512. +.IP "\fB\-fdeduce\-init\-list\fR" 4 +.IX Item "-fdeduce-init-list" +Enable deduction of a template type parameter as +\&\f(CW\*(C`std::initializer_list\*(C'\fR from a brace-enclosed initializer list, i.e. +.Sp +.Vb 4 +\& template <class T> auto forward(T t) \-> decltype (realfn (t)) +\& { +\& return realfn (t); +\& } +\& +\& void f() +\& { +\& forward({1,2}); // call forward<std::initializer_list<int>> +\& } +.Ve +.Sp +This deduction was implemented as a possible extension to the +originally proposed semantics for the \*(C+11 standard, but was not part +of the final standard, so it is disabled by default. This option is +deprecated, and may be removed in a future version of G++. +.IP "\fB\-ffriend\-injection\fR" 4 +.IX Item "-ffriend-injection" +Inject friend functions into the enclosing namespace, so that they are +visible outside the scope of the class in which they are declared. +Friend functions were documented to work this way in the old Annotated +\&\*(C+ Reference Manual, and versions of G++ before 4.1 always worked +that way. However, in \s-1ISO \*(C+\s0 a friend function that is not declared +in an enclosing scope can only be found using argument dependent +lookup. This option causes friends to be injected as they were in +earlier releases. +.Sp +This option is for compatibility, and may be removed in a future +release of G++. +.IP "\fB\-fno\-elide\-constructors\fR" 4 +.IX Item "-fno-elide-constructors" +The \*(C+ standard allows an implementation to omit creating a temporary +that is only used to initialize another object of the same type. +Specifying this option disables that optimization, and forces G++ to +call the copy constructor in all cases. +.IP "\fB\-fno\-enforce\-eh\-specs\fR" 4 +.IX Item "-fno-enforce-eh-specs" +Don't generate code to check for violation of exception specifications +at run time. This option violates the \*(C+ standard, but may be useful +for reducing code size in production builds, much like defining +\&\fB\s-1NDEBUG\s0\fR. This does not give user code permission to throw +exceptions in violation of the exception specifications; the compiler +still optimizes based on the specifications, so throwing an +unexpected exception results in undefined behavior at run time. +.IP "\fB\-fextern\-tls\-init\fR" 4 +.IX Item "-fextern-tls-init" +.PD 0 +.IP "\fB\-fno\-extern\-tls\-init\fR" 4 +.IX Item "-fno-extern-tls-init" +.PD +The \*(C+11 and OpenMP standards allow \fBthread_local\fR and +\&\fBthreadprivate\fR variables to have dynamic (runtime) +initialization. To support this, any use of such a variable goes +through a wrapper function that performs any necessary initialization. +When the use and definition of the variable are in the same +translation unit, this overhead can be optimized away, but when the +use is in a different translation unit there is significant overhead +even if the variable doesn't actually need dynamic initialization. If +the programmer can be sure that no use of the variable in a +non-defining \s-1TU\s0 needs to trigger dynamic initialization (either +because the variable is statically initialized, or a use of the +variable in the defining \s-1TU\s0 will be executed before any uses in +another \s-1TU\s0), they can avoid this overhead with the +\&\fB\-fno\-extern\-tls\-init\fR option. +.Sp +On targets that support symbol aliases, the default is +\&\fB\-fextern\-tls\-init\fR. On targets that do not support symbol +aliases, the default is \fB\-fno\-extern\-tls\-init\fR. +.IP "\fB\-ffor\-scope\fR" 4 +.IX Item "-ffor-scope" +.PD 0 +.IP "\fB\-fno\-for\-scope\fR" 4 +.IX Item "-fno-for-scope" +.PD +If \fB\-ffor\-scope\fR is specified, the scope of variables declared in +a \fIfor-init-statement\fR is limited to the \fBfor\fR loop itself, +as specified by the \*(C+ standard. +If \fB\-fno\-for\-scope\fR is specified, the scope of variables declared in +a \fIfor-init-statement\fR extends to the end of the enclosing scope, +as was the case in old versions of G++, and other (traditional) +implementations of \*(C+. +.Sp +If neither flag is given, the default is to follow the standard, +but to allow and give a warning for old-style code that would +otherwise be invalid, or have different behavior. +.IP "\fB\-fno\-gnu\-keywords\fR" 4 +.IX Item "-fno-gnu-keywords" +Do not recognize \f(CW\*(C`typeof\*(C'\fR as a keyword, so that code can use this +word as an identifier. You can use the keyword \f(CW\*(C`_\|_typeof_\|_\*(C'\fR instead. +\&\fB\-ansi\fR implies \fB\-fno\-gnu\-keywords\fR. +.IP "\fB\-fno\-implicit\-templates\fR" 4 +.IX Item "-fno-implicit-templates" +Never emit code for non-inline templates that are instantiated +implicitly (i.e. by use); only emit code for explicit instantiations. +.IP "\fB\-fno\-implicit\-inline\-templates\fR" 4 +.IX Item "-fno-implicit-inline-templates" +Don't emit code for implicit instantiations of inline templates, either. +The default is to handle inlines differently so that compiles with and +without optimization need the same set of explicit instantiations. +.IP "\fB\-fno\-implement\-inlines\fR" 4 +.IX Item "-fno-implement-inlines" +To save space, do not emit out-of-line copies of inline functions +controlled by \fB#pragma implementation\fR. This causes linker +errors if these functions are not inlined everywhere they are called. +.IP "\fB\-fms\-extensions\fR" 4 +.IX Item "-fms-extensions" +Disable Wpedantic warnings about constructs used in \s-1MFC,\s0 such as implicit +int and getting a pointer to member function via non-standard syntax. +.IP "\fB\-fno\-nonansi\-builtins\fR" 4 +.IX Item "-fno-nonansi-builtins" +Disable built-in declarations of functions that are not mandated by +\&\s-1ANSI/ISO C. \s0 These include \f(CW\*(C`ffs\*(C'\fR, \f(CW\*(C`alloca\*(C'\fR, \f(CW\*(C`_exit\*(C'\fR, +\&\f(CW\*(C`index\*(C'\fR, \f(CW\*(C`bzero\*(C'\fR, \f(CW\*(C`conjf\*(C'\fR, and other related functions. +.IP "\fB\-fnothrow\-opt\fR" 4 +.IX Item "-fnothrow-opt" +Treat a \f(CW\*(C`throw()\*(C'\fR exception specification as if it were a +\&\f(CW\*(C`noexcept\*(C'\fR specification to reduce or eliminate the text size +overhead relative to a function with no exception specification. If +the function has local variables of types with non-trivial +destructors, the exception specification actually makes the +function smaller because the \s-1EH\s0 cleanups for those variables can be +optimized away. The semantic effect is that an exception thrown out of +a function with such an exception specification results in a call +to \f(CW\*(C`terminate\*(C'\fR rather than \f(CW\*(C`unexpected\*(C'\fR. +.IP "\fB\-fno\-operator\-names\fR" 4 +.IX Item "-fno-operator-names" +Do not treat the operator name keywords \f(CW\*(C`and\*(C'\fR, \f(CW\*(C`bitand\*(C'\fR, +\&\f(CW\*(C`bitor\*(C'\fR, \f(CW\*(C`compl\*(C'\fR, \f(CW\*(C`not\*(C'\fR, \f(CW\*(C`or\*(C'\fR and \f(CW\*(C`xor\*(C'\fR as +synonyms as keywords. +.IP "\fB\-fno\-optional\-diags\fR" 4 +.IX Item "-fno-optional-diags" +Disable diagnostics that the standard says a compiler does not need to +issue. Currently, the only such diagnostic issued by G++ is the one for +a name having multiple meanings within a class. +.IP "\fB\-fpermissive\fR" 4 +.IX Item "-fpermissive" +Downgrade some diagnostics about nonconformant code from errors to +warnings. Thus, using \fB\-fpermissive\fR allows some +nonconforming code to compile. +.IP "\fB\-fno\-pretty\-templates\fR" 4 +.IX Item "-fno-pretty-templates" +When an error message refers to a specialization of a function +template, the compiler normally prints the signature of the +template followed by the template arguments and any typedefs or +typenames in the signature (e.g. \f(CW\*(C`void f(T) [with T = int]\*(C'\fR +rather than \f(CW\*(C`void f(int)\*(C'\fR) so that it's clear which template is +involved. When an error message refers to a specialization of a class +template, the compiler omits any template arguments that match +the default template arguments for that template. If either of these +behaviors make it harder to understand the error message rather than +easier, you can use \fB\-fno\-pretty\-templates\fR to disable them. +.IP "\fB\-frepo\fR" 4 +.IX Item "-frepo" +Enable automatic template instantiation at link time. This option also +implies \fB\-fno\-implicit\-templates\fR. +.IP "\fB\-fno\-rtti\fR" 4 +.IX Item "-fno-rtti" +Disable generation of information about every class with virtual +functions for use by the \*(C+ run-time type identification features +(\fBdynamic_cast\fR and \fBtypeid\fR). If you don't use those parts +of the language, you can save some space by using this flag. Note that +exception handling uses the same information, but G++ generates it as +needed. The \fBdynamic_cast\fR operator can still be used for casts that +do not require run-time type information, i.e. casts to \f(CW\*(C`void *\*(C'\fR or to +unambiguous base classes. +.IP "\fB\-fstats\fR" 4 +.IX Item "-fstats" +Emit statistics about front-end processing at the end of the compilation. +This information is generally only useful to the G++ development team. +.IP "\fB\-fstrict\-enums\fR" 4 +.IX Item "-fstrict-enums" +Allow the compiler to optimize using the assumption that a value of +enumerated type can only be one of the values of the enumeration (as +defined in the \*(C+ standard; basically, a value that can be +represented in the minimum number of bits needed to represent all the +enumerators). This assumption may not be valid if the program uses a +cast to convert an arbitrary integer value to the enumerated type. +.IP "\fB\-ftemplate\-backtrace\-limit=\fR\fIn\fR" 4 +.IX Item "-ftemplate-backtrace-limit=n" +Set the maximum number of template instantiation notes for a single +warning or error to \fIn\fR. The default value is 10. +.IP "\fB\-ftemplate\-depth=\fR\fIn\fR" 4 +.IX Item "-ftemplate-depth=n" +Set the maximum instantiation depth for template classes to \fIn\fR. +A limit on the template instantiation depth is needed to detect +endless recursions during template class instantiation. \s-1ANSI/ISO \*(C+\s0 +conforming programs must not rely on a maximum depth greater than 17 +(changed to 1024 in \*(C+11). The default value is 900, as the compiler +can run out of stack space before hitting 1024 in some situations. +.IP "\fB\-fno\-threadsafe\-statics\fR" 4 +.IX Item "-fno-threadsafe-statics" +Do not emit the extra code to use the routines specified in the \*(C+ +\&\s-1ABI\s0 for thread-safe initialization of local statics. You can use this +option to reduce code size slightly in code that doesn't need to be +thread-safe. +.IP "\fB\-fuse\-cxa\-atexit\fR" 4 +.IX Item "-fuse-cxa-atexit" +Register destructors for objects with static storage duration with the +\&\f(CW\*(C`_\|_cxa_atexit\*(C'\fR function rather than the \f(CW\*(C`atexit\*(C'\fR function. +This option is required for fully standards-compliant handling of static +destructors, but only works if your C library supports +\&\f(CW\*(C`_\|_cxa_atexit\*(C'\fR. +.IP "\fB\-fno\-use\-cxa\-get\-exception\-ptr\fR" 4 +.IX Item "-fno-use-cxa-get-exception-ptr" +Don't use the \f(CW\*(C`_\|_cxa_get_exception_ptr\*(C'\fR runtime routine. This +causes \f(CW\*(C`std::uncaught_exception\*(C'\fR to be incorrect, but is necessary +if the runtime routine is not available. +.IP "\fB\-fvisibility\-inlines\-hidden\fR" 4 +.IX Item "-fvisibility-inlines-hidden" +This switch declares that the user does not attempt to compare +pointers to inline functions or methods where the addresses of the two functions +are taken in different shared objects. +.Sp +The effect of this is that \s-1GCC\s0 may, effectively, mark inline methods with +\&\f(CW\*(C`_\|_attribute_\|_ ((visibility ("hidden")))\*(C'\fR so that they do not +appear in the export table of a \s-1DSO\s0 and do not require a \s-1PLT\s0 indirection +when used within the \s-1DSO. \s0 Enabling this option can have a dramatic effect +on load and link times of a \s-1DSO\s0 as it massively reduces the size of the +dynamic export table when the library makes heavy use of templates. +.Sp +The behavior of this switch is not quite the same as marking the +methods as hidden directly, because it does not affect static variables +local to the function or cause the compiler to deduce that +the function is defined in only one shared object. +.Sp +You may mark a method as having a visibility explicitly to negate the +effect of the switch for that method. For example, if you do want to +compare pointers to a particular inline method, you might mark it as +having default visibility. Marking the enclosing class with explicit +visibility has no effect. +.Sp +Explicitly instantiated inline methods are unaffected by this option +as their linkage might otherwise cross a shared library boundary. +.IP "\fB\-fvisibility\-ms\-compat\fR" 4 +.IX Item "-fvisibility-ms-compat" +This flag attempts to use visibility settings to make \s-1GCC\s0's \*(C+ +linkage model compatible with that of Microsoft Visual Studio. +.Sp +The flag makes these changes to \s-1GCC\s0's linkage model: +.RS 4 +.IP "1." 4 +It sets the default visibility to \f(CW\*(C`hidden\*(C'\fR, like +\&\fB\-fvisibility=hidden\fR. +.IP "2." 4 +Types, but not their members, are not hidden by default. +.IP "3." 4 +The One Definition Rule is relaxed for types without explicit +visibility specifications that are defined in more than one +shared object: those declarations are permitted if they are +permitted when this option is not used. +.RE +.RS 4 +.Sp +In new code it is better to use \fB\-fvisibility=hidden\fR and +export those classes that are intended to be externally visible. +Unfortunately it is possible for code to rely, perhaps accidentally, +on the Visual Studio behavior. +.Sp +Among the consequences of these changes are that static data members +of the same type with the same name but defined in different shared +objects are different, so changing one does not change the other; +and that pointers to function members defined in different shared +objects may not compare equal. When this flag is given, it is a +violation of the \s-1ODR\s0 to define types with the same name differently. +.RE +.IP "\fB\-fvtable\-verify=\fR\fIstd|preinit|none\fR" 4 +.IX Item "-fvtable-verify=std|preinit|none" +Turn on (or off, if using \fB\-fvtable\-verify=none\fR) the security +feature that verifies at runtime, for every virtual call that is made, that +the vtable pointer through which the call is made is valid for the type of +the object, and has not been corrupted or overwritten. If an invalid vtable +pointer is detected (at runtime), an error is reported and execution of the +program is immediately halted. +.Sp +This option causes runtime data structures to be built, at program start up, +for verifying the vtable pointers. The options \f(CW\*(C`std\*(C'\fR and \f(CW\*(C`preinit\*(C'\fR +control the timing of when these data structures are built. In both cases the +data structures are built before execution reaches 'main'. The +\&\fB\-fvtable\-verify=std\fR causes these data structure to be built after the +shared libraries have been loaded and initialized. +\&\fB\-fvtable\-verify=preinit\fR causes them to be built before the shared +libraries have been loaded and initialized. +.Sp +If this option appears multiple times in the compiler line, with different +values specified, 'none' will take highest priority over both 'std' and +\&'preinit'; 'preinit' will take priority over 'std'. +.IP "\fB\-fvtv\-debug\fR" 4 +.IX Item "-fvtv-debug" +Causes debug versions of the runtime functions for the vtable verification +feature to be called. This assumes the \fB\-fvtable\-verify=std\fR or +\&\fB\-fvtable\-verify=preinit\fR has been used. This flag will also cause the +compiler to keep track of which vtable pointers it found for each class, and +record that information in the file \*(L"vtv_set_ptr_data.log\*(R", in the dump +file directory on the user's machine. +.Sp +Note: This feature \s-1APPENDS\s0 data to the log file. If you want a fresh log +file, be sure to delete any existing one. +.IP "\fB\-fvtv\-counts\fR" 4 +.IX Item "-fvtv-counts" +This is a debugging flag. When used in conjunction with +\&\fB\-fvtable\-verify=std\fR or \fB\-fvtable\-verify=preinit\fR, this +causes the compiler to keep track of the total number of virtual calls +it encountered and the number of verifications it inserted. It also +counts the number of calls to certain runtime library functions +that it inserts. This information, for each compilation unit, is written +to a file named \*(L"vtv_count_data.log\*(R", in the dump_file directory on +the user's machine. It also counts the size of the vtable pointer sets +for each class, and writes this information to \*(L"vtv_class_set_sizes.log\*(R" +in the same directory. +.Sp +Note: This feature \s-1APPENDS\s0 data to the log files. To get a fresh log +files, be sure to delete any existing ones. +.IP "\fB\-fno\-weak\fR" 4 +.IX Item "-fno-weak" +Do not use weak symbol support, even if it is provided by the linker. +By default, G++ uses weak symbols if they are available. This +option exists only for testing, and should not be used by end-users; +it results in inferior code and has no benefits. This option may +be removed in a future release of G++. +.IP "\fB\-nostdinc++\fR" 4 +.IX Item "-nostdinc++" +Do not search for header files in the standard directories specific to +\&\*(C+, but do still search the other standard directories. (This option +is used when building the \*(C+ library.) +.PP +In addition, these optimization, warning, and code generation options +have meanings only for \*(C+ programs: +.IP "\fB\-Wabi\fR (C, Objective-C, \*(C+ and Objective\-\*(C+ only)" 4 +.IX Item "-Wabi (C, Objective-C, and Objective- only)" +Warn when G++ generates code that is probably not compatible with the +vendor-neutral \*(C+ \s-1ABI. \s0 Although an effort has been made to warn about +all such cases, there are probably some cases that are not warned about, +even though G++ is generating incompatible code. There may also be +cases where warnings are emitted even though the code that is generated +is compatible. +.Sp +You should rewrite your code to avoid these warnings if you are +concerned about the fact that code generated by G++ may not be binary +compatible with code generated by other compilers. +.Sp +The known incompatibilities in \fB\-fabi\-version=2\fR (the default) include: +.RS 4 +.IP "\(bu" 4 +A template with a non-type template parameter of reference type is +mangled incorrectly: +.Sp +.Vb 3 +\& extern int N; +\& template <int &> struct S {}; +\& void n (S<N>) {2} +.Ve +.Sp +This is fixed in \fB\-fabi\-version=3\fR. +.IP "\(bu" 4 +\&\s-1SIMD\s0 vector types declared using \f(CW\*(C`_\|_attribute ((vector_size))\*(C'\fR are +mangled in a non-standard way that does not allow for overloading of +functions taking vectors of different sizes. +.Sp +The mangling is changed in \fB\-fabi\-version=4\fR. +.RE +.RS 4 +.Sp +The known incompatibilities in \fB\-fabi\-version=1\fR include: +.IP "\(bu" 4 +Incorrect handling of tail-padding for bit-fields. G++ may attempt to +pack data into the same byte as a base class. For example: +.Sp +.Vb 2 +\& struct A { virtual void f(); int f1 : 1; }; +\& struct B : public A { int f2 : 1; }; +.Ve +.Sp +In this case, G++ places \f(CW\*(C`B::f2\*(C'\fR into the same byte +as \f(CW\*(C`A::f1\*(C'\fR; other compilers do not. You can avoid this problem +by explicitly padding \f(CW\*(C`A\*(C'\fR so that its size is a multiple of the +byte size on your platform; that causes G++ and other compilers to +lay out \f(CW\*(C`B\*(C'\fR identically. +.IP "\(bu" 4 +Incorrect handling of tail-padding for virtual bases. G++ does not use +tail padding when laying out virtual bases. For example: +.Sp +.Vb 3 +\& struct A { virtual void f(); char c1; }; +\& struct B { B(); char c2; }; +\& struct C : public A, public virtual B {}; +.Ve +.Sp +In this case, G++ does not place \f(CW\*(C`B\*(C'\fR into the tail-padding for +\&\f(CW\*(C`A\*(C'\fR; other compilers do. You can avoid this problem by +explicitly padding \f(CW\*(C`A\*(C'\fR so that its size is a multiple of its +alignment (ignoring virtual base classes); that causes G++ and other +compilers to lay out \f(CW\*(C`C\*(C'\fR identically. +.IP "\(bu" 4 +Incorrect handling of bit-fields with declared widths greater than that +of their underlying types, when the bit-fields appear in a union. For +example: +.Sp +.Vb 1 +\& union U { int i : 4096; }; +.Ve +.Sp +Assuming that an \f(CW\*(C`int\*(C'\fR does not have 4096 bits, G++ makes the +union too small by the number of bits in an \f(CW\*(C`int\*(C'\fR. +.IP "\(bu" 4 +Empty classes can be placed at incorrect offsets. For example: +.Sp +.Vb 1 +\& struct A {}; +\& +\& struct B { +\& A a; +\& virtual void f (); +\& }; +\& +\& struct C : public B, public A {}; +.Ve +.Sp +G++ places the \f(CW\*(C`A\*(C'\fR base class of \f(CW\*(C`C\*(C'\fR at a nonzero offset; +it should be placed at offset zero. G++ mistakenly believes that the +\&\f(CW\*(C`A\*(C'\fR data member of \f(CW\*(C`B\*(C'\fR is already at offset zero. +.IP "\(bu" 4 +Names of template functions whose types involve \f(CW\*(C`typename\*(C'\fR or +template template parameters can be mangled incorrectly. +.Sp +.Vb 2 +\& template <typename Q> +\& void f(typename Q::X) {} +\& +\& template <template <typename> class Q> +\& void f(typename Q<int>::X) {} +.Ve +.Sp +Instantiations of these templates may be mangled incorrectly. +.RE +.RS 4 +.Sp +It also warns about psABI-related changes. The known psABI changes at this +point include: +.IP "\(bu" 4 +For SysV/x86\-64, unions with \f(CW\*(C`long double\*(C'\fR members are +passed in memory as specified in psABI. For example: +.Sp +.Vb 4 +\& union U { +\& long double ld; +\& int i; +\& }; +.Ve +.Sp +\&\f(CW\*(C`union U\*(C'\fR is always passed in memory. +.RE +.RS 4 +.RE +.IP "\fB\-Wctor\-dtor\-privacy\fR (\*(C+ and Objective\-\*(C+ only)" 4 +.IX Item "-Wctor-dtor-privacy ( and Objective- only)" +Warn when a class seems unusable because all the constructors or +destructors in that class are private, and it has neither friends nor +public static member functions. Also warn if there are no non-private +methods, and there's at least one private member function that isn't +a constructor or destructor. +.IP "\fB\-Wdelete\-non\-virtual\-dtor\fR (\*(C+ and Objective\-\*(C+ only)" 4 +.IX Item "-Wdelete-non-virtual-dtor ( and Objective- only)" +Warn when \fBdelete\fR is used to destroy an instance of a class that +has virtual functions and non-virtual destructor. It is unsafe to delete +an instance of a derived class through a pointer to a base class if the +base class does not have a virtual destructor. This warning is enabled +by \fB\-Wall\fR. +.IP "\fB\-Wliteral\-suffix\fR (\*(C+ and Objective\-\*(C+ only)" 4 +.IX Item "-Wliteral-suffix ( and Objective- only)" +Warn when a string or character literal is followed by a ud-suffix which does +not begin with an underscore. As a conforming extension, \s-1GCC\s0 treats such +suffixes as separate preprocessing tokens in order to maintain backwards +compatibility with code that uses formatting macros from \f(CW\*(C`<inttypes.h>\*(C'\fR. +For example: +.Sp +.Vb 3 +\& #define _\|_STDC_FORMAT_MACROS +\& #include <inttypes.h> +\& #include <stdio.h> +\& +\& int main() { +\& int64_t i64 = 123; +\& printf("My int64: %"PRId64"\en", i64); +\& } +.Ve +.Sp +In this case, \f(CW\*(C`PRId64\*(C'\fR is treated as a separate preprocessing token. +.Sp +This warning is enabled by default. +.IP "\fB\-Wnarrowing\fR (\*(C+ and Objective\-\*(C+ only)" 4 +.IX Item "-Wnarrowing ( and Objective- only)" +Warn when a narrowing conversion prohibited by \*(C+11 occurs within +\&\fB{ }\fR, e.g. +.Sp +.Vb 1 +\& int i = { 2.2 }; // error: narrowing from double to int +.Ve +.Sp +This flag is included in \fB\-Wall\fR and \fB\-Wc++11\-compat\fR. +.Sp +With \fB\-std=c++11\fR, \fB\-Wno\-narrowing\fR suppresses the diagnostic +required by the standard. Note that this does not affect the meaning +of well-formed code; narrowing conversions are still considered +ill-formed in \s-1SFINAE\s0 context. +.IP "\fB\-Wnoexcept\fR (\*(C+ and Objective\-\*(C+ only)" 4 +.IX Item "-Wnoexcept ( and Objective- only)" +Warn when a noexcept-expression evaluates to false because of a call +to a function that does not have a non-throwing exception +specification (i.e. \fB\f(BIthrow()\fB\fR or \fBnoexcept\fR) but is known by +the compiler to never throw an exception. +.IP "\fB\-Wnon\-virtual\-dtor\fR (\*(C+ and Objective\-\*(C+ only)" 4 +.IX Item "-Wnon-virtual-dtor ( and Objective- only)" +Warn when a class has virtual functions and an accessible non-virtual +destructor itself or in an accessible polymorphic base class, in which +case it is possible but unsafe to delete an instance of a derived +class through a pointer to the class itself or base class. This +warning is automatically enabled if \fB\-Weffc++\fR is specified. +.IP "\fB\-Wreorder\fR (\*(C+ and Objective\-\*(C+ only)" 4 +.IX Item "-Wreorder ( and Objective- only)" +Warn when the order of member initializers given in the code does not +match the order in which they must be executed. For instance: +.Sp +.Vb 5 +\& struct A { +\& int i; +\& int j; +\& A(): j (0), i (1) { } +\& }; +.Ve +.Sp +The compiler rearranges the member initializers for \fBi\fR +and \fBj\fR to match the declaration order of the members, emitting +a warning to that effect. This warning is enabled by \fB\-Wall\fR. +.IP "\fB\-fext\-numeric\-literals\fR (\*(C+ and Objective\-\*(C+ only)" 4 +.IX Item "-fext-numeric-literals ( and Objective- only)" +Accept imaginary, fixed-point, or machine-defined +literal number suffixes as \s-1GNU\s0 extensions. +When this option is turned off these suffixes are treated +as \*(C+11 user-defined literal numeric suffixes. +This is on by default for all pre\-\*(C+11 dialects and all \s-1GNU\s0 dialects: +\&\fB\-std=c++98\fR, \fB\-std=gnu++98\fR, \fB\-std=gnu++11\fR, +\&\fB\-std=gnu++1y\fR. +This option is off by default +for \s-1ISO \*(C+11\s0 onwards (\fB\-std=c++11\fR, ...). +.PP +The following \fB\-W...\fR options are not affected by \fB\-Wall\fR. +.IP "\fB\-Weffc++\fR (\*(C+ and Objective\-\*(C+ only)" 4 +.IX Item "-Weffc++ ( and Objective- only)" +Warn about violations of the following style guidelines from Scott Meyers' +\&\fIEffective \*(C+\fR series of books: +.RS 4 +.IP "\(bu" 4 +Define a copy constructor and an assignment operator for classes +with dynamically-allocated memory. +.IP "\(bu" 4 +Prefer initialization to assignment in constructors. +.IP "\(bu" 4 +Have \f(CW\*(C`operator=\*(C'\fR return a reference to \f(CW*this\fR. +.IP "\(bu" 4 +Don't try to return a reference when you must return an object. +.IP "\(bu" 4 +Distinguish between prefix and postfix forms of increment and +decrement operators. +.IP "\(bu" 4 +Never overload \f(CW\*(C`&&\*(C'\fR, \f(CW\*(C`||\*(C'\fR, or \f(CW\*(C`,\*(C'\fR. +.RE +.RS 4 +.Sp +This option also enables \fB\-Wnon\-virtual\-dtor\fR, which is also +one of the effective \*(C+ recommendations. However, the check is +extended to warn about the lack of virtual destructor in accessible +non-polymorphic bases classes too. +.Sp +When selecting this option, be aware that the standard library +headers do not obey all of these guidelines; use \fBgrep \-v\fR +to filter out those warnings. +.RE +.IP "\fB\-Wstrict\-null\-sentinel\fR (\*(C+ and Objective\-\*(C+ only)" 4 +.IX Item "-Wstrict-null-sentinel ( and Objective- only)" +Warn about the use of an uncasted \f(CW\*(C`NULL\*(C'\fR as sentinel. When +compiling only with \s-1GCC\s0 this is a valid sentinel, as \f(CW\*(C`NULL\*(C'\fR is defined +to \f(CW\*(C`_\|_null\*(C'\fR. Although it is a null pointer constant rather than a +null pointer, it is guaranteed to be of the same size as a pointer. +But this use is not portable across different compilers. +.IP "\fB\-Wno\-non\-template\-friend\fR (\*(C+ and Objective\-\*(C+ only)" 4 +.IX Item "-Wno-non-template-friend ( and Objective- only)" +Disable warnings when non-templatized friend functions are declared +within a template. Since the advent of explicit template specification +support in G++, if the name of the friend is an unqualified-id (i.e., +\&\fBfriend foo(int)\fR), the \*(C+ language specification demands that the +friend declare or define an ordinary, nontemplate function. (Section +14.5.3). Before G++ implemented explicit specification, unqualified-ids +could be interpreted as a particular specialization of a templatized +function. Because this non-conforming behavior is no longer the default +behavior for G++, \fB\-Wnon\-template\-friend\fR allows the compiler to +check existing code for potential trouble spots and is on by default. +This new compiler behavior can be turned off with +\&\fB\-Wno\-non\-template\-friend\fR, which keeps the conformant compiler code +but disables the helpful warning. +.IP "\fB\-Wold\-style\-cast\fR (\*(C+ and Objective\-\*(C+ only)" 4 +.IX Item "-Wold-style-cast ( and Objective- only)" +Warn if an old-style (C\-style) cast to a non-void type is used within +a \*(C+ program. The new-style casts (\fBdynamic_cast\fR, +\&\fBstatic_cast\fR, \fBreinterpret_cast\fR, and \fBconst_cast\fR) are +less vulnerable to unintended effects and much easier to search for. +.IP "\fB\-Woverloaded\-virtual\fR (\*(C+ and Objective\-\*(C+ only)" 4 +.IX Item "-Woverloaded-virtual ( and Objective- only)" +Warn when a function declaration hides virtual functions from a +base class. For example, in: +.Sp +.Vb 3 +\& struct A { +\& virtual void f(); +\& }; +\& +\& struct B: public A { +\& void f(int); +\& }; +.Ve +.Sp +the \f(CW\*(C`A\*(C'\fR class version of \f(CW\*(C`f\*(C'\fR is hidden in \f(CW\*(C`B\*(C'\fR, and code +like: +.Sp +.Vb 2 +\& B* b; +\& b\->f(); +.Ve +.Sp +fails to compile. +.IP "\fB\-Wno\-pmf\-conversions\fR (\*(C+ and Objective\-\*(C+ only)" 4 +.IX Item "-Wno-pmf-conversions ( and Objective- only)" +Disable the diagnostic for converting a bound pointer to member function +to a plain pointer. +.IP "\fB\-Wsign\-promo\fR (\*(C+ and Objective\-\*(C+ only)" 4 +.IX Item "-Wsign-promo ( and Objective- only)" +Warn when overload resolution chooses a promotion from unsigned or +enumerated type to a signed type, over a conversion to an unsigned type of +the same size. Previous versions of G++ tried to preserve +unsignedness, but the standard mandates the current behavior. +.SS "Options Controlling Objective-C and Objective\-\*(C+ Dialects" +.IX Subsection "Options Controlling Objective-C and Objective- Dialects" +(\s-1NOTE:\s0 This manual does not describe the Objective-C and Objective\-\*(C+ +languages themselves. +.PP +This section describes the command-line options that are only meaningful +for Objective-C and Objective\-\*(C+ programs. You can also use most of +the language-independent \s-1GNU\s0 compiler options. +For example, you might compile a file \f(CW\*(C`some_class.m\*(C'\fR like this: +.PP +.Vb 1 +\& gcc \-g \-fgnu\-runtime \-O \-c some_class.m +.Ve +.PP +In this example, \fB\-fgnu\-runtime\fR is an option meant only for +Objective-C and Objective\-\*(C+ programs; you can use the other options with +any language supported by \s-1GCC.\s0 +.PP +Note that since Objective-C is an extension of the C language, Objective-C +compilations may also use options specific to the C front-end (e.g., +\&\fB\-Wtraditional\fR). Similarly, Objective\-\*(C+ compilations may use +\&\*(C+\-specific options (e.g., \fB\-Wabi\fR). +.PP +Here is a list of options that are \fIonly\fR for compiling Objective-C +and Objective\-\*(C+ programs: +.IP "\fB\-fconstant\-string\-class=\fR\fIclass-name\fR" 4 +.IX Item "-fconstant-string-class=class-name" +Use \fIclass-name\fR as the name of the class to instantiate for each +literal string specified with the syntax \f(CW\*(C`@"..."\*(C'\fR. The default +class name is \f(CW\*(C`NXConstantString\*(C'\fR if the \s-1GNU\s0 runtime is being used, and +\&\f(CW\*(C`NSConstantString\*(C'\fR if the NeXT runtime is being used (see below). The +\&\fB\-fconstant\-cfstrings\fR option, if also present, overrides the +\&\fB\-fconstant\-string\-class\fR setting and cause \f(CW\*(C`@"..."\*(C'\fR literals +to be laid out as constant CoreFoundation strings. +.IP "\fB\-fgnu\-runtime\fR" 4 +.IX Item "-fgnu-runtime" +Generate object code compatible with the standard \s-1GNU\s0 Objective-C +runtime. This is the default for most types of systems. +.IP "\fB\-fnext\-runtime\fR" 4 +.IX Item "-fnext-runtime" +Generate output compatible with the NeXT runtime. This is the default +for NeXT-based systems, including Darwin and Mac \s-1OS X. \s0 The macro +\&\f(CW\*(C`_\|_NEXT_RUNTIME_\|_\*(C'\fR is predefined if (and only if) this option is +used. +.IP "\fB\-fno\-nil\-receivers\fR" 4 +.IX Item "-fno-nil-receivers" +Assume that all Objective-C message dispatches (\f(CW\*(C`[receiver +message:arg]\*(C'\fR) in this translation unit ensure that the receiver is +not \f(CW\*(C`nil\*(C'\fR. This allows for more efficient entry points in the +runtime to be used. This option is only available in conjunction with +the NeXT runtime and \s-1ABI\s0 version 0 or 1. +.IP "\fB\-fobjc\-abi\-version=\fR\fIn\fR" 4 +.IX Item "-fobjc-abi-version=n" +Use version \fIn\fR of the Objective-C \s-1ABI\s0 for the selected runtime. +This option is currently supported only for the NeXT runtime. In that +case, Version 0 is the traditional (32\-bit) \s-1ABI\s0 without support for +properties and other Objective-C 2.0 additions. Version 1 is the +traditional (32\-bit) \s-1ABI\s0 with support for properties and other +Objective-C 2.0 additions. Version 2 is the modern (64\-bit) \s-1ABI. \s0 If +nothing is specified, the default is Version 0 on 32\-bit target +machines, and Version 2 on 64\-bit target machines. +.IP "\fB\-fobjc\-call\-cxx\-cdtors\fR" 4 +.IX Item "-fobjc-call-cxx-cdtors" +For each Objective-C class, check if any of its instance variables is a +\&\*(C+ object with a non-trivial default constructor. If so, synthesize a +special \f(CW\*(C`\- (id) .cxx_construct\*(C'\fR instance method which runs +non-trivial default constructors on any such instance variables, in order, +and then return \f(CW\*(C`self\*(C'\fR. Similarly, check if any instance variable +is a \*(C+ object with a non-trivial destructor, and if so, synthesize a +special \f(CW\*(C`\- (void) .cxx_destruct\*(C'\fR method which runs +all such default destructors, in reverse order. +.Sp +The \f(CW\*(C`\- (id) .cxx_construct\*(C'\fR and \f(CW\*(C`\- (void) .cxx_destruct\*(C'\fR +methods thusly generated only operate on instance variables +declared in the current Objective-C class, and not those inherited +from superclasses. It is the responsibility of the Objective-C +runtime to invoke all such methods in an object's inheritance +hierarchy. The \f(CW\*(C`\- (id) .cxx_construct\*(C'\fR methods are invoked +by the runtime immediately after a new object instance is allocated; +the \f(CW\*(C`\- (void) .cxx_destruct\*(C'\fR methods are invoked immediately +before the runtime deallocates an object instance. +.Sp +As of this writing, only the NeXT runtime on Mac \s-1OS X 10.4\s0 and later has +support for invoking the \f(CW\*(C`\- (id) .cxx_construct\*(C'\fR and +\&\f(CW\*(C`\- (void) .cxx_destruct\*(C'\fR methods. +.IP "\fB\-fobjc\-direct\-dispatch\fR" 4 +.IX Item "-fobjc-direct-dispatch" +Allow fast jumps to the message dispatcher. On Darwin this is +accomplished via the comm page. +.IP "\fB\-fobjc\-exceptions\fR" 4 +.IX Item "-fobjc-exceptions" +Enable syntactic support for structured exception handling in +Objective-C, similar to what is offered by \*(C+ and Java. This option +is required to use the Objective-C keywords \f(CW@try\fR, +\&\f(CW@throw\fR, \f(CW@catch\fR, \f(CW@finally\fR and +\&\f(CW@synchronized\fR. This option is available with both the \s-1GNU\s0 +runtime and the NeXT runtime (but not available in conjunction with +the NeXT runtime on Mac \s-1OS X 10.2\s0 and earlier). +.IP "\fB\-fobjc\-gc\fR" 4 +.IX Item "-fobjc-gc" +Enable garbage collection (\s-1GC\s0) in Objective-C and Objective\-\*(C+ +programs. This option is only available with the NeXT runtime; the +\&\s-1GNU\s0 runtime has a different garbage collection implementation that +does not require special compiler flags. +.IP "\fB\-fobjc\-nilcheck\fR" 4 +.IX Item "-fobjc-nilcheck" +For the NeXT runtime with version 2 of the \s-1ABI,\s0 check for a nil +receiver in method invocations before doing the actual method call. +This is the default and can be disabled using +\&\fB\-fno\-objc\-nilcheck\fR. Class methods and super calls are never +checked for nil in this way no matter what this flag is set to. +Currently this flag does nothing when the \s-1GNU\s0 runtime, or an older +version of the NeXT runtime \s-1ABI,\s0 is used. +.IP "\fB\-fobjc\-std=objc1\fR" 4 +.IX Item "-fobjc-std=objc1" +Conform to the language syntax of Objective-C 1.0, the language +recognized by \s-1GCC 4.0. \s0 This only affects the Objective-C additions to +the C/\*(C+ language; it does not affect conformance to C/\*(C+ standards, +which is controlled by the separate C/\*(C+ dialect option flags. When +this option is used with the Objective-C or Objective\-\*(C+ compiler, +any Objective-C syntax that is not recognized by \s-1GCC 4.0\s0 is rejected. +This is useful if you need to make sure that your Objective-C code can +be compiled with older versions of \s-1GCC.\s0 +.IP "\fB\-freplace\-objc\-classes\fR" 4 +.IX Item "-freplace-objc-classes" +Emit a special marker instructing \fB\f(BIld\fB\|(1)\fR not to statically link in +the resulting object file, and allow \fB\f(BIdyld\fB\|(1)\fR to load it in at +run time instead. This is used in conjunction with the Fix-and-Continue +debugging mode, where the object file in question may be recompiled and +dynamically reloaded in the course of program execution, without the need +to restart the program itself. Currently, Fix-and-Continue functionality +is only available in conjunction with the NeXT runtime on Mac \s-1OS X 10.3\s0 +and later. +.IP "\fB\-fzero\-link\fR" 4 +.IX Item "-fzero-link" +When compiling for the NeXT runtime, the compiler ordinarily replaces calls +to \f(CW\*(C`objc_getClass("...")\*(C'\fR (when the name of the class is known at +compile time) with static class references that get initialized at load time, +which improves run-time performance. Specifying the \fB\-fzero\-link\fR flag +suppresses this behavior and causes calls to \f(CW\*(C`objc_getClass("...")\*(C'\fR +to be retained. This is useful in Zero-Link debugging mode, since it allows +for individual class implementations to be modified during program execution. +The \s-1GNU\s0 runtime currently always retains calls to \f(CW\*(C`objc_get_class("...")\*(C'\fR +regardless of command-line options. +.IP "\fB\-gen\-decls\fR" 4 +.IX Item "-gen-decls" +Dump interface declarations for all classes seen in the source file to a +file named \fI\fIsourcename\fI.decl\fR. +.IP "\fB\-Wassign\-intercept\fR (Objective-C and Objective\-\*(C+ only)" 4 +.IX Item "-Wassign-intercept (Objective-C and Objective- only)" +Warn whenever an Objective-C assignment is being intercepted by the +garbage collector. +.IP "\fB\-Wno\-protocol\fR (Objective-C and Objective\-\*(C+ only)" 4 +.IX Item "-Wno-protocol (Objective-C and Objective- only)" +If a class is declared to implement a protocol, a warning is issued for +every method in the protocol that is not implemented by the class. The +default behavior is to issue a warning for every method not explicitly +implemented in the class, even if a method implementation is inherited +from the superclass. If you use the \fB\-Wno\-protocol\fR option, then +methods inherited from the superclass are considered to be implemented, +and no warning is issued for them. +.IP "\fB\-Wselector\fR (Objective-C and Objective\-\*(C+ only)" 4 +.IX Item "-Wselector (Objective-C and Objective- only)" +Warn if multiple methods of different types for the same selector are +found during compilation. The check is performed on the list of methods +in the final stage of compilation. Additionally, a check is performed +for each selector appearing in a \f(CW\*(C`@selector(...)\*(C'\fR +expression, and a corresponding method for that selector has been found +during compilation. Because these checks scan the method table only at +the end of compilation, these warnings are not produced if the final +stage of compilation is not reached, for example because an error is +found during compilation, or because the \fB\-fsyntax\-only\fR option is +being used. +.IP "\fB\-Wstrict\-selector\-match\fR (Objective-C and Objective\-\*(C+ only)" 4 +.IX Item "-Wstrict-selector-match (Objective-C and Objective- only)" +Warn if multiple methods with differing argument and/or return types are +found for a given selector when attempting to send a message using this +selector to a receiver of type \f(CW\*(C`id\*(C'\fR or \f(CW\*(C`Class\*(C'\fR. When this flag +is off (which is the default behavior), the compiler omits such warnings +if any differences found are confined to types that share the same size +and alignment. +.IP "\fB\-Wundeclared\-selector\fR (Objective-C and Objective\-\*(C+ only)" 4 +.IX Item "-Wundeclared-selector (Objective-C and Objective- only)" +Warn if a \f(CW\*(C`@selector(...)\*(C'\fR expression referring to an +undeclared selector is found. A selector is considered undeclared if no +method with that name has been declared before the +\&\f(CW\*(C`@selector(...)\*(C'\fR expression, either explicitly in an +\&\f(CW@interface\fR or \f(CW@protocol\fR declaration, or implicitly in +an \f(CW@implementation\fR section. This option always performs its +checks as soon as a \f(CW\*(C`@selector(...)\*(C'\fR expression is found, +while \fB\-Wselector\fR only performs its checks in the final stage of +compilation. This also enforces the coding style convention +that methods and selectors must be declared before being used. +.IP "\fB\-print\-objc\-runtime\-info\fR" 4 +.IX Item "-print-objc-runtime-info" +Generate C header describing the largest structure that is passed by +value, if any. +.SS "Options to Control Diagnostic Messages Formatting" +.IX Subsection "Options to Control Diagnostic Messages Formatting" +Traditionally, diagnostic messages have been formatted irrespective of +the output device's aspect (e.g. its width, ...). You can use the +options described below +to control the formatting algorithm for diagnostic messages, +e.g. how many characters per line, how often source location +information should be reported. Note that some language front ends may not +honor these options. +.IP "\fB\-fmessage\-length=\fR\fIn\fR" 4 +.IX Item "-fmessage-length=n" +Try to format error messages so that they fit on lines of about \fIn\fR +characters. The default is 72 characters for \fBg++\fR and 0 for the rest of +the front ends supported by \s-1GCC. \s0 If \fIn\fR is zero, then no +line-wrapping is done; each error message appears on a single +line. +.IP "\fB\-fdiagnostics\-show\-location=once\fR" 4 +.IX Item "-fdiagnostics-show-location=once" +Only meaningful in line-wrapping mode. Instructs the diagnostic messages +reporter to emit source location information \fIonce\fR; that is, in +case the message is too long to fit on a single physical line and has to +be wrapped, the source location won't be emitted (as prefix) again, +over and over, in subsequent continuation lines. This is the default +behavior. +.IP "\fB\-fdiagnostics\-show\-location=every\-line\fR" 4 +.IX Item "-fdiagnostics-show-location=every-line" +Only meaningful in line-wrapping mode. Instructs the diagnostic +messages reporter to emit the same source location information (as +prefix) for physical lines that result from the process of breaking +a message which is too long to fit on a single line. +.IP "\fB\-fdiagnostics\-color[=\fR\fI\s-1WHEN\s0\fR\fB]\fR" 4 +.IX Item "-fdiagnostics-color[=WHEN]" +.PD 0 +.IP "\fB\-fno\-diagnostics\-color\fR" 4 +.IX Item "-fno-diagnostics-color" +.PD +Use color in diagnostics. \fI\s-1WHEN\s0\fR is \fBnever\fR, \fBalways\fR, +or \fBauto\fR. The default is \fBnever\fR if \fB\s-1GCC_COLORS\s0\fR environment +variable isn't present in the environment, and \fBauto\fR otherwise. +\&\fBauto\fR means to use color only when the standard error is a terminal. +The forms \fB\-fdiagnostics\-color\fR and \fB\-fno\-diagnostics\-color\fR are +aliases for \fB\-fdiagnostics\-color=always\fR and +\&\fB\-fdiagnostics\-color=never\fR, respectively. +.Sp +The colors are defined by the environment variable \fB\s-1GCC_COLORS\s0\fR. +Its value is a colon-separated list of capabilities and Select Graphic +Rendition (\s-1SGR\s0) substrings. \s-1SGR\s0 commands are interpreted by the +terminal or terminal emulator. (See the section in the documentation +of your text terminal for permitted values and their meanings as +character attributes.) These substring values are integers in decimal +representation and can be concatenated with semicolons. +Common values to concatenate include +\&\fB1\fR for bold, +\&\fB4\fR for underline, +\&\fB5\fR for blink, +\&\fB7\fR for inverse, +\&\fB39\fR for default foreground color, +\&\fB30\fR to \fB37\fR for foreground colors, +\&\fB90\fR to \fB97\fR for 16\-color mode foreground colors, +\&\fB38;5;0\fR to \fB38;5;255\fR +for 88\-color and 256\-color modes foreground colors, +\&\fB49\fR for default background color, +\&\fB40\fR to \fB47\fR for background colors, +\&\fB100\fR to \fB107\fR for 16\-color mode background colors, +and \fB48;5;0\fR to \fB48;5;255\fR +for 88\-color and 256\-color modes background colors. +.Sp +The default \fB\s-1GCC_COLORS\s0\fR is +\&\fBerror=01;31:warning=01;35:note=01;36:caret=01;32:locus=01:quote=01\fR +where \fB01;31\fR is bold red, \fB01;35\fR is bold magenta, +\&\fB01;36\fR is bold cyan, \fB01;32\fR is bold green and +\&\fB01\fR is bold. Setting \fB\s-1GCC_COLORS\s0\fR to the empty +string disables colors. +Supported capabilities are as follows. +.RS 4 +.ie n .IP """error=""" 4 +.el .IP "\f(CWerror=\fR" 4 +.IX Item "error=" +\&\s-1SGR\s0 substring for error: markers. +.ie n .IP """warning=""" 4 +.el .IP "\f(CWwarning=\fR" 4 +.IX Item "warning=" +\&\s-1SGR\s0 substring for warning: markers. +.ie n .IP """note=""" 4 +.el .IP "\f(CWnote=\fR" 4 +.IX Item "note=" +\&\s-1SGR\s0 substring for note: markers. +.ie n .IP """caret=""" 4 +.el .IP "\f(CWcaret=\fR" 4 +.IX Item "caret=" +\&\s-1SGR\s0 substring for caret line. +.ie n .IP """locus=""" 4 +.el .IP "\f(CWlocus=\fR" 4 +.IX Item "locus=" +\&\s-1SGR\s0 substring for location information, \fBfile:line\fR or +\&\fBfile:line:column\fR etc. +.ie n .IP """quote=""" 4 +.el .IP "\f(CWquote=\fR" 4 +.IX Item "quote=" +\&\s-1SGR\s0 substring for information printed within quotes. +.RE +.RS 4 +.RE +.IP "\fB\-fno\-diagnostics\-show\-option\fR" 4 +.IX Item "-fno-diagnostics-show-option" +By default, each diagnostic emitted includes text indicating the +command-line option that directly controls the diagnostic (if such an +option is known to the diagnostic machinery). Specifying the +\&\fB\-fno\-diagnostics\-show\-option\fR flag suppresses that behavior. +.IP "\fB\-fno\-diagnostics\-show\-caret\fR" 4 +.IX Item "-fno-diagnostics-show-caret" +By default, each diagnostic emitted includes the original source line +and a caret '^' indicating the column. This option suppresses this +information. +.SS "Options to Request or Suppress Warnings" +.IX Subsection "Options to Request or Suppress Warnings" +Warnings are diagnostic messages that report constructions that +are not inherently erroneous but that are risky or suggest there +may have been an error. +.PP +The following language-independent options do not enable specific +warnings but control the kinds of diagnostics produced by \s-1GCC.\s0 +.IP "\fB\-fsyntax\-only\fR" 4 +.IX Item "-fsyntax-only" +Check the code for syntax errors, but don't do anything beyond that. +.IP "\fB\-fmax\-errors=\fR\fIn\fR" 4 +.IX Item "-fmax-errors=n" +Limits the maximum number of error messages to \fIn\fR, at which point +\&\s-1GCC\s0 bails out rather than attempting to continue processing the source +code. If \fIn\fR is 0 (the default), there is no limit on the number +of error messages produced. If \fB\-Wfatal\-errors\fR is also +specified, then \fB\-Wfatal\-errors\fR takes precedence over this +option. +.IP "\fB\-w\fR" 4 +.IX Item "-w" +Inhibit all warning messages. +.IP "\fB\-Werror\fR" 4 +.IX Item "-Werror" +Make all warnings into errors. +.IP "\fB\-Werror=\fR" 4 +.IX Item "-Werror=" +Make the specified warning into an error. The specifier for a warning +is appended; for example \fB\-Werror=switch\fR turns the warnings +controlled by \fB\-Wswitch\fR into errors. This switch takes a +negative form, to be used to negate \fB\-Werror\fR for specific +warnings; for example \fB\-Wno\-error=switch\fR makes +\&\fB\-Wswitch\fR warnings not be errors, even when \fB\-Werror\fR +is in effect. +.Sp +The warning message for each controllable warning includes the +option that controls the warning. That option can then be used with +\&\fB\-Werror=\fR and \fB\-Wno\-error=\fR as described above. +(Printing of the option in the warning message can be disabled using the +\&\fB\-fno\-diagnostics\-show\-option\fR flag.) +.Sp +Note that specifying \fB\-Werror=\fR\fIfoo\fR automatically implies +\&\fB\-W\fR\fIfoo\fR. However, \fB\-Wno\-error=\fR\fIfoo\fR does not +imply anything. +.IP "\fB\-Wfatal\-errors\fR" 4 +.IX Item "-Wfatal-errors" +This option causes the compiler to abort compilation on the first error +occurred rather than trying to keep going and printing further error +messages. +.PP +You can request many specific warnings with options beginning with +\&\fB\-W\fR, for example \fB\-Wimplicit\fR to request warnings on +implicit declarations. Each of these specific warning options also +has a negative form beginning \fB\-Wno\-\fR to turn off warnings; for +example, \fB\-Wno\-implicit\fR. This manual lists only one of the +two forms, whichever is not the default. For further +language-specific options also refer to \fB\*(C+ Dialect Options\fR and +\&\fBObjective-C and Objective\-\*(C+ Dialect Options\fR. +.PP +When an unrecognized warning option is requested (e.g., +\&\fB\-Wunknown\-warning\fR), \s-1GCC\s0 emits a diagnostic stating +that the option is not recognized. However, if the \fB\-Wno\-\fR form +is used, the behavior is slightly different: no diagnostic is +produced for \fB\-Wno\-unknown\-warning\fR unless other diagnostics +are being produced. This allows the use of new \fB\-Wno\-\fR options +with old compilers, but if something goes wrong, the compiler +warns that an unrecognized option is present. +.IP "\fB\-Wpedantic\fR" 4 +.IX Item "-Wpedantic" +.PD 0 +.IP "\fB\-pedantic\fR" 4 +.IX Item "-pedantic" +.PD +Issue all the warnings demanded by strict \s-1ISO C\s0 and \s-1ISO \*(C+\s0; +reject all programs that use forbidden extensions, and some other +programs that do not follow \s-1ISO C\s0 and \s-1ISO \*(C+. \s0 For \s-1ISO C,\s0 follows the +version of the \s-1ISO C\s0 standard specified by any \fB\-std\fR option used. +.Sp +Valid \s-1ISO C\s0 and \s-1ISO \*(C+\s0 programs should compile properly with or without +this option (though a rare few require \fB\-ansi\fR or a +\&\fB\-std\fR option specifying the required version of \s-1ISO C\s0). However, +without this option, certain \s-1GNU\s0 extensions and traditional C and \*(C+ +features are supported as well. With this option, they are rejected. +.Sp +\&\fB\-Wpedantic\fR does not cause warning messages for use of the +alternate keywords whose names begin and end with \fB_\|_\fR. Pedantic +warnings are also disabled in the expression that follows +\&\f(CW\*(C`_\|_extension_\|_\*(C'\fR. However, only system header files should use +these escape routes; application programs should avoid them. +.Sp +Some users try to use \fB\-Wpedantic\fR to check programs for strict \s-1ISO +C\s0 conformance. They soon find that it does not do quite what they want: +it finds some non-ISO practices, but not all\-\-\-only those for which +\&\s-1ISO C \s0\fIrequires\fR a diagnostic, and some others for which +diagnostics have been added. +.Sp +A feature to report any failure to conform to \s-1ISO C\s0 might be useful in +some instances, but would require considerable additional work and would +be quite different from \fB\-Wpedantic\fR. We don't have plans to +support such a feature in the near future. +.Sp +Where the standard specified with \fB\-std\fR represents a \s-1GNU\s0 +extended dialect of C, such as \fBgnu90\fR or \fBgnu99\fR, there is a +corresponding \fIbase standard\fR, the version of \s-1ISO C\s0 on which the \s-1GNU\s0 +extended dialect is based. Warnings from \fB\-Wpedantic\fR are given +where they are required by the base standard. (It does not make sense +for such warnings to be given only for features not in the specified \s-1GNU +C\s0 dialect, since by definition the \s-1GNU\s0 dialects of C include all +features the compiler supports with the given option, and there would be +nothing to warn about.) +.IP "\fB\-pedantic\-errors\fR" 4 +.IX Item "-pedantic-errors" +Like \fB\-Wpedantic\fR, except that errors are produced rather than +warnings. +.IP "\fB\-Wall\fR" 4 +.IX Item "-Wall" +This enables all the warnings about constructions that some users +consider questionable, and that are easy to avoid (or modify to +prevent the warning), even in conjunction with macros. This also +enables some language-specific warnings described in \fB\*(C+ Dialect +Options\fR and \fBObjective-C and Objective\-\*(C+ Dialect Options\fR. +.Sp +\&\fB\-Wall\fR turns on the following warning flags: +.Sp +\&\fB\-Waddress +\&\-Warray\-bounds\fR (only with\fB \fR\fB\-O2\fR) +\&\fB\-Wc++11\-compat +\&\-Wchar\-subscripts +\&\-Wenum\-compare\fR (in C/ObjC; this is on by default in \*(C+) +\&\fB\-Wimplicit\-int\fR (C and Objective-C only) +\&\fB\-Wimplicit\-function\-declaration\fR (C and Objective-C only) +\&\fB\-Wcomment +\&\-Wformat +\&\-Wmain\fR (only for C/ObjC and unless\fB \fR\fB\-ffreestanding\fR) +\&\fB\-Wmaybe\-uninitialized +\&\-Wmissing\-braces\fR (only for C/ObjC) +\&\fB\-Wnonnull +\&\-Wopenmp\-simd +\&\-Wparentheses +\&\-Wpointer\-sign +\&\-Wreorder +\&\-Wreturn\-type +\&\-Wsequence\-point +\&\-Wsign\-compare\fR (only in \*(C+) +\&\fB\-Wstrict\-aliasing +\&\-Wstrict\-overflow=1 +\&\-Wswitch +\&\-Wtrigraphs +\&\-Wuninitialized +\&\-Wunknown\-pragmas +\&\-Wunused\-function +\&\-Wunused\-label +\&\-Wunused\-value +\&\-Wunused\-variable +\&\-Wvolatile\-register\-var\fR +.Sp +Note that some warning flags are not implied by \fB\-Wall\fR. Some of +them warn about constructions that users generally do not consider +questionable, but which occasionally you might wish to check for; +others warn about constructions that are necessary or hard to avoid in +some cases, and there is no simple way to modify the code to suppress +the warning. Some of them are enabled by \fB\-Wextra\fR but many of +them must be enabled individually. +.IP "\fB\-Wextra\fR" 4 +.IX Item "-Wextra" +This enables some extra warning flags that are not enabled by +\&\fB\-Wall\fR. (This option used to be called \fB\-W\fR. The older +name is still supported, but the newer name is more descriptive.) +.Sp +\&\fB\-Wclobbered +\&\-Wempty\-body +\&\-Wignored\-qualifiers +\&\-Wmissing\-field\-initializers +\&\-Wmissing\-parameter\-type\fR (C only) +\&\fB\-Wold\-style\-declaration\fR (C only) +\&\fB\-Woverride\-init +\&\-Wsign\-compare +\&\-Wtype\-limits +\&\-Wuninitialized +\&\-Wunused\-parameter\fR (only with\fB \fR\fB\-Wunused\fR\fB \fRor\fB \fR\fB\-Wall\fR) +\&\fB\-Wunused\-but\-set\-parameter\fR (only with\fB \fR\fB\-Wunused\fR\fB \fRor\fB \fR\fB\-Wall\fR) \fB \fR +.Sp +The option \fB\-Wextra\fR also prints warning messages for the +following cases: +.RS 4 +.IP "\(bu" 4 +A pointer is compared against integer zero with \fB<\fR, \fB<=\fR, +\&\fB>\fR, or \fB>=\fR. +.IP "\(bu" 4 +(\*(C+ only) An enumerator and a non-enumerator both appear in a +conditional expression. +.IP "\(bu" 4 +(\*(C+ only) Ambiguous virtual bases. +.IP "\(bu" 4 +(\*(C+ only) Subscripting an array that has been declared \fBregister\fR. +.IP "\(bu" 4 +(\*(C+ only) Taking the address of a variable that has been declared +\&\fBregister\fR. +.IP "\(bu" 4 +(\*(C+ only) A base class is not initialized in a derived class's copy +constructor. +.RE +.RS 4 +.RE +.IP "\fB\-Wchar\-subscripts\fR" 4 +.IX Item "-Wchar-subscripts" +Warn if an array subscript has type \f(CW\*(C`char\*(C'\fR. This is a common cause +of error, as programmers often forget that this type is signed on some +machines. +This warning is enabled by \fB\-Wall\fR. +.IP "\fB\-Wcomment\fR" 4 +.IX Item "-Wcomment" +Warn whenever a comment-start sequence \fB/*\fR appears in a \fB/*\fR +comment, or whenever a Backslash-Newline appears in a \fB//\fR comment. +This warning is enabled by \fB\-Wall\fR. +.IP "\fB\-Wno\-coverage\-mismatch\fR" 4 +.IX Item "-Wno-coverage-mismatch" +Warn if feedback profiles do not match when using the +\&\fB\-fprofile\-use\fR option. +If a source file is changed between compiling with \fB\-fprofile\-gen\fR and +with \fB\-fprofile\-use\fR, the files with the profile feedback can fail +to match the source file and \s-1GCC\s0 cannot use the profile feedback +information. By default, this warning is enabled and is treated as an +error. \fB\-Wno\-coverage\-mismatch\fR can be used to disable the +warning or \fB\-Wno\-error=coverage\-mismatch\fR can be used to +disable the error. Disabling the error for this warning can result in +poorly optimized code and is useful only in the +case of very minor changes such as bug fixes to an existing code-base. +Completely disabling the warning is not recommended. +.IP "\fB\-Wno\-cpp\fR" 4 +.IX Item "-Wno-cpp" +(C, Objective-C, \*(C+, Objective\-\*(C+ and Fortran only) +.Sp +Suppress warning messages emitted by \f(CW\*(C`#warning\*(C'\fR directives. +.IP "\fB\-Wdouble\-promotion\fR (C, \*(C+, Objective-C and Objective\-\*(C+ only)" 4 +.IX Item "-Wdouble-promotion (C, , Objective-C and Objective- only)" +Give a warning when a value of type \f(CW\*(C`float\*(C'\fR is implicitly +promoted to \f(CW\*(C`double\*(C'\fR. CPUs with a 32\-bit \*(L"single-precision\*(R" +floating-point unit implement \f(CW\*(C`float\*(C'\fR in hardware, but emulate +\&\f(CW\*(C`double\*(C'\fR in software. On such a machine, doing computations +using \f(CW\*(C`double\*(C'\fR values is much more expensive because of the +overhead required for software emulation. +.Sp +It is easy to accidentally do computations with \f(CW\*(C`double\*(C'\fR because +floating-point literals are implicitly of type \f(CW\*(C`double\*(C'\fR. For +example, in: +.Sp +.Vb 4 +\& float area(float radius) +\& { +\& return 3.14159 * radius * radius; +\& } +.Ve +.Sp +the compiler performs the entire computation with \f(CW\*(C`double\*(C'\fR +because the floating-point literal is a \f(CW\*(C`double\*(C'\fR. +.IP "\fB\-Wformat\fR" 4 +.IX Item "-Wformat" +.PD 0 +.IP "\fB\-Wformat=\fR\fIn\fR" 4 +.IX Item "-Wformat=n" +.PD +Check calls to \f(CW\*(C`printf\*(C'\fR and \f(CW\*(C`scanf\*(C'\fR, etc., to make sure that +the arguments supplied have types appropriate to the format string +specified, and that the conversions specified in the format string make +sense. This includes standard functions, and others specified by format +attributes, in the \f(CW\*(C`printf\*(C'\fR, +\&\f(CW\*(C`scanf\*(C'\fR, \f(CW\*(C`strftime\*(C'\fR and \f(CW\*(C`strfmon\*(C'\fR (an X/Open extension, +not in the C standard) families (or other target-specific families). +Which functions are checked without format attributes having been +specified depends on the standard version selected, and such checks of +functions without the attribute specified are disabled by +\&\fB\-ffreestanding\fR or \fB\-fno\-builtin\fR. +.Sp +The formats are checked against the format features supported by \s-1GNU\s0 +libc version 2.2. These include all \s-1ISO C90\s0 and C99 features, as well +as features from the Single Unix Specification and some \s-1BSD\s0 and \s-1GNU\s0 +extensions. Other library implementations may not support all these +features; \s-1GCC\s0 does not support warning about features that go beyond a +particular library's limitations. However, if \fB\-Wpedantic\fR is used +with \fB\-Wformat\fR, warnings are given about format features not +in the selected standard version (but not for \f(CW\*(C`strfmon\*(C'\fR formats, +since those are not in any version of the C standard). +.RS 4 +.IP "\fB\-Wformat=1\fR" 4 +.IX Item "-Wformat=1" +.PD 0 +.IP "\fB\-Wformat\fR" 4 +.IX Item "-Wformat" +.PD +Option \fB\-Wformat\fR is equivalent to \fB\-Wformat=1\fR, and +\&\fB\-Wno\-format\fR is equivalent to \fB\-Wformat=0\fR. Since +\&\fB\-Wformat\fR also checks for null format arguments for several +functions, \fB\-Wformat\fR also implies \fB\-Wnonnull\fR. Some +aspects of this level of format checking can be disabled by the +options: \fB\-Wno\-format\-contains\-nul\fR, +\&\fB\-Wno\-format\-extra\-args\fR, and \fB\-Wno\-format\-zero\-length\fR. +\&\fB\-Wformat\fR is enabled by \fB\-Wall\fR. +.IP "\fB\-Wno\-format\-contains\-nul\fR" 4 +.IX Item "-Wno-format-contains-nul" +If \fB\-Wformat\fR is specified, do not warn about format strings that +contain \s-1NUL\s0 bytes. +.IP "\fB\-Wno\-format\-extra\-args\fR" 4 +.IX Item "-Wno-format-extra-args" +If \fB\-Wformat\fR is specified, do not warn about excess arguments to a +\&\f(CW\*(C`printf\*(C'\fR or \f(CW\*(C`scanf\*(C'\fR format function. The C standard specifies +that such arguments are ignored. +.Sp +Where the unused arguments lie between used arguments that are +specified with \fB$\fR operand number specifications, normally +warnings are still given, since the implementation could not know what +type to pass to \f(CW\*(C`va_arg\*(C'\fR to skip the unused arguments. However, +in the case of \f(CW\*(C`scanf\*(C'\fR formats, this option suppresses the +warning if the unused arguments are all pointers, since the Single +Unix Specification says that such unused arguments are allowed. +.IP "\fB\-Wno\-format\-zero\-length\fR" 4 +.IX Item "-Wno-format-zero-length" +If \fB\-Wformat\fR is specified, do not warn about zero-length formats. +The C standard specifies that zero-length formats are allowed. +.IP "\fB\-Wformat=2\fR" 4 +.IX Item "-Wformat=2" +Enable \fB\-Wformat\fR plus additional format checks. Currently +equivalent to \fB\-Wformat \-Wformat\-nonliteral \-Wformat\-security +\&\-Wformat\-y2k\fR. +.IP "\fB\-Wformat\-nonliteral\fR" 4 +.IX Item "-Wformat-nonliteral" +If \fB\-Wformat\fR is specified, also warn if the format string is not a +string literal and so cannot be checked, unless the format function +takes its format arguments as a \f(CW\*(C`va_list\*(C'\fR. +.IP "\fB\-Wformat\-security\fR" 4 +.IX Item "-Wformat-security" +If \fB\-Wformat\fR is specified, also warn about uses of format +functions that represent possible security problems. At present, this +warns about calls to \f(CW\*(C`printf\*(C'\fR and \f(CW\*(C`scanf\*(C'\fR functions where the +format string is not a string literal and there are no format arguments, +as in \f(CW\*(C`printf (foo);\*(C'\fR. This may be a security hole if the format +string came from untrusted input and contains \fB\f(CB%n\fB\fR. (This is +currently a subset of what \fB\-Wformat\-nonliteral\fR warns about, but +in future warnings may be added to \fB\-Wformat\-security\fR that are not +included in \fB\-Wformat\-nonliteral\fR.) +.IP "\fB\-Wformat\-y2k\fR" 4 +.IX Item "-Wformat-y2k" +If \fB\-Wformat\fR is specified, also warn about \f(CW\*(C`strftime\*(C'\fR +formats that may yield only a two-digit year. +.RE +.RS 4 +.RE +.IP "\fB\-Wnonnull\fR" 4 +.IX Item "-Wnonnull" +Warn about passing a null pointer for arguments marked as +requiring a non-null value by the \f(CW\*(C`nonnull\*(C'\fR function attribute. +.Sp +\&\fB\-Wnonnull\fR is included in \fB\-Wall\fR and \fB\-Wformat\fR. It +can be disabled with the \fB\-Wno\-nonnull\fR option. +.IP "\fB\-Winit\-self\fR (C, \*(C+, Objective-C and Objective\-\*(C+ only)" 4 +.IX Item "-Winit-self (C, , Objective-C and Objective- only)" +Warn about uninitialized variables that are initialized with themselves. +Note this option can only be used with the \fB\-Wuninitialized\fR option. +.Sp +For example, \s-1GCC\s0 warns about \f(CW\*(C`i\*(C'\fR being uninitialized in the +following snippet only when \fB\-Winit\-self\fR has been specified: +.Sp +.Vb 5 +\& int f() +\& { +\& int i = i; +\& return i; +\& } +.Ve +.Sp +This warning is enabled by \fB\-Wall\fR in \*(C+. +.IP "\fB\-Wimplicit\-int\fR (C and Objective-C only)" 4 +.IX Item "-Wimplicit-int (C and Objective-C only)" +Warn when a declaration does not specify a type. +This warning is enabled by \fB\-Wall\fR. +.IP "\fB\-Wimplicit\-function\-declaration\fR (C and Objective-C only)" 4 +.IX Item "-Wimplicit-function-declaration (C and Objective-C only)" +Give a warning whenever a function is used before being declared. In +C99 mode (\fB\-std=c99\fR or \fB\-std=gnu99\fR), this warning is +enabled by default and it is made into an error by +\&\fB\-pedantic\-errors\fR. This warning is also enabled by +\&\fB\-Wall\fR. +.IP "\fB\-Wimplicit\fR (C and Objective-C only)" 4 +.IX Item "-Wimplicit (C and Objective-C only)" +Same as \fB\-Wimplicit\-int\fR and \fB\-Wimplicit\-function\-declaration\fR. +This warning is enabled by \fB\-Wall\fR. +.IP "\fB\-Wignored\-qualifiers\fR (C and \*(C+ only)" 4 +.IX Item "-Wignored-qualifiers (C and only)" +Warn if the return type of a function has a type qualifier +such as \f(CW\*(C`const\*(C'\fR. For \s-1ISO C\s0 such a type qualifier has no effect, +since the value returned by a function is not an lvalue. +For \*(C+, the warning is only emitted for scalar types or \f(CW\*(C`void\*(C'\fR. +\&\s-1ISO C\s0 prohibits qualified \f(CW\*(C`void\*(C'\fR return types on function +definitions, so such return types always receive a warning +even without this option. +.Sp +This warning is also enabled by \fB\-Wextra\fR. +.IP "\fB\-Wmain\fR" 4 +.IX Item "-Wmain" +Warn if the type of \fBmain\fR is suspicious. \fBmain\fR should be +a function with external linkage, returning int, taking either zero +arguments, two, or three arguments of appropriate types. This warning +is enabled by default in \*(C+ and is enabled by either \fB\-Wall\fR +or \fB\-Wpedantic\fR. +.IP "\fB\-Wmissing\-braces\fR" 4 +.IX Item "-Wmissing-braces" +Warn if an aggregate or union initializer is not fully bracketed. In +the following example, the initializer for \fBa\fR is not fully +bracketed, but that for \fBb\fR is fully bracketed. This warning is +enabled by \fB\-Wall\fR in C. +.Sp +.Vb 2 +\& int a[2][2] = { 0, 1, 2, 3 }; +\& int b[2][2] = { { 0, 1 }, { 2, 3 } }; +.Ve +.Sp +This warning is enabled by \fB\-Wall\fR. +.IP "\fB\-Wmissing\-include\-dirs\fR (C, \*(C+, Objective-C and Objective\-\*(C+ only)" 4 +.IX Item "-Wmissing-include-dirs (C, , Objective-C and Objective- only)" +Warn if a user-supplied include directory does not exist. +.IP "\fB\-Wparentheses\fR" 4 +.IX Item "-Wparentheses" +Warn if parentheses are omitted in certain contexts, such +as when there is an assignment in a context where a truth value +is expected, or when operators are nested whose precedence people +often get confused about. +.Sp +Also warn if a comparison like \fBx<=y<=z\fR appears; this is +equivalent to \fB(x<=y ? 1 : 0) <= z\fR, which is a different +interpretation from that of ordinary mathematical notation. +.Sp +Also warn about constructions where there may be confusion to which +\&\f(CW\*(C`if\*(C'\fR statement an \f(CW\*(C`else\*(C'\fR branch belongs. Here is an example of +such a case: +.Sp +.Vb 7 +\& { +\& if (a) +\& if (b) +\& foo (); +\& else +\& bar (); +\& } +.Ve +.Sp +In C/\*(C+, every \f(CW\*(C`else\*(C'\fR branch belongs to the innermost possible +\&\f(CW\*(C`if\*(C'\fR statement, which in this example is \f(CW\*(C`if (b)\*(C'\fR. This is +often not what the programmer expected, as illustrated in the above +example by indentation the programmer chose. When there is the +potential for this confusion, \s-1GCC\s0 issues a warning when this flag +is specified. To eliminate the warning, add explicit braces around +the innermost \f(CW\*(C`if\*(C'\fR statement so there is no way the \f(CW\*(C`else\*(C'\fR +can belong to the enclosing \f(CW\*(C`if\*(C'\fR. The resulting code +looks like this: +.Sp +.Vb 9 +\& { +\& if (a) +\& { +\& if (b) +\& foo (); +\& else +\& bar (); +\& } +\& } +.Ve +.Sp +Also warn for dangerous uses of the \s-1GNU\s0 extension to +\&\f(CW\*(C`?:\*(C'\fR with omitted middle operand. When the condition +in the \f(CW\*(C`?\*(C'\fR: operator is a boolean expression, the omitted value is +always 1. Often programmers expect it to be a value computed +inside the conditional expression instead. +.Sp +This warning is enabled by \fB\-Wall\fR. +.IP "\fB\-Wsequence\-point\fR" 4 +.IX Item "-Wsequence-point" +Warn about code that may have undefined semantics because of violations +of sequence point rules in the C and \*(C+ standards. +.Sp +The C and \*(C+ standards define the order in which expressions in a C/\*(C+ +program are evaluated in terms of \fIsequence points\fR, which represent +a partial ordering between the execution of parts of the program: those +executed before the sequence point, and those executed after it. These +occur after the evaluation of a full expression (one which is not part +of a larger expression), after the evaluation of the first operand of a +\&\f(CW\*(C`&&\*(C'\fR, \f(CW\*(C`||\*(C'\fR, \f(CW\*(C`? :\*(C'\fR or \f(CW\*(C`,\*(C'\fR (comma) operator, before a +function is called (but after the evaluation of its arguments and the +expression denoting the called function), and in certain other places. +Other than as expressed by the sequence point rules, the order of +evaluation of subexpressions of an expression is not specified. All +these rules describe only a partial order rather than a total order, +since, for example, if two functions are called within one expression +with no sequence point between them, the order in which the functions +are called is not specified. However, the standards committee have +ruled that function calls do not overlap. +.Sp +It is not specified when between sequence points modifications to the +values of objects take effect. Programs whose behavior depends on this +have undefined behavior; the C and \*(C+ standards specify that \*(L"Between +the previous and next sequence point an object shall have its stored +value modified at most once by the evaluation of an expression. +Furthermore, the prior value shall be read only to determine the value +to be stored.\*(R". If a program breaks these rules, the results on any +particular implementation are entirely unpredictable. +.Sp +Examples of code with undefined behavior are \f(CW\*(C`a = a++;\*(C'\fR, \f(CW\*(C`a[n] += b[n++]\*(C'\fR and \f(CW\*(C`a[i++] = i;\*(C'\fR. Some more complicated cases are not +diagnosed by this option, and it may give an occasional false positive +result, but in general it has been found fairly effective at detecting +this sort of problem in programs. +.Sp +The standard is worded confusingly, therefore there is some debate +over the precise meaning of the sequence point rules in subtle cases. +Links to discussions of the problem, including proposed formal +definitions, may be found on the \s-1GCC\s0 readings page, at +<\fBhttp://gcc.gnu.org/readings.html\fR>. +.Sp +This warning is enabled by \fB\-Wall\fR for C and \*(C+. +.IP "\fB\-Wno\-return\-local\-addr\fR" 4 +.IX Item "-Wno-return-local-addr" +Do not warn about returning a pointer (or in \*(C+, a reference) to a +variable that goes out of scope after the function returns. +.IP "\fB\-Wreturn\-type\fR" 4 +.IX Item "-Wreturn-type" +Warn whenever a function is defined with a return type that defaults +to \f(CW\*(C`int\*(C'\fR. Also warn about any \f(CW\*(C`return\*(C'\fR statement with no +return value in a function whose return type is not \f(CW\*(C`void\*(C'\fR +(falling off the end of the function body is considered returning +without a value), and about a \f(CW\*(C`return\*(C'\fR statement with an +expression in a function whose return type is \f(CW\*(C`void\*(C'\fR. +.Sp +For \*(C+, a function without return type always produces a diagnostic +message, even when \fB\-Wno\-return\-type\fR is specified. The only +exceptions are \fBmain\fR and functions defined in system headers. +.Sp +This warning is enabled by \fB\-Wall\fR. +.IP "\fB\-Wswitch\fR" 4 +.IX Item "-Wswitch" +Warn whenever a \f(CW\*(C`switch\*(C'\fR statement has an index of enumerated type +and lacks a \f(CW\*(C`case\*(C'\fR for one or more of the named codes of that +enumeration. (The presence of a \f(CW\*(C`default\*(C'\fR label prevents this +warning.) \f(CW\*(C`case\*(C'\fR labels outside the enumeration range also +provoke warnings when this option is used (even if there is a +\&\f(CW\*(C`default\*(C'\fR label). +This warning is enabled by \fB\-Wall\fR. +.IP "\fB\-Wswitch\-default\fR" 4 +.IX Item "-Wswitch-default" +Warn whenever a \f(CW\*(C`switch\*(C'\fR statement does not have a \f(CW\*(C`default\*(C'\fR +case. +.IP "\fB\-Wswitch\-enum\fR" 4 +.IX Item "-Wswitch-enum" +Warn whenever a \f(CW\*(C`switch\*(C'\fR statement has an index of enumerated type +and lacks a \f(CW\*(C`case\*(C'\fR for one or more of the named codes of that +enumeration. \f(CW\*(C`case\*(C'\fR labels outside the enumeration range also +provoke warnings when this option is used. The only difference +between \fB\-Wswitch\fR and this option is that this option gives a +warning about an omitted enumeration code even if there is a +\&\f(CW\*(C`default\*(C'\fR label. +.IP "\fB\-Wsync\-nand\fR (C and \*(C+ only)" 4 +.IX Item "-Wsync-nand (C and only)" +Warn when \f(CW\*(C`_\|_sync_fetch_and_nand\*(C'\fR and \f(CW\*(C`_\|_sync_nand_and_fetch\*(C'\fR +built-in functions are used. These functions changed semantics in \s-1GCC 4.4.\s0 +.IP "\fB\-Wtrigraphs\fR" 4 +.IX Item "-Wtrigraphs" +Warn if any trigraphs are encountered that might change the meaning of +the program (trigraphs within comments are not warned about). +This warning is enabled by \fB\-Wall\fR. +.IP "\fB\-Wunused\-but\-set\-parameter\fR" 4 +.IX Item "-Wunused-but-set-parameter" +Warn whenever a function parameter is assigned to, but otherwise unused +(aside from its declaration). +.Sp +To suppress this warning use the \fBunused\fR attribute. +.Sp +This warning is also enabled by \fB\-Wunused\fR together with +\&\fB\-Wextra\fR. +.IP "\fB\-Wunused\-but\-set\-variable\fR" 4 +.IX Item "-Wunused-but-set-variable" +Warn whenever a local variable is assigned to, but otherwise unused +(aside from its declaration). +This warning is enabled by \fB\-Wall\fR. +.Sp +To suppress this warning use the \fBunused\fR attribute. +.Sp +This warning is also enabled by \fB\-Wunused\fR, which is enabled +by \fB\-Wall\fR. +.IP "\fB\-Wunused\-function\fR" 4 +.IX Item "-Wunused-function" +Warn whenever a static function is declared but not defined or a +non-inline static function is unused. +This warning is enabled by \fB\-Wall\fR. +.IP "\fB\-Wunused\-label\fR" 4 +.IX Item "-Wunused-label" +Warn whenever a label is declared but not used. +This warning is enabled by \fB\-Wall\fR. +.Sp +To suppress this warning use the \fBunused\fR attribute. +.IP "\fB\-Wunused\-local\-typedefs\fR (C, Objective-C, \*(C+ and Objective\-\*(C+ only)" 4 +.IX Item "-Wunused-local-typedefs (C, Objective-C, and Objective- only)" +Warn when a typedef locally defined in a function is not used. +This warning is enabled by \fB\-Wall\fR. +.IP "\fB\-Wunused\-parameter\fR" 4 +.IX Item "-Wunused-parameter" +Warn whenever a function parameter is unused aside from its declaration. +.Sp +To suppress this warning use the \fBunused\fR attribute. +.IP "\fB\-Wno\-unused\-result\fR" 4 +.IX Item "-Wno-unused-result" +Do not warn if a caller of a function marked with attribute +\&\f(CW\*(C`warn_unused_result\*(C'\fR does not use +its return value. The default is \fB\-Wunused\-result\fR. +.IP "\fB\-Wunused\-variable\fR" 4 +.IX Item "-Wunused-variable" +Warn whenever a local variable or non-constant static variable is unused +aside from its declaration. +This warning is enabled by \fB\-Wall\fR. +.Sp +To suppress this warning use the \fBunused\fR attribute. +.IP "\fB\-Wunused\-value\fR" 4 +.IX Item "-Wunused-value" +Warn whenever a statement computes a result that is explicitly not +used. To suppress this warning cast the unused expression to +\&\fBvoid\fR. This includes an expression-statement or the left-hand +side of a comma expression that contains no side effects. For example, +an expression such as \fBx[i,j]\fR causes a warning, while +\&\fBx[(void)i,j]\fR does not. +.Sp +This warning is enabled by \fB\-Wall\fR. +.IP "\fB\-Wunused\fR" 4 +.IX Item "-Wunused" +All the above \fB\-Wunused\fR options combined. +.Sp +In order to get a warning about an unused function parameter, you must +either specify \fB\-Wextra \-Wunused\fR (note that \fB\-Wall\fR implies +\&\fB\-Wunused\fR), or separately specify \fB\-Wunused\-parameter\fR. +.IP "\fB\-Wuninitialized\fR" 4 +.IX Item "-Wuninitialized" +Warn if an automatic variable is used without first being initialized +or if a variable may be clobbered by a \f(CW\*(C`setjmp\*(C'\fR call. In \*(C+, +warn if a non-static reference or non-static \fBconst\fR member +appears in a class without constructors. +.Sp +If you want to warn about code that uses the uninitialized value of the +variable in its own initializer, use the \fB\-Winit\-self\fR option. +.Sp +These warnings occur for individual uninitialized or clobbered +elements of structure, union or array variables as well as for +variables that are uninitialized or clobbered as a whole. They do +not occur for variables or elements declared \f(CW\*(C`volatile\*(C'\fR. Because +these warnings depend on optimization, the exact variables or elements +for which there are warnings depends on the precise optimization +options and version of \s-1GCC\s0 used. +.Sp +Note that there may be no warning about a variable that is used only +to compute a value that itself is never used, because such +computations may be deleted by data flow analysis before the warnings +are printed. +.IP "\fB\-Wmaybe\-uninitialized\fR" 4 +.IX Item "-Wmaybe-uninitialized" +For an automatic variable, if there exists a path from the function +entry to a use of the variable that is initialized, but there exist +some other paths for which the variable is not initialized, the compiler +emits a warning if it cannot prove the uninitialized paths are not +executed at run time. These warnings are made optional because \s-1GCC\s0 is +not smart enough to see all the reasons why the code might be correct +in spite of appearing to have an error. Here is one example of how +this can happen: +.Sp +.Vb 12 +\& { +\& int x; +\& switch (y) +\& { +\& case 1: x = 1; +\& break; +\& case 2: x = 4; +\& break; +\& case 3: x = 5; +\& } +\& foo (x); +\& } +.Ve +.Sp +If the value of \f(CW\*(C`y\*(C'\fR is always 1, 2 or 3, then \f(CW\*(C`x\*(C'\fR is +always initialized, but \s-1GCC\s0 doesn't know this. To suppress the +warning, you need to provide a default case with \fIassert\fR\|(0) or +similar code. +.Sp +This option also warns when a non-volatile automatic variable might be +changed by a call to \f(CW\*(C`longjmp\*(C'\fR. These warnings as well are possible +only in optimizing compilation. +.Sp +The compiler sees only the calls to \f(CW\*(C`setjmp\*(C'\fR. It cannot know +where \f(CW\*(C`longjmp\*(C'\fR will be called; in fact, a signal handler could +call it at any point in the code. As a result, you may get a warning +even when there is in fact no problem because \f(CW\*(C`longjmp\*(C'\fR cannot +in fact be called at the place that would cause a problem. +.Sp +Some spurious warnings can be avoided if you declare all the functions +you use that never return as \f(CW\*(C`noreturn\*(C'\fR. +.Sp +This warning is enabled by \fB\-Wall\fR or \fB\-Wextra\fR. +.IP "\fB\-Wunknown\-pragmas\fR" 4 +.IX Item "-Wunknown-pragmas" +Warn when a \f(CW\*(C`#pragma\*(C'\fR directive is encountered that is not understood by +\&\s-1GCC. \s0 If this command-line option is used, warnings are even issued +for unknown pragmas in system header files. This is not the case if +the warnings are only enabled by the \fB\-Wall\fR command-line option. +.IP "\fB\-Wno\-pragmas\fR" 4 +.IX Item "-Wno-pragmas" +Do not warn about misuses of pragmas, such as incorrect parameters, +invalid syntax, or conflicts between pragmas. See also +\&\fB\-Wunknown\-pragmas\fR. +.IP "\fB\-Wstrict\-aliasing\fR" 4 +.IX Item "-Wstrict-aliasing" +This option is only active when \fB\-fstrict\-aliasing\fR is active. +It warns about code that might break the strict aliasing rules that the +compiler is using for optimization. The warning does not catch all +cases, but does attempt to catch the more common pitfalls. It is +included in \fB\-Wall\fR. +It is equivalent to \fB\-Wstrict\-aliasing=3\fR +.IP "\fB\-Wstrict\-aliasing=n\fR" 4 +.IX Item "-Wstrict-aliasing=n" +This option is only active when \fB\-fstrict\-aliasing\fR is active. +It warns about code that might break the strict aliasing rules that the +compiler is using for optimization. +Higher levels correspond to higher accuracy (fewer false positives). +Higher levels also correspond to more effort, similar to the way \fB\-O\fR +works. +\&\fB\-Wstrict\-aliasing\fR is equivalent to \fB\-Wstrict\-aliasing=3\fR. +.Sp +Level 1: Most aggressive, quick, least accurate. +Possibly useful when higher levels +do not warn but \fB\-fstrict\-aliasing\fR still breaks the code, as it has very few +false negatives. However, it has many false positives. +Warns for all pointer conversions between possibly incompatible types, +even if never dereferenced. Runs in the front end only. +.Sp +Level 2: Aggressive, quick, not too precise. +May still have many false positives (not as many as level 1 though), +and few false negatives (but possibly more than level 1). +Unlike level 1, it only warns when an address is taken. Warns about +incomplete types. Runs in the front end only. +.Sp +Level 3 (default for \fB\-Wstrict\-aliasing\fR): +Should have very few false positives and few false +negatives. Slightly slower than levels 1 or 2 when optimization is enabled. +Takes care of the common pun+dereference pattern in the front end: +\&\f(CW\*(C`*(int*)&some_float\*(C'\fR. +If optimization is enabled, it also runs in the back end, where it deals +with multiple statement cases using flow-sensitive points-to information. +Only warns when the converted pointer is dereferenced. +Does not warn about incomplete types. +.IP "\fB\-Wstrict\-overflow\fR" 4 +.IX Item "-Wstrict-overflow" +.PD 0 +.IP "\fB\-Wstrict\-overflow=\fR\fIn\fR" 4 +.IX Item "-Wstrict-overflow=n" +.PD +This option is only active when \fB\-fstrict\-overflow\fR is active. +It warns about cases where the compiler optimizes based on the +assumption that signed overflow does not occur. Note that it does not +warn about all cases where the code might overflow: it only warns +about cases where the compiler implements some optimization. Thus +this warning depends on the optimization level. +.Sp +An optimization that assumes that signed overflow does not occur is +perfectly safe if the values of the variables involved are such that +overflow never does, in fact, occur. Therefore this warning can +easily give a false positive: a warning about code that is not +actually a problem. To help focus on important issues, several +warning levels are defined. No warnings are issued for the use of +undefined signed overflow when estimating how many iterations a loop +requires, in particular when determining whether a loop will be +executed at all. +.RS 4 +.IP "\fB\-Wstrict\-overflow=1\fR" 4 +.IX Item "-Wstrict-overflow=1" +Warn about cases that are both questionable and easy to avoid. For +example, with \fB\-fstrict\-overflow\fR, the compiler simplifies +\&\f(CW\*(C`x + 1 > x\*(C'\fR to \f(CW1\fR. This level of +\&\fB\-Wstrict\-overflow\fR is enabled by \fB\-Wall\fR; higher levels +are not, and must be explicitly requested. +.IP "\fB\-Wstrict\-overflow=2\fR" 4 +.IX Item "-Wstrict-overflow=2" +Also warn about other cases where a comparison is simplified to a +constant. For example: \f(CW\*(C`abs (x) >= 0\*(C'\fR. This can only be +simplified when \fB\-fstrict\-overflow\fR is in effect, because +\&\f(CW\*(C`abs (INT_MIN)\*(C'\fR overflows to \f(CW\*(C`INT_MIN\*(C'\fR, which is less than +zero. \fB\-Wstrict\-overflow\fR (with no level) is the same as +\&\fB\-Wstrict\-overflow=2\fR. +.IP "\fB\-Wstrict\-overflow=3\fR" 4 +.IX Item "-Wstrict-overflow=3" +Also warn about other cases where a comparison is simplified. For +example: \f(CW\*(C`x + 1 > 1\*(C'\fR is simplified to \f(CW\*(C`x > 0\*(C'\fR. +.IP "\fB\-Wstrict\-overflow=4\fR" 4 +.IX Item "-Wstrict-overflow=4" +Also warn about other simplifications not covered by the above cases. +For example: \f(CW\*(C`(x * 10) / 5\*(C'\fR is simplified to \f(CW\*(C`x * 2\*(C'\fR. +.IP "\fB\-Wstrict\-overflow=5\fR" 4 +.IX Item "-Wstrict-overflow=5" +Also warn about cases where the compiler reduces the magnitude of a +constant involved in a comparison. For example: \f(CW\*(C`x + 2 > y\*(C'\fR is +simplified to \f(CW\*(C`x + 1 >= y\*(C'\fR. This is reported only at the +highest warning level because this simplification applies to many +comparisons, so this warning level gives a very large number of +false positives. +.RE +.RS 4 +.RE +.IP "\fB\-Wsuggest\-attribute=\fR[\fBpure\fR|\fBconst\fR|\fBnoreturn\fR|\fBformat\fR]" 4 +.IX Item "-Wsuggest-attribute=[pure|const|noreturn|format]" +Warn for cases where adding an attribute may be beneficial. The +attributes currently supported are listed below. +.RS 4 +.IP "\fB\-Wsuggest\-attribute=pure\fR" 4 +.IX Item "-Wsuggest-attribute=pure" +.PD 0 +.IP "\fB\-Wsuggest\-attribute=const\fR" 4 +.IX Item "-Wsuggest-attribute=const" +.IP "\fB\-Wsuggest\-attribute=noreturn\fR" 4 +.IX Item "-Wsuggest-attribute=noreturn" +.PD +Warn about functions that might be candidates for attributes +\&\f(CW\*(C`pure\*(C'\fR, \f(CW\*(C`const\*(C'\fR or \f(CW\*(C`noreturn\*(C'\fR. The compiler only warns for +functions visible in other compilation units or (in the case of \f(CW\*(C`pure\*(C'\fR and +\&\f(CW\*(C`const\*(C'\fR) if it cannot prove that the function returns normally. A function +returns normally if it doesn't contain an infinite loop or return abnormally +by throwing, calling \f(CW\*(C`abort()\*(C'\fR or trapping. This analysis requires option +\&\fB\-fipa\-pure\-const\fR, which is enabled by default at \fB\-O\fR and +higher. Higher optimization levels improve the accuracy of the analysis. +.IP "\fB\-Wsuggest\-attribute=format\fR" 4 +.IX Item "-Wsuggest-attribute=format" +.PD 0 +.IP "\fB\-Wmissing\-format\-attribute\fR" 4 +.IX Item "-Wmissing-format-attribute" +.PD +Warn about function pointers that might be candidates for \f(CW\*(C`format\*(C'\fR +attributes. Note these are only possible candidates, not absolute ones. +\&\s-1GCC\s0 guesses that function pointers with \f(CW\*(C`format\*(C'\fR attributes that +are used in assignment, initialization, parameter passing or return +statements should have a corresponding \f(CW\*(C`format\*(C'\fR attribute in the +resulting type. I.e. the left-hand side of the assignment or +initialization, the type of the parameter variable, or the return type +of the containing function respectively should also have a \f(CW\*(C`format\*(C'\fR +attribute to avoid the warning. +.Sp +\&\s-1GCC\s0 also warns about function definitions that might be +candidates for \f(CW\*(C`format\*(C'\fR attributes. Again, these are only +possible candidates. \s-1GCC\s0 guesses that \f(CW\*(C`format\*(C'\fR attributes +might be appropriate for any function that calls a function like +\&\f(CW\*(C`vprintf\*(C'\fR or \f(CW\*(C`vscanf\*(C'\fR, but this might not always be the +case, and some functions for which \f(CW\*(C`format\*(C'\fR attributes are +appropriate may not be detected. +.RE +.RS 4 +.RE +.IP "\fB\-Warray\-bounds\fR" 4 +.IX Item "-Warray-bounds" +This option is only active when \fB\-ftree\-vrp\fR is active +(default for \fB\-O2\fR and above). It warns about subscripts to arrays +that are always out of bounds. This warning is enabled by \fB\-Wall\fR. +.IP "\fB\-Wno\-div\-by\-zero\fR" 4 +.IX Item "-Wno-div-by-zero" +Do not warn about compile-time integer division by zero. Floating-point +division by zero is not warned about, as it can be a legitimate way of +obtaining infinities and NaNs. +.IP "\fB\-Wsystem\-headers\fR" 4 +.IX Item "-Wsystem-headers" +Print warning messages for constructs found in system header files. +Warnings from system headers are normally suppressed, on the assumption +that they usually do not indicate real problems and would only make the +compiler output harder to read. Using this command-line option tells +\&\s-1GCC\s0 to emit warnings from system headers as if they occurred in user +code. However, note that using \fB\-Wall\fR in conjunction with this +option does \fInot\fR warn about unknown pragmas in system +headers\-\-\-for that, \fB\-Wunknown\-pragmas\fR must also be used. +.IP "\fB\-Wtrampolines\fR" 4 +.IX Item "-Wtrampolines" +.Vb 1 +\& Warn about trampolines generated for pointers to nested functions. +\& +\& A trampoline is a small piece of data or code that is created at run +\& time on the stack when the address of a nested function is taken, and +\& is used to call the nested function indirectly. For some targets, it +\& is made up of data only and thus requires no special treatment. But, +\& for most targets, it is made up of code and thus requires the stack +\& to be made executable in order for the program to work properly. +.Ve +.IP "\fB\-Wfloat\-equal\fR" 4 +.IX Item "-Wfloat-equal" +Warn if floating-point values are used in equality comparisons. +.Sp +The idea behind this is that sometimes it is convenient (for the +programmer) to consider floating-point values as approximations to +infinitely precise real numbers. If you are doing this, then you need +to compute (by analyzing the code, or in some other way) the maximum or +likely maximum error that the computation introduces, and allow for it +when performing comparisons (and when producing output, but that's a +different problem). In particular, instead of testing for equality, you +should check to see whether the two values have ranges that overlap; and +this is done with the relational operators, so equality comparisons are +probably mistaken. +.IP "\fB\-Wtraditional\fR (C and Objective-C only)" 4 +.IX Item "-Wtraditional (C and Objective-C only)" +Warn about certain constructs that behave differently in traditional and +\&\s-1ISO C. \s0 Also warn about \s-1ISO C\s0 constructs that have no traditional C +equivalent, and/or problematic constructs that should be avoided. +.RS 4 +.IP "\(bu" 4 +Macro parameters that appear within string literals in the macro body. +In traditional C macro replacement takes place within string literals, +but in \s-1ISO C\s0 it does not. +.IP "\(bu" 4 +In traditional C, some preprocessor directives did not exist. +Traditional preprocessors only considered a line to be a directive +if the \fB#\fR appeared in column 1 on the line. Therefore +\&\fB\-Wtraditional\fR warns about directives that traditional C +understands but ignores because the \fB#\fR does not appear as the +first character on the line. It also suggests you hide directives like +\&\fB#pragma\fR not understood by traditional C by indenting them. Some +traditional implementations do not recognize \fB#elif\fR, so this option +suggests avoiding it altogether. +.IP "\(bu" 4 +A function-like macro that appears without arguments. +.IP "\(bu" 4 +The unary plus operator. +.IP "\(bu" 4 +The \fBU\fR integer constant suffix, or the \fBF\fR or \fBL\fR floating-point +constant suffixes. (Traditional C does support the \fBL\fR suffix on integer +constants.) Note, these suffixes appear in macros defined in the system +headers of most modern systems, e.g. the \fB_MIN\fR/\fB_MAX\fR macros in \f(CW\*(C`<limits.h>\*(C'\fR. +Use of these macros in user code might normally lead to spurious +warnings, however \s-1GCC\s0's integrated preprocessor has enough context to +avoid warning in these cases. +.IP "\(bu" 4 +A function declared external in one block and then used after the end of +the block. +.IP "\(bu" 4 +A \f(CW\*(C`switch\*(C'\fR statement has an operand of type \f(CW\*(C`long\*(C'\fR. +.IP "\(bu" 4 +A non\-\f(CW\*(C`static\*(C'\fR function declaration follows a \f(CW\*(C`static\*(C'\fR one. +This construct is not accepted by some traditional C compilers. +.IP "\(bu" 4 +The \s-1ISO\s0 type of an integer constant has a different width or +signedness from its traditional type. This warning is only issued if +the base of the constant is ten. I.e. hexadecimal or octal values, which +typically represent bit patterns, are not warned about. +.IP "\(bu" 4 +Usage of \s-1ISO\s0 string concatenation is detected. +.IP "\(bu" 4 +Initialization of automatic aggregates. +.IP "\(bu" 4 +Identifier conflicts with labels. Traditional C lacks a separate +namespace for labels. +.IP "\(bu" 4 +Initialization of unions. If the initializer is zero, the warning is +omitted. This is done under the assumption that the zero initializer in +user code appears conditioned on e.g. \f(CW\*(C`_\|_STDC_\|_\*(C'\fR to avoid missing +initializer warnings and relies on default initialization to zero in the +traditional C case. +.IP "\(bu" 4 +Conversions by prototypes between fixed/floating\-point values and vice +versa. The absence of these prototypes when compiling with traditional +C causes serious problems. This is a subset of the possible +conversion warnings; for the full set use \fB\-Wtraditional\-conversion\fR. +.IP "\(bu" 4 +Use of \s-1ISO C\s0 style function definitions. This warning intentionally is +\&\fInot\fR issued for prototype declarations or variadic functions +because these \s-1ISO C\s0 features appear in your code when using +libiberty's traditional C compatibility macros, \f(CW\*(C`PARAMS\*(C'\fR and +\&\f(CW\*(C`VPARAMS\*(C'\fR. This warning is also bypassed for nested functions +because that feature is already a \s-1GCC\s0 extension and thus not relevant to +traditional C compatibility. +.RE +.RS 4 +.RE +.IP "\fB\-Wtraditional\-conversion\fR (C and Objective-C only)" 4 +.IX Item "-Wtraditional-conversion (C and Objective-C only)" +Warn if a prototype causes a type conversion that is different from what +would happen to the same argument in the absence of a prototype. This +includes conversions of fixed point to floating and vice versa, and +conversions changing the width or signedness of a fixed-point argument +except when the same as the default promotion. +.IP "\fB\-Wdeclaration\-after\-statement\fR (C and Objective-C only)" 4 +.IX Item "-Wdeclaration-after-statement (C and Objective-C only)" +Warn when a declaration is found after a statement in a block. This +construct, known from \*(C+, was introduced with \s-1ISO C99\s0 and is by default +allowed in \s-1GCC. \s0 It is not supported by \s-1ISO C90\s0 and was not supported by +\&\s-1GCC\s0 versions before \s-1GCC 3.0. \s0 +.IP "\fB\-Wundef\fR" 4 +.IX Item "-Wundef" +Warn if an undefined identifier is evaluated in an \fB#if\fR directive. +.IP "\fB\-Wno\-endif\-labels\fR" 4 +.IX Item "-Wno-endif-labels" +Do not warn whenever an \fB#else\fR or an \fB#endif\fR are followed by text. +.IP "\fB\-Wshadow\fR" 4 +.IX Item "-Wshadow" +Warn whenever a local variable or type declaration shadows another variable, +parameter, type, or class member (in \*(C+), or whenever a built-in function +is shadowed. Note that in \*(C+, the compiler warns if a local variable +shadows an explicit typedef, but not if it shadows a struct/class/enum. +.IP "\fB\-Wlarger\-than=\fR\fIlen\fR" 4 +.IX Item "-Wlarger-than=len" +Warn whenever an object of larger than \fIlen\fR bytes is defined. +.IP "\fB\-Wframe\-larger\-than=\fR\fIlen\fR" 4 +.IX Item "-Wframe-larger-than=len" +Warn if the size of a function frame is larger than \fIlen\fR bytes. +The computation done to determine the stack frame size is approximate +and not conservative. +The actual requirements may be somewhat greater than \fIlen\fR +even if you do not get a warning. In addition, any space allocated +via \f(CW\*(C`alloca\*(C'\fR, variable-length arrays, or related constructs +is not included by the compiler when determining +whether or not to issue a warning. +.IP "\fB\-Wno\-free\-nonheap\-object\fR" 4 +.IX Item "-Wno-free-nonheap-object" +Do not warn when attempting to free an object that was not allocated +on the heap. +.IP "\fB\-Wstack\-usage=\fR\fIlen\fR" 4 +.IX Item "-Wstack-usage=len" +Warn if the stack usage of a function might be larger than \fIlen\fR bytes. +The computation done to determine the stack usage is conservative. +Any space allocated via \f(CW\*(C`alloca\*(C'\fR, variable-length arrays, or related +constructs is included by the compiler when determining whether or not to +issue a warning. +.Sp +The message is in keeping with the output of \fB\-fstack\-usage\fR. +.RS 4 +.IP "\(bu" 4 +If the stack usage is fully static but exceeds the specified amount, it's: +.Sp +.Vb 1 +\& warning: stack usage is 1120 bytes +.Ve +.IP "\(bu" 4 +If the stack usage is (partly) dynamic but bounded, it's: +.Sp +.Vb 1 +\& warning: stack usage might be 1648 bytes +.Ve +.IP "\(bu" 4 +If the stack usage is (partly) dynamic and not bounded, it's: +.Sp +.Vb 1 +\& warning: stack usage might be unbounded +.Ve +.RE +.RS 4 +.RE +.IP "\fB\-Wunsafe\-loop\-optimizations\fR" 4 +.IX Item "-Wunsafe-loop-optimizations" +Warn if the loop cannot be optimized because the compiler cannot +assume anything on the bounds of the loop indices. With +\&\fB\-funsafe\-loop\-optimizations\fR warn if the compiler makes +such assumptions. +.IP "\fB\-Wno\-pedantic\-ms\-format\fR (MinGW targets only)" 4 +.IX Item "-Wno-pedantic-ms-format (MinGW targets only)" +When used in combination with \fB\-Wformat\fR +and \fB\-pedantic\fR without \s-1GNU\s0 extensions, this option +disables the warnings about non-ISO \f(CW\*(C`printf\*(C'\fR / \f(CW\*(C`scanf\*(C'\fR format +width specifiers \f(CW\*(C`I32\*(C'\fR, \f(CW\*(C`I64\*(C'\fR, and \f(CW\*(C`I\*(C'\fR used on Windows targets, +which depend on the \s-1MS\s0 runtime. +.IP "\fB\-Wpointer\-arith\fR" 4 +.IX Item "-Wpointer-arith" +Warn about anything that depends on the \*(L"size of\*(R" a function type or +of \f(CW\*(C`void\*(C'\fR. \s-1GNU C\s0 assigns these types a size of 1, for +convenience in calculations with \f(CW\*(C`void *\*(C'\fR pointers and pointers +to functions. In \*(C+, warn also when an arithmetic operation involves +\&\f(CW\*(C`NULL\*(C'\fR. This warning is also enabled by \fB\-Wpedantic\fR. +.IP "\fB\-Wtype\-limits\fR" 4 +.IX Item "-Wtype-limits" +Warn if a comparison is always true or always false due to the limited +range of the data type, but do not warn for constant expressions. For +example, warn if an unsigned variable is compared against zero with +\&\fB<\fR or \fB>=\fR. This warning is also enabled by +\&\fB\-Wextra\fR. +.IP "\fB\-Wbad\-function\-cast\fR (C and Objective-C only)" 4 +.IX Item "-Wbad-function-cast (C and Objective-C only)" +Warn whenever a function call is cast to a non-matching type. +For example, warn if \f(CW\*(C`int malloc()\*(C'\fR is cast to \f(CW\*(C`anything *\*(C'\fR. +.IP "\fB\-Wc++\-compat\fR (C and Objective-C only)" 4 +.IX Item "-Wc++-compat (C and Objective-C only)" +Warn about \s-1ISO C\s0 constructs that are outside of the common subset of +\&\s-1ISO C\s0 and \s-1ISO \*(C+,\s0 e.g. request for implicit conversion from +\&\f(CW\*(C`void *\*(C'\fR to a pointer to non\-\f(CW\*(C`void\*(C'\fR type. +.IP "\fB\-Wc++11\-compat\fR (\*(C+ and Objective\-\*(C+ only)" 4 +.IX Item "-Wc++11-compat ( and Objective- only)" +Warn about \*(C+ constructs whose meaning differs between \s-1ISO \*(C+ 1998\s0 +and \s-1ISO \*(C+ 2011,\s0 e.g., identifiers in \s-1ISO \*(C+ 1998\s0 that are keywords +in \s-1ISO \*(C+ 2011. \s0 This warning turns on \fB\-Wnarrowing\fR and is +enabled by \fB\-Wall\fR. +.IP "\fB\-Wcast\-qual\fR" 4 +.IX Item "-Wcast-qual" +Warn whenever a pointer is cast so as to remove a type qualifier from +the target type. For example, warn if a \f(CW\*(C`const char *\*(C'\fR is cast +to an ordinary \f(CW\*(C`char *\*(C'\fR. +.Sp +Also warn when making a cast that introduces a type qualifier in an +unsafe way. For example, casting \f(CW\*(C`char **\*(C'\fR to \f(CW\*(C`const char **\*(C'\fR +is unsafe, as in this example: +.Sp +.Vb 6 +\& /* p is char ** value. */ +\& const char **q = (const char **) p; +\& /* Assignment of readonly string to const char * is OK. */ +\& *q = "string"; +\& /* Now char** pointer points to read\-only memory. */ +\& **p = \*(Aqb\*(Aq; +.Ve +.IP "\fB\-Wcast\-align\fR" 4 +.IX Item "-Wcast-align" +Warn whenever a pointer is cast such that the required alignment of the +target is increased. For example, warn if a \f(CW\*(C`char *\*(C'\fR is cast to +an \f(CW\*(C`int *\*(C'\fR on machines where integers can only be accessed at +two\- or four-byte boundaries. +.IP "\fB\-Wwrite\-strings\fR" 4 +.IX Item "-Wwrite-strings" +When compiling C, give string constants the type \f(CW\*(C`const +char[\f(CIlength\f(CW]\*(C'\fR so that copying the address of one into a +non\-\f(CW\*(C`const\*(C'\fR \f(CW\*(C`char *\*(C'\fR pointer produces a warning. These +warnings help you find at compile time code that can try to write +into a string constant, but only if you have been very careful about +using \f(CW\*(C`const\*(C'\fR in declarations and prototypes. Otherwise, it is +just a nuisance. This is why we did not make \fB\-Wall\fR request +these warnings. +.Sp +When compiling \*(C+, warn about the deprecated conversion from string +literals to \f(CW\*(C`char *\*(C'\fR. This warning is enabled by default for \*(C+ +programs. +.IP "\fB\-Wclobbered\fR" 4 +.IX Item "-Wclobbered" +Warn for variables that might be changed by \fBlongjmp\fR or +\&\fBvfork\fR. This warning is also enabled by \fB\-Wextra\fR. +.IP "\fB\-Wconditionally\-supported\fR (\*(C+ and Objective\-\*(C+ only)" 4 +.IX Item "-Wconditionally-supported ( and Objective- only)" +Warn for conditionally-supported (\*(C+11 [intro.defs]) constructs. +.IP "\fB\-Wconversion\fR" 4 +.IX Item "-Wconversion" +Warn for implicit conversions that may alter a value. This includes +conversions between real and integer, like \f(CW\*(C`abs (x)\*(C'\fR when +\&\f(CW\*(C`x\*(C'\fR is \f(CW\*(C`double\*(C'\fR; conversions between signed and unsigned, +like \f(CW\*(C`unsigned ui = \-1\*(C'\fR; and conversions to smaller types, like +\&\f(CW\*(C`sqrtf (M_PI)\*(C'\fR. Do not warn for explicit casts like \f(CW\*(C`abs +((int) x)\*(C'\fR and \f(CW\*(C`ui = (unsigned) \-1\*(C'\fR, or if the value is not +changed by the conversion like in \f(CW\*(C`abs (2.0)\*(C'\fR. Warnings about +conversions between signed and unsigned integers can be disabled by +using \fB\-Wno\-sign\-conversion\fR. +.Sp +For \*(C+, also warn for confusing overload resolution for user-defined +conversions; and conversions that never use a type conversion +operator: conversions to \f(CW\*(C`void\*(C'\fR, the same type, a base class or a +reference to them. Warnings about conversions between signed and +unsigned integers are disabled by default in \*(C+ unless +\&\fB\-Wsign\-conversion\fR is explicitly enabled. +.IP "\fB\-Wno\-conversion\-null\fR (\*(C+ and Objective\-\*(C+ only)" 4 +.IX Item "-Wno-conversion-null ( and Objective- only)" +Do not warn for conversions between \f(CW\*(C`NULL\*(C'\fR and non-pointer +types. \fB\-Wconversion\-null\fR is enabled by default. +.IP "\fB\-Wzero\-as\-null\-pointer\-constant\fR (\*(C+ and Objective\-\*(C+ only)" 4 +.IX Item "-Wzero-as-null-pointer-constant ( and Objective- only)" +Warn when a literal '0' is used as null pointer constant. This can +be useful to facilitate the conversion to \f(CW\*(C`nullptr\*(C'\fR in \*(C+11. +.IP "\fB\-Wdate\-time\fR" 4 +.IX Item "-Wdate-time" +Warn when macros \f(CW\*(C`_\|_TIME_\|_\*(C'\fR, \f(CW\*(C`_\|_DATE_\|_\*(C'\fR or \f(CW\*(C`_\|_TIMESTAMP_\|_\*(C'\fR +are encountered as they might prevent bit-wise-identical reproducible +compilations. +.IP "\fB\-Wdelete\-incomplete\fR (\*(C+ and Objective\-\*(C+ only)" 4 +.IX Item "-Wdelete-incomplete ( and Objective- only)" +Warn when deleting a pointer to incomplete type, which may cause +undefined behavior at runtime. This warning is enabled by default. +.IP "\fB\-Wuseless\-cast\fR (\*(C+ and Objective\-\*(C+ only)" 4 +.IX Item "-Wuseless-cast ( and Objective- only)" +Warn when an expression is casted to its own type. +.IP "\fB\-Wempty\-body\fR" 4 +.IX Item "-Wempty-body" +Warn if an empty body occurs in an \fBif\fR, \fBelse\fR or \fBdo +while\fR statement. This warning is also enabled by \fB\-Wextra\fR. +.IP "\fB\-Wenum\-compare\fR" 4 +.IX Item "-Wenum-compare" +Warn about a comparison between values of different enumerated types. +In \*(C+ enumeral mismatches in conditional expressions are also +diagnosed and the warning is enabled by default. In C this warning is +enabled by \fB\-Wall\fR. +.IP "\fB\-Wjump\-misses\-init\fR (C, Objective-C only)" 4 +.IX Item "-Wjump-misses-init (C, Objective-C only)" +Warn if a \f(CW\*(C`goto\*(C'\fR statement or a \f(CW\*(C`switch\*(C'\fR statement jumps +forward across the initialization of a variable, or jumps backward to a +label after the variable has been initialized. This only warns about +variables that are initialized when they are declared. This warning is +only supported for C and Objective-C; in \*(C+ this sort of branch is an +error in any case. +.Sp +\&\fB\-Wjump\-misses\-init\fR is included in \fB\-Wc++\-compat\fR. It +can be disabled with the \fB\-Wno\-jump\-misses\-init\fR option. +.IP "\fB\-Wsign\-compare\fR" 4 +.IX Item "-Wsign-compare" +Warn when a comparison between signed and unsigned values could produce +an incorrect result when the signed value is converted to unsigned. +This warning is also enabled by \fB\-Wextra\fR; to get the other warnings +of \fB\-Wextra\fR without this warning, use \fB\-Wextra \-Wno\-sign\-compare\fR. +.IP "\fB\-Wsign\-conversion\fR" 4 +.IX Item "-Wsign-conversion" +Warn for implicit conversions that may change the sign of an integer +value, like assigning a signed integer expression to an unsigned +integer variable. An explicit cast silences the warning. In C, this +option is enabled also by \fB\-Wconversion\fR. +.IP "\fB\-Wfloat\-conversion\fR" 4 +.IX Item "-Wfloat-conversion" +Warn for implicit conversions that reduce the precision of a real value. +This includes conversions from real to integer, and from higher precision +real to lower precision real values. This option is also enabled by +\&\fB\-Wconversion\fR. +.IP "\fB\-Wsizeof\-pointer\-memaccess\fR" 4 +.IX Item "-Wsizeof-pointer-memaccess" +Warn for suspicious length parameters to certain string and memory built-in +functions if the argument uses \f(CW\*(C`sizeof\*(C'\fR. This warning warns e.g. +about \f(CW\*(C`memset (ptr, 0, sizeof (ptr));\*(C'\fR if \f(CW\*(C`ptr\*(C'\fR is not an array, +but a pointer, and suggests a possible fix, or about +\&\f(CW\*(C`memcpy (&foo, ptr, sizeof (&foo));\*(C'\fR. This warning is enabled by +\&\fB\-Wall\fR. +.IP "\fB\-Waddress\fR" 4 +.IX Item "-Waddress" +Warn about suspicious uses of memory addresses. These include using +the address of a function in a conditional expression, such as +\&\f(CW\*(C`void func(void); if (func)\*(C'\fR, and comparisons against the memory +address of a string literal, such as \f(CW\*(C`if (x == "abc")\*(C'\fR. Such +uses typically indicate a programmer error: the address of a function +always evaluates to true, so their use in a conditional usually +indicate that the programmer forgot the parentheses in a function +call; and comparisons against string literals result in unspecified +behavior and are not portable in C, so they usually indicate that the +programmer intended to use \f(CW\*(C`strcmp\*(C'\fR. This warning is enabled by +\&\fB\-Wall\fR. +.IP "\fB\-Wlogical\-op\fR" 4 +.IX Item "-Wlogical-op" +Warn about suspicious uses of logical operators in expressions. +This includes using logical operators in contexts where a +bit-wise operator is likely to be expected. +.IP "\fB\-Waggregate\-return\fR" 4 +.IX Item "-Waggregate-return" +Warn if any functions that return structures or unions are defined or +called. (In languages where you can return an array, this also elicits +a warning.) +.IP "\fB\-Wno\-aggressive\-loop\-optimizations\fR" 4 +.IX Item "-Wno-aggressive-loop-optimizations" +Warn if in a loop with constant number of iterations the compiler detects +undefined behavior in some statement during one or more of the iterations. +.IP "\fB\-Wno\-attributes\fR" 4 +.IX Item "-Wno-attributes" +Do not warn if an unexpected \f(CW\*(C`_\|_attribute_\|_\*(C'\fR is used, such as +unrecognized attributes, function attributes applied to variables, +etc. This does not stop errors for incorrect use of supported +attributes. +.IP "\fB\-Wno\-builtin\-macro\-redefined\fR" 4 +.IX Item "-Wno-builtin-macro-redefined" +Do not warn if certain built-in macros are redefined. This suppresses +warnings for redefinition of \f(CW\*(C`_\|_TIMESTAMP_\|_\*(C'\fR, \f(CW\*(C`_\|_TIME_\|_\*(C'\fR, +\&\f(CW\*(C`_\|_DATE_\|_\*(C'\fR, \f(CW\*(C`_\|_FILE_\|_\*(C'\fR, and \f(CW\*(C`_\|_BASE_FILE_\|_\*(C'\fR. +.IP "\fB\-Wstrict\-prototypes\fR (C and Objective-C only)" 4 +.IX Item "-Wstrict-prototypes (C and Objective-C only)" +Warn if a function is declared or defined without specifying the +argument types. (An old-style function definition is permitted without +a warning if preceded by a declaration that specifies the argument +types.) +.IP "\fB\-Wold\-style\-declaration\fR (C and Objective-C only)" 4 +.IX Item "-Wold-style-declaration (C and Objective-C only)" +Warn for obsolescent usages, according to the C Standard, in a +declaration. For example, warn if storage-class specifiers like +\&\f(CW\*(C`static\*(C'\fR are not the first things in a declaration. This warning +is also enabled by \fB\-Wextra\fR. +.IP "\fB\-Wold\-style\-definition\fR (C and Objective-C only)" 4 +.IX Item "-Wold-style-definition (C and Objective-C only)" +Warn if an old-style function definition is used. A warning is given +even if there is a previous prototype. +.IP "\fB\-Wmissing\-parameter\-type\fR (C and Objective-C only)" 4 +.IX Item "-Wmissing-parameter-type (C and Objective-C only)" +A function parameter is declared without a type specifier in K&R\-style +functions: +.Sp +.Vb 1 +\& void foo(bar) { } +.Ve +.Sp +This warning is also enabled by \fB\-Wextra\fR. +.IP "\fB\-Wmissing\-prototypes\fR (C and Objective-C only)" 4 +.IX Item "-Wmissing-prototypes (C and Objective-C only)" +Warn if a global function is defined without a previous prototype +declaration. This warning is issued even if the definition itself +provides a prototype. Use this option to detect global functions +that do not have a matching prototype declaration in a header file. +This option is not valid for \*(C+ because all function declarations +provide prototypes and a non-matching declaration will declare an +overload rather than conflict with an earlier declaration. +Use \fB\-Wmissing\-declarations\fR to detect missing declarations in \*(C+. +.IP "\fB\-Wmissing\-declarations\fR" 4 +.IX Item "-Wmissing-declarations" +Warn if a global function is defined without a previous declaration. +Do so even if the definition itself provides a prototype. +Use this option to detect global functions that are not declared in +header files. In C, no warnings are issued for functions with previous +non-prototype declarations; use \fB\-Wmissing\-prototype\fR to detect +missing prototypes. In \*(C+, no warnings are issued for function templates, +or for inline functions, or for functions in anonymous namespaces. +.IP "\fB\-Wmissing\-field\-initializers\fR" 4 +.IX Item "-Wmissing-field-initializers" +Warn if a structure's initializer has some fields missing. For +example, the following code causes such a warning, because +\&\f(CW\*(C`x.h\*(C'\fR is implicitly zero: +.Sp +.Vb 2 +\& struct s { int f, g, h; }; +\& struct s x = { 3, 4 }; +.Ve +.Sp +This option does not warn about designated initializers, so the following +modification does not trigger a warning: +.Sp +.Vb 2 +\& struct s { int f, g, h; }; +\& struct s x = { .f = 3, .g = 4 }; +.Ve +.Sp +This warning is included in \fB\-Wextra\fR. To get other \fB\-Wextra\fR +warnings without this one, use \fB\-Wextra \-Wno\-missing\-field\-initializers\fR. +.IP "\fB\-Wno\-multichar\fR" 4 +.IX Item "-Wno-multichar" +Do not warn if a multicharacter constant (\fB'\s-1FOOF\s0'\fR) is used. +Usually they indicate a typo in the user's code, as they have +implementation-defined values, and should not be used in portable code. +.IP "\fB\-Wnormalized=<none|id|nfc|nfkc>\fR" 4 +.IX Item "-Wnormalized=<none|id|nfc|nfkc>" +In \s-1ISO C\s0 and \s-1ISO \*(C+,\s0 two identifiers are different if they are +different sequences of characters. However, sometimes when characters +outside the basic \s-1ASCII\s0 character set are used, you can have two +different character sequences that look the same. To avoid confusion, +the \s-1ISO 10646\s0 standard sets out some \fInormalization rules\fR which +when applied ensure that two sequences that look the same are turned into +the same sequence. \s-1GCC\s0 can warn you if you are using identifiers that +have not been normalized; this option controls that warning. +.Sp +There are four levels of warning supported by \s-1GCC. \s0 The default is +\&\fB\-Wnormalized=nfc\fR, which warns about any identifier that is +not in the \s-1ISO 10646 \*(L"C\*(R"\s0 normalized form, \fI\s-1NFC\s0\fR. \s-1NFC\s0 is the +recommended form for most uses. +.Sp +Unfortunately, there are some characters allowed in identifiers by +\&\s-1ISO C\s0 and \s-1ISO \*(C+\s0 that, when turned into \s-1NFC,\s0 are not allowed in +identifiers. That is, there's no way to use these symbols in portable +\&\s-1ISO C\s0 or \*(C+ and have all your identifiers in \s-1NFC. +\&\s0\fB\-Wnormalized=id\fR suppresses the warning for these characters. +It is hoped that future versions of the standards involved will correct +this, which is why this option is not the default. +.Sp +You can switch the warning off for all characters by writing +\&\fB\-Wnormalized=none\fR. You should only do this if you +are using some other normalization scheme (like \*(L"D\*(R"), because +otherwise you can easily create bugs that are literally impossible to see. +.Sp +Some characters in \s-1ISO 10646\s0 have distinct meanings but look identical +in some fonts or display methodologies, especially once formatting has +been applied. For instance \f(CW\*(C`\eu207F\*(C'\fR, \*(L"\s-1SUPERSCRIPT LATIN SMALL +LETTER N\*(R",\s0 displays just like a regular \f(CW\*(C`n\*(C'\fR that has been +placed in a superscript. \s-1ISO 10646\s0 defines the \fI\s-1NFKC\s0\fR +normalization scheme to convert all these into a standard form as +well, and \s-1GCC\s0 warns if your code is not in \s-1NFKC\s0 if you use +\&\fB\-Wnormalized=nfkc\fR. This warning is comparable to warning +about every identifier that contains the letter O because it might be +confused with the digit 0, and so is not the default, but may be +useful as a local coding convention if the programming environment +cannot be fixed to display these characters distinctly. +.IP "\fB\-Wno\-deprecated\fR" 4 +.IX Item "-Wno-deprecated" +Do not warn about usage of deprecated features. +.IP "\fB\-Wno\-deprecated\-declarations\fR" 4 +.IX Item "-Wno-deprecated-declarations" +Do not warn about uses of functions, +variables, and types marked as deprecated by using the \f(CW\*(C`deprecated\*(C'\fR +attribute. +.IP "\fB\-Wno\-overflow\fR" 4 +.IX Item "-Wno-overflow" +Do not warn about compile-time overflow in constant expressions. +.IP "\fB\-Wopenmp\-simd\fR" 4 +.IX Item "-Wopenmp-simd" +Warn if the vectorizer cost model overrides the OpenMP or the Cilk Plus +simd directive set by user. The \fB\-fsimd\-cost\-model=unlimited\fR can +be used to relax the cost model. +.IP "\fB\-Woverride\-init\fR (C and Objective-C only)" 4 +.IX Item "-Woverride-init (C and Objective-C only)" +Warn if an initialized field without side effects is overridden when +using designated initializers. +.Sp +This warning is included in \fB\-Wextra\fR. To get other +\&\fB\-Wextra\fR warnings without this one, use \fB\-Wextra +\&\-Wno\-override\-init\fR. +.IP "\fB\-Wpacked\fR" 4 +.IX Item "-Wpacked" +Warn if a structure is given the packed attribute, but the packed +attribute has no effect on the layout or size of the structure. +Such structures may be mis-aligned for little benefit. For +instance, in this code, the variable \f(CW\*(C`f.x\*(C'\fR in \f(CW\*(C`struct bar\*(C'\fR +is misaligned even though \f(CW\*(C`struct bar\*(C'\fR does not itself +have the packed attribute: +.Sp +.Vb 8 +\& struct foo { +\& int x; +\& char a, b, c, d; +\& } _\|_attribute_\|_((packed)); +\& struct bar { +\& char z; +\& struct foo f; +\& }; +.Ve +.IP "\fB\-Wpacked\-bitfield\-compat\fR" 4 +.IX Item "-Wpacked-bitfield-compat" +The 4.1, 4.2 and 4.3 series of \s-1GCC\s0 ignore the \f(CW\*(C`packed\*(C'\fR attribute +on bit-fields of type \f(CW\*(C`char\*(C'\fR. This has been fixed in \s-1GCC 4.4\s0 but +the change can lead to differences in the structure layout. \s-1GCC\s0 +informs you when the offset of such a field has changed in \s-1GCC 4.4.\s0 +For example there is no longer a 4\-bit padding between field \f(CW\*(C`a\*(C'\fR +and \f(CW\*(C`b\*(C'\fR in this structure: +.Sp +.Vb 5 +\& struct foo +\& { +\& char a:4; +\& char b:8; +\& } _\|_attribute_\|_ ((packed)); +.Ve +.Sp +This warning is enabled by default. Use +\&\fB\-Wno\-packed\-bitfield\-compat\fR to disable this warning. +.IP "\fB\-Wpadded\fR" 4 +.IX Item "-Wpadded" +Warn if padding is included in a structure, either to align an element +of the structure or to align the whole structure. Sometimes when this +happens it is possible to rearrange the fields of the structure to +reduce the padding and so make the structure smaller. +.IP "\fB\-Wredundant\-decls\fR" 4 +.IX Item "-Wredundant-decls" +Warn if anything is declared more than once in the same scope, even in +cases where multiple declaration is valid and changes nothing. +.IP "\fB\-Wnested\-externs\fR (C and Objective-C only)" 4 +.IX Item "-Wnested-externs (C and Objective-C only)" +Warn if an \f(CW\*(C`extern\*(C'\fR declaration is encountered within a function. +.IP "\fB\-Wno\-inherited\-variadic\-ctor\fR" 4 +.IX Item "-Wno-inherited-variadic-ctor" +Suppress warnings about use of \*(C+11 inheriting constructors when the +base class inherited from has a C variadic constructor; the warning is +on by default because the ellipsis is not inherited. +.IP "\fB\-Winline\fR" 4 +.IX Item "-Winline" +Warn if a function that is declared as inline cannot be inlined. +Even with this option, the compiler does not warn about failures to +inline functions declared in system headers. +.Sp +The compiler uses a variety of heuristics to determine whether or not +to inline a function. For example, the compiler takes into account +the size of the function being inlined and the amount of inlining +that has already been done in the current function. Therefore, +seemingly insignificant changes in the source program can cause the +warnings produced by \fB\-Winline\fR to appear or disappear. +.IP "\fB\-Wno\-invalid\-offsetof\fR (\*(C+ and Objective\-\*(C+ only)" 4 +.IX Item "-Wno-invalid-offsetof ( and Objective- only)" +Suppress warnings from applying the \fBoffsetof\fR macro to a non-POD +type. According to the 1998 \s-1ISO \*(C+\s0 standard, applying \fBoffsetof\fR +to a non-POD type is undefined. In existing \*(C+ implementations, +however, \fBoffsetof\fR typically gives meaningful results even when +applied to certain kinds of non-POD types (such as a simple +\&\fBstruct\fR that fails to be a \s-1POD\s0 type only by virtue of having a +constructor). This flag is for users who are aware that they are +writing nonportable code and who have deliberately chosen to ignore the +warning about it. +.Sp +The restrictions on \fBoffsetof\fR may be relaxed in a future version +of the \*(C+ standard. +.IP "\fB\-Wno\-int\-to\-pointer\-cast\fR" 4 +.IX Item "-Wno-int-to-pointer-cast" +Suppress warnings from casts to pointer type of an integer of a +different size. In \*(C+, casting to a pointer type of smaller size is +an error. \fBWint-to-pointer-cast\fR is enabled by default. +.IP "\fB\-Wno\-pointer\-to\-int\-cast\fR (C and Objective-C only)" 4 +.IX Item "-Wno-pointer-to-int-cast (C and Objective-C only)" +Suppress warnings from casts from a pointer to an integer type of a +different size. +.IP "\fB\-Winvalid\-pch\fR" 4 +.IX Item "-Winvalid-pch" +Warn if a precompiled header is found in +the search path but can't be used. +.IP "\fB\-Wlong\-long\fR" 4 +.IX Item "-Wlong-long" +Warn if \fBlong long\fR type is used. This is enabled by either +\&\fB\-Wpedantic\fR or \fB\-Wtraditional\fR in \s-1ISO C90\s0 and \*(C+98 +modes. To inhibit the warning messages, use \fB\-Wno\-long\-long\fR. +.IP "\fB\-Wvariadic\-macros\fR" 4 +.IX Item "-Wvariadic-macros" +Warn if variadic macros are used in pedantic \s-1ISO C90\s0 mode, or the \s-1GNU\s0 +alternate syntax when in pedantic \s-1ISO C99\s0 mode. This is default. +To inhibit the warning messages, use \fB\-Wno\-variadic\-macros\fR. +.IP "\fB\-Wvarargs\fR" 4 +.IX Item "-Wvarargs" +Warn upon questionable usage of the macros used to handle variable +arguments like \fBva_start\fR. This is default. To inhibit the +warning messages, use \fB\-Wno\-varargs\fR. +.IP "\fB\-Wvector\-operation\-performance\fR" 4 +.IX Item "-Wvector-operation-performance" +Warn if vector operation is not implemented via \s-1SIMD\s0 capabilities of the +architecture. Mainly useful for the performance tuning. +Vector operation can be implemented \f(CW\*(C`piecewise\*(C'\fR, which means that the +scalar operation is performed on every vector element; +\&\f(CW\*(C`in parallel\*(C'\fR, which means that the vector operation is implemented +using scalars of wider type, which normally is more performance efficient; +and \f(CW\*(C`as a single scalar\*(C'\fR, which means that vector fits into a +scalar type. +.IP "\fB\-Wno\-virtual\-move\-assign\fR" 4 +.IX Item "-Wno-virtual-move-assign" +Suppress warnings about inheriting from a virtual base with a +non-trivial \*(C+11 move assignment operator. This is dangerous because +if the virtual base is reachable along more than one path, it will be +moved multiple times, which can mean both objects end up in the +moved-from state. If the move assignment operator is written to avoid +moving from a moved-from object, this warning can be disabled. +.IP "\fB\-Wvla\fR" 4 +.IX Item "-Wvla" +Warn if variable length array is used in the code. +\&\fB\-Wno\-vla\fR prevents the \fB\-Wpedantic\fR warning of +the variable length array. +.IP "\fB\-Wvolatile\-register\-var\fR" 4 +.IX Item "-Wvolatile-register-var" +Warn if a register variable is declared volatile. The volatile +modifier does not inhibit all optimizations that may eliminate reads +and/or writes to register variables. This warning is enabled by +\&\fB\-Wall\fR. +.IP "\fB\-Wdisabled\-optimization\fR" 4 +.IX Item "-Wdisabled-optimization" +Warn if a requested optimization pass is disabled. This warning does +not generally indicate that there is anything wrong with your code; it +merely indicates that \s-1GCC\s0's optimizers are unable to handle the code +effectively. Often, the problem is that your code is too big or too +complex; \s-1GCC\s0 refuses to optimize programs when the optimization +itself is likely to take inordinate amounts of time. +.IP "\fB\-Wpointer\-sign\fR (C and Objective-C only)" 4 +.IX Item "-Wpointer-sign (C and Objective-C only)" +Warn for pointer argument passing or assignment with different signedness. +This option is only supported for C and Objective-C. It is implied by +\&\fB\-Wall\fR and by \fB\-Wpedantic\fR, which can be disabled with +\&\fB\-Wno\-pointer\-sign\fR. +.IP "\fB\-Wstack\-protector\fR" 4 +.IX Item "-Wstack-protector" +This option is only active when \fB\-fstack\-protector\fR is active. It +warns about functions that are not protected against stack smashing. +.IP "\fB\-Woverlength\-strings\fR" 4 +.IX Item "-Woverlength-strings" +Warn about string constants that are longer than the \*(L"minimum +maximum\*(R" length specified in the C standard. Modern compilers +generally allow string constants that are much longer than the +standard's minimum limit, but very portable programs should avoid +using longer strings. +.Sp +The limit applies \fIafter\fR string constant concatenation, and does +not count the trailing \s-1NUL. \s0 In C90, the limit was 509 characters; in +C99, it was raised to 4095. \*(C+98 does not specify a normative +minimum maximum, so we do not diagnose overlength strings in \*(C+. +.Sp +This option is implied by \fB\-Wpedantic\fR, and can be disabled with +\&\fB\-Wno\-overlength\-strings\fR. +.IP "\fB\-Wunsuffixed\-float\-constants\fR (C and Objective-C only)" 4 +.IX Item "-Wunsuffixed-float-constants (C and Objective-C only)" +Issue a warning for any floating constant that does not have +a suffix. When used together with \fB\-Wsystem\-headers\fR it +warns about such constants in system header files. This can be useful +when preparing code to use with the \f(CW\*(C`FLOAT_CONST_DECIMAL64\*(C'\fR pragma +from the decimal floating-point extension to C99. +.SS "Options for Debugging Your Program or \s-1GCC\s0" +.IX Subsection "Options for Debugging Your Program or GCC" +\&\s-1GCC\s0 has various special options that are used for debugging +either your program or \s-1GCC:\s0 +.IP "\fB\-g\fR" 4 +.IX Item "-g" +Produce debugging information in the operating system's native format +(stabs, \s-1COFF, XCOFF,\s0 or \s-1DWARF 2\s0). \s-1GDB\s0 can work with this debugging +information. +.Sp +On most systems that use stabs format, \fB\-g\fR enables use of extra +debugging information that only \s-1GDB\s0 can use; this extra information +makes debugging work better in \s-1GDB\s0 but probably makes other debuggers +crash or +refuse to read the program. If you want to control for certain whether +to generate the extra information, use \fB\-gstabs+\fR, \fB\-gstabs\fR, +\&\fB\-gxcoff+\fR, \fB\-gxcoff\fR, or \fB\-gvms\fR (see below). +.Sp +\&\s-1GCC\s0 allows you to use \fB\-g\fR with +\&\fB\-O\fR. The shortcuts taken by optimized code may occasionally +produce surprising results: some variables you declared may not exist +at all; flow of control may briefly move where you did not expect it; +some statements may not be executed because they compute constant +results or their values are already at hand; some statements may +execute in different places because they have been moved out of loops. +.Sp +Nevertheless it proves possible to debug optimized output. This makes +it reasonable to use the optimizer for programs that might have bugs. +.Sp +The following options are useful when \s-1GCC\s0 is generated with the +capability for more than one debugging format. +.IP "\fB\-gsplit\-dwarf\fR" 4 +.IX Item "-gsplit-dwarf" +Separate as much dwarf debugging information as possible into a +separate output file with the extension .dwo. This option allows +the build system to avoid linking files with debug information. To +be useful, this option requires a debugger capable of reading .dwo +files. +.IP "\fB\-ggdb\fR" 4 +.IX Item "-ggdb" +Produce debugging information for use by \s-1GDB. \s0 This means to use the +most expressive format available (\s-1DWARF 2,\s0 stabs, or the native format +if neither of those are supported), including \s-1GDB\s0 extensions if at all +possible. +.IP "\fB\-gpubnames\fR" 4 +.IX Item "-gpubnames" +Generate dwarf .debug_pubnames and .debug_pubtypes sections. +.IP "\fB\-ggnu\-pubnames\fR" 4 +.IX Item "-ggnu-pubnames" +Generate .debug_pubnames and .debug_pubtypes sections in a format +suitable for conversion into a \s-1GDB\s0 index. This option is only useful +with a linker that can produce \s-1GDB\s0 index version 7. +.IP "\fB\-gstabs\fR" 4 +.IX Item "-gstabs" +Produce debugging information in stabs format (if that is supported), +without \s-1GDB\s0 extensions. This is the format used by \s-1DBX\s0 on most \s-1BSD\s0 +systems. On \s-1MIPS,\s0 Alpha and System V Release 4 systems this option +produces stabs debugging output that is not understood by \s-1DBX\s0 or \s-1SDB.\s0 +On System V Release 4 systems this option requires the \s-1GNU\s0 assembler. +.IP "\fB\-feliminate\-unused\-debug\-symbols\fR" 4 +.IX Item "-feliminate-unused-debug-symbols" +Produce debugging information in stabs format (if that is supported), +for only symbols that are actually used. +.IP "\fB\-femit\-class\-debug\-always\fR" 4 +.IX Item "-femit-class-debug-always" +Instead of emitting debugging information for a \*(C+ class in only one +object file, emit it in all object files using the class. This option +should be used only with debuggers that are unable to handle the way \s-1GCC\s0 +normally emits debugging information for classes because using this +option increases the size of debugging information by as much as a +factor of two. +.IP "\fB\-fdebug\-types\-section\fR" 4 +.IX Item "-fdebug-types-section" +When using \s-1DWARF\s0 Version 4 or higher, type DIEs can be put into +their own \f(CW\*(C`.debug_types\*(C'\fR section instead of making them part of the +\&\f(CW\*(C`.debug_info\*(C'\fR section. It is more efficient to put them in a separate +comdat sections since the linker can then remove duplicates. +But not all \s-1DWARF\s0 consumers support \f(CW\*(C`.debug_types\*(C'\fR sections yet +and on some objects \f(CW\*(C`.debug_types\*(C'\fR produces larger instead of smaller +debugging information. +.IP "\fB\-gstabs+\fR" 4 +.IX Item "-gstabs+" +Produce debugging information in stabs format (if that is supported), +using \s-1GNU\s0 extensions understood only by the \s-1GNU\s0 debugger (\s-1GDB\s0). The +use of these extensions is likely to make other debuggers crash or +refuse to read the program. +.IP "\fB\-gcoff\fR" 4 +.IX Item "-gcoff" +Produce debugging information in \s-1COFF\s0 format (if that is supported). +This is the format used by \s-1SDB\s0 on most System V systems prior to +System V Release 4. +.IP "\fB\-gxcoff\fR" 4 +.IX Item "-gxcoff" +Produce debugging information in \s-1XCOFF\s0 format (if that is supported). +This is the format used by the \s-1DBX\s0 debugger on \s-1IBM RS/6000\s0 systems. +.IP "\fB\-gxcoff+\fR" 4 +.IX Item "-gxcoff+" +Produce debugging information in \s-1XCOFF\s0 format (if that is supported), +using \s-1GNU\s0 extensions understood only by the \s-1GNU\s0 debugger (\s-1GDB\s0). The +use of these extensions is likely to make other debuggers crash or +refuse to read the program, and may cause assemblers other than the \s-1GNU\s0 +assembler (\s-1GAS\s0) to fail with an error. +.IP "\fB\-gdwarf\-\fR\fIversion\fR" 4 +.IX Item "-gdwarf-version" +Produce debugging information in \s-1DWARF\s0 format (if that is supported). +The value of \fIversion\fR may be either 2, 3 or 4; the default version +for most targets is 4. +.Sp +Note that with \s-1DWARF\s0 Version 2, some ports require and always +use some non-conflicting \s-1DWARF 3\s0 extensions in the unwind tables. +.Sp +Version 4 may require \s-1GDB 7.0\s0 and \fB\-fvar\-tracking\-assignments\fR +for maximum benefit. +.IP "\fB\-grecord\-gcc\-switches\fR" 4 +.IX Item "-grecord-gcc-switches" +This switch causes the command-line options used to invoke the +compiler that may affect code generation to be appended to the +DW_AT_producer attribute in \s-1DWARF\s0 debugging information. The options +are concatenated with spaces separating them from each other and from +the compiler version. See also \fB\-frecord\-gcc\-switches\fR for another +way of storing compiler options into the object file. This is the default. +.IP "\fB\-gno\-record\-gcc\-switches\fR" 4 +.IX Item "-gno-record-gcc-switches" +Disallow appending command-line options to the DW_AT_producer attribute +in \s-1DWARF\s0 debugging information. +.IP "\fB\-gstrict\-dwarf\fR" 4 +.IX Item "-gstrict-dwarf" +Disallow using extensions of later \s-1DWARF\s0 standard version than selected +with \fB\-gdwarf\-\fR\fIversion\fR. On most targets using non-conflicting +\&\s-1DWARF\s0 extensions from later standard versions is allowed. +.IP "\fB\-gno\-strict\-dwarf\fR" 4 +.IX Item "-gno-strict-dwarf" +Allow using extensions of later \s-1DWARF\s0 standard version than selected with +\&\fB\-gdwarf\-\fR\fIversion\fR. +.IP "\fB\-gvms\fR" 4 +.IX Item "-gvms" +Produce debugging information in Alpha/VMS debug format (if that is +supported). This is the format used by \s-1DEBUG\s0 on Alpha/VMS systems. +.IP "\fB\-g\fR\fIlevel\fR" 4 +.IX Item "-glevel" +.PD 0 +.IP "\fB\-ggdb\fR\fIlevel\fR" 4 +.IX Item "-ggdblevel" +.IP "\fB\-gstabs\fR\fIlevel\fR" 4 +.IX Item "-gstabslevel" +.IP "\fB\-gcoff\fR\fIlevel\fR" 4 +.IX Item "-gcofflevel" +.IP "\fB\-gxcoff\fR\fIlevel\fR" 4 +.IX Item "-gxcofflevel" +.IP "\fB\-gvms\fR\fIlevel\fR" 4 +.IX Item "-gvmslevel" +.PD +Request debugging information and also use \fIlevel\fR to specify how +much information. The default level is 2. +.Sp +Level 0 produces no debug information at all. Thus, \fB\-g0\fR negates +\&\fB\-g\fR. +.Sp +Level 1 produces minimal information, enough for making backtraces in +parts of the program that you don't plan to debug. This includes +descriptions of functions and external variables, and line number +tables, but no information about local variables. +.Sp +Level 3 includes extra information, such as all the macro definitions +present in the program. Some debuggers support macro expansion when +you use \fB\-g3\fR. +.Sp +\&\fB\-gdwarf\-2\fR does not accept a concatenated debug level, because +\&\s-1GCC\s0 used to support an option \fB\-gdwarf\fR that meant to generate +debug information in version 1 of the \s-1DWARF\s0 format (which is very +different from version 2), and it would have been too confusing. That +debug format is long obsolete, but the option cannot be changed now. +Instead use an additional \fB\-g\fR\fIlevel\fR option to change the +debug level for \s-1DWARF.\s0 +.IP "\fB\-gtoggle\fR" 4 +.IX Item "-gtoggle" +Turn off generation of debug info, if leaving out this option +generates it, or turn it on at level 2 otherwise. The position of this +argument in the command line does not matter; it takes effect after all +other options are processed, and it does so only once, no matter how +many times it is given. This is mainly intended to be used with +\&\fB\-fcompare\-debug\fR. +.IP "\fB\-fsanitize=address\fR" 4 +.IX Item "-fsanitize=address" +Enable AddressSanitizer, a fast memory error detector. +Memory access instructions will be instrumented to detect +out-of-bounds and use-after-free bugs. +See <\fBhttp://code.google.com/p/address\-sanitizer/\fR> for +more details. The run-time behavior can be influenced using the +\&\fB\s-1ASAN_OPTIONS\s0\fR environment variable; see +<\fBhttps://code.google.com/p/address\-sanitizer/wiki/Flags#Run\-time_flags\fR> for +a list of supported options. +.IP "\fB\-fsanitize=thread\fR" 4 +.IX Item "-fsanitize=thread" +Enable ThreadSanitizer, a fast data race detector. +Memory access instructions will be instrumented to detect +data race bugs. See <\fBhttp://code.google.com/p/thread\-sanitizer/\fR> for more +details. The run-time behavior can be influenced using the \fB\s-1TSAN_OPTIONS\s0\fR +environment variable; see +<\fBhttps://code.google.com/p/thread\-sanitizer/wiki/Flags\fR> for a list of +supported options. +.IP "\fB\-fsanitize=leak\fR" 4 +.IX Item "-fsanitize=leak" +Enable LeakSanitizer, a memory leak detector. +This option only matters for linking of executables and if neither +\&\fB\-fsanitize=address\fR nor \fB\-fsanitize=thread\fR is used. In that +case it will link the executable against a library that overrides \f(CW\*(C`malloc\*(C'\fR +and other allocator functions. See +<\fBhttps://code.google.com/p/address\-sanitizer/wiki/LeakSanitizer\fR> for more +details. The run-time behavior can be influenced using the +\&\fB\s-1LSAN_OPTIONS\s0\fR environment variable. +.IP "\fB\-fsanitize=undefined\fR" 4 +.IX Item "-fsanitize=undefined" +Enable UndefinedBehaviorSanitizer, a fast undefined behavior detector. +Various computations will be instrumented to detect undefined behavior +at runtime. Current suboptions are: +.RS 4 +.IP "\fB\-fsanitize=shift\fR" 4 +.IX Item "-fsanitize=shift" +This option enables checking that the result of a shift operation is +not undefined. Note that what exactly is considered undefined differs +slightly between C and \*(C+, as well as between \s-1ISO C90\s0 and C99, etc. +.IP "\fB\-fsanitize=integer\-divide\-by\-zero\fR" 4 +.IX Item "-fsanitize=integer-divide-by-zero" +Detect integer division by zero as well as \f(CW\*(C`INT_MIN / \-1\*(C'\fR division. +.IP "\fB\-fsanitize=unreachable\fR" 4 +.IX Item "-fsanitize=unreachable" +With this option, the compiler will turn the \f(CW\*(C`_\|_builtin_unreachable\*(C'\fR +call into a diagnostics message call instead. When reaching the +\&\f(CW\*(C`_\|_builtin_unreachable\*(C'\fR call, the behavior is undefined. +.IP "\fB\-fsanitize=vla\-bound\fR" 4 +.IX Item "-fsanitize=vla-bound" +This option instructs the compiler to check that the size of a variable +length array is positive. This option does not have any effect in +\&\fB\-std=c++1y\fR mode, as the standard requires the exception be thrown +instead. +.IP "\fB\-fsanitize=null\fR" 4 +.IX Item "-fsanitize=null" +This option enables pointer checking. Particularly, the application +built with this option turned on will issue an error message when it +tries to dereference a \s-1NULL\s0 pointer, or if a reference (possibly an +rvalue reference) is bound to a \s-1NULL\s0 pointer. +.IP "\fB\-fsanitize=return\fR" 4 +.IX Item "-fsanitize=return" +This option enables return statement checking. Programs +built with this option turned on will issue an error message +when the end of a non-void function is reached without actually +returning a value. This option works in \*(C+ only. +.IP "\fB\-fsanitize=signed\-integer\-overflow\fR" 4 +.IX Item "-fsanitize=signed-integer-overflow" +This option enables signed integer overflow checking. We check that +the result of \f(CW\*(C`+\*(C'\fR, \f(CW\*(C`*\*(C'\fR, and both unary and binary \f(CW\*(C`\-\*(C'\fR +does not overflow in the signed arithmetics. Note, integer promotion +rules must be taken into account. That is, the following is not an +overflow: +.Sp +.Vb 2 +\& signed char a = SCHAR_MAX; +\& a++; +.Ve +.RE +.RS 4 +.Sp +While \fB\-ftrapv\fR causes traps for signed overflows to be emitted, +\&\fB\-fsanitize=undefined\fR gives a diagnostic message. +This currently works only for the C family of languages. +.RE +.IP "\fB\-fdump\-final\-insns\fR[\fB=\fR\fIfile\fR]" 4 +.IX Item "-fdump-final-insns[=file]" +Dump the final internal representation (\s-1RTL\s0) to \fIfile\fR. If the +optional argument is omitted (or if \fIfile\fR is \f(CW\*(C`.\*(C'\fR), the name +of the dump file is determined by appending \f(CW\*(C`.gkd\*(C'\fR to the +compilation output file name. +.IP "\fB\-fcompare\-debug\fR[\fB=\fR\fIopts\fR]" 4 +.IX Item "-fcompare-debug[=opts]" +If no error occurs during compilation, run the compiler a second time, +adding \fIopts\fR and \fB\-fcompare\-debug\-second\fR to the arguments +passed to the second compilation. Dump the final internal +representation in both compilations, and print an error if they differ. +.Sp +If the equal sign is omitted, the default \fB\-gtoggle\fR is used. +.Sp +The environment variable \fB\s-1GCC_COMPARE_DEBUG\s0\fR, if defined, non-empty +and nonzero, implicitly enables \fB\-fcompare\-debug\fR. If +\&\fB\s-1GCC_COMPARE_DEBUG\s0\fR is defined to a string starting with a dash, +then it is used for \fIopts\fR, otherwise the default \fB\-gtoggle\fR +is used. +.Sp +\&\fB\-fcompare\-debug=\fR, with the equal sign but without \fIopts\fR, +is equivalent to \fB\-fno\-compare\-debug\fR, which disables the dumping +of the final representation and the second compilation, preventing even +\&\fB\s-1GCC_COMPARE_DEBUG\s0\fR from taking effect. +.Sp +To verify full coverage during \fB\-fcompare\-debug\fR testing, set +\&\fB\s-1GCC_COMPARE_DEBUG\s0\fR to say \fB\-fcompare\-debug\-not\-overridden\fR, +which \s-1GCC\s0 rejects as an invalid option in any actual compilation +(rather than preprocessing, assembly or linking). To get just a +warning, setting \fB\s-1GCC_COMPARE_DEBUG\s0\fR to \fB\-w%n\-fcompare\-debug +not overridden\fR will do. +.IP "\fB\-fcompare\-debug\-second\fR" 4 +.IX Item "-fcompare-debug-second" +This option is implicitly passed to the compiler for the second +compilation requested by \fB\-fcompare\-debug\fR, along with options to +silence warnings, and omitting other options that would cause +side-effect compiler outputs to files or to the standard output. Dump +files and preserved temporary files are renamed so as to contain the +\&\f(CW\*(C`.gk\*(C'\fR additional extension during the second compilation, to avoid +overwriting those generated by the first. +.Sp +When this option is passed to the compiler driver, it causes the +\&\fIfirst\fR compilation to be skipped, which makes it useful for little +other than debugging the compiler proper. +.IP "\fB\-feliminate\-dwarf2\-dups\fR" 4 +.IX Item "-feliminate-dwarf2-dups" +Compress \s-1DWARF 2\s0 debugging information by eliminating duplicated +information about each symbol. This option only makes sense when +generating \s-1DWARF 2\s0 debugging information with \fB\-gdwarf\-2\fR. +.IP "\fB\-femit\-struct\-debug\-baseonly\fR" 4 +.IX Item "-femit-struct-debug-baseonly" +Emit debug information for struct-like types +only when the base name of the compilation source file +matches the base name of file in which the struct is defined. +.Sp +This option substantially reduces the size of debugging information, +but at significant potential loss in type information to the debugger. +See \fB\-femit\-struct\-debug\-reduced\fR for a less aggressive option. +See \fB\-femit\-struct\-debug\-detailed\fR for more detailed control. +.Sp +This option works only with \s-1DWARF 2.\s0 +.IP "\fB\-femit\-struct\-debug\-reduced\fR" 4 +.IX Item "-femit-struct-debug-reduced" +Emit debug information for struct-like types +only when the base name of the compilation source file +matches the base name of file in which the type is defined, +unless the struct is a template or defined in a system header. +.Sp +This option significantly reduces the size of debugging information, +with some potential loss in type information to the debugger. +See \fB\-femit\-struct\-debug\-baseonly\fR for a more aggressive option. +See \fB\-femit\-struct\-debug\-detailed\fR for more detailed control. +.Sp +This option works only with \s-1DWARF 2.\s0 +.IP "\fB\-femit\-struct\-debug\-detailed\fR[\fB=\fR\fIspec-list\fR]" 4 +.IX Item "-femit-struct-debug-detailed[=spec-list]" +Specify the struct-like types +for which the compiler generates debug information. +The intent is to reduce duplicate struct debug information +between different object files within the same program. +.Sp +This option is a detailed version of +\&\fB\-femit\-struct\-debug\-reduced\fR and \fB\-femit\-struct\-debug\-baseonly\fR, +which serves for most needs. +.Sp +A specification has the syntax[\fBdir:\fR|\fBind:\fR][\fBord:\fR|\fBgen:\fR](\fBany\fR|\fBsys\fR|\fBbase\fR|\fBnone\fR) +.Sp +The optional first word limits the specification to +structs that are used directly (\fBdir:\fR) or used indirectly (\fBind:\fR). +A struct type is used directly when it is the type of a variable, member. +Indirect uses arise through pointers to structs. +That is, when use of an incomplete struct is valid, the use is indirect. +An example is +\&\fBstruct one direct; struct two * indirect;\fR. +.Sp +The optional second word limits the specification to +ordinary structs (\fBord:\fR) or generic structs (\fBgen:\fR). +Generic structs are a bit complicated to explain. +For \*(C+, these are non-explicit specializations of template classes, +or non-template classes within the above. +Other programming languages have generics, +but \fB\-femit\-struct\-debug\-detailed\fR does not yet implement them. +.Sp +The third word specifies the source files for those +structs for which the compiler should emit debug information. +The values \fBnone\fR and \fBany\fR have the normal meaning. +The value \fBbase\fR means that +the base of name of the file in which the type declaration appears +must match the base of the name of the main compilation file. +In practice, this means that when compiling \fIfoo.c\fR, debug information +is generated for types declared in that file and \fIfoo.h\fR, +but not other header files. +The value \fBsys\fR means those types satisfying \fBbase\fR +or declared in system or compiler headers. +.Sp +You may need to experiment to determine the best settings for your application. +.Sp +The default is \fB\-femit\-struct\-debug\-detailed=all\fR. +.Sp +This option works only with \s-1DWARF 2.\s0 +.IP "\fB\-fno\-merge\-debug\-strings\fR" 4 +.IX Item "-fno-merge-debug-strings" +Direct the linker to not merge together strings in the debugging +information that are identical in different object files. Merging is +not supported by all assemblers or linkers. Merging decreases the size +of the debug information in the output file at the cost of increasing +link processing time. Merging is enabled by default. +.IP "\fB\-fdebug\-prefix\-map=\fR\fIold\fR\fB=\fR\fInew\fR" 4 +.IX Item "-fdebug-prefix-map=old=new" +When compiling files in directory \fI\fIold\fI\fR, record debugging +information describing them as in \fI\fInew\fI\fR instead. +.IP "\fB\-fno\-dwarf2\-cfi\-asm\fR" 4 +.IX Item "-fno-dwarf2-cfi-asm" +Emit \s-1DWARF 2\s0 unwind info as compiler generated \f(CW\*(C`.eh_frame\*(C'\fR section +instead of using \s-1GAS \s0\f(CW\*(C`.cfi_*\*(C'\fR directives. +.IP "\fB\-p\fR" 4 +.IX Item "-p" +Generate extra code to write profile information suitable for the +analysis program \fBprof\fR. You must use this option when compiling +the source files you want data about, and you must also use it when +linking. +.IP "\fB\-pg\fR" 4 +.IX Item "-pg" +Generate extra code to write profile information suitable for the +analysis program \fBgprof\fR. You must use this option when compiling +the source files you want data about, and you must also use it when +linking. +.IP "\fB\-Q\fR" 4 +.IX Item "-Q" +Makes the compiler print out each function name as it is compiled, and +print some statistics about each pass when it finishes. +.IP "\fB\-ftime\-report\fR" 4 +.IX Item "-ftime-report" +Makes the compiler print some statistics about the time consumed by each +pass when it finishes. +.IP "\fB\-fmem\-report\fR" 4 +.IX Item "-fmem-report" +Makes the compiler print some statistics about permanent memory +allocation when it finishes. +.IP "\fB\-fmem\-report\-wpa\fR" 4 +.IX Item "-fmem-report-wpa" +Makes the compiler print some statistics about permanent memory +allocation for the \s-1WPA\s0 phase only. +.IP "\fB\-fpre\-ipa\-mem\-report\fR" 4 +.IX Item "-fpre-ipa-mem-report" +.PD 0 +.IP "\fB\-fpost\-ipa\-mem\-report\fR" 4 +.IX Item "-fpost-ipa-mem-report" +.PD +Makes the compiler print some statistics about permanent memory +allocation before or after interprocedural optimization. +.IP "\fB\-fprofile\-report\fR" 4 +.IX Item "-fprofile-report" +Makes the compiler print some statistics about consistency of the +(estimated) profile and effect of individual passes. +.IP "\fB\-fstack\-usage\fR" 4 +.IX Item "-fstack-usage" +Makes the compiler output stack usage information for the program, on a +per-function basis. The filename for the dump is made by appending +\&\fI.su\fR to the \fIauxname\fR. \fIauxname\fR is generated from the name of +the output file, if explicitly specified and it is not an executable, +otherwise it is the basename of the source file. An entry is made up +of three fields: +.RS 4 +.IP "\(bu" 4 +The name of the function. +.IP "\(bu" 4 +A number of bytes. +.IP "\(bu" 4 +One or more qualifiers: \f(CW\*(C`static\*(C'\fR, \f(CW\*(C`dynamic\*(C'\fR, \f(CW\*(C`bounded\*(C'\fR. +.RE +.RS 4 +.Sp +The qualifier \f(CW\*(C`static\*(C'\fR means that the function manipulates the stack +statically: a fixed number of bytes are allocated for the frame on function +entry and released on function exit; no stack adjustments are otherwise made +in the function. The second field is this fixed number of bytes. +.Sp +The qualifier \f(CW\*(C`dynamic\*(C'\fR means that the function manipulates the stack +dynamically: in addition to the static allocation described above, stack +adjustments are made in the body of the function, for example to push/pop +arguments around function calls. If the qualifier \f(CW\*(C`bounded\*(C'\fR is also +present, the amount of these adjustments is bounded at compile time and +the second field is an upper bound of the total amount of stack used by +the function. If it is not present, the amount of these adjustments is +not bounded at compile time and the second field only represents the +bounded part. +.RE +.IP "\fB\-fprofile\-arcs\fR" 4 +.IX Item "-fprofile-arcs" +Add code so that program flow \fIarcs\fR are instrumented. During +execution the program records how many times each branch and call is +executed and how many times it is taken or returns. When the compiled +program exits it saves this data to a file called +\&\fI\fIauxname\fI.gcda\fR for each source file. The data may be used for +profile-directed optimizations (\fB\-fbranch\-probabilities\fR), or for +test coverage analysis (\fB\-ftest\-coverage\fR). Each object file's +\&\fIauxname\fR is generated from the name of the output file, if +explicitly specified and it is not the final executable, otherwise it is +the basename of the source file. In both cases any suffix is removed +(e.g. \fIfoo.gcda\fR for input file \fIdir/foo.c\fR, or +\&\fIdir/foo.gcda\fR for output file specified as \fB\-o dir/foo.o\fR). +.IP "\fB\-\-coverage\fR" 4 +.IX Item "--coverage" +This option is used to compile and link code instrumented for coverage +analysis. The option is a synonym for \fB\-fprofile\-arcs\fR +\&\fB\-ftest\-coverage\fR (when compiling) and \fB\-lgcov\fR (when +linking). See the documentation for those options for more details. +.RS 4 +.IP "\(bu" 4 +Compile the source files with \fB\-fprofile\-arcs\fR plus optimization +and code generation options. For test coverage analysis, use the +additional \fB\-ftest\-coverage\fR option. You do not need to profile +every source file in a program. +.IP "\(bu" 4 +Link your object files with \fB\-lgcov\fR or \fB\-fprofile\-arcs\fR +(the latter implies the former). +.IP "\(bu" 4 +Run the program on a representative workload to generate the arc profile +information. This may be repeated any number of times. You can run +concurrent instances of your program, and provided that the file system +supports locking, the data files will be correctly updated. Also +\&\f(CW\*(C`fork\*(C'\fR calls are detected and correctly handled (double counting +will not happen). +.IP "\(bu" 4 +For profile-directed optimizations, compile the source files again with +the same optimization and code generation options plus +\&\fB\-fbranch\-probabilities\fR. +.IP "\(bu" 4 +For test coverage analysis, use \fBgcov\fR to produce human readable +information from the \fI.gcno\fR and \fI.gcda\fR files. Refer to the +\&\fBgcov\fR documentation for further information. +.RE +.RS 4 +.Sp +With \fB\-fprofile\-arcs\fR, for each function of your program \s-1GCC\s0 +creates a program flow graph, then finds a spanning tree for the graph. +Only arcs that are not on the spanning tree have to be instrumented: the +compiler adds code to count the number of times that these arcs are +executed. When an arc is the only exit or only entrance to a block, the +instrumentation code can be added to the block; otherwise, a new basic +block must be created to hold the instrumentation code. +.RE +.IP "\fB\-ftest\-coverage\fR" 4 +.IX Item "-ftest-coverage" +Produce a notes file that the \fBgcov\fR code-coverage utility can use to +show program coverage. Each source file's note file is called +\&\fI\fIauxname\fI.gcno\fR. Refer to the \fB\-fprofile\-arcs\fR option +above for a description of \fIauxname\fR and instructions on how to +generate test coverage data. Coverage data matches the source files +more closely if you do not optimize. +.IP "\fB\-fdbg\-cnt\-list\fR" 4 +.IX Item "-fdbg-cnt-list" +Print the name and the counter upper bound for all debug counters. +.IP "\fB\-fdbg\-cnt=\fR\fIcounter-value-list\fR" 4 +.IX Item "-fdbg-cnt=counter-value-list" +Set the internal debug counter upper bound. \fIcounter-value-list\fR +is a comma-separated list of \fIname\fR:\fIvalue\fR pairs +which sets the upper bound of each debug counter \fIname\fR to \fIvalue\fR. +All debug counters have the initial upper bound of \f(CW\*(C`UINT_MAX\*(C'\fR; +thus \f(CW\*(C`dbg_cnt()\*(C'\fR returns true always unless the upper bound +is set by this option. +For example, with \fB\-fdbg\-cnt=dce:10,tail_call:0\fR, +\&\f(CW\*(C`dbg_cnt(dce)\*(C'\fR returns true only for first 10 invocations. +.IP "\fB\-fenable\-\fR\fIkind\fR\fB\-\fR\fIpass\fR" 4 +.IX Item "-fenable-kind-pass" +.PD 0 +.IP "\fB\-fdisable\-\fR\fIkind\fR\fB\-\fR\fIpass\fR\fB=\fR\fIrange-list\fR" 4 +.IX Item "-fdisable-kind-pass=range-list" +.PD +This is a set of options that are used to explicitly disable/enable +optimization passes. These options are intended for use for debugging \s-1GCC.\s0 +Compiler users should use regular options for enabling/disabling +passes instead. +.RS 4 +.IP "\fB\-fdisable\-ipa\-\fR\fIpass\fR" 4 +.IX Item "-fdisable-ipa-pass" +Disable \s-1IPA\s0 pass \fIpass\fR. \fIpass\fR is the pass name. If the same pass is +statically invoked in the compiler multiple times, the pass name should be +appended with a sequential number starting from 1. +.IP "\fB\-fdisable\-rtl\-\fR\fIpass\fR" 4 +.IX Item "-fdisable-rtl-pass" +.PD 0 +.IP "\fB\-fdisable\-rtl\-\fR\fIpass\fR\fB=\fR\fIrange-list\fR" 4 +.IX Item "-fdisable-rtl-pass=range-list" +.PD +Disable \s-1RTL\s0 pass \fIpass\fR. \fIpass\fR is the pass name. If the same pass is +statically invoked in the compiler multiple times, the pass name should be +appended with a sequential number starting from 1. \fIrange-list\fR is a +comma-separated list of function ranges or assembler names. Each range is a number +pair separated by a colon. The range is inclusive in both ends. If the range +is trivial, the number pair can be simplified as a single number. If the +function's call graph node's \fIuid\fR falls within one of the specified ranges, +the \fIpass\fR is disabled for that function. The \fIuid\fR is shown in the +function header of a dump file, and the pass names can be dumped by using +option \fB\-fdump\-passes\fR. +.IP "\fB\-fdisable\-tree\-\fR\fIpass\fR" 4 +.IX Item "-fdisable-tree-pass" +.PD 0 +.IP "\fB\-fdisable\-tree\-\fR\fIpass\fR\fB=\fR\fIrange-list\fR" 4 +.IX Item "-fdisable-tree-pass=range-list" +.PD +Disable tree pass \fIpass\fR. See \fB\-fdisable\-rtl\fR for the description of +option arguments. +.IP "\fB\-fenable\-ipa\-\fR\fIpass\fR" 4 +.IX Item "-fenable-ipa-pass" +Enable \s-1IPA\s0 pass \fIpass\fR. \fIpass\fR is the pass name. If the same pass is +statically invoked in the compiler multiple times, the pass name should be +appended with a sequential number starting from 1. +.IP "\fB\-fenable\-rtl\-\fR\fIpass\fR" 4 +.IX Item "-fenable-rtl-pass" +.PD 0 +.IP "\fB\-fenable\-rtl\-\fR\fIpass\fR\fB=\fR\fIrange-list\fR" 4 +.IX Item "-fenable-rtl-pass=range-list" +.PD +Enable \s-1RTL\s0 pass \fIpass\fR. See \fB\-fdisable\-rtl\fR for option argument +description and examples. +.IP "\fB\-fenable\-tree\-\fR\fIpass\fR" 4 +.IX Item "-fenable-tree-pass" +.PD 0 +.IP "\fB\-fenable\-tree\-\fR\fIpass\fR\fB=\fR\fIrange-list\fR" 4 +.IX Item "-fenable-tree-pass=range-list" +.PD +Enable tree pass \fIpass\fR. See \fB\-fdisable\-rtl\fR for the description +of option arguments. +.RE +.RS 4 +.Sp +Here are some examples showing uses of these options. +.Sp +.Vb 10 +\& # disable ccp1 for all functions +\& \-fdisable\-tree\-ccp1 +\& # disable complete unroll for function whose cgraph node uid is 1 +\& \-fenable\-tree\-cunroll=1 +\& # disable gcse2 for functions at the following ranges [1,1], +\& # [300,400], and [400,1000] +\& # disable gcse2 for functions foo and foo2 +\& \-fdisable\-rtl\-gcse2=foo,foo2 +\& # disable early inlining +\& \-fdisable\-tree\-einline +\& # disable ipa inlining +\& \-fdisable\-ipa\-inline +\& # enable tree full unroll +\& \-fenable\-tree\-unroll +.Ve +.RE +.IP "\fB\-d\fR\fIletters\fR" 4 +.IX Item "-dletters" +.PD 0 +.IP "\fB\-fdump\-rtl\-\fR\fIpass\fR" 4 +.IX Item "-fdump-rtl-pass" +.IP "\fB\-fdump\-rtl\-\fR\fIpass\fR\fB=\fR\fIfilename\fR" 4 +.IX Item "-fdump-rtl-pass=filename" +.PD +Says to make debugging dumps during compilation at times specified by +\&\fIletters\fR. This is used for debugging the RTL-based passes of the +compiler. The file names for most of the dumps are made by appending +a pass number and a word to the \fIdumpname\fR, and the files are +created in the directory of the output file. In case of +\&\fB=\fR\fIfilename\fR option, the dump is output on the given file +instead of the pass numbered dump files. Note that the pass number is +computed statically as passes get registered into the pass manager. +Thus the numbering is not related to the dynamic order of execution of +passes. In particular, a pass installed by a plugin could have a +number over 200 even if it executed quite early. \fIdumpname\fR is +generated from the name of the output file, if explicitly specified +and it is not an executable, otherwise it is the basename of the +source file. These switches may have different effects when +\&\fB\-E\fR is used for preprocessing. +.Sp +Debug dumps can be enabled with a \fB\-fdump\-rtl\fR switch or some +\&\fB\-d\fR option \fIletters\fR. Here are the possible +letters for use in \fIpass\fR and \fIletters\fR, and their meanings: +.RS 4 +.IP "\fB\-fdump\-rtl\-alignments\fR" 4 +.IX Item "-fdump-rtl-alignments" +Dump after branch alignments have been computed. +.IP "\fB\-fdump\-rtl\-asmcons\fR" 4 +.IX Item "-fdump-rtl-asmcons" +Dump after fixing rtl statements that have unsatisfied in/out constraints. +.IP "\fB\-fdump\-rtl\-auto_inc_dec\fR" 4 +.IX Item "-fdump-rtl-auto_inc_dec" +Dump after auto-inc-dec discovery. This pass is only run on +architectures that have auto inc or auto dec instructions. +.IP "\fB\-fdump\-rtl\-barriers\fR" 4 +.IX Item "-fdump-rtl-barriers" +Dump after cleaning up the barrier instructions. +.IP "\fB\-fdump\-rtl\-bbpart\fR" 4 +.IX Item "-fdump-rtl-bbpart" +Dump after partitioning hot and cold basic blocks. +.IP "\fB\-fdump\-rtl\-bbro\fR" 4 +.IX Item "-fdump-rtl-bbro" +Dump after block reordering. +.IP "\fB\-fdump\-rtl\-btl1\fR" 4 +.IX Item "-fdump-rtl-btl1" +.PD 0 +.IP "\fB\-fdump\-rtl\-btl2\fR" 4 +.IX Item "-fdump-rtl-btl2" +.PD +\&\fB\-fdump\-rtl\-btl1\fR and \fB\-fdump\-rtl\-btl2\fR enable dumping +after the two branch +target load optimization passes. +.IP "\fB\-fdump\-rtl\-bypass\fR" 4 +.IX Item "-fdump-rtl-bypass" +Dump after jump bypassing and control flow optimizations. +.IP "\fB\-fdump\-rtl\-combine\fR" 4 +.IX Item "-fdump-rtl-combine" +Dump after the \s-1RTL\s0 instruction combination pass. +.IP "\fB\-fdump\-rtl\-compgotos\fR" 4 +.IX Item "-fdump-rtl-compgotos" +Dump after duplicating the computed gotos. +.IP "\fB\-fdump\-rtl\-ce1\fR" 4 +.IX Item "-fdump-rtl-ce1" +.PD 0 +.IP "\fB\-fdump\-rtl\-ce2\fR" 4 +.IX Item "-fdump-rtl-ce2" +.IP "\fB\-fdump\-rtl\-ce3\fR" 4 +.IX Item "-fdump-rtl-ce3" +.PD +\&\fB\-fdump\-rtl\-ce1\fR, \fB\-fdump\-rtl\-ce2\fR, and +\&\fB\-fdump\-rtl\-ce3\fR enable dumping after the three +if conversion passes. +.IP "\fB\-fdump\-rtl\-cprop_hardreg\fR" 4 +.IX Item "-fdump-rtl-cprop_hardreg" +Dump after hard register copy propagation. +.IP "\fB\-fdump\-rtl\-csa\fR" 4 +.IX Item "-fdump-rtl-csa" +Dump after combining stack adjustments. +.IP "\fB\-fdump\-rtl\-cse1\fR" 4 +.IX Item "-fdump-rtl-cse1" +.PD 0 +.IP "\fB\-fdump\-rtl\-cse2\fR" 4 +.IX Item "-fdump-rtl-cse2" +.PD +\&\fB\-fdump\-rtl\-cse1\fR and \fB\-fdump\-rtl\-cse2\fR enable dumping after +the two common subexpression elimination passes. +.IP "\fB\-fdump\-rtl\-dce\fR" 4 +.IX Item "-fdump-rtl-dce" +Dump after the standalone dead code elimination passes. +.IP "\fB\-fdump\-rtl\-dbr\fR" 4 +.IX Item "-fdump-rtl-dbr" +Dump after delayed branch scheduling. +.IP "\fB\-fdump\-rtl\-dce1\fR" 4 +.IX Item "-fdump-rtl-dce1" +.PD 0 +.IP "\fB\-fdump\-rtl\-dce2\fR" 4 +.IX Item "-fdump-rtl-dce2" +.PD +\&\fB\-fdump\-rtl\-dce1\fR and \fB\-fdump\-rtl\-dce2\fR enable dumping after +the two dead store elimination passes. +.IP "\fB\-fdump\-rtl\-eh\fR" 4 +.IX Item "-fdump-rtl-eh" +Dump after finalization of \s-1EH\s0 handling code. +.IP "\fB\-fdump\-rtl\-eh_ranges\fR" 4 +.IX Item "-fdump-rtl-eh_ranges" +Dump after conversion of \s-1EH\s0 handling range regions. +.IP "\fB\-fdump\-rtl\-expand\fR" 4 +.IX Item "-fdump-rtl-expand" +Dump after \s-1RTL\s0 generation. +.IP "\fB\-fdump\-rtl\-fwprop1\fR" 4 +.IX Item "-fdump-rtl-fwprop1" +.PD 0 +.IP "\fB\-fdump\-rtl\-fwprop2\fR" 4 +.IX Item "-fdump-rtl-fwprop2" +.PD +\&\fB\-fdump\-rtl\-fwprop1\fR and \fB\-fdump\-rtl\-fwprop2\fR enable +dumping after the two forward propagation passes. +.IP "\fB\-fdump\-rtl\-gcse1\fR" 4 +.IX Item "-fdump-rtl-gcse1" +.PD 0 +.IP "\fB\-fdump\-rtl\-gcse2\fR" 4 +.IX Item "-fdump-rtl-gcse2" +.PD +\&\fB\-fdump\-rtl\-gcse1\fR and \fB\-fdump\-rtl\-gcse2\fR enable dumping +after global common subexpression elimination. +.IP "\fB\-fdump\-rtl\-init\-regs\fR" 4 +.IX Item "-fdump-rtl-init-regs" +Dump after the initialization of the registers. +.IP "\fB\-fdump\-rtl\-initvals\fR" 4 +.IX Item "-fdump-rtl-initvals" +Dump after the computation of the initial value sets. +.IP "\fB\-fdump\-rtl\-into_cfglayout\fR" 4 +.IX Item "-fdump-rtl-into_cfglayout" +Dump after converting to cfglayout mode. +.IP "\fB\-fdump\-rtl\-ira\fR" 4 +.IX Item "-fdump-rtl-ira" +Dump after iterated register allocation. +.IP "\fB\-fdump\-rtl\-jump\fR" 4 +.IX Item "-fdump-rtl-jump" +Dump after the second jump optimization. +.IP "\fB\-fdump\-rtl\-loop2\fR" 4 +.IX Item "-fdump-rtl-loop2" +\&\fB\-fdump\-rtl\-loop2\fR enables dumping after the rtl +loop optimization passes. +.IP "\fB\-fdump\-rtl\-mach\fR" 4 +.IX Item "-fdump-rtl-mach" +Dump after performing the machine dependent reorganization pass, if that +pass exists. +.IP "\fB\-fdump\-rtl\-mode_sw\fR" 4 +.IX Item "-fdump-rtl-mode_sw" +Dump after removing redundant mode switches. +.IP "\fB\-fdump\-rtl\-rnreg\fR" 4 +.IX Item "-fdump-rtl-rnreg" +Dump after register renumbering. +.IP "\fB\-fdump\-rtl\-outof_cfglayout\fR" 4 +.IX Item "-fdump-rtl-outof_cfglayout" +Dump after converting from cfglayout mode. +.IP "\fB\-fdump\-rtl\-peephole2\fR" 4 +.IX Item "-fdump-rtl-peephole2" +Dump after the peephole pass. +.IP "\fB\-fdump\-rtl\-postreload\fR" 4 +.IX Item "-fdump-rtl-postreload" +Dump after post-reload optimizations. +.IP "\fB\-fdump\-rtl\-pro_and_epilogue\fR" 4 +.IX Item "-fdump-rtl-pro_and_epilogue" +Dump after generating the function prologues and epilogues. +.IP "\fB\-fdump\-rtl\-sched1\fR" 4 +.IX Item "-fdump-rtl-sched1" +.PD 0 +.IP "\fB\-fdump\-rtl\-sched2\fR" 4 +.IX Item "-fdump-rtl-sched2" +.PD +\&\fB\-fdump\-rtl\-sched1\fR and \fB\-fdump\-rtl\-sched2\fR enable dumping +after the basic block scheduling passes. +.IP "\fB\-fdump\-rtl\-ree\fR" 4 +.IX Item "-fdump-rtl-ree" +Dump after sign/zero extension elimination. +.IP "\fB\-fdump\-rtl\-seqabstr\fR" 4 +.IX Item "-fdump-rtl-seqabstr" +Dump after common sequence discovery. +.IP "\fB\-fdump\-rtl\-shorten\fR" 4 +.IX Item "-fdump-rtl-shorten" +Dump after shortening branches. +.IP "\fB\-fdump\-rtl\-sibling\fR" 4 +.IX Item "-fdump-rtl-sibling" +Dump after sibling call optimizations. +.IP "\fB\-fdump\-rtl\-split1\fR" 4 +.IX Item "-fdump-rtl-split1" +.PD 0 +.IP "\fB\-fdump\-rtl\-split2\fR" 4 +.IX Item "-fdump-rtl-split2" +.IP "\fB\-fdump\-rtl\-split3\fR" 4 +.IX Item "-fdump-rtl-split3" +.IP "\fB\-fdump\-rtl\-split4\fR" 4 +.IX Item "-fdump-rtl-split4" +.IP "\fB\-fdump\-rtl\-split5\fR" 4 +.IX Item "-fdump-rtl-split5" +.PD +\&\fB\-fdump\-rtl\-split1\fR, \fB\-fdump\-rtl\-split2\fR, +\&\fB\-fdump\-rtl\-split3\fR, \fB\-fdump\-rtl\-split4\fR and +\&\fB\-fdump\-rtl\-split5\fR enable dumping after five rounds of +instruction splitting. +.IP "\fB\-fdump\-rtl\-sms\fR" 4 +.IX Item "-fdump-rtl-sms" +Dump after modulo scheduling. This pass is only run on some +architectures. +.IP "\fB\-fdump\-rtl\-stack\fR" 4 +.IX Item "-fdump-rtl-stack" +Dump after conversion from \s-1GCC\s0's \*(L"flat register file\*(R" registers to the +x87's stack-like registers. This pass is only run on x86 variants. +.IP "\fB\-fdump\-rtl\-subreg1\fR" 4 +.IX Item "-fdump-rtl-subreg1" +.PD 0 +.IP "\fB\-fdump\-rtl\-subreg2\fR" 4 +.IX Item "-fdump-rtl-subreg2" +.PD +\&\fB\-fdump\-rtl\-subreg1\fR and \fB\-fdump\-rtl\-subreg2\fR enable dumping after +the two subreg expansion passes. +.IP "\fB\-fdump\-rtl\-unshare\fR" 4 +.IX Item "-fdump-rtl-unshare" +Dump after all rtl has been unshared. +.IP "\fB\-fdump\-rtl\-vartrack\fR" 4 +.IX Item "-fdump-rtl-vartrack" +Dump after variable tracking. +.IP "\fB\-fdump\-rtl\-vregs\fR" 4 +.IX Item "-fdump-rtl-vregs" +Dump after converting virtual registers to hard registers. +.IP "\fB\-fdump\-rtl\-web\fR" 4 +.IX Item "-fdump-rtl-web" +Dump after live range splitting. +.IP "\fB\-fdump\-rtl\-regclass\fR" 4 +.IX Item "-fdump-rtl-regclass" +.PD 0 +.IP "\fB\-fdump\-rtl\-subregs_of_mode_init\fR" 4 +.IX Item "-fdump-rtl-subregs_of_mode_init" +.IP "\fB\-fdump\-rtl\-subregs_of_mode_finish\fR" 4 +.IX Item "-fdump-rtl-subregs_of_mode_finish" +.IP "\fB\-fdump\-rtl\-dfinit\fR" 4 +.IX Item "-fdump-rtl-dfinit" +.IP "\fB\-fdump\-rtl\-dfinish\fR" 4 +.IX Item "-fdump-rtl-dfinish" +.PD +These dumps are defined but always produce empty files. +.IP "\fB\-da\fR" 4 +.IX Item "-da" +.PD 0 +.IP "\fB\-fdump\-rtl\-all\fR" 4 +.IX Item "-fdump-rtl-all" +.PD +Produce all the dumps listed above. +.IP "\fB\-dA\fR" 4 +.IX Item "-dA" +Annotate the assembler output with miscellaneous debugging information. +.IP "\fB\-dD\fR" 4 +.IX Item "-dD" +Dump all macro definitions, at the end of preprocessing, in addition to +normal output. +.IP "\fB\-dH\fR" 4 +.IX Item "-dH" +Produce a core dump whenever an error occurs. +.IP "\fB\-dp\fR" 4 +.IX Item "-dp" +Annotate the assembler output with a comment indicating which +pattern and alternative is used. The length of each instruction is +also printed. +.IP "\fB\-dP\fR" 4 +.IX Item "-dP" +Dump the \s-1RTL\s0 in the assembler output as a comment before each instruction. +Also turns on \fB\-dp\fR annotation. +.IP "\fB\-dx\fR" 4 +.IX Item "-dx" +Just generate \s-1RTL\s0 for a function instead of compiling it. Usually used +with \fB\-fdump\-rtl\-expand\fR. +.RE +.RS 4 +.RE +.IP "\fB\-fdump\-noaddr\fR" 4 +.IX Item "-fdump-noaddr" +When doing debugging dumps, suppress address output. This makes it more +feasible to use diff on debugging dumps for compiler invocations with +different compiler binaries and/or different +text / bss / data / heap / stack / dso start locations. +.IP "\fB\-fdump\-unnumbered\fR" 4 +.IX Item "-fdump-unnumbered" +When doing debugging dumps, suppress instruction numbers and address output. +This makes it more feasible to use diff on debugging dumps for compiler +invocations with different options, in particular with and without +\&\fB\-g\fR. +.IP "\fB\-fdump\-unnumbered\-links\fR" 4 +.IX Item "-fdump-unnumbered-links" +When doing debugging dumps (see \fB\-d\fR option above), suppress +instruction numbers for the links to the previous and next instructions +in a sequence. +.IP "\fB\-fdump\-translation\-unit\fR (\*(C+ only)" 4 +.IX Item "-fdump-translation-unit ( only)" +.PD 0 +.IP "\fB\-fdump\-translation\-unit\-\fR\fIoptions\fR\fB \fR(\*(C+ only)" 4 +.IX Item "-fdump-translation-unit-options ( only)" +.PD +Dump a representation of the tree structure for the entire translation +unit to a file. The file name is made by appending \fI.tu\fR to the +source file name, and the file is created in the same directory as the +output file. If the \fB\-\fR\fIoptions\fR form is used, \fIoptions\fR +controls the details of the dump as described for the +\&\fB\-fdump\-tree\fR options. +.IP "\fB\-fdump\-class\-hierarchy\fR (\*(C+ only)" 4 +.IX Item "-fdump-class-hierarchy ( only)" +.PD 0 +.IP "\fB\-fdump\-class\-hierarchy\-\fR\fIoptions\fR\fB \fR(\*(C+ only)" 4 +.IX Item "-fdump-class-hierarchy-options ( only)" +.PD +Dump a representation of each class's hierarchy and virtual function +table layout to a file. The file name is made by appending +\&\fI.class\fR to the source file name, and the file is created in the +same directory as the output file. If the \fB\-\fR\fIoptions\fR form +is used, \fIoptions\fR controls the details of the dump as described +for the \fB\-fdump\-tree\fR options. +.IP "\fB\-fdump\-ipa\-\fR\fIswitch\fR" 4 +.IX Item "-fdump-ipa-switch" +Control the dumping at various stages of inter-procedural analysis +language tree to a file. The file name is generated by appending a +switch specific suffix to the source file name, and the file is created +in the same directory as the output file. The following dumps are +possible: +.RS 4 +.IP "\fBall\fR" 4 +.IX Item "all" +Enables all inter-procedural analysis dumps. +.IP "\fBcgraph\fR" 4 +.IX Item "cgraph" +Dumps information about call-graph optimization, unused function removal, +and inlining decisions. +.IP "\fBinline\fR" 4 +.IX Item "inline" +Dump after function inlining. +.RE +.RS 4 +.RE +.IP "\fB\-fdump\-passes\fR" 4 +.IX Item "-fdump-passes" +Dump the list of optimization passes that are turned on and off by +the current command-line options. +.IP "\fB\-fdump\-statistics\-\fR\fIoption\fR" 4 +.IX Item "-fdump-statistics-option" +Enable and control dumping of pass statistics in a separate file. The +file name is generated by appending a suffix ending in +\&\fB.statistics\fR to the source file name, and the file is created in +the same directory as the output file. If the \fB\-\fR\fIoption\fR +form is used, \fB\-stats\fR causes counters to be summed over the +whole compilation unit while \fB\-details\fR dumps every event as +the passes generate them. The default with no option is to sum +counters for each function compiled. +.IP "\fB\-fdump\-tree\-\fR\fIswitch\fR" 4 +.IX Item "-fdump-tree-switch" +.PD 0 +.IP "\fB\-fdump\-tree\-\fR\fIswitch\fR\fB\-\fR\fIoptions\fR" 4 +.IX Item "-fdump-tree-switch-options" +.IP "\fB\-fdump\-tree\-\fR\fIswitch\fR\fB\-\fR\fIoptions\fR\fB=\fR\fIfilename\fR" 4 +.IX Item "-fdump-tree-switch-options=filename" +.PD +Control the dumping at various stages of processing the intermediate +language tree to a file. The file name is generated by appending a +switch-specific suffix to the source file name, and the file is +created in the same directory as the output file. In case of +\&\fB=\fR\fIfilename\fR option, the dump is output on the given file +instead of the auto named dump files. If the \fB\-\fR\fIoptions\fR +form is used, \fIoptions\fR is a list of \fB\-\fR separated options +which control the details of the dump. Not all options are applicable +to all dumps; those that are not meaningful are ignored. The +following options are available +.RS 4 +.IP "\fBaddress\fR" 4 +.IX Item "address" +Print the address of each node. Usually this is not meaningful as it +changes according to the environment and source file. Its primary use +is for tying up a dump file with a debug environment. +.IP "\fBasmname\fR" 4 +.IX Item "asmname" +If \f(CW\*(C`DECL_ASSEMBLER_NAME\*(C'\fR has been set for a given decl, use that +in the dump instead of \f(CW\*(C`DECL_NAME\*(C'\fR. Its primary use is ease of +use working backward from mangled names in the assembly file. +.IP "\fBslim\fR" 4 +.IX Item "slim" +When dumping front-end intermediate representations, inhibit dumping +of members of a scope or body of a function merely because that scope +has been reached. Only dump such items when they are directly reachable +by some other path. +.Sp +When dumping pretty-printed trees, this option inhibits dumping the +bodies of control structures. +.Sp +When dumping \s-1RTL,\s0 print the \s-1RTL\s0 in slim (condensed) form instead of +the default LISP-like representation. +.IP "\fBraw\fR" 4 +.IX Item "raw" +Print a raw representation of the tree. By default, trees are +pretty-printed into a C\-like representation. +.IP "\fBdetails\fR" 4 +.IX Item "details" +Enable more detailed dumps (not honored by every dump option). Also +include information from the optimization passes. +.IP "\fBstats\fR" 4 +.IX Item "stats" +Enable dumping various statistics about the pass (not honored by every dump +option). +.IP "\fBblocks\fR" 4 +.IX Item "blocks" +Enable showing basic block boundaries (disabled in raw dumps). +.IP "\fBgraph\fR" 4 +.IX Item "graph" +For each of the other indicated dump files (\fB\-fdump\-rtl\-\fR\fIpass\fR), +dump a representation of the control flow graph suitable for viewing with +GraphViz to \fI\fIfile\fI.\fIpassid\fI.\fIpass\fI.dot\fR. Each function in +the file is pretty-printed as a subgraph, so that GraphViz can render them +all in a single plot. +.Sp +This option currently only works for \s-1RTL\s0 dumps, and the \s-1RTL\s0 is always +dumped in slim form. +.IP "\fBvops\fR" 4 +.IX Item "vops" +Enable showing virtual operands for every statement. +.IP "\fBlineno\fR" 4 +.IX Item "lineno" +Enable showing line numbers for statements. +.IP "\fBuid\fR" 4 +.IX Item "uid" +Enable showing the unique \s-1ID \s0(\f(CW\*(C`DECL_UID\*(C'\fR) for each variable. +.IP "\fBverbose\fR" 4 +.IX Item "verbose" +Enable showing the tree dump for each statement. +.IP "\fBeh\fR" 4 +.IX Item "eh" +Enable showing the \s-1EH\s0 region number holding each statement. +.IP "\fBscev\fR" 4 +.IX Item "scev" +Enable showing scalar evolution analysis details. +.IP "\fBoptimized\fR" 4 +.IX Item "optimized" +Enable showing optimization information (only available in certain +passes). +.IP "\fBmissed\fR" 4 +.IX Item "missed" +Enable showing missed optimization information (only available in certain +passes). +.IP "\fBnotes\fR" 4 +.IX Item "notes" +Enable other detailed optimization information (only available in +certain passes). +.IP "\fB=\fR\fIfilename\fR" 4 +.IX Item "=filename" +Instead of an auto named dump file, output into the given file +name. The file names \fIstdout\fR and \fIstderr\fR are treated +specially and are considered already open standard streams. For +example, +.Sp +.Vb 2 +\& gcc \-O2 \-ftree\-vectorize \-fdump\-tree\-vect\-blocks=foo.dump +\& \-fdump\-tree\-pre=stderr file.c +.Ve +.Sp +outputs vectorizer dump into \fIfoo.dump\fR, while the \s-1PRE\s0 dump is +output on to \fIstderr\fR. If two conflicting dump filenames are +given for the same pass, then the latter option overrides the earlier +one. +.IP "\fBall\fR" 4 +.IX Item "all" +Turn on all options, except \fBraw\fR, \fBslim\fR, \fBverbose\fR +and \fBlineno\fR. +.IP "\fBoptall\fR" 4 +.IX Item "optall" +Turn on all optimization options, i.e., \fBoptimized\fR, +\&\fBmissed\fR, and \fBnote\fR. +.RE +.RS 4 +.Sp +The following tree dumps are possible: +.IP "\fBoriginal\fR" 4 +.IX Item "original" +Dump before any tree based optimization, to \fI\fIfile\fI.original\fR. +.IP "\fBoptimized\fR" 4 +.IX Item "optimized" +Dump after all tree based optimization, to \fI\fIfile\fI.optimized\fR. +.IP "\fBgimple\fR" 4 +.IX Item "gimple" +Dump each function before and after the gimplification pass to a file. The +file name is made by appending \fI.gimple\fR to the source file name. +.IP "\fBcfg\fR" 4 +.IX Item "cfg" +Dump the control flow graph of each function to a file. The file name is +made by appending \fI.cfg\fR to the source file name. +.IP "\fBch\fR" 4 +.IX Item "ch" +Dump each function after copying loop headers. The file name is made by +appending \fI.ch\fR to the source file name. +.IP "\fBssa\fR" 4 +.IX Item "ssa" +Dump \s-1SSA\s0 related information to a file. The file name is made by appending +\&\fI.ssa\fR to the source file name. +.IP "\fBalias\fR" 4 +.IX Item "alias" +Dump aliasing information for each function. The file name is made by +appending \fI.alias\fR to the source file name. +.IP "\fBccp\fR" 4 +.IX Item "ccp" +Dump each function after \s-1CCP. \s0 The file name is made by appending +\&\fI.ccp\fR to the source file name. +.IP "\fBstoreccp\fR" 4 +.IX Item "storeccp" +Dump each function after STORE-CCP. The file name is made by appending +\&\fI.storeccp\fR to the source file name. +.IP "\fBpre\fR" 4 +.IX Item "pre" +Dump trees after partial redundancy elimination. The file name is made +by appending \fI.pre\fR to the source file name. +.IP "\fBfre\fR" 4 +.IX Item "fre" +Dump trees after full redundancy elimination. The file name is made +by appending \fI.fre\fR to the source file name. +.IP "\fBcopyprop\fR" 4 +.IX Item "copyprop" +Dump trees after copy propagation. The file name is made +by appending \fI.copyprop\fR to the source file name. +.IP "\fBstore_copyprop\fR" 4 +.IX Item "store_copyprop" +Dump trees after store copy-propagation. The file name is made +by appending \fI.store_copyprop\fR to the source file name. +.IP "\fBdce\fR" 4 +.IX Item "dce" +Dump each function after dead code elimination. The file name is made by +appending \fI.dce\fR to the source file name. +.IP "\fBsra\fR" 4 +.IX Item "sra" +Dump each function after performing scalar replacement of aggregates. The +file name is made by appending \fI.sra\fR to the source file name. +.IP "\fBsink\fR" 4 +.IX Item "sink" +Dump each function after performing code sinking. The file name is made +by appending \fI.sink\fR to the source file name. +.IP "\fBdom\fR" 4 +.IX Item "dom" +Dump each function after applying dominator tree optimizations. The file +name is made by appending \fI.dom\fR to the source file name. +.IP "\fBdse\fR" 4 +.IX Item "dse" +Dump each function after applying dead store elimination. The file +name is made by appending \fI.dse\fR to the source file name. +.IP "\fBphiopt\fR" 4 +.IX Item "phiopt" +Dump each function after optimizing \s-1PHI\s0 nodes into straightline code. The file +name is made by appending \fI.phiopt\fR to the source file name. +.IP "\fBforwprop\fR" 4 +.IX Item "forwprop" +Dump each function after forward propagating single use variables. The file +name is made by appending \fI.forwprop\fR to the source file name. +.IP "\fBcopyrename\fR" 4 +.IX Item "copyrename" +Dump each function after applying the copy rename optimization. The file +name is made by appending \fI.copyrename\fR to the source file name. +.IP "\fBnrv\fR" 4 +.IX Item "nrv" +Dump each function after applying the named return value optimization on +generic trees. The file name is made by appending \fI.nrv\fR to the source +file name. +.IP "\fBvect\fR" 4 +.IX Item "vect" +Dump each function after applying vectorization of loops. The file name is +made by appending \fI.vect\fR to the source file name. +.IP "\fBslp\fR" 4 +.IX Item "slp" +Dump each function after applying vectorization of basic blocks. The file name +is made by appending \fI.slp\fR to the source file name. +.IP "\fBvrp\fR" 4 +.IX Item "vrp" +Dump each function after Value Range Propagation (\s-1VRP\s0). The file name +is made by appending \fI.vrp\fR to the source file name. +.IP "\fBall\fR" 4 +.IX Item "all" +Enable all the available tree dumps with the flags provided in this option. +.RE +.RS 4 +.RE +.IP "\fB\-fopt\-info\fR" 4 +.IX Item "-fopt-info" +.PD 0 +.IP "\fB\-fopt\-info\-\fR\fIoptions\fR" 4 +.IX Item "-fopt-info-options" +.IP "\fB\-fopt\-info\-\fR\fIoptions\fR\fB=\fR\fIfilename\fR" 4 +.IX Item "-fopt-info-options=filename" +.PD +Controls optimization dumps from various optimization passes. If the +\&\fB\-\fR\fIoptions\fR form is used, \fIoptions\fR is a list of +\&\fB\-\fR separated options to select the dump details and +optimizations. If \fIoptions\fR is not specified, it defaults to +\&\fBoptimized\fR for details and \fBoptall\fR for optimization +groups. If the \fIfilename\fR is not specified, it defaults to +\&\fIstderr\fR. Note that the output \fIfilename\fR will be overwritten +in case of multiple translation units. If a combined output from +multiple translation units is desired, \fIstderr\fR should be used +instead. +.Sp +The options can be divided into two groups, 1) options describing the +verbosity of the dump, and 2) options describing which optimizations +should be included. The options from both the groups can be freely +mixed as they are non-overlapping. However, in case of any conflicts, +the latter options override the earlier options on the command +line. Though multiple \-fopt\-info options are accepted, only one of +them can have \fB=filename\fR. If other filenames are provided then +all but the first one are ignored. +.Sp +The dump verbosity has the following options +.RS 4 +.IP "\fBoptimized\fR" 4 +.IX Item "optimized" +Print information when an optimization is successfully applied. It is +up to a pass to decide which information is relevant. For example, the +vectorizer passes print the source location of loops which got +successfully vectorized. +.IP "\fBmissed\fR" 4 +.IX Item "missed" +Print information about missed optimizations. Individual passes +control which information to include in the output. For example, +.Sp +.Vb 1 +\& gcc \-O2 \-ftree\-vectorize \-fopt\-info\-vec\-missed +.Ve +.Sp +will print information about missed optimization opportunities from +vectorization passes on stderr. +.IP "\fBnote\fR" 4 +.IX Item "note" +Print verbose information about optimizations, such as certain +transformations, more detailed messages about decisions etc. +.IP "\fBall\fR" 4 +.IX Item "all" +Print detailed optimization information. This includes +\&\fIoptimized\fR, \fImissed\fR, and \fInote\fR. +.RE +.RS 4 +.Sp +The second set of options describes a group of optimizations and may +include one or more of the following. +.IP "\fBipa\fR" 4 +.IX Item "ipa" +Enable dumps from all interprocedural optimizations. +.IP "\fBloop\fR" 4 +.IX Item "loop" +Enable dumps from all loop optimizations. +.IP "\fBinline\fR" 4 +.IX Item "inline" +Enable dumps from all inlining optimizations. +.IP "\fBvec\fR" 4 +.IX Item "vec" +Enable dumps from all vectorization optimizations. +.IP "\fBoptall\fR" 4 +.IX Item "optall" +Enable dumps from all optimizations. This is a superset of +the optimization groups listed above. +.RE +.RS 4 +.Sp +For example, +.Sp +.Vb 1 +\& gcc \-O3 \-fopt\-info\-missed=missed.all +.Ve +.Sp +outputs missed optimization report from all the passes into +\&\fImissed.all\fR. +.Sp +As another example, +.Sp +.Vb 1 +\& gcc \-O3 \-fopt\-info\-inline\-optimized\-missed=inline.txt +.Ve +.Sp +will output information about missed optimizations as well as +optimized locations from all the inlining passes into +\&\fIinline.txt\fR. +.Sp +If the \fIfilename\fR is provided, then the dumps from all the +applicable optimizations are concatenated into the \fIfilename\fR. +Otherwise the dump is output onto \fIstderr\fR. If \fIoptions\fR is +omitted, it defaults to \fBall-optall\fR, which means dump all +available optimization info from all the passes. In the following +example, all optimization info is output on to \fIstderr\fR. +.Sp +.Vb 1 +\& gcc \-O3 \-fopt\-info +.Ve +.Sp +Note that \fB\-fopt\-info\-vec\-missed\fR behaves the same as +\&\fB\-fopt\-info\-missed\-vec\fR. +.Sp +As another example, consider +.Sp +.Vb 1 +\& gcc \-fopt\-info\-vec\-missed=vec.miss \-fopt\-info\-loop\-optimized=loop.opt +.Ve +.Sp +Here the two output filenames \fIvec.miss\fR and \fIloop.opt\fR are +in conflict since only one output file is allowed. In this case, only +the first option takes effect and the subsequent options are +ignored. Thus only the \fIvec.miss\fR is produced which contains +dumps from the vectorizer about missed opportunities. +.RE +.IP "\fB\-frandom\-seed=\fR\fIstring\fR" 4 +.IX Item "-frandom-seed=string" +This option provides a seed that \s-1GCC\s0 uses in place of +random numbers in generating certain symbol names +that have to be different in every compiled file. It is also used to +place unique stamps in coverage data files and the object files that +produce them. You can use the \fB\-frandom\-seed\fR option to produce +reproducibly identical object files. +.Sp +The \fIstring\fR should be different for every file you compile. +.IP "\fB\-fsched\-verbose=\fR\fIn\fR" 4 +.IX Item "-fsched-verbose=n" +On targets that use instruction scheduling, this option controls the +amount of debugging output the scheduler prints. This information is +written to standard error, unless \fB\-fdump\-rtl\-sched1\fR or +\&\fB\-fdump\-rtl\-sched2\fR is specified, in which case it is output +to the usual dump listing file, \fI.sched1\fR or \fI.sched2\fR +respectively. However for \fIn\fR greater than nine, the output is +always printed to standard error. +.Sp +For \fIn\fR greater than zero, \fB\-fsched\-verbose\fR outputs the +same information as \fB\-fdump\-rtl\-sched1\fR and \fB\-fdump\-rtl\-sched2\fR. +For \fIn\fR greater than one, it also output basic block probabilities, +detailed ready list information and unit/insn info. For \fIn\fR greater +than two, it includes \s-1RTL\s0 at abort point, control-flow and regions info. +And for \fIn\fR over four, \fB\-fsched\-verbose\fR also includes +dependence info. +.IP "\fB\-save\-temps\fR" 4 +.IX Item "-save-temps" +.PD 0 +.IP "\fB\-save\-temps=cwd\fR" 4 +.IX Item "-save-temps=cwd" +.PD +Store the usual \*(L"temporary\*(R" intermediate files permanently; place them +in the current directory and name them based on the source file. Thus, +compiling \fIfoo.c\fR with \fB\-c \-save\-temps\fR produces files +\&\fIfoo.i\fR and \fIfoo.s\fR, as well as \fIfoo.o\fR. This creates a +preprocessed \fIfoo.i\fR output file even though the compiler now +normally uses an integrated preprocessor. +.Sp +When used in combination with the \fB\-x\fR command-line option, +\&\fB\-save\-temps\fR is sensible enough to avoid over writing an +input source file with the same extension as an intermediate file. +The corresponding intermediate file may be obtained by renaming the +source file before using \fB\-save\-temps\fR. +.Sp +If you invoke \s-1GCC\s0 in parallel, compiling several different source +files that share a common base name in different subdirectories or the +same source file compiled for multiple output destinations, it is +likely that the different parallel compilers will interfere with each +other, and overwrite the temporary files. For instance: +.Sp +.Vb 2 +\& gcc \-save\-temps \-o outdir1/foo.o indir1/foo.c& +\& gcc \-save\-temps \-o outdir2/foo.o indir2/foo.c& +.Ve +.Sp +may result in \fIfoo.i\fR and \fIfoo.o\fR being written to +simultaneously by both compilers. +.IP "\fB\-save\-temps=obj\fR" 4 +.IX Item "-save-temps=obj" +Store the usual \*(L"temporary\*(R" intermediate files permanently. If the +\&\fB\-o\fR option is used, the temporary files are based on the +object file. If the \fB\-o\fR option is not used, the +\&\fB\-save\-temps=obj\fR switch behaves like \fB\-save\-temps\fR. +.Sp +For example: +.Sp +.Vb 3 +\& gcc \-save\-temps=obj \-c foo.c +\& gcc \-save\-temps=obj \-c bar.c \-o dir/xbar.o +\& gcc \-save\-temps=obj foobar.c \-o dir2/yfoobar +.Ve +.Sp +creates \fIfoo.i\fR, \fIfoo.s\fR, \fIdir/xbar.i\fR, +\&\fIdir/xbar.s\fR, \fIdir2/yfoobar.i\fR, \fIdir2/yfoobar.s\fR, and +\&\fIdir2/yfoobar.o\fR. +.IP "\fB\-time\fR[\fB=\fR\fIfile\fR]" 4 +.IX Item "-time[=file]" +Report the \s-1CPU\s0 time taken by each subprocess in the compilation +sequence. For C source files, this is the compiler proper and assembler +(plus the linker if linking is done). +.Sp +Without the specification of an output file, the output looks like this: +.Sp +.Vb 2 +\& # cc1 0.12 0.01 +\& # as 0.00 0.01 +.Ve +.Sp +The first number on each line is the \*(L"user time\*(R", that is time spent +executing the program itself. The second number is \*(L"system time\*(R", +time spent executing operating system routines on behalf of the program. +Both numbers are in seconds. +.Sp +With the specification of an output file, the output is appended to the +named file, and it looks like this: +.Sp +.Vb 2 +\& 0.12 0.01 cc1 <options> +\& 0.00 0.01 as <options> +.Ve +.Sp +The \*(L"user time\*(R" and the \*(L"system time\*(R" are moved before the program +name, and the options passed to the program are displayed, so that one +can later tell what file was being compiled, and with which options. +.IP "\fB\-fvar\-tracking\fR" 4 +.IX Item "-fvar-tracking" +Run variable tracking pass. It computes where variables are stored at each +position in code. Better debugging information is then generated +(if the debugging information format supports this information). +.Sp +It is enabled by default when compiling with optimization (\fB\-Os\fR, +\&\fB\-O\fR, \fB\-O2\fR, ...), debugging information (\fB\-g\fR) and +the debug info format supports it. +.IP "\fB\-fvar\-tracking\-assignments\fR" 4 +.IX Item "-fvar-tracking-assignments" +Annotate assignments to user variables early in the compilation and +attempt to carry the annotations over throughout the compilation all the +way to the end, in an attempt to improve debug information while +optimizing. Use of \fB\-gdwarf\-4\fR is recommended along with it. +.Sp +It can be enabled even if var-tracking is disabled, in which case +annotations are created and maintained, but discarded at the end. +.IP "\fB\-fvar\-tracking\-assignments\-toggle\fR" 4 +.IX Item "-fvar-tracking-assignments-toggle" +Toggle \fB\-fvar\-tracking\-assignments\fR, in the same way that +\&\fB\-gtoggle\fR toggles \fB\-g\fR. +.IP "\fB\-print\-file\-name=\fR\fIlibrary\fR" 4 +.IX Item "-print-file-name=library" +Print the full absolute name of the library file \fIlibrary\fR that +would be used when linking\-\-\-and don't do anything else. With this +option, \s-1GCC\s0 does not compile or link anything; it just prints the +file name. +.IP "\fB\-print\-multi\-directory\fR" 4 +.IX Item "-print-multi-directory" +Print the directory name corresponding to the multilib selected by any +other switches present in the command line. This directory is supposed +to exist in \fB\s-1GCC_EXEC_PREFIX\s0\fR. +.IP "\fB\-print\-multi\-lib\fR" 4 +.IX Item "-print-multi-lib" +Print the mapping from multilib directory names to compiler switches +that enable them. The directory name is separated from the switches by +\&\fB;\fR, and each switch starts with an \fB@\fR instead of the +\&\fB\-\fR, without spaces between multiple switches. This is supposed to +ease shell processing. +.IP "\fB\-print\-multi\-os\-directory\fR" 4 +.IX Item "-print-multi-os-directory" +Print the path to \s-1OS\s0 libraries for the selected +multilib, relative to some \fIlib\fR subdirectory. If \s-1OS\s0 libraries are +present in the \fIlib\fR subdirectory and no multilibs are used, this is +usually just \fI.\fR, if \s-1OS\s0 libraries are present in \fIlib\fIsuffix\fI\fR +sibling directories this prints e.g. \fI../lib64\fR, \fI../lib\fR or +\&\fI../lib32\fR, or if \s-1OS\s0 libraries are present in \fIlib/\fIsubdir\fI\fR +subdirectories it prints e.g. \fIamd64\fR, \fIsparcv9\fR or \fIev6\fR. +.IP "\fB\-print\-multiarch\fR" 4 +.IX Item "-print-multiarch" +Print the path to \s-1OS\s0 libraries for the selected multiarch, +relative to some \fIlib\fR subdirectory. +.IP "\fB\-print\-prog\-name=\fR\fIprogram\fR" 4 +.IX Item "-print-prog-name=program" +Like \fB\-print\-file\-name\fR, but searches for a program such as \fBcpp\fR. +.IP "\fB\-print\-libgcc\-file\-name\fR" 4 +.IX Item "-print-libgcc-file-name" +Same as \fB\-print\-file\-name=libgcc.a\fR. +.Sp +This is useful when you use \fB\-nostdlib\fR or \fB\-nodefaultlibs\fR +but you do want to link with \fIlibgcc.a\fR. You can do: +.Sp +.Vb 1 +\& gcc \-nostdlib <files>... \`gcc \-print\-libgcc\-file\-name\` +.Ve +.IP "\fB\-print\-search\-dirs\fR" 4 +.IX Item "-print-search-dirs" +Print the name of the configured installation directory and a list of +program and library directories \fBgcc\fR searches\-\-\-and don't do anything else. +.Sp +This is useful when \fBgcc\fR prints the error message +\&\fBinstallation problem, cannot exec cpp0: No such file or directory\fR. +To resolve this you either need to put \fIcpp0\fR and the other compiler +components where \fBgcc\fR expects to find them, or you can set the environment +variable \fB\s-1GCC_EXEC_PREFIX\s0\fR to the directory where you installed them. +Don't forget the trailing \fB/\fR. +.IP "\fB\-print\-sysroot\fR" 4 +.IX Item "-print-sysroot" +Print the target sysroot directory that is used during +compilation. This is the target sysroot specified either at configure +time or using the \fB\-\-sysroot\fR option, possibly with an extra +suffix that depends on compilation options. If no target sysroot is +specified, the option prints nothing. +.IP "\fB\-print\-sysroot\-headers\-suffix\fR" 4 +.IX Item "-print-sysroot-headers-suffix" +Print the suffix added to the target sysroot when searching for +headers, or give an error if the compiler is not configured with such +a suffix\-\-\-and don't do anything else. +.IP "\fB\-dumpmachine\fR" 4 +.IX Item "-dumpmachine" +Print the compiler's target machine (for example, +\&\fBi686\-pc\-linux\-gnu\fR)\-\-\-and don't do anything else. +.IP "\fB\-dumpversion\fR" 4 +.IX Item "-dumpversion" +Print the compiler version (for example, \fB3.0\fR)\-\-\-and don't do +anything else. +.IP "\fB\-dumpspecs\fR" 4 +.IX Item "-dumpspecs" +Print the compiler's built-in specs\-\-\-and don't do anything else. (This +is used when \s-1GCC\s0 itself is being built.) +.IP "\fB\-fno\-eliminate\-unused\-debug\-types\fR" 4 +.IX Item "-fno-eliminate-unused-debug-types" +Normally, when producing \s-1DWARF 2\s0 output, \s-1GCC\s0 avoids producing debug symbol +output for types that are nowhere used in the source file being compiled. +Sometimes it is useful to have \s-1GCC\s0 emit debugging +information for all types declared in a compilation +unit, regardless of whether or not they are actually used +in that compilation unit, for example +if, in the debugger, you want to cast a value to a type that is +not actually used in your program (but is declared). More often, +however, this results in a significant amount of wasted space. +.SS "Options That Control Optimization" +.IX Subsection "Options That Control Optimization" +These options control various sorts of optimizations. +.PP +Without any optimization option, the compiler's goal is to reduce the +cost of compilation and to make debugging produce the expected +results. Statements are independent: if you stop the program with a +breakpoint between statements, you can then assign a new value to any +variable or change the program counter to any other statement in the +function and get exactly the results you expect from the source +code. +.PP +Turning on optimization flags makes the compiler attempt to improve +the performance and/or code size at the expense of compilation time +and possibly the ability to debug the program. +.PP +The compiler performs optimization based on the knowledge it has of the +program. Compiling multiple files at once to a single output file mode allows +the compiler to use information gained from all of the files when compiling +each of them. +.PP +Not all optimizations are controlled directly by a flag. Only +optimizations that have a flag are listed in this section. +.PP +Most optimizations are only enabled if an \fB\-O\fR level is set on +the command line. Otherwise they are disabled, even if individual +optimization flags are specified. +.PP +Depending on the target and how \s-1GCC\s0 was configured, a slightly different +set of optimizations may be enabled at each \fB\-O\fR level than +those listed here. You can invoke \s-1GCC\s0 with \fB\-Q \-\-help=optimizers\fR +to find out the exact set of optimizations that are enabled at each level. +.IP "\fB\-O\fR" 4 +.IX Item "-O" +.PD 0 +.IP "\fB\-O1\fR" 4 +.IX Item "-O1" +.PD +Optimize. Optimizing compilation takes somewhat more time, and a lot +more memory for a large function. +.Sp +With \fB\-O\fR, the compiler tries to reduce code size and execution +time, without performing any optimizations that take a great deal of +compilation time. +.Sp +\&\fB\-O\fR turns on the following optimization flags: +.Sp +\&\fB\-fauto\-inc\-dec +\&\-fcompare\-elim +\&\-fcprop\-registers +\&\-fdce +\&\-fdefer\-pop +\&\-fdelayed\-branch +\&\-fdse +\&\-fguess\-branch\-probability +\&\-fif\-conversion2 +\&\-fif\-conversion +\&\-fipa\-pure\-const +\&\-fipa\-profile +\&\-fipa\-reference +\&\-fmerge\-constants +\&\-fsplit\-wide\-types +\&\-ftree\-bit\-ccp +\&\-ftree\-builtin\-call\-dce +\&\-ftree\-ccp +\&\-ftree\-ch +\&\-ftree\-copyrename +\&\-ftree\-dce +\&\-ftree\-dominator\-opts +\&\-ftree\-dse +\&\-ftree\-forwprop +\&\-ftree\-fre +\&\-ftree\-phiprop +\&\-ftree\-slsr +\&\-ftree\-sra +\&\-ftree\-pta +\&\-ftree\-ter +\&\-funit\-at\-a\-time\fR +.Sp +\&\fB\-O\fR also turns on \fB\-fomit\-frame\-pointer\fR on machines +where doing so does not interfere with debugging. +.IP "\fB\-O2\fR" 4 +.IX Item "-O2" +Optimize even more. \s-1GCC\s0 performs nearly all supported optimizations +that do not involve a space-speed tradeoff. +As compared to \fB\-O\fR, this option increases both compilation time +and the performance of the generated code. +.Sp +\&\fB\-O2\fR turns on all optimization flags specified by \fB\-O\fR. It +also turns on the following optimization flags: +\&\fB\-fthread\-jumps +\&\-falign\-functions \-falign\-jumps +\&\-falign\-loops \-falign\-labels +\&\-fcaller\-saves +\&\-fcrossjumping +\&\-fcse\-follow\-jumps \-fcse\-skip\-blocks +\&\-fdelete\-null\-pointer\-checks +\&\-fdevirtualize \-fdevirtualize\-speculatively +\&\-fexpensive\-optimizations +\&\-fgcse \-fgcse\-lm +\&\-fhoist\-adjacent\-loads +\&\-finline\-small\-functions +\&\-findirect\-inlining +\&\-fipa\-sra +\&\-fisolate\-erroneous\-paths\-dereference +\&\-foptimize\-sibling\-calls +\&\-fpartial\-inlining +\&\-fpeephole2 +\&\-freorder\-blocks \-freorder\-functions +\&\-frerun\-cse\-after\-loop +\&\-fsched\-interblock \-fsched\-spec +\&\-fschedule\-insns \-fschedule\-insns2 +\&\-fstrict\-aliasing \-fstrict\-overflow +\&\-ftree\-switch\-conversion \-ftree\-tail\-merge +\&\-ftree\-pre +\&\-ftree\-vrp\fR +.Sp +Please note the warning under \fB\-fgcse\fR about +invoking \fB\-O2\fR on programs that use computed gotos. +.IP "\fB\-O3\fR" 4 +.IX Item "-O3" +Optimize yet more. \fB\-O3\fR turns on all optimizations specified +by \fB\-O2\fR and also turns on the \fB\-finline\-functions\fR, +\&\fB\-funswitch\-loops\fR, \fB\-fpredictive\-commoning\fR, +\&\fB\-fgcse\-after\-reload\fR, \fB\-ftree\-loop\-vectorize\fR, +\&\fB\-ftree\-slp\-vectorize\fR, \fB\-fvect\-cost\-model\fR, +\&\fB\-ftree\-partial\-pre\fR and \fB\-fipa\-cp\-clone\fR options. +.IP "\fB\-O0\fR" 4 +.IX Item "-O0" +Reduce compilation time and make debugging produce the expected +results. This is the default. +.IP "\fB\-Os\fR" 4 +.IX Item "-Os" +Optimize for size. \fB\-Os\fR enables all \fB\-O2\fR optimizations that +do not typically increase code size. It also performs further +optimizations designed to reduce code size. +.Sp +\&\fB\-Os\fR disables the following optimization flags: +\&\fB\-falign\-functions \-falign\-jumps \-falign\-loops +\&\-falign\-labels \-freorder\-blocks \-freorder\-blocks\-and\-partition +\&\-fprefetch\-loop\-arrays\fR +.IP "\fB\-Ofast\fR" 4 +.IX Item "-Ofast" +Disregard strict standards compliance. \fB\-Ofast\fR enables all +\&\fB\-O3\fR optimizations. It also enables optimizations that are not +valid for all standard-compliant programs. +It turns on \fB\-ffast\-math\fR and the Fortran-specific +\&\fB\-fno\-protect\-parens\fR and \fB\-fstack\-arrays\fR. +.IP "\fB\-Og\fR" 4 +.IX Item "-Og" +Optimize debugging experience. \fB\-Og\fR enables optimizations +that do not interfere with debugging. It should be the optimization +level of choice for the standard edit-compile-debug cycle, offering +a reasonable level of optimization while maintaining fast compilation +and a good debugging experience. +.Sp +If you use multiple \fB\-O\fR options, with or without level numbers, +the last such option is the one that is effective. +.PP +Options of the form \fB\-f\fR\fIflag\fR specify machine-independent +flags. Most flags have both positive and negative forms; the negative +form of \fB\-ffoo\fR is \fB\-fno\-foo\fR. In the table +below, only one of the forms is listed\-\-\-the one you typically +use. You can figure out the other form by either removing \fBno\-\fR +or adding it. +.PP +The following options control specific optimizations. They are either +activated by \fB\-O\fR options or are related to ones that are. You +can use the following flags in the rare cases when \*(L"fine-tuning\*(R" of +optimizations to be performed is desired. +.IP "\fB\-fno\-defer\-pop\fR" 4 +.IX Item "-fno-defer-pop" +Always pop the arguments to each function call as soon as that function +returns. For machines that must pop arguments after a function call, +the compiler normally lets arguments accumulate on the stack for several +function calls and pops them all at once. +.Sp +Disabled at levels \fB\-O\fR, \fB\-O2\fR, \fB\-O3\fR, \fB\-Os\fR. +.IP "\fB\-fforward\-propagate\fR" 4 +.IX Item "-fforward-propagate" +Perform a forward propagation pass on \s-1RTL. \s0 The pass tries to combine two +instructions and checks if the result can be simplified. If loop unrolling +is active, two passes are performed and the second is scheduled after +loop unrolling. +.Sp +This option is enabled by default at optimization levels \fB\-O\fR, +\&\fB\-O2\fR, \fB\-O3\fR, \fB\-Os\fR. +.IP "\fB\-ffp\-contract=\fR\fIstyle\fR" 4 +.IX Item "-ffp-contract=style" +\&\fB\-ffp\-contract=off\fR disables floating-point expression contraction. +\&\fB\-ffp\-contract=fast\fR enables floating-point expression contraction +such as forming of fused multiply-add operations if the target has +native support for them. +\&\fB\-ffp\-contract=on\fR enables floating-point expression contraction +if allowed by the language standard. This is currently not implemented +and treated equal to \fB\-ffp\-contract=off\fR. +.Sp +The default is \fB\-ffp\-contract=fast\fR. +.IP "\fB\-fomit\-frame\-pointer\fR" 4 +.IX Item "-fomit-frame-pointer" +Don't keep the frame pointer in a register for functions that +don't need one. This avoids the instructions to save, set up and +restore frame pointers; it also makes an extra register available +in many functions. \fBIt also makes debugging impossible on +some machines.\fR +.Sp +On some machines, such as the \s-1VAX,\s0 this flag has no effect, because +the standard calling sequence automatically handles the frame pointer +and nothing is saved by pretending it doesn't exist. The +machine-description macro \f(CW\*(C`FRAME_POINTER_REQUIRED\*(C'\fR controls +whether a target machine supports this flag. +.Sp +Starting with \s-1GCC\s0 version 4.6, the default setting (when not optimizing for +size) for 32\-bit GNU/Linux x86 and 32\-bit Darwin x86 targets has been changed to +\&\fB\-fomit\-frame\-pointer\fR. The default can be reverted to +\&\fB\-fno\-omit\-frame\-pointer\fR by configuring \s-1GCC\s0 with the +\&\fB\-\-enable\-frame\-pointer\fR configure option. +.Sp +Enabled at levels \fB\-O\fR, \fB\-O2\fR, \fB\-O3\fR, \fB\-Os\fR. +.IP "\fB\-foptimize\-sibling\-calls\fR" 4 +.IX Item "-foptimize-sibling-calls" +Optimize sibling and tail recursive calls. +.Sp +Enabled at levels \fB\-O2\fR, \fB\-O3\fR, \fB\-Os\fR. +.IP "\fB\-fno\-inline\fR" 4 +.IX Item "-fno-inline" +Do not expand any functions inline apart from those marked with +the \f(CW\*(C`always_inline\*(C'\fR attribute. This is the default when not +optimizing. +.Sp +Single functions can be exempted from inlining by marking them +with the \f(CW\*(C`noinline\*(C'\fR attribute. +.IP "\fB\-finline\-small\-functions\fR" 4 +.IX Item "-finline-small-functions" +Integrate functions into their callers when their body is smaller than expected +function call code (so overall size of program gets smaller). The compiler +heuristically decides which functions are simple enough to be worth integrating +in this way. This inlining applies to all functions, even those not declared +inline. +.Sp +Enabled at level \fB\-O2\fR. +.IP "\fB\-findirect\-inlining\fR" 4 +.IX Item "-findirect-inlining" +Inline also indirect calls that are discovered to be known at compile +time thanks to previous inlining. This option has any effect only +when inlining itself is turned on by the \fB\-finline\-functions\fR +or \fB\-finline\-small\-functions\fR options. +.Sp +Enabled at level \fB\-O2\fR. +.IP "\fB\-finline\-functions\fR" 4 +.IX Item "-finline-functions" +Consider all functions for inlining, even if they are not declared inline. +The compiler heuristically decides which functions are worth integrating +in this way. +.Sp +If all calls to a given function are integrated, and the function is +declared \f(CW\*(C`static\*(C'\fR, then the function is normally not output as +assembler code in its own right. +.Sp +Enabled at level \fB\-O3\fR. +.IP "\fB\-finline\-functions\-called\-once\fR" 4 +.IX Item "-finline-functions-called-once" +Consider all \f(CW\*(C`static\*(C'\fR functions called once for inlining into their +caller even if they are not marked \f(CW\*(C`inline\*(C'\fR. If a call to a given +function is integrated, then the function is not output as assembler code +in its own right. +.Sp +Enabled at levels \fB\-O1\fR, \fB\-O2\fR, \fB\-O3\fR and \fB\-Os\fR. +.IP "\fB\-fearly\-inlining\fR" 4 +.IX Item "-fearly-inlining" +Inline functions marked by \f(CW\*(C`always_inline\*(C'\fR and functions whose body seems +smaller than the function call overhead early before doing +\&\fB\-fprofile\-generate\fR instrumentation and real inlining pass. Doing so +makes profiling significantly cheaper and usually inlining faster on programs +having large chains of nested wrapper functions. +.Sp +Enabled by default. +.IP "\fB\-fipa\-sra\fR" 4 +.IX Item "-fipa-sra" +Perform interprocedural scalar replacement of aggregates, removal of +unused parameters and replacement of parameters passed by reference +by parameters passed by value. +.Sp +Enabled at levels \fB\-O2\fR, \fB\-O3\fR and \fB\-Os\fR. +.IP "\fB\-finline\-limit=\fR\fIn\fR" 4 +.IX Item "-finline-limit=n" +By default, \s-1GCC\s0 limits the size of functions that can be inlined. This flag +allows coarse control of this limit. \fIn\fR is the size of functions that +can be inlined in number of pseudo instructions. +.Sp +Inlining is actually controlled by a number of parameters, which may be +specified individually by using \fB\-\-param\fR \fIname\fR\fB=\fR\fIvalue\fR. +The \fB\-finline\-limit=\fR\fIn\fR option sets some of these parameters +as follows: +.RS 4 +.IP "\fBmax-inline-insns-single\fR" 4 +.IX Item "max-inline-insns-single" +is set to \fIn\fR/2. +.IP "\fBmax-inline-insns-auto\fR" 4 +.IX Item "max-inline-insns-auto" +is set to \fIn\fR/2. +.RE +.RS 4 +.Sp +See below for a documentation of the individual +parameters controlling inlining and for the defaults of these parameters. +.Sp +\&\fINote:\fR there may be no value to \fB\-finline\-limit\fR that results +in default behavior. +.Sp +\&\fINote:\fR pseudo instruction represents, in this particular context, an +abstract measurement of function's size. In no way does it represent a count +of assembly instructions and as such its exact meaning might change from one +release to an another. +.RE +.IP "\fB\-fno\-keep\-inline\-dllexport\fR" 4 +.IX Item "-fno-keep-inline-dllexport" +This is a more fine-grained version of \fB\-fkeep\-inline\-functions\fR, +which applies only to functions that are declared using the \f(CW\*(C`dllexport\*(C'\fR +attribute or declspec +.IP "\fB\-fkeep\-inline\-functions\fR" 4 +.IX Item "-fkeep-inline-functions" +In C, emit \f(CW\*(C`static\*(C'\fR functions that are declared \f(CW\*(C`inline\*(C'\fR +into the object file, even if the function has been inlined into all +of its callers. This switch does not affect functions using the +\&\f(CW\*(C`extern inline\*(C'\fR extension in \s-1GNU C90. \s0 In \*(C+, emit any and all +inline functions into the object file. +.IP "\fB\-fkeep\-static\-consts\fR" 4 +.IX Item "-fkeep-static-consts" +Emit variables declared \f(CW\*(C`static const\*(C'\fR when optimization isn't turned +on, even if the variables aren't referenced. +.Sp +\&\s-1GCC\s0 enables this option by default. If you want to force the compiler to +check if a variable is referenced, regardless of whether or not +optimization is turned on, use the \fB\-fno\-keep\-static\-consts\fR option. +.IP "\fB\-fmerge\-constants\fR" 4 +.IX Item "-fmerge-constants" +Attempt to merge identical constants (string constants and floating-point +constants) across compilation units. +.Sp +This option is the default for optimized compilation if the assembler and +linker support it. Use \fB\-fno\-merge\-constants\fR to inhibit this +behavior. +.Sp +Enabled at levels \fB\-O\fR, \fB\-O2\fR, \fB\-O3\fR, \fB\-Os\fR. +.IP "\fB\-fmerge\-all\-constants\fR" 4 +.IX Item "-fmerge-all-constants" +Attempt to merge identical constants and identical variables. +.Sp +This option implies \fB\-fmerge\-constants\fR. In addition to +\&\fB\-fmerge\-constants\fR this considers e.g. even constant initialized +arrays or initialized constant variables with integral or floating-point +types. Languages like C or \*(C+ require each variable, including multiple +instances of the same variable in recursive calls, to have distinct locations, +so using this option results in non-conforming +behavior. +.IP "\fB\-fmodulo\-sched\fR" 4 +.IX Item "-fmodulo-sched" +Perform swing modulo scheduling immediately before the first scheduling +pass. This pass looks at innermost loops and reorders their +instructions by overlapping different iterations. +.IP "\fB\-fmodulo\-sched\-allow\-regmoves\fR" 4 +.IX Item "-fmodulo-sched-allow-regmoves" +Perform more aggressive SMS-based modulo scheduling with register moves +allowed. By setting this flag certain anti-dependences edges are +deleted, which triggers the generation of reg-moves based on the +life-range analysis. This option is effective only with +\&\fB\-fmodulo\-sched\fR enabled. +.IP "\fB\-fno\-branch\-count\-reg\fR" 4 +.IX Item "-fno-branch-count-reg" +Do not use \*(L"decrement and branch\*(R" instructions on a count register, +but instead generate a sequence of instructions that decrement a +register, compare it against zero, then branch based upon the result. +This option is only meaningful on architectures that support such +instructions, which include x86, PowerPC, \s-1IA\-64\s0 and S/390. +.Sp +The default is \fB\-fbranch\-count\-reg\fR. +.IP "\fB\-fno\-function\-cse\fR" 4 +.IX Item "-fno-function-cse" +Do not put function addresses in registers; make each instruction that +calls a constant function contain the function's address explicitly. +.Sp +This option results in less efficient code, but some strange hacks +that alter the assembler output may be confused by the optimizations +performed when this option is not used. +.Sp +The default is \fB\-ffunction\-cse\fR +.IP "\fB\-fno\-zero\-initialized\-in\-bss\fR" 4 +.IX Item "-fno-zero-initialized-in-bss" +If the target supports a \s-1BSS\s0 section, \s-1GCC\s0 by default puts variables that +are initialized to zero into \s-1BSS. \s0 This can save space in the resulting +code. +.Sp +This option turns off this behavior because some programs explicitly +rely on variables going to the data section\-\-\-e.g., so that the +resulting executable can find the beginning of that section and/or make +assumptions based on that. +.Sp +The default is \fB\-fzero\-initialized\-in\-bss\fR. +.IP "\fB\-fthread\-jumps\fR" 4 +.IX Item "-fthread-jumps" +Perform optimizations that check to see if a jump branches to a +location where another comparison subsumed by the first is found. If +so, the first branch is redirected to either the destination of the +second branch or a point immediately following it, depending on whether +the condition is known to be true or false. +.Sp +Enabled at levels \fB\-O2\fR, \fB\-O3\fR, \fB\-Os\fR. +.IP "\fB\-fsplit\-wide\-types\fR" 4 +.IX Item "-fsplit-wide-types" +When using a type that occupies multiple registers, such as \f(CW\*(C`long +long\*(C'\fR on a 32\-bit system, split the registers apart and allocate them +independently. This normally generates better code for those types, +but may make debugging more difficult. +.Sp +Enabled at levels \fB\-O\fR, \fB\-O2\fR, \fB\-O3\fR, +\&\fB\-Os\fR. +.IP "\fB\-fcse\-follow\-jumps\fR" 4 +.IX Item "-fcse-follow-jumps" +In common subexpression elimination (\s-1CSE\s0), scan through jump instructions +when the target of the jump is not reached by any other path. For +example, when \s-1CSE\s0 encounters an \f(CW\*(C`if\*(C'\fR statement with an +\&\f(CW\*(C`else\*(C'\fR clause, \s-1CSE\s0 follows the jump when the condition +tested is false. +.Sp +Enabled at levels \fB\-O2\fR, \fB\-O3\fR, \fB\-Os\fR. +.IP "\fB\-fcse\-skip\-blocks\fR" 4 +.IX Item "-fcse-skip-blocks" +This is similar to \fB\-fcse\-follow\-jumps\fR, but causes \s-1CSE\s0 to +follow jumps that conditionally skip over blocks. When \s-1CSE\s0 +encounters a simple \f(CW\*(C`if\*(C'\fR statement with no else clause, +\&\fB\-fcse\-skip\-blocks\fR causes \s-1CSE\s0 to follow the jump around the +body of the \f(CW\*(C`if\*(C'\fR. +.Sp +Enabled at levels \fB\-O2\fR, \fB\-O3\fR, \fB\-Os\fR. +.IP "\fB\-frerun\-cse\-after\-loop\fR" 4 +.IX Item "-frerun-cse-after-loop" +Re-run common subexpression elimination after loop optimizations are +performed. +.Sp +Enabled at levels \fB\-O2\fR, \fB\-O3\fR, \fB\-Os\fR. +.IP "\fB\-fgcse\fR" 4 +.IX Item "-fgcse" +Perform a global common subexpression elimination pass. +This pass also performs global constant and copy propagation. +.Sp +\&\fINote:\fR When compiling a program using computed gotos, a \s-1GCC\s0 +extension, you may get better run-time performance if you disable +the global common subexpression elimination pass by adding +\&\fB\-fno\-gcse\fR to the command line. +.Sp +Enabled at levels \fB\-O2\fR, \fB\-O3\fR, \fB\-Os\fR. +.IP "\fB\-fgcse\-lm\fR" 4 +.IX Item "-fgcse-lm" +When \fB\-fgcse\-lm\fR is enabled, global common subexpression elimination +attempts to move loads that are only killed by stores into themselves. This +allows a loop containing a load/store sequence to be changed to a load outside +the loop, and a copy/store within the loop. +.Sp +Enabled by default when \fB\-fgcse\fR is enabled. +.IP "\fB\-fgcse\-sm\fR" 4 +.IX Item "-fgcse-sm" +When \fB\-fgcse\-sm\fR is enabled, a store motion pass is run after +global common subexpression elimination. This pass attempts to move +stores out of loops. When used in conjunction with \fB\-fgcse\-lm\fR, +loops containing a load/store sequence can be changed to a load before +the loop and a store after the loop. +.Sp +Not enabled at any optimization level. +.IP "\fB\-fgcse\-las\fR" 4 +.IX Item "-fgcse-las" +When \fB\-fgcse\-las\fR is enabled, the global common subexpression +elimination pass eliminates redundant loads that come after stores to the +same memory location (both partial and full redundancies). +.Sp +Not enabled at any optimization level. +.IP "\fB\-fgcse\-after\-reload\fR" 4 +.IX Item "-fgcse-after-reload" +When \fB\-fgcse\-after\-reload\fR is enabled, a redundant load elimination +pass is performed after reload. The purpose of this pass is to clean up +redundant spilling. +.IP "\fB\-faggressive\-loop\-optimizations\fR" 4 +.IX Item "-faggressive-loop-optimizations" +This option tells the loop optimizer to use language constraints to +derive bounds for the number of iterations of a loop. This assumes that +loop code does not invoke undefined behavior by for example causing signed +integer overflows or out-of-bound array accesses. The bounds for the +number of iterations of a loop are used to guide loop unrolling and peeling +and loop exit test optimizations. +This option is enabled by default. +.IP "\fB\-funsafe\-loop\-optimizations\fR" 4 +.IX Item "-funsafe-loop-optimizations" +This option tells the loop optimizer to assume that loop indices do not +overflow, and that loops with nontrivial exit condition are not +infinite. This enables a wider range of loop optimizations even if +the loop optimizer itself cannot prove that these assumptions are valid. +If you use \fB\-Wunsafe\-loop\-optimizations\fR, the compiler warns you +if it finds this kind of loop. +.IP "\fB\-fcrossjumping\fR" 4 +.IX Item "-fcrossjumping" +Perform cross-jumping transformation. +This transformation unifies equivalent code and saves code size. The +resulting code may or may not perform better than without cross-jumping. +.Sp +Enabled at levels \fB\-O2\fR, \fB\-O3\fR, \fB\-Os\fR. +.IP "\fB\-fauto\-inc\-dec\fR" 4 +.IX Item "-fauto-inc-dec" +Combine increments or decrements of addresses with memory accesses. +This pass is always skipped on architectures that do not have +instructions to support this. Enabled by default at \fB\-O\fR and +higher on architectures that support this. +.IP "\fB\-fdce\fR" 4 +.IX Item "-fdce" +Perform dead code elimination (\s-1DCE\s0) on \s-1RTL.\s0 +Enabled by default at \fB\-O\fR and higher. +.IP "\fB\-fdse\fR" 4 +.IX Item "-fdse" +Perform dead store elimination (\s-1DSE\s0) on \s-1RTL.\s0 +Enabled by default at \fB\-O\fR and higher. +.IP "\fB\-fif\-conversion\fR" 4 +.IX Item "-fif-conversion" +Attempt to transform conditional jumps into branch-less equivalents. This +includes use of conditional moves, min, max, set flags and abs instructions, and +some tricks doable by standard arithmetics. The use of conditional execution +on chips where it is available is controlled by \f(CW\*(C`if\-conversion2\*(C'\fR. +.Sp +Enabled at levels \fB\-O\fR, \fB\-O2\fR, \fB\-O3\fR, \fB\-Os\fR. +.IP "\fB\-fif\-conversion2\fR" 4 +.IX Item "-fif-conversion2" +Use conditional execution (where available) to transform conditional jumps into +branch-less equivalents. +.Sp +Enabled at levels \fB\-O\fR, \fB\-O2\fR, \fB\-O3\fR, \fB\-Os\fR. +.IP "\fB\-fdeclone\-ctor\-dtor\fR" 4 +.IX Item "-fdeclone-ctor-dtor" +The \*(C+ \s-1ABI\s0 requires multiple entry points for constructors and +destructors: one for a base subobject, one for a complete object, and +one for a virtual destructor that calls operator delete afterwards. +For a hierarchy with virtual bases, the base and complete variants are +clones, which means two copies of the function. With this option, the +base and complete variants are changed to be thunks that call a common +implementation. +.Sp +Enabled by \fB\-Os\fR. +.IP "\fB\-fdelete\-null\-pointer\-checks\fR" 4 +.IX Item "-fdelete-null-pointer-checks" +Assume that programs cannot safely dereference null pointers, and that +no code or data element resides there. This enables simple constant +folding optimizations at all optimization levels. In addition, other +optimization passes in \s-1GCC\s0 use this flag to control global dataflow +analyses that eliminate useless checks for null pointers; these assume +that if a pointer is checked after it has already been dereferenced, +it cannot be null. +.Sp +Note however that in some environments this assumption is not true. +Use \fB\-fno\-delete\-null\-pointer\-checks\fR to disable this optimization +for programs that depend on that behavior. +.Sp +Some targets, especially embedded ones, disable this option at all levels. +Otherwise it is enabled at all levels: \fB\-O0\fR, \fB\-O1\fR, +\&\fB\-O2\fR, \fB\-O3\fR, \fB\-Os\fR. Passes that use the information +are enabled independently at different optimization levels. +.IP "\fB\-fdevirtualize\fR" 4 +.IX Item "-fdevirtualize" +Attempt to convert calls to virtual functions to direct calls. This +is done both within a procedure and interprocedurally as part of +indirect inlining (\f(CW\*(C`\-findirect\-inlining\*(C'\fR) and interprocedural constant +propagation (\fB\-fipa\-cp\fR). +Enabled at levels \fB\-O2\fR, \fB\-O3\fR, \fB\-Os\fR. +.IP "\fB\-fdevirtualize\-speculatively\fR" 4 +.IX Item "-fdevirtualize-speculatively" +Attempt to convert calls to virtual functions to speculative direct calls. +Based on the analysis of the type inheritance graph, determine for a given call +the set of likely targets. If the set is small, preferably of size 1, change +the call into an conditional deciding on direct and indirect call. The +speculative calls enable more optimizations, such as inlining. When they seem +useless after further optimization, they are converted back into original form. +.IP "\fB\-fexpensive\-optimizations\fR" 4 +.IX Item "-fexpensive-optimizations" +Perform a number of minor optimizations that are relatively expensive. +.Sp +Enabled at levels \fB\-O2\fR, \fB\-O3\fR, \fB\-Os\fR. +.IP "\fB\-free\fR" 4 +.IX Item "-free" +Attempt to remove redundant extension instructions. This is especially +helpful for the x86\-64 architecture, which implicitly zero-extends in 64\-bit +registers after writing to their lower 32\-bit half. +.Sp +Enabled for AArch64 and x86 at levels \fB\-O2\fR, \fB\-O3\fR. +.IP "\fB\-flive\-range\-shrinkage\fR" 4 +.IX Item "-flive-range-shrinkage" +Attempt to decrease register pressure through register live range +shrinkage. This is helpful for fast processors with small or moderate +size register sets. +.IP "\fB\-fira\-algorithm=\fR\fIalgorithm\fR" 4 +.IX Item "-fira-algorithm=algorithm" +Use the specified coloring algorithm for the integrated register +allocator. The \fIalgorithm\fR argument can be \fBpriority\fR, which +specifies Chow's priority coloring, or \fB\s-1CB\s0\fR, which specifies +Chaitin-Briggs coloring. Chaitin-Briggs coloring is not implemented +for all architectures, but for those targets that do support it, it is +the default because it generates better code. +.IP "\fB\-fira\-region=\fR\fIregion\fR" 4 +.IX Item "-fira-region=region" +Use specified regions for the integrated register allocator. The +\&\fIregion\fR argument should be one of the following: +.RS 4 +.IP "\fBall\fR" 4 +.IX Item "all" +Use all loops as register allocation regions. +This can give the best results for machines with a small and/or +irregular register set. +.IP "\fBmixed\fR" 4 +.IX Item "mixed" +Use all loops except for loops with small register pressure +as the regions. This value usually gives +the best results in most cases and for most architectures, +and is enabled by default when compiling with optimization for speed +(\fB\-O\fR, \fB\-O2\fR, ...). +.IP "\fBone\fR" 4 +.IX Item "one" +Use all functions as a single region. +This typically results in the smallest code size, and is enabled by default for +\&\fB\-Os\fR or \fB\-O0\fR. +.RE +.RS 4 +.RE +.IP "\fB\-fira\-hoist\-pressure\fR" 4 +.IX Item "-fira-hoist-pressure" +Use \s-1IRA\s0 to evaluate register pressure in the code hoisting pass for +decisions to hoist expressions. This option usually results in smaller +code, but it can slow the compiler down. +.Sp +This option is enabled at level \fB\-Os\fR for all targets. +.IP "\fB\-fira\-loop\-pressure\fR" 4 +.IX Item "-fira-loop-pressure" +Use \s-1IRA\s0 to evaluate register pressure in loops for decisions to move +loop invariants. This option usually results in generation +of faster and smaller code on machines with large register files (>= 32 +registers), but it can slow the compiler down. +.Sp +This option is enabled at level \fB\-O3\fR for some targets. +.IP "\fB\-fno\-ira\-share\-save\-slots\fR" 4 +.IX Item "-fno-ira-share-save-slots" +Disable sharing of stack slots used for saving call-used hard +registers living through a call. Each hard register gets a +separate stack slot, and as a result function stack frames are +larger. +.IP "\fB\-fno\-ira\-share\-spill\-slots\fR" 4 +.IX Item "-fno-ira-share-spill-slots" +Disable sharing of stack slots allocated for pseudo-registers. Each +pseudo-register that does not get a hard register gets a separate +stack slot, and as a result function stack frames are larger. +.IP "\fB\-fira\-verbose=\fR\fIn\fR" 4 +.IX Item "-fira-verbose=n" +Control the verbosity of the dump file for the integrated register allocator. +The default value is 5. If the value \fIn\fR is greater or equal to 10, +the dump output is sent to stderr using the same format as \fIn\fR minus 10. +.IP "\fB\-fdelayed\-branch\fR" 4 +.IX Item "-fdelayed-branch" +If supported for the target machine, attempt to reorder instructions +to exploit instruction slots available after delayed branch +instructions. +.Sp +Enabled at levels \fB\-O\fR, \fB\-O2\fR, \fB\-O3\fR, \fB\-Os\fR. +.IP "\fB\-fschedule\-insns\fR" 4 +.IX Item "-fschedule-insns" +If supported for the target machine, attempt to reorder instructions to +eliminate execution stalls due to required data being unavailable. This +helps machines that have slow floating point or memory load instructions +by allowing other instructions to be issued until the result of the load +or floating-point instruction is required. +.Sp +Enabled at levels \fB\-O2\fR, \fB\-O3\fR. +.IP "\fB\-fschedule\-insns2\fR" 4 +.IX Item "-fschedule-insns2" +Similar to \fB\-fschedule\-insns\fR, but requests an additional pass of +instruction scheduling after register allocation has been done. This is +especially useful on machines with a relatively small number of +registers and where memory load instructions take more than one cycle. +.Sp +Enabled at levels \fB\-O2\fR, \fB\-O3\fR, \fB\-Os\fR. +.IP "\fB\-fno\-sched\-interblock\fR" 4 +.IX Item "-fno-sched-interblock" +Don't schedule instructions across basic blocks. This is normally +enabled by default when scheduling before register allocation, i.e. +with \fB\-fschedule\-insns\fR or at \fB\-O2\fR or higher. +.IP "\fB\-fno\-sched\-spec\fR" 4 +.IX Item "-fno-sched-spec" +Don't allow speculative motion of non-load instructions. This is normally +enabled by default when scheduling before register allocation, i.e. +with \fB\-fschedule\-insns\fR or at \fB\-O2\fR or higher. +.IP "\fB\-fsched\-pressure\fR" 4 +.IX Item "-fsched-pressure" +Enable register pressure sensitive insn scheduling before register +allocation. This only makes sense when scheduling before register +allocation is enabled, i.e. with \fB\-fschedule\-insns\fR or at +\&\fB\-O2\fR or higher. Usage of this option can improve the +generated code and decrease its size by preventing register pressure +increase above the number of available hard registers and subsequent +spills in register allocation. +.IP "\fB\-fsched\-spec\-load\fR" 4 +.IX Item "-fsched-spec-load" +Allow speculative motion of some load instructions. This only makes +sense when scheduling before register allocation, i.e. with +\&\fB\-fschedule\-insns\fR or at \fB\-O2\fR or higher. +.IP "\fB\-fsched\-spec\-load\-dangerous\fR" 4 +.IX Item "-fsched-spec-load-dangerous" +Allow speculative motion of more load instructions. This only makes +sense when scheduling before register allocation, i.e. with +\&\fB\-fschedule\-insns\fR or at \fB\-O2\fR or higher. +.IP "\fB\-fsched\-stalled\-insns\fR" 4 +.IX Item "-fsched-stalled-insns" +.PD 0 +.IP "\fB\-fsched\-stalled\-insns=\fR\fIn\fR" 4 +.IX Item "-fsched-stalled-insns=n" +.PD +Define how many insns (if any) can be moved prematurely from the queue +of stalled insns into the ready list during the second scheduling pass. +\&\fB\-fno\-sched\-stalled\-insns\fR means that no insns are moved +prematurely, \fB\-fsched\-stalled\-insns=0\fR means there is no limit +on how many queued insns can be moved prematurely. +\&\fB\-fsched\-stalled\-insns\fR without a value is equivalent to +\&\fB\-fsched\-stalled\-insns=1\fR. +.IP "\fB\-fsched\-stalled\-insns\-dep\fR" 4 +.IX Item "-fsched-stalled-insns-dep" +.PD 0 +.IP "\fB\-fsched\-stalled\-insns\-dep=\fR\fIn\fR" 4 +.IX Item "-fsched-stalled-insns-dep=n" +.PD +Define how many insn groups (cycles) are examined for a dependency +on a stalled insn that is a candidate for premature removal from the queue +of stalled insns. This has an effect only during the second scheduling pass, +and only if \fB\-fsched\-stalled\-insns\fR is used. +\&\fB\-fno\-sched\-stalled\-insns\-dep\fR is equivalent to +\&\fB\-fsched\-stalled\-insns\-dep=0\fR. +\&\fB\-fsched\-stalled\-insns\-dep\fR without a value is equivalent to +\&\fB\-fsched\-stalled\-insns\-dep=1\fR. +.IP "\fB\-fsched2\-use\-superblocks\fR" 4 +.IX Item "-fsched2-use-superblocks" +When scheduling after register allocation, use superblock scheduling. +This allows motion across basic block boundaries, +resulting in faster schedules. This option is experimental, as not all machine +descriptions used by \s-1GCC\s0 model the \s-1CPU\s0 closely enough to avoid unreliable +results from the algorithm. +.Sp +This only makes sense when scheduling after register allocation, i.e. with +\&\fB\-fschedule\-insns2\fR or at \fB\-O2\fR or higher. +.IP "\fB\-fsched\-group\-heuristic\fR" 4 +.IX Item "-fsched-group-heuristic" +Enable the group heuristic in the scheduler. This heuristic favors +the instruction that belongs to a schedule group. This is enabled +by default when scheduling is enabled, i.e. with \fB\-fschedule\-insns\fR +or \fB\-fschedule\-insns2\fR or at \fB\-O2\fR or higher. +.IP "\fB\-fsched\-critical\-path\-heuristic\fR" 4 +.IX Item "-fsched-critical-path-heuristic" +Enable the critical-path heuristic in the scheduler. This heuristic favors +instructions on the critical path. This is enabled by default when +scheduling is enabled, i.e. with \fB\-fschedule\-insns\fR +or \fB\-fschedule\-insns2\fR or at \fB\-O2\fR or higher. +.IP "\fB\-fsched\-spec\-insn\-heuristic\fR" 4 +.IX Item "-fsched-spec-insn-heuristic" +Enable the speculative instruction heuristic in the scheduler. This +heuristic favors speculative instructions with greater dependency weakness. +This is enabled by default when scheduling is enabled, i.e. +with \fB\-fschedule\-insns\fR or \fB\-fschedule\-insns2\fR +or at \fB\-O2\fR or higher. +.IP "\fB\-fsched\-rank\-heuristic\fR" 4 +.IX Item "-fsched-rank-heuristic" +Enable the rank heuristic in the scheduler. This heuristic favors +the instruction belonging to a basic block with greater size or frequency. +This is enabled by default when scheduling is enabled, i.e. +with \fB\-fschedule\-insns\fR or \fB\-fschedule\-insns2\fR or +at \fB\-O2\fR or higher. +.IP "\fB\-fsched\-last\-insn\-heuristic\fR" 4 +.IX Item "-fsched-last-insn-heuristic" +Enable the last-instruction heuristic in the scheduler. This heuristic +favors the instruction that is less dependent on the last instruction +scheduled. This is enabled by default when scheduling is enabled, +i.e. with \fB\-fschedule\-insns\fR or \fB\-fschedule\-insns2\fR or +at \fB\-O2\fR or higher. +.IP "\fB\-fsched\-dep\-count\-heuristic\fR" 4 +.IX Item "-fsched-dep-count-heuristic" +Enable the dependent-count heuristic in the scheduler. This heuristic +favors the instruction that has more instructions depending on it. +This is enabled by default when scheduling is enabled, i.e. +with \fB\-fschedule\-insns\fR or \fB\-fschedule\-insns2\fR or +at \fB\-O2\fR or higher. +.IP "\fB\-freschedule\-modulo\-scheduled\-loops\fR" 4 +.IX Item "-freschedule-modulo-scheduled-loops" +Modulo scheduling is performed before traditional scheduling. If a loop +is modulo scheduled, later scheduling passes may change its schedule. +Use this option to control that behavior. +.IP "\fB\-fselective\-scheduling\fR" 4 +.IX Item "-fselective-scheduling" +Schedule instructions using selective scheduling algorithm. Selective +scheduling runs instead of the first scheduler pass. +.IP "\fB\-fselective\-scheduling2\fR" 4 +.IX Item "-fselective-scheduling2" +Schedule instructions using selective scheduling algorithm. Selective +scheduling runs instead of the second scheduler pass. +.IP "\fB\-fsel\-sched\-pipelining\fR" 4 +.IX Item "-fsel-sched-pipelining" +Enable software pipelining of innermost loops during selective scheduling. +This option has no effect unless one of \fB\-fselective\-scheduling\fR or +\&\fB\-fselective\-scheduling2\fR is turned on. +.IP "\fB\-fsel\-sched\-pipelining\-outer\-loops\fR" 4 +.IX Item "-fsel-sched-pipelining-outer-loops" +When pipelining loops during selective scheduling, also pipeline outer loops. +This option has no effect unless \fB\-fsel\-sched\-pipelining\fR is turned on. +.IP "\fB\-fshrink\-wrap\fR" 4 +.IX Item "-fshrink-wrap" +Emit function prologues only before parts of the function that need it, +rather than at the top of the function. This flag is enabled by default at +\&\fB\-O\fR and higher. +.IP "\fB\-fcaller\-saves\fR" 4 +.IX Item "-fcaller-saves" +Enable allocation of values to registers that are clobbered by +function calls, by emitting extra instructions to save and restore the +registers around such calls. Such allocation is done only when it +seems to result in better code. +.Sp +This option is always enabled by default on certain machines, usually +those which have no call-preserved registers to use instead. +.Sp +Enabled at levels \fB\-O2\fR, \fB\-O3\fR, \fB\-Os\fR. +.IP "\fB\-fcombine\-stack\-adjustments\fR" 4 +.IX Item "-fcombine-stack-adjustments" +Tracks stack adjustments (pushes and pops) and stack memory references +and then tries to find ways to combine them. +.Sp +Enabled by default at \fB\-O1\fR and higher. +.IP "\fB\-fconserve\-stack\fR" 4 +.IX Item "-fconserve-stack" +Attempt to minimize stack usage. The compiler attempts to use less +stack space, even if that makes the program slower. This option +implies setting the \fBlarge-stack-frame\fR parameter to 100 +and the \fBlarge-stack-frame-growth\fR parameter to 400. +.IP "\fB\-ftree\-reassoc\fR" 4 +.IX Item "-ftree-reassoc" +Perform reassociation on trees. This flag is enabled by default +at \fB\-O\fR and higher. +.IP "\fB\-ftree\-pre\fR" 4 +.IX Item "-ftree-pre" +Perform partial redundancy elimination (\s-1PRE\s0) on trees. This flag is +enabled by default at \fB\-O2\fR and \fB\-O3\fR. +.IP "\fB\-ftree\-partial\-pre\fR" 4 +.IX Item "-ftree-partial-pre" +Make partial redundancy elimination (\s-1PRE\s0) more aggressive. This flag is +enabled by default at \fB\-O3\fR. +.IP "\fB\-ftree\-forwprop\fR" 4 +.IX Item "-ftree-forwprop" +Perform forward propagation on trees. This flag is enabled by default +at \fB\-O\fR and higher. +.IP "\fB\-ftree\-fre\fR" 4 +.IX Item "-ftree-fre" +Perform full redundancy elimination (\s-1FRE\s0) on trees. The difference +between \s-1FRE\s0 and \s-1PRE\s0 is that \s-1FRE\s0 only considers expressions +that are computed on all paths leading to the redundant computation. +This analysis is faster than \s-1PRE,\s0 though it exposes fewer redundancies. +This flag is enabled by default at \fB\-O\fR and higher. +.IP "\fB\-ftree\-phiprop\fR" 4 +.IX Item "-ftree-phiprop" +Perform hoisting of loads from conditional pointers on trees. This +pass is enabled by default at \fB\-O\fR and higher. +.IP "\fB\-fhoist\-adjacent\-loads\fR" 4 +.IX Item "-fhoist-adjacent-loads" +Speculatively hoist loads from both branches of an if-then-else if the +loads are from adjacent locations in the same structure and the target +architecture has a conditional move instruction. This flag is enabled +by default at \fB\-O2\fR and higher. +.IP "\fB\-ftree\-copy\-prop\fR" 4 +.IX Item "-ftree-copy-prop" +Perform copy propagation on trees. This pass eliminates unnecessary +copy operations. This flag is enabled by default at \fB\-O\fR and +higher. +.IP "\fB\-fipa\-pure\-const\fR" 4 +.IX Item "-fipa-pure-const" +Discover which functions are pure or constant. +Enabled by default at \fB\-O\fR and higher. +.IP "\fB\-fipa\-reference\fR" 4 +.IX Item "-fipa-reference" +Discover which static variables do not escape the +compilation unit. +Enabled by default at \fB\-O\fR and higher. +.IP "\fB\-fipa\-pta\fR" 4 +.IX Item "-fipa-pta" +Perform interprocedural pointer analysis and interprocedural modification +and reference analysis. This option can cause excessive memory and +compile-time usage on large compilation units. It is not enabled by +default at any optimization level. +.IP "\fB\-fipa\-profile\fR" 4 +.IX Item "-fipa-profile" +Perform interprocedural profile propagation. The functions called only from +cold functions are marked as cold. Also functions executed once (such as +\&\f(CW\*(C`cold\*(C'\fR, \f(CW\*(C`noreturn\*(C'\fR, static constructors or destructors) are identified. Cold +functions and loop less parts of functions executed once are then optimized for +size. +Enabled by default at \fB\-O\fR and higher. +.IP "\fB\-fipa\-cp\fR" 4 +.IX Item "-fipa-cp" +Perform interprocedural constant propagation. +This optimization analyzes the program to determine when values passed +to functions are constants and then optimizes accordingly. +This optimization can substantially increase performance +if the application has constants passed to functions. +This flag is enabled by default at \fB\-O2\fR, \fB\-Os\fR and \fB\-O3\fR. +.IP "\fB\-fipa\-cp\-clone\fR" 4 +.IX Item "-fipa-cp-clone" +Perform function cloning to make interprocedural constant propagation stronger. +When enabled, interprocedural constant propagation performs function cloning +when externally visible function can be called with constant arguments. +Because this optimization can create multiple copies of functions, +it may significantly increase code size +(see \fB\-\-param ipcp\-unit\-growth=\fR\fIvalue\fR). +This flag is enabled by default at \fB\-O3\fR. +.IP "\fB\-fisolate\-erroneous\-paths\-dereference\fR" 4 +.IX Item "-fisolate-erroneous-paths-dereference" +Detect paths which trigger erroneous or undefined behaviour due to +dereferencing a \s-1NULL\s0 pointer. Isolate those paths from the main control +flow and turn the statement with erroneous or undefined behaviour into a trap. +.IP "\fB\-fisolate\-erroneous\-paths\-attribute\fR" 4 +.IX Item "-fisolate-erroneous-paths-attribute" +Detect paths which trigger erroneous or undefined behaviour due a \s-1NULL\s0 value +being used in a way which is forbidden by a \f(CW\*(C`returns_nonnull\*(C'\fR or \f(CW\*(C`nonnull\*(C'\fR +attribute. Isolate those paths from the main control flow and turn the +statement with erroneous or undefined behaviour into a trap. This is not +currently enabled, but may be enabled by \f(CW\*(C`\-O2\*(C'\fR in the future. +.IP "\fB\-ftree\-sink\fR" 4 +.IX Item "-ftree-sink" +Perform forward store motion on trees. This flag is +enabled by default at \fB\-O\fR and higher. +.IP "\fB\-ftree\-bit\-ccp\fR" 4 +.IX Item "-ftree-bit-ccp" +Perform sparse conditional bit constant propagation on trees and propagate +pointer alignment information. +This pass only operates on local scalar variables and is enabled by default +at \fB\-O\fR and higher. It requires that \fB\-ftree\-ccp\fR is enabled. +.IP "\fB\-ftree\-ccp\fR" 4 +.IX Item "-ftree-ccp" +Perform sparse conditional constant propagation (\s-1CCP\s0) on trees. This +pass only operates on local scalar variables and is enabled by default +at \fB\-O\fR and higher. +.IP "\fB\-ftree\-switch\-conversion\fR" 4 +.IX Item "-ftree-switch-conversion" +Perform conversion of simple initializations in a switch to +initializations from a scalar array. This flag is enabled by default +at \fB\-O2\fR and higher. +.IP "\fB\-ftree\-tail\-merge\fR" 4 +.IX Item "-ftree-tail-merge" +Look for identical code sequences. When found, replace one with a jump to the +other. This optimization is known as tail merging or cross jumping. This flag +is enabled by default at \fB\-O2\fR and higher. The compilation time +in this pass can +be limited using \fBmax-tail-merge-comparisons\fR parameter and +\&\fBmax-tail-merge-iterations\fR parameter. +.IP "\fB\-ftree\-dce\fR" 4 +.IX Item "-ftree-dce" +Perform dead code elimination (\s-1DCE\s0) on trees. This flag is enabled by +default at \fB\-O\fR and higher. +.IP "\fB\-ftree\-builtin\-call\-dce\fR" 4 +.IX Item "-ftree-builtin-call-dce" +Perform conditional dead code elimination (\s-1DCE\s0) for calls to built-in functions +that may set \f(CW\*(C`errno\*(C'\fR but are otherwise side-effect free. This flag is +enabled by default at \fB\-O2\fR and higher if \fB\-Os\fR is not also +specified. +.IP "\fB\-ftree\-dominator\-opts\fR" 4 +.IX Item "-ftree-dominator-opts" +Perform a variety of simple scalar cleanups (constant/copy +propagation, redundancy elimination, range propagation and expression +simplification) based on a dominator tree traversal. This also +performs jump threading (to reduce jumps to jumps). This flag is +enabled by default at \fB\-O\fR and higher. +.IP "\fB\-ftree\-dse\fR" 4 +.IX Item "-ftree-dse" +Perform dead store elimination (\s-1DSE\s0) on trees. A dead store is a store into +a memory location that is later overwritten by another store without +any intervening loads. In this case the earlier store can be deleted. This +flag is enabled by default at \fB\-O\fR and higher. +.IP "\fB\-ftree\-ch\fR" 4 +.IX Item "-ftree-ch" +Perform loop header copying on trees. This is beneficial since it increases +effectiveness of code motion optimizations. It also saves one jump. This flag +is enabled by default at \fB\-O\fR and higher. It is not enabled +for \fB\-Os\fR, since it usually increases code size. +.IP "\fB\-ftree\-loop\-optimize\fR" 4 +.IX Item "-ftree-loop-optimize" +Perform loop optimizations on trees. This flag is enabled by default +at \fB\-O\fR and higher. +.IP "\fB\-ftree\-loop\-linear\fR" 4 +.IX Item "-ftree-loop-linear" +Perform loop interchange transformations on tree. Same as +\&\fB\-floop\-interchange\fR. To use this code transformation, \s-1GCC\s0 has +to be configured with \fB\-\-with\-ppl\fR and \fB\-\-with\-cloog\fR to +enable the Graphite loop transformation infrastructure. +.IP "\fB\-floop\-interchange\fR" 4 +.IX Item "-floop-interchange" +Perform loop interchange transformations on loops. Interchanging two +nested loops switches the inner and outer loops. For example, given a +loop like: +.Sp +.Vb 5 +\& DO J = 1, M +\& DO I = 1, N +\& A(J, I) = A(J, I) * C +\& ENDDO +\& ENDDO +.Ve +.Sp +loop interchange transforms the loop as if it were written: +.Sp +.Vb 5 +\& DO I = 1, N +\& DO J = 1, M +\& A(J, I) = A(J, I) * C +\& ENDDO +\& ENDDO +.Ve +.Sp +which can be beneficial when \f(CW\*(C`N\*(C'\fR is larger than the caches, +because in Fortran, the elements of an array are stored in memory +contiguously by column, and the original loop iterates over rows, +potentially creating at each access a cache miss. This optimization +applies to all the languages supported by \s-1GCC\s0 and is not limited to +Fortran. To use this code transformation, \s-1GCC\s0 has to be configured +with \fB\-\-with\-ppl\fR and \fB\-\-with\-cloog\fR to enable the +Graphite loop transformation infrastructure. +.IP "\fB\-floop\-strip\-mine\fR" 4 +.IX Item "-floop-strip-mine" +Perform loop strip mining transformations on loops. Strip mining +splits a loop into two nested loops. The outer loop has strides +equal to the strip size and the inner loop has strides of the +original loop within a strip. The strip length can be changed +using the \fBloop-block-tile-size\fR parameter. For example, +given a loop like: +.Sp +.Vb 3 +\& DO I = 1, N +\& A(I) = A(I) + C +\& ENDDO +.Ve +.Sp +loop strip mining transforms the loop as if it were written: +.Sp +.Vb 5 +\& DO II = 1, N, 51 +\& DO I = II, min (II + 50, N) +\& A(I) = A(I) + C +\& ENDDO +\& ENDDO +.Ve +.Sp +This optimization applies to all the languages supported by \s-1GCC\s0 and is +not limited to Fortran. To use this code transformation, \s-1GCC\s0 has to +be configured with \fB\-\-with\-ppl\fR and \fB\-\-with\-cloog\fR to +enable the Graphite loop transformation infrastructure. +.IP "\fB\-floop\-block\fR" 4 +.IX Item "-floop-block" +Perform loop blocking transformations on loops. Blocking strip mines +each loop in the loop nest such that the memory accesses of the +element loops fit inside caches. The strip length can be changed +using the \fBloop-block-tile-size\fR parameter. For example, given +a loop like: +.Sp +.Vb 5 +\& DO I = 1, N +\& DO J = 1, M +\& A(J, I) = B(I) + C(J) +\& ENDDO +\& ENDDO +.Ve +.Sp +loop blocking transforms the loop as if it were written: +.Sp +.Vb 9 +\& DO II = 1, N, 51 +\& DO JJ = 1, M, 51 +\& DO I = II, min (II + 50, N) +\& DO J = JJ, min (JJ + 50, M) +\& A(J, I) = B(I) + C(J) +\& ENDDO +\& ENDDO +\& ENDDO +\& ENDDO +.Ve +.Sp +which can be beneficial when \f(CW\*(C`M\*(C'\fR is larger than the caches, +because the innermost loop iterates over a smaller amount of data +which can be kept in the caches. This optimization applies to all the +languages supported by \s-1GCC\s0 and is not limited to Fortran. To use this +code transformation, \s-1GCC\s0 has to be configured with \fB\-\-with\-ppl\fR +and \fB\-\-with\-cloog\fR to enable the Graphite loop transformation +infrastructure. +.IP "\fB\-fgraphite\-identity\fR" 4 +.IX Item "-fgraphite-identity" +Enable the identity transformation for graphite. For every SCoP we generate +the polyhedral representation and transform it back to gimple. Using +\&\fB\-fgraphite\-identity\fR we can check the costs or benefits of the +\&\s-1GIMPLE \-\s0> \s-1GRAPHITE \-\s0> \s-1GIMPLE\s0 transformation. Some minimal optimizations +are also performed by the code generator CLooG, like index splitting and +dead code elimination in loops. +.IP "\fB\-floop\-nest\-optimize\fR" 4 +.IX Item "-floop-nest-optimize" +Enable the \s-1ISL\s0 based loop nest optimizer. This is a generic loop nest +optimizer based on the Pluto optimization algorithms. It calculates a loop +structure optimized for data-locality and parallelism. This option +is experimental. +.IP "\fB\-floop\-parallelize\-all\fR" 4 +.IX Item "-floop-parallelize-all" +Use the Graphite data dependence analysis to identify loops that can +be parallelized. Parallelize all the loops that can be analyzed to +not contain loop carried dependences without checking that it is +profitable to parallelize the loops. +.IP "\fB\-fcheck\-data\-deps\fR" 4 +.IX Item "-fcheck-data-deps" +Compare the results of several data dependence analyzers. This option +is used for debugging the data dependence analyzers. +.IP "\fB\-ftree\-loop\-if\-convert\fR" 4 +.IX Item "-ftree-loop-if-convert" +Attempt to transform conditional jumps in the innermost loops to +branch-less equivalents. The intent is to remove control-flow from +the innermost loops in order to improve the ability of the +vectorization pass to handle these loops. This is enabled by default +if vectorization is enabled. +.IP "\fB\-ftree\-loop\-if\-convert\-stores\fR" 4 +.IX Item "-ftree-loop-if-convert-stores" +Attempt to also if-convert conditional jumps containing memory writes. +This transformation can be unsafe for multi-threaded programs as it +transforms conditional memory writes into unconditional memory writes. +For example, +.Sp +.Vb 3 +\& for (i = 0; i < N; i++) +\& if (cond) +\& A[i] = expr; +.Ve +.Sp +is transformed to +.Sp +.Vb 2 +\& for (i = 0; i < N; i++) +\& A[i] = cond ? expr : A[i]; +.Ve +.Sp +potentially producing data races. +.IP "\fB\-ftree\-loop\-distribution\fR" 4 +.IX Item "-ftree-loop-distribution" +Perform loop distribution. This flag can improve cache performance on +big loop bodies and allow further loop optimizations, like +parallelization or vectorization, to take place. For example, the loop +.Sp +.Vb 4 +\& DO I = 1, N +\& A(I) = B(I) + C +\& D(I) = E(I) * F +\& ENDDO +.Ve +.Sp +is transformed to +.Sp +.Vb 6 +\& DO I = 1, N +\& A(I) = B(I) + C +\& ENDDO +\& DO I = 1, N +\& D(I) = E(I) * F +\& ENDDO +.Ve +.IP "\fB\-ftree\-loop\-distribute\-patterns\fR" 4 +.IX Item "-ftree-loop-distribute-patterns" +Perform loop distribution of patterns that can be code generated with +calls to a library. This flag is enabled by default at \fB\-O3\fR. +.Sp +This pass distributes the initialization loops and generates a call to +memset zero. For example, the loop +.Sp +.Vb 4 +\& DO I = 1, N +\& A(I) = 0 +\& B(I) = A(I) + I +\& ENDDO +.Ve +.Sp +is transformed to +.Sp +.Vb 6 +\& DO I = 1, N +\& A(I) = 0 +\& ENDDO +\& DO I = 1, N +\& B(I) = A(I) + I +\& ENDDO +.Ve +.Sp +and the initialization loop is transformed into a call to memset zero. +.IP "\fB\-ftree\-loop\-im\fR" 4 +.IX Item "-ftree-loop-im" +Perform loop invariant motion on trees. This pass moves only invariants that +are hard to handle at \s-1RTL\s0 level (function calls, operations that expand to +nontrivial sequences of insns). With \fB\-funswitch\-loops\fR it also moves +operands of conditions that are invariant out of the loop, so that we can use +just trivial invariantness analysis in loop unswitching. The pass also includes +store motion. +.IP "\fB\-ftree\-loop\-ivcanon\fR" 4 +.IX Item "-ftree-loop-ivcanon" +Create a canonical counter for number of iterations in loops for which +determining number of iterations requires complicated analysis. Later +optimizations then may determine the number easily. Useful especially +in connection with unrolling. +.IP "\fB\-fivopts\fR" 4 +.IX Item "-fivopts" +Perform induction variable optimizations (strength reduction, induction +variable merging and induction variable elimination) on trees. +.IP "\fB\-ftree\-parallelize\-loops=n\fR" 4 +.IX Item "-ftree-parallelize-loops=n" +Parallelize loops, i.e., split their iteration space to run in n threads. +This is only possible for loops whose iterations are independent +and can be arbitrarily reordered. The optimization is only +profitable on multiprocessor machines, for loops that are CPU-intensive, +rather than constrained e.g. by memory bandwidth. This option +implies \fB\-pthread\fR, and thus is only supported on targets +that have support for \fB\-pthread\fR. +.IP "\fB\-ftree\-pta\fR" 4 +.IX Item "-ftree-pta" +Perform function-local points-to analysis on trees. This flag is +enabled by default at \fB\-O\fR and higher. +.IP "\fB\-ftree\-sra\fR" 4 +.IX Item "-ftree-sra" +Perform scalar replacement of aggregates. This pass replaces structure +references with scalars to prevent committing structures to memory too +early. This flag is enabled by default at \fB\-O\fR and higher. +.IP "\fB\-ftree\-copyrename\fR" 4 +.IX Item "-ftree-copyrename" +Perform copy renaming on trees. This pass attempts to rename compiler +temporaries to other variables at copy locations, usually resulting in +variable names which more closely resemble the original variables. This flag +is enabled by default at \fB\-O\fR and higher. +.IP "\fB\-ftree\-coalesce\-inlined\-vars\fR" 4 +.IX Item "-ftree-coalesce-inlined-vars" +Tell the copyrename pass (see \fB\-ftree\-copyrename\fR) to attempt to +combine small user-defined variables too, but only if they were inlined +from other functions. It is a more limited form of +\&\fB\-ftree\-coalesce\-vars\fR. This may harm debug information of such +inlined variables, but it will keep variables of the inlined-into +function apart from each other, such that they are more likely to +contain the expected values in a debugging session. This was the +default in \s-1GCC\s0 versions older than 4.7. +.IP "\fB\-ftree\-coalesce\-vars\fR" 4 +.IX Item "-ftree-coalesce-vars" +Tell the copyrename pass (see \fB\-ftree\-copyrename\fR) to attempt to +combine small user-defined variables too, instead of just compiler +temporaries. This may severely limit the ability to debug an optimized +program compiled with \fB\-fno\-var\-tracking\-assignments\fR. In the +negated form, this flag prevents \s-1SSA\s0 coalescing of user variables, +including inlined ones. This option is enabled by default. +.IP "\fB\-ftree\-ter\fR" 4 +.IX Item "-ftree-ter" +Perform temporary expression replacement during the \s-1SSA\-\s0>normal phase. Single +use/single def temporaries are replaced at their use location with their +defining expression. This results in non-GIMPLE code, but gives the expanders +much more complex trees to work on resulting in better \s-1RTL\s0 generation. This is +enabled by default at \fB\-O\fR and higher. +.IP "\fB\-ftree\-slsr\fR" 4 +.IX Item "-ftree-slsr" +Perform straight-line strength reduction on trees. This recognizes related +expressions involving multiplications and replaces them by less expensive +calculations when possible. This is enabled by default at \fB\-O\fR and +higher. +.IP "\fB\-ftree\-vectorize\fR" 4 +.IX Item "-ftree-vectorize" +Perform vectorization on trees. This flag enables \fB\-ftree\-loop\-vectorize\fR +and \fB\-ftree\-slp\-vectorize\fR if not explicitly specified. +.IP "\fB\-ftree\-loop\-vectorize\fR" 4 +.IX Item "-ftree-loop-vectorize" +Perform loop vectorization on trees. This flag is enabled by default at +\&\fB\-O3\fR and when \fB\-ftree\-vectorize\fR is enabled. +.IP "\fB\-ftree\-slp\-vectorize\fR" 4 +.IX Item "-ftree-slp-vectorize" +Perform basic block vectorization on trees. This flag is enabled by default at +\&\fB\-O3\fR and when \fB\-ftree\-vectorize\fR is enabled. +.IP "\fB\-fvect\-cost\-model=\fR\fImodel\fR" 4 +.IX Item "-fvect-cost-model=model" +Alter the cost model used for vectorization. The \fImodel\fR argument +should be one of \f(CW\*(C`unlimited\*(C'\fR, \f(CW\*(C`dynamic\*(C'\fR or \f(CW\*(C`cheap\*(C'\fR. +With the \f(CW\*(C`unlimited\*(C'\fR model the vectorized code-path is assumed +to be profitable while with the \f(CW\*(C`dynamic\*(C'\fR model a runtime check +will guard the vectorized code-path to enable it only for iteration +counts that will likely execute faster than when executing the original +scalar loop. The \f(CW\*(C`cheap\*(C'\fR model will disable vectorization of +loops where doing so would be cost prohibitive for example due to +required runtime checks for data dependence or alignment but otherwise +is equal to the \f(CW\*(C`dynamic\*(C'\fR model. +The default cost model depends on other optimization flags and is +either \f(CW\*(C`dynamic\*(C'\fR or \f(CW\*(C`cheap\*(C'\fR. +.IP "\fB\-fsimd\-cost\-model=\fR\fImodel\fR" 4 +.IX Item "-fsimd-cost-model=model" +Alter the cost model used for vectorization of loops marked with the OpenMP +or Cilk Plus simd directive. The \fImodel\fR argument should be one of +\&\f(CW\*(C`unlimited\*(C'\fR, \f(CW\*(C`dynamic\*(C'\fR, \f(CW\*(C`cheap\*(C'\fR. All values of \fImodel\fR +have the same meaning as described in \fB\-fvect\-cost\-model\fR and by +default a cost model defined with \fB\-fvect\-cost\-model\fR is used. +.IP "\fB\-ftree\-vrp\fR" 4 +.IX Item "-ftree-vrp" +Perform Value Range Propagation on trees. This is similar to the +constant propagation pass, but instead of values, ranges of values are +propagated. This allows the optimizers to remove unnecessary range +checks like array bound checks and null pointer checks. This is +enabled by default at \fB\-O2\fR and higher. Null pointer check +elimination is only done if \fB\-fdelete\-null\-pointer\-checks\fR is +enabled. +.IP "\fB\-ftracer\fR" 4 +.IX Item "-ftracer" +Perform tail duplication to enlarge superblock size. This transformation +simplifies the control flow of the function allowing other optimizations to do +a better job. +.IP "\fB\-funroll\-loops\fR" 4 +.IX Item "-funroll-loops" +Unroll loops whose number of iterations can be determined at compile +time or upon entry to the loop. \fB\-funroll\-loops\fR implies +\&\fB\-frerun\-cse\-after\-loop\fR. This option makes code larger, +and may or may not make it run faster. +.IP "\fB\-funroll\-all\-loops\fR" 4 +.IX Item "-funroll-all-loops" +Unroll all loops, even if their number of iterations is uncertain when +the loop is entered. This usually makes programs run more slowly. +\&\fB\-funroll\-all\-loops\fR implies the same options as +\&\fB\-funroll\-loops\fR, +.IP "\fB\-fsplit\-ivs\-in\-unroller\fR" 4 +.IX Item "-fsplit-ivs-in-unroller" +Enables expression of values of induction variables in later iterations +of the unrolled loop using the value in the first iteration. This breaks +long dependency chains, thus improving efficiency of the scheduling passes. +.Sp +A combination of \fB\-fweb\fR and \s-1CSE\s0 is often sufficient to obtain the +same effect. However, that is not reliable in cases where the loop body +is more complicated than a single basic block. It also does not work at all +on some architectures due to restrictions in the \s-1CSE\s0 pass. +.Sp +This optimization is enabled by default. +.IP "\fB\-fvariable\-expansion\-in\-unroller\fR" 4 +.IX Item "-fvariable-expansion-in-unroller" +With this option, the compiler creates multiple copies of some +local variables when unrolling a loop, which can result in superior code. +.IP "\fB\-fpartial\-inlining\fR" 4 +.IX Item "-fpartial-inlining" +Inline parts of functions. This option has any effect only +when inlining itself is turned on by the \fB\-finline\-functions\fR +or \fB\-finline\-small\-functions\fR options. +.Sp +Enabled at level \fB\-O2\fR. +.IP "\fB\-fpredictive\-commoning\fR" 4 +.IX Item "-fpredictive-commoning" +Perform predictive commoning optimization, i.e., reusing computations +(especially memory loads and stores) performed in previous +iterations of loops. +.Sp +This option is enabled at level \fB\-O3\fR. +.IP "\fB\-fprefetch\-loop\-arrays\fR" 4 +.IX Item "-fprefetch-loop-arrays" +If supported by the target machine, generate instructions to prefetch +memory to improve the performance of loops that access large arrays. +.Sp +This option may generate better or worse code; results are highly +dependent on the structure of loops within the source code. +.Sp +Disabled at level \fB\-Os\fR. +.IP "\fB\-fno\-peephole\fR" 4 +.IX Item "-fno-peephole" +.PD 0 +.IP "\fB\-fno\-peephole2\fR" 4 +.IX Item "-fno-peephole2" +.PD +Disable any machine-specific peephole optimizations. The difference +between \fB\-fno\-peephole\fR and \fB\-fno\-peephole2\fR is in how they +are implemented in the compiler; some targets use one, some use the +other, a few use both. +.Sp +\&\fB\-fpeephole\fR is enabled by default. +\&\fB\-fpeephole2\fR enabled at levels \fB\-O2\fR, \fB\-O3\fR, \fB\-Os\fR. +.IP "\fB\-fno\-guess\-branch\-probability\fR" 4 +.IX Item "-fno-guess-branch-probability" +Do not guess branch probabilities using heuristics. +.Sp +\&\s-1GCC\s0 uses heuristics to guess branch probabilities if they are +not provided by profiling feedback (\fB\-fprofile\-arcs\fR). These +heuristics are based on the control flow graph. If some branch probabilities +are specified by \fB_\|_builtin_expect\fR, then the heuristics are +used to guess branch probabilities for the rest of the control flow graph, +taking the \fB_\|_builtin_expect\fR info into account. The interactions +between the heuristics and \fB_\|_builtin_expect\fR can be complex, and in +some cases, it may be useful to disable the heuristics so that the effects +of \fB_\|_builtin_expect\fR are easier to understand. +.Sp +The default is \fB\-fguess\-branch\-probability\fR at levels +\&\fB\-O\fR, \fB\-O2\fR, \fB\-O3\fR, \fB\-Os\fR. +.IP "\fB\-freorder\-blocks\fR" 4 +.IX Item "-freorder-blocks" +Reorder basic blocks in the compiled function in order to reduce number of +taken branches and improve code locality. +.Sp +Enabled at levels \fB\-O2\fR, \fB\-O3\fR. +.IP "\fB\-freorder\-blocks\-and\-partition\fR" 4 +.IX Item "-freorder-blocks-and-partition" +In addition to reordering basic blocks in the compiled function, in order +to reduce number of taken branches, partitions hot and cold basic blocks +into separate sections of the assembly and .o files, to improve +paging and cache locality performance. +.Sp +This optimization is automatically turned off in the presence of +exception handling, for linkonce sections, for functions with a user-defined +section attribute and on any architecture that does not support named +sections. +.Sp +Enabled for x86 at levels \fB\-O2\fR, \fB\-O3\fR. +.IP "\fB\-freorder\-functions\fR" 4 +.IX Item "-freorder-functions" +Reorder functions in the object file in order to +improve code locality. This is implemented by using special +subsections \f(CW\*(C`.text.hot\*(C'\fR for most frequently executed functions and +\&\f(CW\*(C`.text.unlikely\*(C'\fR for unlikely executed functions. Reordering is done by +the linker so object file format must support named sections and linker must +place them in a reasonable way. +.Sp +Also profile feedback must be available to make this option effective. See +\&\fB\-fprofile\-arcs\fR for details. +.Sp +Enabled at levels \fB\-O2\fR, \fB\-O3\fR, \fB\-Os\fR. +.IP "\fB\-fstrict\-aliasing\fR" 4 +.IX Item "-fstrict-aliasing" +Allow the compiler to assume the strictest aliasing rules applicable to +the language being compiled. For C (and \*(C+), this activates +optimizations based on the type of expressions. In particular, an +object of one type is assumed never to reside at the same address as an +object of a different type, unless the types are almost the same. For +example, an \f(CW\*(C`unsigned int\*(C'\fR can alias an \f(CW\*(C`int\*(C'\fR, but not a +\&\f(CW\*(C`void*\*(C'\fR or a \f(CW\*(C`double\*(C'\fR. A character type may alias any other +type. +.Sp +Pay special attention to code like this: +.Sp +.Vb 4 +\& union a_union { +\& int i; +\& double d; +\& }; +\& +\& int f() { +\& union a_union t; +\& t.d = 3.0; +\& return t.i; +\& } +.Ve +.Sp +The practice of reading from a different union member than the one most +recently written to (called \*(L"type-punning\*(R") is common. Even with +\&\fB\-fstrict\-aliasing\fR, type-punning is allowed, provided the memory +is accessed through the union type. So, the code above works as +expected. However, this code might not: +.Sp +.Vb 7 +\& int f() { +\& union a_union t; +\& int* ip; +\& t.d = 3.0; +\& ip = &t.i; +\& return *ip; +\& } +.Ve +.Sp +Similarly, access by taking the address, casting the resulting pointer +and dereferencing the result has undefined behavior, even if the cast +uses a union type, e.g.: +.Sp +.Vb 4 +\& int f() { +\& double d = 3.0; +\& return ((union a_union *) &d)\->i; +\& } +.Ve +.Sp +The \fB\-fstrict\-aliasing\fR option is enabled at levels +\&\fB\-O2\fR, \fB\-O3\fR, \fB\-Os\fR. +.IP "\fB\-fstrict\-overflow\fR" 4 +.IX Item "-fstrict-overflow" +Allow the compiler to assume strict signed overflow rules, depending +on the language being compiled. For C (and \*(C+) this means that +overflow when doing arithmetic with signed numbers is undefined, which +means that the compiler may assume that it does not happen. This +permits various optimizations. For example, the compiler assumes +that an expression like \f(CW\*(C`i + 10 > i\*(C'\fR is always true for +signed \f(CW\*(C`i\*(C'\fR. This assumption is only valid if signed overflow is +undefined, as the expression is false if \f(CW\*(C`i + 10\*(C'\fR overflows when +using twos complement arithmetic. When this option is in effect any +attempt to determine whether an operation on signed numbers +overflows must be written carefully to not actually involve overflow. +.Sp +This option also allows the compiler to assume strict pointer +semantics: given a pointer to an object, if adding an offset to that +pointer does not produce a pointer to the same object, the addition is +undefined. This permits the compiler to conclude that \f(CW\*(C`p + u > +p\*(C'\fR is always true for a pointer \f(CW\*(C`p\*(C'\fR and unsigned integer +\&\f(CW\*(C`u\*(C'\fR. This assumption is only valid because pointer wraparound is +undefined, as the expression is false if \f(CW\*(C`p + u\*(C'\fR overflows using +twos complement arithmetic. +.Sp +See also the \fB\-fwrapv\fR option. Using \fB\-fwrapv\fR means +that integer signed overflow is fully defined: it wraps. When +\&\fB\-fwrapv\fR is used, there is no difference between +\&\fB\-fstrict\-overflow\fR and \fB\-fno\-strict\-overflow\fR for +integers. With \fB\-fwrapv\fR certain types of overflow are +permitted. For example, if the compiler gets an overflow when doing +arithmetic on constants, the overflowed value can still be used with +\&\fB\-fwrapv\fR, but not otherwise. +.Sp +The \fB\-fstrict\-overflow\fR option is enabled at levels +\&\fB\-O2\fR, \fB\-O3\fR, \fB\-Os\fR. +.IP "\fB\-falign\-functions\fR" 4 +.IX Item "-falign-functions" +.PD 0 +.IP "\fB\-falign\-functions=\fR\fIn\fR" 4 +.IX Item "-falign-functions=n" +.PD +Align the start of functions to the next power-of-two greater than +\&\fIn\fR, skipping up to \fIn\fR bytes. For instance, +\&\fB\-falign\-functions=32\fR aligns functions to the next 32\-byte +boundary, but \fB\-falign\-functions=24\fR aligns to the next +32\-byte boundary only if this can be done by skipping 23 bytes or less. +.Sp +\&\fB\-fno\-align\-functions\fR and \fB\-falign\-functions=1\fR are +equivalent and mean that functions are not aligned. +.Sp +Some assemblers only support this flag when \fIn\fR is a power of two; +in that case, it is rounded up. +.Sp +If \fIn\fR is not specified or is zero, use a machine-dependent default. +.Sp +Enabled at levels \fB\-O2\fR, \fB\-O3\fR. +.IP "\fB\-falign\-labels\fR" 4 +.IX Item "-falign-labels" +.PD 0 +.IP "\fB\-falign\-labels=\fR\fIn\fR" 4 +.IX Item "-falign-labels=n" +.PD +Align all branch targets to a power-of-two boundary, skipping up to +\&\fIn\fR bytes like \fB\-falign\-functions\fR. This option can easily +make code slower, because it must insert dummy operations for when the +branch target is reached in the usual flow of the code. +.Sp +\&\fB\-fno\-align\-labels\fR and \fB\-falign\-labels=1\fR are +equivalent and mean that labels are not aligned. +.Sp +If \fB\-falign\-loops\fR or \fB\-falign\-jumps\fR are applicable and +are greater than this value, then their values are used instead. +.Sp +If \fIn\fR is not specified or is zero, use a machine-dependent default +which is very likely to be \fB1\fR, meaning no alignment. +.Sp +Enabled at levels \fB\-O2\fR, \fB\-O3\fR. +.IP "\fB\-falign\-loops\fR" 4 +.IX Item "-falign-loops" +.PD 0 +.IP "\fB\-falign\-loops=\fR\fIn\fR" 4 +.IX Item "-falign-loops=n" +.PD +Align loops to a power-of-two boundary, skipping up to \fIn\fR bytes +like \fB\-falign\-functions\fR. If the loops are +executed many times, this makes up for any execution of the dummy +operations. +.Sp +\&\fB\-fno\-align\-loops\fR and \fB\-falign\-loops=1\fR are +equivalent and mean that loops are not aligned. +.Sp +If \fIn\fR is not specified or is zero, use a machine-dependent default. +.Sp +Enabled at levels \fB\-O2\fR, \fB\-O3\fR. +.IP "\fB\-falign\-jumps\fR" 4 +.IX Item "-falign-jumps" +.PD 0 +.IP "\fB\-falign\-jumps=\fR\fIn\fR" 4 +.IX Item "-falign-jumps=n" +.PD +Align branch targets to a power-of-two boundary, for branch targets +where the targets can only be reached by jumping, skipping up to \fIn\fR +bytes like \fB\-falign\-functions\fR. In this case, no dummy operations +need be executed. +.Sp +\&\fB\-fno\-align\-jumps\fR and \fB\-falign\-jumps=1\fR are +equivalent and mean that loops are not aligned. +.Sp +If \fIn\fR is not specified or is zero, use a machine-dependent default. +.Sp +Enabled at levels \fB\-O2\fR, \fB\-O3\fR. +.IP "\fB\-funit\-at\-a\-time\fR" 4 +.IX Item "-funit-at-a-time" +This option is left for compatibility reasons. \fB\-funit\-at\-a\-time\fR +has no effect, while \fB\-fno\-unit\-at\-a\-time\fR implies +\&\fB\-fno\-toplevel\-reorder\fR and \fB\-fno\-section\-anchors\fR. +.Sp +Enabled by default. +.IP "\fB\-fno\-toplevel\-reorder\fR" 4 +.IX Item "-fno-toplevel-reorder" +Do not reorder top-level functions, variables, and \f(CW\*(C`asm\*(C'\fR +statements. Output them in the same order that they appear in the +input file. When this option is used, unreferenced static variables +are not removed. This option is intended to support existing code +that relies on a particular ordering. For new code, it is better to +use attributes when possible. +.Sp +Enabled at level \fB\-O0\fR. When disabled explicitly, it also implies +\&\fB\-fno\-section\-anchors\fR, which is otherwise enabled at \fB\-O0\fR on some +targets. +.IP "\fB\-fweb\fR" 4 +.IX Item "-fweb" +Constructs webs as commonly used for register allocation purposes and assign +each web individual pseudo register. This allows the register allocation pass +to operate on pseudos directly, but also strengthens several other optimization +passes, such as \s-1CSE,\s0 loop optimizer and trivial dead code remover. It can, +however, make debugging impossible, since variables no longer stay in a +\&\*(L"home register\*(R". +.Sp +Enabled by default with \fB\-funroll\-loops\fR. +.IP "\fB\-fwhole\-program\fR" 4 +.IX Item "-fwhole-program" +Assume that the current compilation unit represents the whole program being +compiled. All public functions and variables with the exception of \f(CW\*(C`main\*(C'\fR +and those merged by attribute \f(CW\*(C`externally_visible\*(C'\fR become static functions +and in effect are optimized more aggressively by interprocedural optimizers. +.Sp +This option should not be used in combination with \f(CW\*(C`\-flto\*(C'\fR. +Instead relying on a linker plugin should provide safer and more precise +information. +.IP "\fB\-flto[=\fR\fIn\fR\fB]\fR" 4 +.IX Item "-flto[=n]" +This option runs the standard link-time optimizer. When invoked +with source code, it generates \s-1GIMPLE \s0(one of \s-1GCC\s0's internal +representations) and writes it to special \s-1ELF\s0 sections in the object +file. When the object files are linked together, all the function +bodies are read from these \s-1ELF\s0 sections and instantiated as if they +had been part of the same translation unit. +.Sp +To use the link-time optimizer, \fB\-flto\fR and optimization +options should be specified at compile time and during the final link. +For example: +.Sp +.Vb 3 +\& gcc \-c \-O2 \-flto foo.c +\& gcc \-c \-O2 \-flto bar.c +\& gcc \-o myprog \-flto \-O2 foo.o bar.o +.Ve +.Sp +The first two invocations to \s-1GCC\s0 save a bytecode representation +of \s-1GIMPLE\s0 into special \s-1ELF\s0 sections inside \fIfoo.o\fR and +\&\fIbar.o\fR. The final invocation reads the \s-1GIMPLE\s0 bytecode from +\&\fIfoo.o\fR and \fIbar.o\fR, merges the two files into a single +internal image, and compiles the result as usual. Since both +\&\fIfoo.o\fR and \fIbar.o\fR are merged into a single image, this +causes all the interprocedural analyses and optimizations in \s-1GCC\s0 to +work across the two files as if they were a single one. This means, +for example, that the inliner is able to inline functions in +\&\fIbar.o\fR into functions in \fIfoo.o\fR and vice-versa. +.Sp +Another (simpler) way to enable link-time optimization is: +.Sp +.Vb 1 +\& gcc \-o myprog \-flto \-O2 foo.c bar.c +.Ve +.Sp +The above generates bytecode for \fIfoo.c\fR and \fIbar.c\fR, +merges them together into a single \s-1GIMPLE\s0 representation and optimizes +them as usual to produce \fImyprog\fR. +.Sp +The only important thing to keep in mind is that to enable link-time +optimizations you need to use the \s-1GCC\s0 driver to perform the link-step. +\&\s-1GCC\s0 then automatically performs link-time optimization if any of the +objects involved were compiled with the \fB\-flto\fR. You generally +should specify the optimization options to be used for link-time +optimization though \s-1GCC\s0 will try to be clever at guessing an +optimization level to use from the options used at compile-time +if you fail to specify one at link-time. You can always override +the automatic decision to do link-time optimization at link-time +by passing \fB\-fno\-lto\fR to the link command. +.Sp +To make whole program optimization effective, it is necessary to make +certain whole program assumptions. The compiler needs to know +what functions and variables can be accessed by libraries and runtime +outside of the link-time optimized unit. When supported by the linker, +the linker plugin (see \fB\-fuse\-linker\-plugin\fR) passes information +to the compiler about used and externally visible symbols. When +the linker plugin is not available, \fB\-fwhole\-program\fR should be +used to allow the compiler to make these assumptions, which leads +to more aggressive optimization decisions. +.Sp +When \fB\-fuse\-linker\-plugin\fR is not enabled then, when a file is +compiled with \fB\-flto\fR, the generated object file is larger than +a regular object file because it contains \s-1GIMPLE\s0 bytecodes and the usual +final code (see \fB\-ffat\-lto\-objects\fR. This means that +object files with \s-1LTO\s0 information can be linked as normal object +files; if \fB\-fno\-lto\fR is passed to the linker, no +interprocedural optimizations are applied. Note that when +\&\fB\-fno\-fat\-lto\-objects\fR is enabled the compile-stage is faster +but you cannot perform a regular, non-LTO link on them. +.Sp +Additionally, the optimization flags used to compile individual files +are not necessarily related to those used at link time. For instance, +.Sp +.Vb 3 +\& gcc \-c \-O0 \-ffat\-lto\-objects \-flto foo.c +\& gcc \-c \-O0 \-ffat\-lto\-objects \-flto bar.c +\& gcc \-o myprog \-O3 foo.o bar.o +.Ve +.Sp +This produces individual object files with unoptimized assembler +code, but the resulting binary \fImyprog\fR is optimized at +\&\fB\-O3\fR. If, instead, the final binary is generated with +\&\fB\-fno\-lto\fR, then \fImyprog\fR is not optimized. +.Sp +When producing the final binary, \s-1GCC\s0 only +applies link-time optimizations to those files that contain bytecode. +Therefore, you can mix and match object files and libraries with +\&\s-1GIMPLE\s0 bytecodes and final object code. \s-1GCC\s0 automatically selects +which files to optimize in \s-1LTO\s0 mode and which files to link without +further processing. +.Sp +There are some code generation flags preserved by \s-1GCC\s0 when +generating bytecodes, as they need to be used during the final link +stage. Generally options specified at link-time override those +specified at compile-time. +.Sp +If you do not specify an optimization level option \fB\-O\fR at +link-time then \s-1GCC\s0 will compute one based on the optimization levels +used when compiling the object files. The highest optimization +level will win here. +.Sp +Currently, the following options and their setting are take from +the first object file that explicitely specified it: +\&\fB\-fPIC\fR, \fB\-fpic\fR, \fB\-fpie\fR, \fB\-fcommon\fR, +\&\fB\-fexceptions\fR, \fB\-fnon\-call\-exceptions\fR, \fB\-fgnu\-tm\fR +and all the \fB\-m\fR target flags. +.Sp +Certain \s-1ABI\s0 changing flags are required to match in all compilation-units +and trying to override this at link-time with a conflicting value +is ignored. This includes options such as \fB\-freg\-struct\-return\fR +and \fB\-fpcc\-struct\-return\fR. +.Sp +Other options such as \fB\-ffp\-contract\fR, \fB\-fno\-strict\-overflow\fR, +\&\fB\-fwrapv\fR, \fB\-fno\-trapv\fR or \fB\-fno\-strict\-aliasing\fR +are passed through to the link stage and merged conservatively for +conflicting translation units. Specifically +\&\fB\-fno\-strict\-overflow\fR, \fB\-fwrapv\fR and \fB\-fno\-trapv\fR take +precedence and for example \fB\-ffp\-contract=off\fR takes precedence +over \fB\-ffp\-contract=fast\fR. You can override them at linke-time. +.Sp +It is recommended that you compile all the files participating in the +same link with the same options and also specify those options at +link time. +.Sp +If \s-1LTO\s0 encounters objects with C linkage declared with incompatible +types in separate translation units to be linked together (undefined +behavior according to \s-1ISO C99 6.2.7\s0), a non-fatal diagnostic may be +issued. The behavior is still undefined at run time. Similar +diagnostics may be raised for other languages. +.Sp +Another feature of \s-1LTO\s0 is that it is possible to apply interprocedural +optimizations on files written in different languages: +.Sp +.Vb 4 +\& gcc \-c \-flto foo.c +\& g++ \-c \-flto bar.cc +\& gfortran \-c \-flto baz.f90 +\& g++ \-o myprog \-flto \-O3 foo.o bar.o baz.o \-lgfortran +.Ve +.Sp +Notice that the final link is done with \fBg++\fR to get the \*(C+ +runtime libraries and \fB\-lgfortran\fR is added to get the Fortran +runtime libraries. In general, when mixing languages in \s-1LTO\s0 mode, you +should use the same link command options as when mixing languages in a +regular (non-LTO) compilation. +.Sp +If object files containing \s-1GIMPLE\s0 bytecode are stored in a library archive, say +\&\fIlibfoo.a\fR, it is possible to extract and use them in an \s-1LTO\s0 link if you +are using a linker with plugin support. To create static libraries suitable +for \s-1LTO,\s0 use \fBgcc-ar\fR and \fBgcc-ranlib\fR instead of \fBar\fR +and \f(CW\*(C`ranlib\*(C'\fR; to show the symbols of object files with \s-1GIMPLE\s0 bytecode, use +\&\fBgcc-nm\fR. Those commands require that \fBar\fR, \fBranlib\fR +and \fBnm\fR have been compiled with plugin support. At link time, use the the +flag \fB\-fuse\-linker\-plugin\fR to ensure that the library participates in +the \s-1LTO\s0 optimization process: +.Sp +.Vb 1 +\& gcc \-o myprog \-O2 \-flto \-fuse\-linker\-plugin a.o b.o \-lfoo +.Ve +.Sp +With the linker plugin enabled, the linker extracts the needed +\&\s-1GIMPLE\s0 files from \fIlibfoo.a\fR and passes them on to the running \s-1GCC\s0 +to make them part of the aggregated \s-1GIMPLE\s0 image to be optimized. +.Sp +If you are not using a linker with plugin support and/or do not +enable the linker plugin, then the objects inside \fIlibfoo.a\fR +are extracted and linked as usual, but they do not participate +in the \s-1LTO\s0 optimization process. In order to make a static library suitable +for both \s-1LTO\s0 optimization and usual linkage, compile its object files with +\&\fB\-flto\fR \f(CW\*(C`\-ffat\-lto\-objects\*(C'\fR. +.Sp +Link-time optimizations do not require the presence of the whole program to +operate. If the program does not require any symbols to be exported, it is +possible to combine \fB\-flto\fR and \fB\-fwhole\-program\fR to allow +the interprocedural optimizers to use more aggressive assumptions which may +lead to improved optimization opportunities. +Use of \fB\-fwhole\-program\fR is not needed when linker plugin is +active (see \fB\-fuse\-linker\-plugin\fR). +.Sp +The current implementation of \s-1LTO\s0 makes no +attempt to generate bytecode that is portable between different +types of hosts. The bytecode files are versioned and there is a +strict version check, so bytecode files generated in one version of +\&\s-1GCC\s0 will not work with an older or newer version of \s-1GCC.\s0 +.Sp +Link-time optimization does not work well with generation of debugging +information. Combining \fB\-flto\fR with +\&\fB\-g\fR is currently experimental and expected to produce unexpected +results. +.Sp +If you specify the optional \fIn\fR, the optimization and code +generation done at link time is executed in parallel using \fIn\fR +parallel jobs by utilizing an installed \fBmake\fR program. The +environment variable \fB\s-1MAKE\s0\fR may be used to override the program +used. The default value for \fIn\fR is 1. +.Sp +You can also specify \fB\-flto=jobserver\fR to use \s-1GNU\s0 make's +job server mode to determine the number of parallel jobs. This +is useful when the Makefile calling \s-1GCC\s0 is already executing in parallel. +You must prepend a \fB+\fR to the command recipe in the parent Makefile +for this to work. This option likely only works if \fB\s-1MAKE\s0\fR is +\&\s-1GNU\s0 make. +.IP "\fB\-flto\-partition=\fR\fIalg\fR" 4 +.IX Item "-flto-partition=alg" +Specify the partitioning algorithm used by the link-time optimizer. +The value is either \f(CW\*(C`1to1\*(C'\fR to specify a partitioning mirroring +the original source files or \f(CW\*(C`balanced\*(C'\fR to specify partitioning +into equally sized chunks (whenever possible) or \f(CW\*(C`max\*(C'\fR to create +new partition for every symbol where possible. Specifying \f(CW\*(C`none\*(C'\fR +as an algorithm disables partitioning and streaming completely. +The default value is \f(CW\*(C`balanced\*(C'\fR. While \f(CW\*(C`1to1\*(C'\fR can be used +as an workaround for various code ordering issues, the \f(CW\*(C`max\*(C'\fR +partitioning is intended for internal testing only. +.IP "\fB\-flto\-compression\-level=\fR\fIn\fR" 4 +.IX Item "-flto-compression-level=n" +This option specifies the level of compression used for intermediate +language written to \s-1LTO\s0 object files, and is only meaningful in +conjunction with \s-1LTO\s0 mode (\fB\-flto\fR). Valid +values are 0 (no compression) to 9 (maximum compression). Values +outside this range are clamped to either 0 or 9. If the option is not +given, a default balanced compression setting is used. +.IP "\fB\-flto\-report\fR" 4 +.IX Item "-flto-report" +Prints a report with internal details on the workings of the link-time +optimizer. The contents of this report vary from version to version. +It is meant to be useful to \s-1GCC\s0 developers when processing object +files in \s-1LTO\s0 mode (via \fB\-flto\fR). +.Sp +Disabled by default. +.IP "\fB\-flto\-report\-wpa\fR" 4 +.IX Item "-flto-report-wpa" +Like \fB\-flto\-report\fR, but only print for the \s-1WPA\s0 phase of Link +Time Optimization. +.IP "\fB\-fuse\-linker\-plugin\fR" 4 +.IX Item "-fuse-linker-plugin" +Enables the use of a linker plugin during link-time optimization. This +option relies on plugin support in the linker, which is available in gold +or in \s-1GNU\s0 ld 2.21 or newer. +.Sp +This option enables the extraction of object files with \s-1GIMPLE\s0 bytecode out +of library archives. This improves the quality of optimization by exposing +more code to the link-time optimizer. This information specifies what +symbols can be accessed externally (by non-LTO object or during dynamic +linking). Resulting code quality improvements on binaries (and shared +libraries that use hidden visibility) are similar to \f(CW\*(C`\-fwhole\-program\*(C'\fR. +See \fB\-flto\fR for a description of the effect of this flag and how to +use it. +.Sp +This option is enabled by default when \s-1LTO\s0 support in \s-1GCC\s0 is enabled +and \s-1GCC\s0 was configured for use with +a linker supporting plugins (\s-1GNU\s0 ld 2.21 or newer or gold). +.IP "\fB\-ffat\-lto\-objects\fR" 4 +.IX Item "-ffat-lto-objects" +Fat \s-1LTO\s0 objects are object files that contain both the intermediate language +and the object code. This makes them usable for both \s-1LTO\s0 linking and normal +linking. This option is effective only when compiling with \fB\-flto\fR +and is ignored at link time. +.Sp +\&\fB\-fno\-fat\-lto\-objects\fR improves compilation time over plain \s-1LTO,\s0 but +requires the complete toolchain to be aware of \s-1LTO.\s0 It requires a linker with +linker plugin support for basic functionality. Additionally, +\&\fBnm\fR, \fBar\fR and \fBranlib\fR +need to support linker plugins to allow a full-featured build environment +(capable of building static libraries etc). \s-1GCC\s0 provides the \fBgcc-ar\fR, +\&\fBgcc-nm\fR, \fBgcc-ranlib\fR wrappers to pass the right options +to these tools. With non fat \s-1LTO\s0 makefiles need to be modified to use them. +.Sp +The default is \fB\-fno\-fat\-lto\-objects\fR on targets with linker plugin +support. +.IP "\fB\-fcompare\-elim\fR" 4 +.IX Item "-fcompare-elim" +After register allocation and post-register allocation instruction splitting, +identify arithmetic instructions that compute processor flags similar to a +comparison operation based on that arithmetic. If possible, eliminate the +explicit comparison operation. +.Sp +This pass only applies to certain targets that cannot explicitly represent +the comparison operation before register allocation is complete. +.Sp +Enabled at levels \fB\-O\fR, \fB\-O2\fR, \fB\-O3\fR, \fB\-Os\fR. +.IP "\fB\-fuse\-ld=bfd\fR" 4 +.IX Item "-fuse-ld=bfd" +Use the \fBbfd\fR linker instead of the default linker. +.IP "\fB\-fuse\-ld=gold\fR" 4 +.IX Item "-fuse-ld=gold" +Use the \fBgold\fR linker instead of the default linker. +.IP "\fB\-fcprop\-registers\fR" 4 +.IX Item "-fcprop-registers" +After register allocation and post-register allocation instruction splitting, +perform a copy-propagation pass to try to reduce scheduling dependencies +and occasionally eliminate the copy. +.Sp +Enabled at levels \fB\-O\fR, \fB\-O2\fR, \fB\-O3\fR, \fB\-Os\fR. +.IP "\fB\-fprofile\-correction\fR" 4 +.IX Item "-fprofile-correction" +Profiles collected using an instrumented binary for multi-threaded programs may +be inconsistent due to missed counter updates. When this option is specified, +\&\s-1GCC\s0 uses heuristics to correct or smooth out such inconsistencies. By +default, \s-1GCC\s0 emits an error message when an inconsistent profile is detected. +.IP "\fB\-fprofile\-dir=\fR\fIpath\fR" 4 +.IX Item "-fprofile-dir=path" +Set the directory to search for the profile data files in to \fIpath\fR. +This option affects only the profile data generated by +\&\fB\-fprofile\-generate\fR, \fB\-ftest\-coverage\fR, \fB\-fprofile\-arcs\fR +and used by \fB\-fprofile\-use\fR and \fB\-fbranch\-probabilities\fR +and its related options. Both absolute and relative paths can be used. +By default, \s-1GCC\s0 uses the current directory as \fIpath\fR, thus the +profile data file appears in the same directory as the object file. +.IP "\fB\-fprofile\-generate\fR" 4 +.IX Item "-fprofile-generate" +.PD 0 +.IP "\fB\-fprofile\-generate=\fR\fIpath\fR" 4 +.IX Item "-fprofile-generate=path" +.PD +Enable options usually used for instrumenting application to produce +profile useful for later recompilation with profile feedback based +optimization. You must use \fB\-fprofile\-generate\fR both when +compiling and when linking your program. +.Sp +The following options are enabled: \f(CW\*(C`\-fprofile\-arcs\*(C'\fR, \f(CW\*(C`\-fprofile\-values\*(C'\fR, \f(CW\*(C`\-fvpt\*(C'\fR. +.Sp +If \fIpath\fR is specified, \s-1GCC\s0 looks at the \fIpath\fR to find +the profile feedback data files. See \fB\-fprofile\-dir\fR. +.IP "\fB\-fprofile\-use\fR" 4 +.IX Item "-fprofile-use" +.PD 0 +.IP "\fB\-fprofile\-use=\fR\fIpath\fR" 4 +.IX Item "-fprofile-use=path" +.PD +Enable profile feedback directed optimizations, and optimizations +generally profitable only with profile feedback available. +.Sp +The following options are enabled: \f(CW\*(C`\-fbranch\-probabilities\*(C'\fR, \f(CW\*(C`\-fvpt\*(C'\fR, +\&\f(CW\*(C`\-funroll\-loops\*(C'\fR, \f(CW\*(C`\-fpeel\-loops\*(C'\fR, \f(CW\*(C`\-ftracer\*(C'\fR, \f(CW\*(C`\-ftree\-vectorize\*(C'\fR, +\&\f(CW\*(C`ftree\-loop\-distribute\-patterns\*(C'\fR +.Sp +By default, \s-1GCC\s0 emits an error message if the feedback profiles do not +match the source code. This error can be turned into a warning by using +\&\fB\-Wcoverage\-mismatch\fR. Note this may result in poorly optimized +code. +.Sp +If \fIpath\fR is specified, \s-1GCC\s0 looks at the \fIpath\fR to find +the profile feedback data files. See \fB\-fprofile\-dir\fR. +.PP +The following options control compiler behavior regarding floating-point +arithmetic. These options trade off between speed and +correctness. All must be specifically enabled. +.IP "\fB\-ffloat\-store\fR" 4 +.IX Item "-ffloat-store" +Do not store floating-point variables in registers, and inhibit other +options that might change whether a floating-point value is taken from a +register or memory. +.Sp +This option prevents undesirable excess precision on machines such as +the 68000 where the floating registers (of the 68881) keep more +precision than a \f(CW\*(C`double\*(C'\fR is supposed to have. Similarly for the +x86 architecture. For most programs, the excess precision does only +good, but a few programs rely on the precise definition of \s-1IEEE\s0 floating +point. Use \fB\-ffloat\-store\fR for such programs, after modifying +them to store all pertinent intermediate computations into variables. +.IP "\fB\-fexcess\-precision=\fR\fIstyle\fR" 4 +.IX Item "-fexcess-precision=style" +This option allows further control over excess precision on machines +where floating-point registers have more precision than the \s-1IEEE +\&\s0\f(CW\*(C`float\*(C'\fR and \f(CW\*(C`double\*(C'\fR types and the processor does not +support operations rounding to those types. By default, +\&\fB\-fexcess\-precision=fast\fR is in effect; this means that +operations are carried out in the precision of the registers and that +it is unpredictable when rounding to the types specified in the source +code takes place. When compiling C, if +\&\fB\-fexcess\-precision=standard\fR is specified then excess +precision follows the rules specified in \s-1ISO C99\s0; in particular, +both casts and assignments cause values to be rounded to their +semantic types (whereas \fB\-ffloat\-store\fR only affects +assignments). This option is enabled by default for C if a strict +conformance option such as \fB\-std=c99\fR is used. +.Sp +\&\fB\-fexcess\-precision=standard\fR is not implemented for languages +other than C, and has no effect if +\&\fB\-funsafe\-math\-optimizations\fR or \fB\-ffast\-math\fR is +specified. On the x86, it also has no effect if \fB\-mfpmath=sse\fR +or \fB\-mfpmath=sse+387\fR is specified; in the former case, \s-1IEEE\s0 +semantics apply without excess precision, and in the latter, rounding +is unpredictable. +.IP "\fB\-ffast\-math\fR" 4 +.IX Item "-ffast-math" +Sets \fB\-fno\-math\-errno\fR, \fB\-funsafe\-math\-optimizations\fR, +\&\fB\-ffinite\-math\-only\fR, \fB\-fno\-rounding\-math\fR, +\&\fB\-fno\-signaling\-nans\fR and \fB\-fcx\-limited\-range\fR. +.Sp +This option causes the preprocessor macro \f(CW\*(C`_\|_FAST_MATH_\|_\*(C'\fR to be defined. +.Sp +This option is not turned on by any \fB\-O\fR option besides +\&\fB\-Ofast\fR since it can result in incorrect output for programs +that depend on an exact implementation of \s-1IEEE\s0 or \s-1ISO\s0 rules/specifications +for math functions. It may, however, yield faster code for programs +that do not require the guarantees of these specifications. +.IP "\fB\-fno\-math\-errno\fR" 4 +.IX Item "-fno-math-errno" +Do not set \f(CW\*(C`errno\*(C'\fR after calling math functions that are executed +with a single instruction, e.g., \f(CW\*(C`sqrt\*(C'\fR. A program that relies on +\&\s-1IEEE\s0 exceptions for math error handling may want to use this flag +for speed while maintaining \s-1IEEE\s0 arithmetic compatibility. +.Sp +This option is not turned on by any \fB\-O\fR option since +it can result in incorrect output for programs that depend on +an exact implementation of \s-1IEEE\s0 or \s-1ISO\s0 rules/specifications for +math functions. It may, however, yield faster code for programs +that do not require the guarantees of these specifications. +.Sp +The default is \fB\-fmath\-errno\fR. +.Sp +On Darwin systems, the math library never sets \f(CW\*(C`errno\*(C'\fR. There is +therefore no reason for the compiler to consider the possibility that +it might, and \fB\-fno\-math\-errno\fR is the default. +.IP "\fB\-funsafe\-math\-optimizations\fR" 4 +.IX Item "-funsafe-math-optimizations" +Allow optimizations for floating-point arithmetic that (a) assume +that arguments and results are valid and (b) may violate \s-1IEEE\s0 or +\&\s-1ANSI\s0 standards. When used at link-time, it may include libraries +or startup files that change the default \s-1FPU\s0 control word or other +similar optimizations. +.Sp +This option is not turned on by any \fB\-O\fR option since +it can result in incorrect output for programs that depend on +an exact implementation of \s-1IEEE\s0 or \s-1ISO\s0 rules/specifications for +math functions. It may, however, yield faster code for programs +that do not require the guarantees of these specifications. +Enables \fB\-fno\-signed\-zeros\fR, \fB\-fno\-trapping\-math\fR, +\&\fB\-fassociative\-math\fR and \fB\-freciprocal\-math\fR. +.Sp +The default is \fB\-fno\-unsafe\-math\-optimizations\fR. +.IP "\fB\-fassociative\-math\fR" 4 +.IX Item "-fassociative-math" +Allow re-association of operands in series of floating-point operations. +This violates the \s-1ISO C\s0 and \*(C+ language standard by possibly changing +computation result. \s-1NOTE:\s0 re-ordering may change the sign of zero as +well as ignore NaNs and inhibit or create underflow or overflow (and +thus cannot be used on code that relies on rounding behavior like +\&\f(CW\*(C`(x + 2**52) \- 2**52\*(C'\fR. May also reorder floating-point comparisons +and thus may not be used when ordered comparisons are required. +This option requires that both \fB\-fno\-signed\-zeros\fR and +\&\fB\-fno\-trapping\-math\fR be in effect. Moreover, it doesn't make +much sense with \fB\-frounding\-math\fR. For Fortran the option +is automatically enabled when both \fB\-fno\-signed\-zeros\fR and +\&\fB\-fno\-trapping\-math\fR are in effect. +.Sp +The default is \fB\-fno\-associative\-math\fR. +.IP "\fB\-freciprocal\-math\fR" 4 +.IX Item "-freciprocal-math" +Allow the reciprocal of a value to be used instead of dividing by +the value if this enables optimizations. For example \f(CW\*(C`x / y\*(C'\fR +can be replaced with \f(CW\*(C`x * (1/y)\*(C'\fR, which is useful if \f(CW\*(C`(1/y)\*(C'\fR +is subject to common subexpression elimination. Note that this loses +precision and increases the number of flops operating on the value. +.Sp +The default is \fB\-fno\-reciprocal\-math\fR. +.IP "\fB\-ffinite\-math\-only\fR" 4 +.IX Item "-ffinite-math-only" +Allow optimizations for floating-point arithmetic that assume +that arguments and results are not NaNs or +\-Infs. +.Sp +This option is not turned on by any \fB\-O\fR option since +it can result in incorrect output for programs that depend on +an exact implementation of \s-1IEEE\s0 or \s-1ISO\s0 rules/specifications for +math functions. It may, however, yield faster code for programs +that do not require the guarantees of these specifications. +.Sp +The default is \fB\-fno\-finite\-math\-only\fR. +.IP "\fB\-fno\-signed\-zeros\fR" 4 +.IX Item "-fno-signed-zeros" +Allow optimizations for floating-point arithmetic that ignore the +signedness of zero. \s-1IEEE\s0 arithmetic specifies the behavior of +distinct +0.0 and \-0.0 values, which then prohibits simplification +of expressions such as x+0.0 or 0.0*x (even with \fB\-ffinite\-math\-only\fR). +This option implies that the sign of a zero result isn't significant. +.Sp +The default is \fB\-fsigned\-zeros\fR. +.IP "\fB\-fno\-trapping\-math\fR" 4 +.IX Item "-fno-trapping-math" +Compile code assuming that floating-point operations cannot generate +user-visible traps. These traps include division by zero, overflow, +underflow, inexact result and invalid operation. This option requires +that \fB\-fno\-signaling\-nans\fR be in effect. Setting this option may +allow faster code if one relies on \*(L"non-stop\*(R" \s-1IEEE\s0 arithmetic, for example. +.Sp +This option should never be turned on by any \fB\-O\fR option since +it can result in incorrect output for programs that depend on +an exact implementation of \s-1IEEE\s0 or \s-1ISO\s0 rules/specifications for +math functions. +.Sp +The default is \fB\-ftrapping\-math\fR. +.IP "\fB\-frounding\-math\fR" 4 +.IX Item "-frounding-math" +Disable transformations and optimizations that assume default floating-point +rounding behavior. This is round-to-zero for all floating point +to integer conversions, and round-to-nearest for all other arithmetic +truncations. This option should be specified for programs that change +the \s-1FP\s0 rounding mode dynamically, or that may be executed with a +non-default rounding mode. This option disables constant folding of +floating-point expressions at compile time (which may be affected by +rounding mode) and arithmetic transformations that are unsafe in the +presence of sign-dependent rounding modes. +.Sp +The default is \fB\-fno\-rounding\-math\fR. +.Sp +This option is experimental and does not currently guarantee to +disable all \s-1GCC\s0 optimizations that are affected by rounding mode. +Future versions of \s-1GCC\s0 may provide finer control of this setting +using C99's \f(CW\*(C`FENV_ACCESS\*(C'\fR pragma. This command-line option +will be used to specify the default state for \f(CW\*(C`FENV_ACCESS\*(C'\fR. +.IP "\fB\-fsignaling\-nans\fR" 4 +.IX Item "-fsignaling-nans" +Compile code assuming that \s-1IEEE\s0 signaling NaNs may generate user-visible +traps during floating-point operations. Setting this option disables +optimizations that may change the number of exceptions visible with +signaling NaNs. This option implies \fB\-ftrapping\-math\fR. +.Sp +This option causes the preprocessor macro \f(CW\*(C`_\|_SUPPORT_SNAN_\|_\*(C'\fR to +be defined. +.Sp +The default is \fB\-fno\-signaling\-nans\fR. +.Sp +This option is experimental and does not currently guarantee to +disable all \s-1GCC\s0 optimizations that affect signaling NaN behavior. +.IP "\fB\-fsingle\-precision\-constant\fR" 4 +.IX Item "-fsingle-precision-constant" +Treat floating-point constants as single precision instead of +implicitly converting them to double-precision constants. +.IP "\fB\-fcx\-limited\-range\fR" 4 +.IX Item "-fcx-limited-range" +When enabled, this option states that a range reduction step is not +needed when performing complex division. Also, there is no checking +whether the result of a complex multiplication or division is \f(CW\*(C`NaN ++ I*NaN\*(C'\fR, with an attempt to rescue the situation in that case. The +default is \fB\-fno\-cx\-limited\-range\fR, but is enabled by +\&\fB\-ffast\-math\fR. +.Sp +This option controls the default setting of the \s-1ISO C99 +\&\s0\f(CW\*(C`CX_LIMITED_RANGE\*(C'\fR pragma. Nevertheless, the option applies to +all languages. +.IP "\fB\-fcx\-fortran\-rules\fR" 4 +.IX Item "-fcx-fortran-rules" +Complex multiplication and division follow Fortran rules. Range +reduction is done as part of complex division, but there is no checking +whether the result of a complex multiplication or division is \f(CW\*(C`NaN ++ I*NaN\*(C'\fR, with an attempt to rescue the situation in that case. +.Sp +The default is \fB\-fno\-cx\-fortran\-rules\fR. +.PP +The following options control optimizations that may improve +performance, but are not enabled by any \fB\-O\fR options. This +section includes experimental options that may produce broken code. +.IP "\fB\-fbranch\-probabilities\fR" 4 +.IX Item "-fbranch-probabilities" +After running a program compiled with \fB\-fprofile\-arcs\fR, you can compile it a second time using +\&\fB\-fbranch\-probabilities\fR, to improve optimizations based on +the number of times each branch was taken. When a program +compiled with \fB\-fprofile\-arcs\fR exits, it saves arc execution +counts to a file called \fI\fIsourcename\fI.gcda\fR for each source +file. The information in this data file is very dependent on the +structure of the generated code, so you must use the same source code +and the same optimization options for both compilations. +.Sp +With \fB\-fbranch\-probabilities\fR, \s-1GCC\s0 puts a +\&\fB\s-1REG_BR_PROB\s0\fR note on each \fB\s-1JUMP_INSN\s0\fR and \fB\s-1CALL_INSN\s0\fR. +These can be used to improve optimization. Currently, they are only +used in one place: in \fIreorg.c\fR, instead of guessing which path a +branch is most likely to take, the \fB\s-1REG_BR_PROB\s0\fR values are used to +exactly determine which path is taken more often. +.IP "\fB\-fprofile\-values\fR" 4 +.IX Item "-fprofile-values" +If combined with \fB\-fprofile\-arcs\fR, it adds code so that some +data about values of expressions in the program is gathered. +.Sp +With \fB\-fbranch\-probabilities\fR, it reads back the data gathered +from profiling values of expressions for usage in optimizations. +.Sp +Enabled with \fB\-fprofile\-generate\fR and \fB\-fprofile\-use\fR. +.IP "\fB\-fprofile\-reorder\-functions\fR" 4 +.IX Item "-fprofile-reorder-functions" +Function reordering based on profile instrumentation collects +first time of execution of a function and orders these functions +in ascending order. +.Sp +Enabled with \fB\-fprofile\-use\fR. +.IP "\fB\-fvpt\fR" 4 +.IX Item "-fvpt" +If combined with \fB\-fprofile\-arcs\fR, this option instructs the compiler +to add code to gather information about values of expressions. +.Sp +With \fB\-fbranch\-probabilities\fR, it reads back the data gathered +and actually performs the optimizations based on them. +Currently the optimizations include specialization of division operations +using the knowledge about the value of the denominator. +.IP "\fB\-frename\-registers\fR" 4 +.IX Item "-frename-registers" +Attempt to avoid false dependencies in scheduled code by making use +of registers left over after register allocation. This optimization +most benefits processors with lots of registers. Depending on the +debug information format adopted by the target, however, it can +make debugging impossible, since variables no longer stay in +a \*(L"home register\*(R". +.Sp +Enabled by default with \fB\-funroll\-loops\fR and \fB\-fpeel\-loops\fR. +.IP "\fB\-ftracer\fR" 4 +.IX Item "-ftracer" +Perform tail duplication to enlarge superblock size. This transformation +simplifies the control flow of the function allowing other optimizations to do +a better job. +.Sp +Enabled with \fB\-fprofile\-use\fR. +.IP "\fB\-funroll\-loops\fR" 4 +.IX Item "-funroll-loops" +Unroll loops whose number of iterations can be determined at compile time or +upon entry to the loop. \fB\-funroll\-loops\fR implies +\&\fB\-frerun\-cse\-after\-loop\fR, \fB\-fweb\fR and \fB\-frename\-registers\fR. +It also turns on complete loop peeling (i.e. complete removal of loops with +a small constant number of iterations). This option makes code larger, and may +or may not make it run faster. +.Sp +Enabled with \fB\-fprofile\-use\fR. +.IP "\fB\-funroll\-all\-loops\fR" 4 +.IX Item "-funroll-all-loops" +Unroll all loops, even if their number of iterations is uncertain when +the loop is entered. This usually makes programs run more slowly. +\&\fB\-funroll\-all\-loops\fR implies the same options as +\&\fB\-funroll\-loops\fR. +.IP "\fB\-fpeel\-loops\fR" 4 +.IX Item "-fpeel-loops" +Peels loops for which there is enough information that they do not +roll much (from profile feedback). It also turns on complete loop peeling +(i.e. complete removal of loops with small constant number of iterations). +.Sp +Enabled with \fB\-fprofile\-use\fR. +.IP "\fB\-fmove\-loop\-invariants\fR" 4 +.IX Item "-fmove-loop-invariants" +Enables the loop invariant motion pass in the \s-1RTL\s0 loop optimizer. Enabled +at level \fB\-O1\fR +.IP "\fB\-funswitch\-loops\fR" 4 +.IX Item "-funswitch-loops" +Move branches with loop invariant conditions out of the loop, with duplicates +of the loop on both branches (modified according to result of the condition). +.IP "\fB\-ffunction\-sections\fR" 4 +.IX Item "-ffunction-sections" +.PD 0 +.IP "\fB\-fdata\-sections\fR" 4 +.IX Item "-fdata-sections" +.PD +Place each function or data item into its own section in the output +file if the target supports arbitrary sections. The name of the +function or the name of the data item determines the section's name +in the output file. +.Sp +Use these options on systems where the linker can perform optimizations +to improve locality of reference in the instruction space. Most systems +using the \s-1ELF\s0 object format and \s-1SPARC\s0 processors running Solaris 2 have +linkers with such optimizations. \s-1AIX\s0 may have these optimizations in +the future. +.Sp +Only use these options when there are significant benefits from doing +so. When you specify these options, the assembler and linker +create larger object and executable files and are also slower. +You cannot use \f(CW\*(C`gprof\*(C'\fR on all systems if you +specify this option, and you may have problems with debugging if +you specify both this option and \fB\-g\fR. +.IP "\fB\-fbranch\-target\-load\-optimize\fR" 4 +.IX Item "-fbranch-target-load-optimize" +Perform branch target register load optimization before prologue / epilogue +threading. +The use of target registers can typically be exposed only during reload, +thus hoisting loads out of loops and doing inter-block scheduling needs +a separate optimization pass. +.IP "\fB\-fbranch\-target\-load\-optimize2\fR" 4 +.IX Item "-fbranch-target-load-optimize2" +Perform branch target register load optimization after prologue / epilogue +threading. +.IP "\fB\-fbtr\-bb\-exclusive\fR" 4 +.IX Item "-fbtr-bb-exclusive" +When performing branch target register load optimization, don't reuse +branch target registers within any basic block. +.IP "\fB\-fstack\-protector\fR" 4 +.IX Item "-fstack-protector" +Emit extra code to check for buffer overflows, such as stack smashing +attacks. This is done by adding a guard variable to functions with +vulnerable objects. This includes functions that call \f(CW\*(C`alloca\*(C'\fR, and +functions with buffers larger than 8 bytes. The guards are initialized +when a function is entered and then checked when the function exits. +If a guard check fails, an error message is printed and the program exits. +.IP "\fB\-fstack\-protector\-all\fR" 4 +.IX Item "-fstack-protector-all" +Like \fB\-fstack\-protector\fR except that all functions are protected. +.IP "\fB\-fstack\-protector\-strong\fR" 4 +.IX Item "-fstack-protector-strong" +Like \fB\-fstack\-protector\fR but includes additional functions to +be protected \-\-\- those that have local array definitions, or have +references to local frame addresses. +.IP "\fB\-fsection\-anchors\fR" 4 +.IX Item "-fsection-anchors" +Try to reduce the number of symbolic address calculations by using +shared \*(L"anchor\*(R" symbols to address nearby objects. This transformation +can help to reduce the number of \s-1GOT\s0 entries and \s-1GOT\s0 accesses on some +targets. +.Sp +For example, the implementation of the following function \f(CW\*(C`foo\*(C'\fR: +.Sp +.Vb 2 +\& static int a, b, c; +\& int foo (void) { return a + b + c; } +.Ve +.Sp +usually calculates the addresses of all three variables, but if you +compile it with \fB\-fsection\-anchors\fR, it accesses the variables +from a common anchor point instead. The effect is similar to the +following pseudocode (which isn't valid C): +.Sp +.Vb 5 +\& int foo (void) +\& { +\& register int *xr = &x; +\& return xr[&a \- &x] + xr[&b \- &x] + xr[&c \- &x]; +\& } +.Ve +.Sp +Not all targets support this option. +.IP "\fB\-\-param\fR \fIname\fR\fB=\fR\fIvalue\fR" 4 +.IX Item "--param name=value" +In some places, \s-1GCC\s0 uses various constants to control the amount of +optimization that is done. For example, \s-1GCC\s0 does not inline functions +that contain more than a certain number of instructions. You can +control some of these constants on the command line using the +\&\fB\-\-param\fR option. +.Sp +The names of specific parameters, and the meaning of the values, are +tied to the internals of the compiler, and are subject to change +without notice in future releases. +.Sp +In each case, the \fIvalue\fR is an integer. The allowable choices for +\&\fIname\fR are: +.RS 4 +.IP "\fBpredictable-branch-outcome\fR" 4 +.IX Item "predictable-branch-outcome" +When branch is predicted to be taken with probability lower than this threshold +(in percent), then it is considered well predictable. The default is 10. +.IP "\fBmax-crossjump-edges\fR" 4 +.IX Item "max-crossjump-edges" +The maximum number of incoming edges to consider for cross-jumping. +The algorithm used by \fB\-fcrossjumping\fR is O(N^2) in +the number of edges incoming to each block. Increasing values mean +more aggressive optimization, making the compilation time increase with +probably small improvement in executable size. +.IP "\fBmin-crossjump-insns\fR" 4 +.IX Item "min-crossjump-insns" +The minimum number of instructions that must be matched at the end +of two blocks before cross-jumping is performed on them. This +value is ignored in the case where all instructions in the block being +cross-jumped from are matched. The default value is 5. +.IP "\fBmax-grow-copy-bb-insns\fR" 4 +.IX Item "max-grow-copy-bb-insns" +The maximum code size expansion factor when copying basic blocks +instead of jumping. The expansion is relative to a jump instruction. +The default value is 8. +.IP "\fBmax-goto-duplication-insns\fR" 4 +.IX Item "max-goto-duplication-insns" +The maximum number of instructions to duplicate to a block that jumps +to a computed goto. To avoid O(N^2) behavior in a number of +passes, \s-1GCC\s0 factors computed gotos early in the compilation process, +and unfactors them as late as possible. Only computed jumps at the +end of a basic blocks with no more than max-goto-duplication-insns are +unfactored. The default value is 8. +.IP "\fBmax-delay-slot-insn-search\fR" 4 +.IX Item "max-delay-slot-insn-search" +The maximum number of instructions to consider when looking for an +instruction to fill a delay slot. If more than this arbitrary number of +instructions are searched, the time savings from filling the delay slot +are minimal, so stop searching. Increasing values mean more +aggressive optimization, making the compilation time increase with probably +small improvement in execution time. +.IP "\fBmax-delay-slot-live-search\fR" 4 +.IX Item "max-delay-slot-live-search" +When trying to fill delay slots, the maximum number of instructions to +consider when searching for a block with valid live register +information. Increasing this arbitrarily chosen value means more +aggressive optimization, increasing the compilation time. This parameter +should be removed when the delay slot code is rewritten to maintain the +control-flow graph. +.IP "\fBmax-gcse-memory\fR" 4 +.IX Item "max-gcse-memory" +The approximate maximum amount of memory that can be allocated in +order to perform the global common subexpression elimination +optimization. If more memory than specified is required, the +optimization is not done. +.IP "\fBmax-gcse-insertion-ratio\fR" 4 +.IX Item "max-gcse-insertion-ratio" +If the ratio of expression insertions to deletions is larger than this value +for any expression, then \s-1RTL PRE\s0 inserts or removes the expression and thus +leaves partially redundant computations in the instruction stream. The default value is 20. +.IP "\fBmax-pending-list-length\fR" 4 +.IX Item "max-pending-list-length" +The maximum number of pending dependencies scheduling allows +before flushing the current state and starting over. Large functions +with few branches or calls can create excessively large lists which +needlessly consume memory and resources. +.IP "\fBmax-modulo-backtrack-attempts\fR" 4 +.IX Item "max-modulo-backtrack-attempts" +The maximum number of backtrack attempts the scheduler should make +when modulo scheduling a loop. Larger values can exponentially increase +compilation time. +.IP "\fBmax-inline-insns-single\fR" 4 +.IX Item "max-inline-insns-single" +Several parameters control the tree inliner used in \s-1GCC.\s0 +This number sets the maximum number of instructions (counted in \s-1GCC\s0's +internal representation) in a single function that the tree inliner +considers for inlining. This only affects functions declared +inline and methods implemented in a class declaration (\*(C+). +The default value is 400. +.IP "\fBmax-inline-insns-auto\fR" 4 +.IX Item "max-inline-insns-auto" +When you use \fB\-finline\-functions\fR (included in \fB\-O3\fR), +a lot of functions that would otherwise not be considered for inlining +by the compiler are investigated. To those functions, a different +(more restrictive) limit compared to functions declared inline can +be applied. +The default value is 40. +.IP "\fBinline-min-speedup\fR" 4 +.IX Item "inline-min-speedup" +When estimated performance improvement of caller + callee runtime exceeds this +threshold (in precent), the function can be inlined regardless the limit on +\&\fB\-\-param max-inline-insns-single\fR and \fB\-\-param +max-inline-insns-auto\fR. +.IP "\fBlarge-function-insns\fR" 4 +.IX Item "large-function-insns" +The limit specifying really large functions. For functions larger than this +limit after inlining, inlining is constrained by +\&\fB\-\-param large-function-growth\fR. This parameter is useful primarily +to avoid extreme compilation time caused by non-linear algorithms used by the +back end. +The default value is 2700. +.IP "\fBlarge-function-growth\fR" 4 +.IX Item "large-function-growth" +Specifies maximal growth of large function caused by inlining in percents. +The default value is 100 which limits large function growth to 2.0 times +the original size. +.IP "\fBlarge-unit-insns\fR" 4 +.IX Item "large-unit-insns" +The limit specifying large translation unit. Growth caused by inlining of +units larger than this limit is limited by \fB\-\-param inline-unit-growth\fR. +For small units this might be too tight. +For example, consider a unit consisting of function A +that is inline and B that just calls A three times. If B is small relative to +A, the growth of unit is 300\e% and yet such inlining is very sane. For very +large units consisting of small inlineable functions, however, the overall unit +growth limit is needed to avoid exponential explosion of code size. Thus for +smaller units, the size is increased to \fB\-\-param large-unit-insns\fR +before applying \fB\-\-param inline-unit-growth\fR. The default is 10000. +.IP "\fBinline-unit-growth\fR" 4 +.IX Item "inline-unit-growth" +Specifies maximal overall growth of the compilation unit caused by inlining. +The default value is 30 which limits unit growth to 1.3 times the original +size. +.IP "\fBipcp-unit-growth\fR" 4 +.IX Item "ipcp-unit-growth" +Specifies maximal overall growth of the compilation unit caused by +interprocedural constant propagation. The default value is 10 which limits +unit growth to 1.1 times the original size. +.IP "\fBlarge-stack-frame\fR" 4 +.IX Item "large-stack-frame" +The limit specifying large stack frames. While inlining the algorithm is trying +to not grow past this limit too much. The default value is 256 bytes. +.IP "\fBlarge-stack-frame-growth\fR" 4 +.IX Item "large-stack-frame-growth" +Specifies maximal growth of large stack frames caused by inlining in percents. +The default value is 1000 which limits large stack frame growth to 11 times +the original size. +.IP "\fBmax-inline-insns-recursive\fR" 4 +.IX Item "max-inline-insns-recursive" +.PD 0 +.IP "\fBmax-inline-insns-recursive-auto\fR" 4 +.IX Item "max-inline-insns-recursive-auto" +.PD +Specifies the maximum number of instructions an out-of-line copy of a +self-recursive inline +function can grow into by performing recursive inlining. +.Sp +For functions declared inline, \fB\-\-param max-inline-insns-recursive\fR is +taken into account. For functions not declared inline, recursive inlining +happens only when \fB\-finline\-functions\fR (included in \fB\-O3\fR) is +enabled and \fB\-\-param max-inline-insns-recursive-auto\fR is used. The +default value is 450. +.IP "\fBmax-inline-recursive-depth\fR" 4 +.IX Item "max-inline-recursive-depth" +.PD 0 +.IP "\fBmax-inline-recursive-depth-auto\fR" 4 +.IX Item "max-inline-recursive-depth-auto" +.PD +Specifies the maximum recursion depth used for recursive inlining. +.Sp +For functions declared inline, \fB\-\-param max-inline-recursive-depth\fR is +taken into account. For functions not declared inline, recursive inlining +happens only when \fB\-finline\-functions\fR (included in \fB\-O3\fR) is +enabled and \fB\-\-param max-inline-recursive-depth-auto\fR is used. The +default value is 8. +.IP "\fBmin-inline-recursive-probability\fR" 4 +.IX Item "min-inline-recursive-probability" +Recursive inlining is profitable only for function having deep recursion +in average and can hurt for function having little recursion depth by +increasing the prologue size or complexity of function body to other +optimizers. +.Sp +When profile feedback is available (see \fB\-fprofile\-generate\fR) the actual +recursion depth can be guessed from probability that function recurses via a +given call expression. This parameter limits inlining only to call expressions +whose probability exceeds the given threshold (in percents). +The default value is 10. +.IP "\fBearly-inlining-insns\fR" 4 +.IX Item "early-inlining-insns" +Specify growth that the early inliner can make. In effect it increases +the amount of inlining for code having a large abstraction penalty. +The default value is 10. +.IP "\fBmax-early-inliner-iterations\fR" 4 +.IX Item "max-early-inliner-iterations" +.PD 0 +.IP "\fBmax-early-inliner-iterations\fR" 4 +.IX Item "max-early-inliner-iterations" +.PD +Limit of iterations of the early inliner. This basically bounds +the number of nested indirect calls the early inliner can resolve. +Deeper chains are still handled by late inlining. +.IP "\fBcomdat-sharing-probability\fR" 4 +.IX Item "comdat-sharing-probability" +.PD 0 +.IP "\fBcomdat-sharing-probability\fR" 4 +.IX Item "comdat-sharing-probability" +.PD +Probability (in percent) that \*(C+ inline function with comdat visibility +are shared across multiple compilation units. The default value is 20. +.IP "\fBmin-vect-loop-bound\fR" 4 +.IX Item "min-vect-loop-bound" +The minimum number of iterations under which loops are not vectorized +when \fB\-ftree\-vectorize\fR is used. The number of iterations after +vectorization needs to be greater than the value specified by this option +to allow vectorization. The default value is 0. +.IP "\fBgcse-cost-distance-ratio\fR" 4 +.IX Item "gcse-cost-distance-ratio" +Scaling factor in calculation of maximum distance an expression +can be moved by \s-1GCSE\s0 optimizations. This is currently supported only in the +code hoisting pass. The bigger the ratio, the more aggressive code hoisting +is with simple expressions, i.e., the expressions that have cost +less than \fBgcse-unrestricted-cost\fR. Specifying 0 disables +hoisting of simple expressions. The default value is 10. +.IP "\fBgcse-unrestricted-cost\fR" 4 +.IX Item "gcse-unrestricted-cost" +Cost, roughly measured as the cost of a single typical machine +instruction, at which \s-1GCSE\s0 optimizations do not constrain +the distance an expression can travel. This is currently +supported only in the code hoisting pass. The lesser the cost, +the more aggressive code hoisting is. Specifying 0 +allows all expressions to travel unrestricted distances. +The default value is 3. +.IP "\fBmax-hoist-depth\fR" 4 +.IX Item "max-hoist-depth" +The depth of search in the dominator tree for expressions to hoist. +This is used to avoid quadratic behavior in hoisting algorithm. +The value of 0 does not limit on the search, but may slow down compilation +of huge functions. The default value is 30. +.IP "\fBmax-tail-merge-comparisons\fR" 4 +.IX Item "max-tail-merge-comparisons" +The maximum amount of similar bbs to compare a bb with. This is used to +avoid quadratic behavior in tree tail merging. The default value is 10. +.IP "\fBmax-tail-merge-iterations\fR" 4 +.IX Item "max-tail-merge-iterations" +The maximum amount of iterations of the pass over the function. This is used to +limit compilation time in tree tail merging. The default value is 2. +.IP "\fBmax-unrolled-insns\fR" 4 +.IX Item "max-unrolled-insns" +The maximum number of instructions that a loop may have to be unrolled. +If a loop is unrolled, this parameter also determines how many times +the loop code is unrolled. +.IP "\fBmax-average-unrolled-insns\fR" 4 +.IX Item "max-average-unrolled-insns" +The maximum number of instructions biased by probabilities of their execution +that a loop may have to be unrolled. If a loop is unrolled, +this parameter also determines how many times the loop code is unrolled. +.IP "\fBmax-unroll-times\fR" 4 +.IX Item "max-unroll-times" +The maximum number of unrollings of a single loop. +.IP "\fBmax-peeled-insns\fR" 4 +.IX Item "max-peeled-insns" +The maximum number of instructions that a loop may have to be peeled. +If a loop is peeled, this parameter also determines how many times +the loop code is peeled. +.IP "\fBmax-peel-times\fR" 4 +.IX Item "max-peel-times" +The maximum number of peelings of a single loop. +.IP "\fBmax-peel-branches\fR" 4 +.IX Item "max-peel-branches" +The maximum number of branches on the hot path through the peeled sequence. +.IP "\fBmax-completely-peeled-insns\fR" 4 +.IX Item "max-completely-peeled-insns" +The maximum number of insns of a completely peeled loop. +.IP "\fBmax-completely-peel-times\fR" 4 +.IX Item "max-completely-peel-times" +The maximum number of iterations of a loop to be suitable for complete peeling. +.IP "\fBmax-completely-peel-loop-nest-depth\fR" 4 +.IX Item "max-completely-peel-loop-nest-depth" +The maximum depth of a loop nest suitable for complete peeling. +.IP "\fBmax-unswitch-insns\fR" 4 +.IX Item "max-unswitch-insns" +The maximum number of insns of an unswitched loop. +.IP "\fBmax-unswitch-level\fR" 4 +.IX Item "max-unswitch-level" +The maximum number of branches unswitched in a single loop. +.IP "\fBlim-expensive\fR" 4 +.IX Item "lim-expensive" +The minimum cost of an expensive expression in the loop invariant motion. +.IP "\fBiv-consider-all-candidates-bound\fR" 4 +.IX Item "iv-consider-all-candidates-bound" +Bound on number of candidates for induction variables, below which +all candidates are considered for each use in induction variable +optimizations. If there are more candidates than this, +only the most relevant ones are considered to avoid quadratic time complexity. +.IP "\fBiv-max-considered-uses\fR" 4 +.IX Item "iv-max-considered-uses" +The induction variable optimizations give up on loops that contain more +induction variable uses. +.IP "\fBiv-always-prune-cand-set-bound\fR" 4 +.IX Item "iv-always-prune-cand-set-bound" +If the number of candidates in the set is smaller than this value, +always try to remove unnecessary ivs from the set +when adding a new one. +.IP "\fBscev-max-expr-size\fR" 4 +.IX Item "scev-max-expr-size" +Bound on size of expressions used in the scalar evolutions analyzer. +Large expressions slow the analyzer. +.IP "\fBscev-max-expr-complexity\fR" 4 +.IX Item "scev-max-expr-complexity" +Bound on the complexity of the expressions in the scalar evolutions analyzer. +Complex expressions slow the analyzer. +.IP "\fBomega-max-vars\fR" 4 +.IX Item "omega-max-vars" +The maximum number of variables in an Omega constraint system. +The default value is 128. +.IP "\fBomega-max-geqs\fR" 4 +.IX Item "omega-max-geqs" +The maximum number of inequalities in an Omega constraint system. +The default value is 256. +.IP "\fBomega-max-eqs\fR" 4 +.IX Item "omega-max-eqs" +The maximum number of equalities in an Omega constraint system. +The default value is 128. +.IP "\fBomega-max-wild-cards\fR" 4 +.IX Item "omega-max-wild-cards" +The maximum number of wildcard variables that the Omega solver is +able to insert. The default value is 18. +.IP "\fBomega-hash-table-size\fR" 4 +.IX Item "omega-hash-table-size" +The size of the hash table in the Omega solver. The default value is +550. +.IP "\fBomega-max-keys\fR" 4 +.IX Item "omega-max-keys" +The maximal number of keys used by the Omega solver. The default +value is 500. +.IP "\fBomega-eliminate-redundant-constraints\fR" 4 +.IX Item "omega-eliminate-redundant-constraints" +When set to 1, use expensive methods to eliminate all redundant +constraints. The default value is 0. +.IP "\fBvect-max-version-for-alignment-checks\fR" 4 +.IX Item "vect-max-version-for-alignment-checks" +The maximum number of run-time checks that can be performed when +doing loop versioning for alignment in the vectorizer. +.IP "\fBvect-max-version-for-alias-checks\fR" 4 +.IX Item "vect-max-version-for-alias-checks" +The maximum number of run-time checks that can be performed when +doing loop versioning for alias in the vectorizer. +.IP "\fBvect-max-peeling-for-alignment\fR" 4 +.IX Item "vect-max-peeling-for-alignment" +The maximum number of loop peels to enhance access alignment +for vectorizer. Value \-1 means 'no limit'. +.IP "\fBmax-iterations-to-track\fR" 4 +.IX Item "max-iterations-to-track" +The maximum number of iterations of a loop the brute-force algorithm +for analysis of the number of iterations of the loop tries to evaluate. +.IP "\fBhot-bb-count-ws-permille\fR" 4 +.IX Item "hot-bb-count-ws-permille" +A basic block profile count is considered hot if it contributes to +the given permillage (i.e. 0...1000) of the entire profiled execution. +.IP "\fBhot-bb-frequency-fraction\fR" 4 +.IX Item "hot-bb-frequency-fraction" +Select fraction of the entry block frequency of executions of basic block in +function given basic block needs to have to be considered hot. +.IP "\fBmax-predicted-iterations\fR" 4 +.IX Item "max-predicted-iterations" +The maximum number of loop iterations we predict statically. This is useful +in cases where a function contains a single loop with known bound and +another loop with unknown bound. +The known number of iterations is predicted correctly, while +the unknown number of iterations average to roughly 10. This means that the +loop without bounds appears artificially cold relative to the other one. +.IP "\fBbuiltin-expect-probability\fR" 4 +.IX Item "builtin-expect-probability" +Control the probability of the expression having the specified value. This +parameter takes a percentage (i.e. 0 ... 100) as input. +The default probability of 90 is obtained empirically. +.IP "\fBalign-threshold\fR" 4 +.IX Item "align-threshold" +Select fraction of the maximal frequency of executions of a basic block in +a function to align the basic block. +.IP "\fBalign-loop-iterations\fR" 4 +.IX Item "align-loop-iterations" +A loop expected to iterate at least the selected number of iterations is +aligned. +.IP "\fBtracer-dynamic-coverage\fR" 4 +.IX Item "tracer-dynamic-coverage" +.PD 0 +.IP "\fBtracer-dynamic-coverage-feedback\fR" 4 +.IX Item "tracer-dynamic-coverage-feedback" +.PD +This value is used to limit superblock formation once the given percentage of +executed instructions is covered. This limits unnecessary code size +expansion. +.Sp +The \fBtracer-dynamic-coverage-feedback\fR is used only when profile +feedback is available. The real profiles (as opposed to statically estimated +ones) are much less balanced allowing the threshold to be larger value. +.IP "\fBtracer-max-code-growth\fR" 4 +.IX Item "tracer-max-code-growth" +Stop tail duplication once code growth has reached given percentage. This is +a rather artificial limit, as most of the duplicates are eliminated later in +cross jumping, so it may be set to much higher values than is the desired code +growth. +.IP "\fBtracer-min-branch-ratio\fR" 4 +.IX Item "tracer-min-branch-ratio" +Stop reverse growth when the reverse probability of best edge is less than this +threshold (in percent). +.IP "\fBtracer-min-branch-ratio\fR" 4 +.IX Item "tracer-min-branch-ratio" +.PD 0 +.IP "\fBtracer-min-branch-ratio-feedback\fR" 4 +.IX Item "tracer-min-branch-ratio-feedback" +.PD +Stop forward growth if the best edge has probability lower than this +threshold. +.Sp +Similarly to \fBtracer-dynamic-coverage\fR two values are present, one for +compilation for profile feedback and one for compilation without. The value +for compilation with profile feedback needs to be more conservative (higher) in +order to make tracer effective. +.IP "\fBmax-cse-path-length\fR" 4 +.IX Item "max-cse-path-length" +The maximum number of basic blocks on path that \s-1CSE\s0 considers. +The default is 10. +.IP "\fBmax-cse-insns\fR" 4 +.IX Item "max-cse-insns" +The maximum number of instructions \s-1CSE\s0 processes before flushing. +The default is 1000. +.IP "\fBggc-min-expand\fR" 4 +.IX Item "ggc-min-expand" +\&\s-1GCC\s0 uses a garbage collector to manage its own memory allocation. This +parameter specifies the minimum percentage by which the garbage +collector's heap should be allowed to expand between collections. +Tuning this may improve compilation speed; it has no effect on code +generation. +.Sp +The default is 30% + 70% * (\s-1RAM/1GB\s0) with an upper bound of 100% when +\&\s-1RAM \s0>= 1GB. If \f(CW\*(C`getrlimit\*(C'\fR is available, the notion of \*(L"\s-1RAM\*(R"\s0 is +the smallest of actual \s-1RAM\s0 and \f(CW\*(C`RLIMIT_DATA\*(C'\fR or \f(CW\*(C`RLIMIT_AS\*(C'\fR. If +\&\s-1GCC\s0 is not able to calculate \s-1RAM\s0 on a particular platform, the lower +bound of 30% is used. Setting this parameter and +\&\fBggc-min-heapsize\fR to zero causes a full collection to occur at +every opportunity. This is extremely slow, but can be useful for +debugging. +.IP "\fBggc-min-heapsize\fR" 4 +.IX Item "ggc-min-heapsize" +Minimum size of the garbage collector's heap before it begins bothering +to collect garbage. The first collection occurs after the heap expands +by \fBggc-min-expand\fR% beyond \fBggc-min-heapsize\fR. Again, +tuning this may improve compilation speed, and has no effect on code +generation. +.Sp +The default is the smaller of \s-1RAM/8, RLIMIT_RSS,\s0 or a limit that +tries to ensure that \s-1RLIMIT_DATA\s0 or \s-1RLIMIT_AS\s0 are not exceeded, but +with a lower bound of 4096 (four megabytes) and an upper bound of +131072 (128 megabytes). If \s-1GCC\s0 is not able to calculate \s-1RAM\s0 on a +particular platform, the lower bound is used. Setting this parameter +very large effectively disables garbage collection. Setting this +parameter and \fBggc-min-expand\fR to zero causes a full collection +to occur at every opportunity. +.IP "\fBmax-reload-search-insns\fR" 4 +.IX Item "max-reload-search-insns" +The maximum number of instruction reload should look backward for equivalent +register. Increasing values mean more aggressive optimization, making the +compilation time increase with probably slightly better performance. +The default value is 100. +.IP "\fBmax-cselib-memory-locations\fR" 4 +.IX Item "max-cselib-memory-locations" +The maximum number of memory locations cselib should take into account. +Increasing values mean more aggressive optimization, making the compilation time +increase with probably slightly better performance. The default value is 500. +.IP "\fBreorder-blocks-duplicate\fR" 4 +.IX Item "reorder-blocks-duplicate" +.PD 0 +.IP "\fBreorder-blocks-duplicate-feedback\fR" 4 +.IX Item "reorder-blocks-duplicate-feedback" +.PD +Used by the basic block reordering pass to decide whether to use unconditional +branch or duplicate the code on its destination. Code is duplicated when its +estimated size is smaller than this value multiplied by the estimated size of +unconditional jump in the hot spots of the program. +.Sp +The \fBreorder-block-duplicate-feedback\fR is used only when profile +feedback is available. It may be set to higher values than +\&\fBreorder-block-duplicate\fR since information about the hot spots is more +accurate. +.IP "\fBmax-sched-ready-insns\fR" 4 +.IX Item "max-sched-ready-insns" +The maximum number of instructions ready to be issued the scheduler should +consider at any given time during the first scheduling pass. Increasing +values mean more thorough searches, making the compilation time increase +with probably little benefit. The default value is 100. +.IP "\fBmax-sched-region-blocks\fR" 4 +.IX Item "max-sched-region-blocks" +The maximum number of blocks in a region to be considered for +interblock scheduling. The default value is 10. +.IP "\fBmax-pipeline-region-blocks\fR" 4 +.IX Item "max-pipeline-region-blocks" +The maximum number of blocks in a region to be considered for +pipelining in the selective scheduler. The default value is 15. +.IP "\fBmax-sched-region-insns\fR" 4 +.IX Item "max-sched-region-insns" +The maximum number of insns in a region to be considered for +interblock scheduling. The default value is 100. +.IP "\fBmax-pipeline-region-insns\fR" 4 +.IX Item "max-pipeline-region-insns" +The maximum number of insns in a region to be considered for +pipelining in the selective scheduler. The default value is 200. +.IP "\fBmin-spec-prob\fR" 4 +.IX Item "min-spec-prob" +The minimum probability (in percents) of reaching a source block +for interblock speculative scheduling. The default value is 40. +.IP "\fBmax-sched-extend-regions-iters\fR" 4 +.IX Item "max-sched-extend-regions-iters" +The maximum number of iterations through \s-1CFG\s0 to extend regions. +A value of 0 (the default) disables region extensions. +.IP "\fBmax-sched-insn-conflict-delay\fR" 4 +.IX Item "max-sched-insn-conflict-delay" +The maximum conflict delay for an insn to be considered for speculative motion. +The default value is 3. +.IP "\fBsched-spec-prob-cutoff\fR" 4 +.IX Item "sched-spec-prob-cutoff" +The minimal probability of speculation success (in percents), so that +speculative insns are scheduled. +The default value is 40. +.IP "\fBsched-spec-state-edge-prob-cutoff\fR" 4 +.IX Item "sched-spec-state-edge-prob-cutoff" +The minimum probability an edge must have for the scheduler to save its +state across it. +The default value is 10. +.IP "\fBsched-mem-true-dep-cost\fR" 4 +.IX Item "sched-mem-true-dep-cost" +Minimal distance (in \s-1CPU\s0 cycles) between store and load targeting same +memory locations. The default value is 1. +.IP "\fBselsched-max-lookahead\fR" 4 +.IX Item "selsched-max-lookahead" +The maximum size of the lookahead window of selective scheduling. It is a +depth of search for available instructions. +The default value is 50. +.IP "\fBselsched-max-sched-times\fR" 4 +.IX Item "selsched-max-sched-times" +The maximum number of times that an instruction is scheduled during +selective scheduling. This is the limit on the number of iterations +through which the instruction may be pipelined. The default value is 2. +.IP "\fBselsched-max-insns-to-rename\fR" 4 +.IX Item "selsched-max-insns-to-rename" +The maximum number of best instructions in the ready list that are considered +for renaming in the selective scheduler. The default value is 2. +.IP "\fBsms-min-sc\fR" 4 +.IX Item "sms-min-sc" +The minimum value of stage count that swing modulo scheduler +generates. The default value is 2. +.IP "\fBmax-last-value-rtl\fR" 4 +.IX Item "max-last-value-rtl" +The maximum size measured as number of RTLs that can be recorded in an expression +in combiner for a pseudo register as last known value of that register. The default +is 10000. +.IP "\fBinteger-share-limit\fR" 4 +.IX Item "integer-share-limit" +Small integer constants can use a shared data structure, reducing the +compiler's memory usage and increasing its speed. This sets the maximum +value of a shared integer constant. The default value is 256. +.IP "\fBssp-buffer-size\fR" 4 +.IX Item "ssp-buffer-size" +The minimum size of buffers (i.e. arrays) that receive stack smashing +protection when \fB\-fstack\-protection\fR is used. +.IP "\fBmin-size-for-stack-sharing\fR" 4 +.IX Item "min-size-for-stack-sharing" +The minimum size of variables taking part in stack slot sharing when not +optimizing. The default value is 32. +.IP "\fBmax-jump-thread-duplication-stmts\fR" 4 +.IX Item "max-jump-thread-duplication-stmts" +Maximum number of statements allowed in a block that needs to be +duplicated when threading jumps. +.IP "\fBmax-fields-for-field-sensitive\fR" 4 +.IX Item "max-fields-for-field-sensitive" +Maximum number of fields in a structure treated in +a field sensitive manner during pointer analysis. The default is zero +for \fB\-O0\fR and \fB\-O1\fR, +and 100 for \fB\-Os\fR, \fB\-O2\fR, and \fB\-O3\fR. +.IP "\fBprefetch-latency\fR" 4 +.IX Item "prefetch-latency" +Estimate on average number of instructions that are executed before +prefetch finishes. The distance prefetched ahead is proportional +to this constant. Increasing this number may also lead to less +streams being prefetched (see \fBsimultaneous-prefetches\fR). +.IP "\fBsimultaneous-prefetches\fR" 4 +.IX Item "simultaneous-prefetches" +Maximum number of prefetches that can run at the same time. +.IP "\fBl1\-cache\-line\-size\fR" 4 +.IX Item "l1-cache-line-size" +The size of cache line in L1 cache, in bytes. +.IP "\fBl1\-cache\-size\fR" 4 +.IX Item "l1-cache-size" +The size of L1 cache, in kilobytes. +.IP "\fBl2\-cache\-size\fR" 4 +.IX Item "l2-cache-size" +The size of L2 cache, in kilobytes. +.IP "\fBmin-insn-to-prefetch-ratio\fR" 4 +.IX Item "min-insn-to-prefetch-ratio" +The minimum ratio between the number of instructions and the +number of prefetches to enable prefetching in a loop. +.IP "\fBprefetch-min-insn-to-mem-ratio\fR" 4 +.IX Item "prefetch-min-insn-to-mem-ratio" +The minimum ratio between the number of instructions and the +number of memory references to enable prefetching in a loop. +.IP "\fBuse-canonical-types\fR" 4 +.IX Item "use-canonical-types" +Whether the compiler should use the \*(L"canonical\*(R" type system. By +default, this should always be 1, which uses a more efficient internal +mechanism for comparing types in \*(C+ and Objective\-\*(C+. However, if +bugs in the canonical type system are causing compilation failures, +set this value to 0 to disable canonical types. +.IP "\fBswitch-conversion-max-branch-ratio\fR" 4 +.IX Item "switch-conversion-max-branch-ratio" +Switch initialization conversion refuses to create arrays that are +bigger than \fBswitch-conversion-max-branch-ratio\fR times the number of +branches in the switch. +.IP "\fBmax-partial-antic-length\fR" 4 +.IX Item "max-partial-antic-length" +Maximum length of the partial antic set computed during the tree +partial redundancy elimination optimization (\fB\-ftree\-pre\fR) when +optimizing at \fB\-O3\fR and above. For some sorts of source code +the enhanced partial redundancy elimination optimization can run away, +consuming all of the memory available on the host machine. This +parameter sets a limit on the length of the sets that are computed, +which prevents the runaway behavior. Setting a value of 0 for +this parameter allows an unlimited set length. +.IP "\fBsccvn-max-scc-size\fR" 4 +.IX Item "sccvn-max-scc-size" +Maximum size of a strongly connected component (\s-1SCC\s0) during \s-1SCCVN\s0 +processing. If this limit is hit, \s-1SCCVN\s0 processing for the whole +function is not done and optimizations depending on it are +disabled. The default maximum \s-1SCC\s0 size is 10000. +.IP "\fBsccvn-max-alias-queries-per-access\fR" 4 +.IX Item "sccvn-max-alias-queries-per-access" +Maximum number of alias-oracle queries we perform when looking for +redundancies for loads and stores. If this limit is hit the search +is aborted and the load or store is not considered redundant. The +number of queries is algorithmically limited to the number of +stores on all paths from the load to the function entry. +The default maxmimum number of queries is 1000. +.IP "\fBira-max-loops-num\fR" 4 +.IX Item "ira-max-loops-num" +\&\s-1IRA\s0 uses regional register allocation by default. If a function +contains more loops than the number given by this parameter, only at most +the given number of the most frequently-executed loops form regions +for regional register allocation. The default value of the +parameter is 100. +.IP "\fBira-max-conflict-table-size\fR" 4 +.IX Item "ira-max-conflict-table-size" +Although \s-1IRA\s0 uses a sophisticated algorithm to compress the conflict +table, the table can still require excessive amounts of memory for +huge functions. If the conflict table for a function could be more +than the size in \s-1MB\s0 given by this parameter, the register allocator +instead uses a faster, simpler, and lower-quality +algorithm that does not require building a pseudo-register conflict table. +The default value of the parameter is 2000. +.IP "\fBira-loop-reserved-regs\fR" 4 +.IX Item "ira-loop-reserved-regs" +\&\s-1IRA\s0 can be used to evaluate more accurate register pressure in loops +for decisions to move loop invariants (see \fB\-O3\fR). The number +of available registers reserved for some other purposes is given +by this parameter. The default value of the parameter is 2, which is +the minimal number of registers needed by typical instructions. +This value is the best found from numerous experiments. +.IP "\fBloop-invariant-max-bbs-in-loop\fR" 4 +.IX Item "loop-invariant-max-bbs-in-loop" +Loop invariant motion can be very expensive, both in compilation time and +in amount of needed compile-time memory, with very large loops. Loops +with more basic blocks than this parameter won't have loop invariant +motion optimization performed on them. The default value of the +parameter is 1000 for \fB\-O1\fR and 10000 for \fB\-O2\fR and above. +.IP "\fBloop-max-datarefs-for-datadeps\fR" 4 +.IX Item "loop-max-datarefs-for-datadeps" +Building data dapendencies is expensive for very large loops. This +parameter limits the number of data references in loops that are +considered for data dependence analysis. These large loops are no +handled by the optimizations using loop data dependencies. +The default value is 1000. +.IP "\fBmax-vartrack-size\fR" 4 +.IX Item "max-vartrack-size" +Sets a maximum number of hash table slots to use during variable +tracking dataflow analysis of any function. If this limit is exceeded +with variable tracking at assignments enabled, analysis for that +function is retried without it, after removing all debug insns from +the function. If the limit is exceeded even without debug insns, var +tracking analysis is completely disabled for the function. Setting +the parameter to zero makes it unlimited. +.IP "\fBmax-vartrack-expr-depth\fR" 4 +.IX Item "max-vartrack-expr-depth" +Sets a maximum number of recursion levels when attempting to map +variable names or debug temporaries to value expressions. This trades +compilation time for more complete debug information. If this is set too +low, value expressions that are available and could be represented in +debug information may end up not being used; setting this higher may +enable the compiler to find more complex debug expressions, but compile +time and memory use may grow. The default is 12. +.IP "\fBmin-nondebug-insn-uid\fR" 4 +.IX Item "min-nondebug-insn-uid" +Use uids starting at this parameter for nondebug insns. The range below +the parameter is reserved exclusively for debug insns created by +\&\fB\-fvar\-tracking\-assignments\fR, but debug insns may get +(non-overlapping) uids above it if the reserved range is exhausted. +.IP "\fBipa-sra-ptr-growth-factor\fR" 4 +.IX Item "ipa-sra-ptr-growth-factor" +IPA-SRA replaces a pointer to an aggregate with one or more new +parameters only when their cumulative size is less or equal to +\&\fBipa-sra-ptr-growth-factor\fR times the size of the original +pointer parameter. +.IP "\fBtm-max-aggregate-size\fR" 4 +.IX Item "tm-max-aggregate-size" +When making copies of thread-local variables in a transaction, this +parameter specifies the size in bytes after which variables are +saved with the logging functions as opposed to save/restore code +sequence pairs. This option only applies when using +\&\fB\-fgnu\-tm\fR. +.IP "\fBgraphite-max-nb-scop-params\fR" 4 +.IX Item "graphite-max-nb-scop-params" +To avoid exponential effects in the Graphite loop transforms, the +number of parameters in a Static Control Part (SCoP) is bounded. The +default value is 10 parameters. A variable whose value is unknown at +compilation time and defined outside a SCoP is a parameter of the SCoP. +.IP "\fBgraphite-max-bbs-per-function\fR" 4 +.IX Item "graphite-max-bbs-per-function" +To avoid exponential effects in the detection of SCoPs, the size of +the functions analyzed by Graphite is bounded. The default value is +100 basic blocks. +.IP "\fBloop-block-tile-size\fR" 4 +.IX Item "loop-block-tile-size" +Loop blocking or strip mining transforms, enabled with +\&\fB\-floop\-block\fR or \fB\-floop\-strip\-mine\fR, strip mine each +loop in the loop nest by a given number of iterations. The strip +length can be changed using the \fBloop-block-tile-size\fR +parameter. The default value is 51 iterations. +.IP "\fBipa-cp-value-list-size\fR" 4 +.IX Item "ipa-cp-value-list-size" +IPA-CP attempts to track all possible values and types passed to a function's +parameter in order to propagate them and perform devirtualization. +\&\fBipa-cp-value-list-size\fR is the maximum number of values and types it +stores per one formal parameter of a function. +.IP "\fBlto-partitions\fR" 4 +.IX Item "lto-partitions" +Specify desired number of partitions produced during \s-1WHOPR\s0 compilation. +The number of partitions should exceed the number of CPUs used for compilation. +The default value is 32. +.IP "\fBlto-minpartition\fR" 4 +.IX Item "lto-minpartition" +Size of minimal partition for \s-1WHOPR \s0(in estimated instructions). +This prevents expenses of splitting very small programs into too many +partitions. +.IP "\fBcxx-max-namespaces-for-diagnostic-help\fR" 4 +.IX Item "cxx-max-namespaces-for-diagnostic-help" +The maximum number of namespaces to consult for suggestions when \*(C+ +name lookup fails for an identifier. The default is 1000. +.IP "\fBsink-frequency-threshold\fR" 4 +.IX Item "sink-frequency-threshold" +The maximum relative execution frequency (in percents) of the target block +relative to a statement's original block to allow statement sinking of a +statement. Larger numbers result in more aggressive statement sinking. +The default value is 75. A small positive adjustment is applied for +statements with memory operands as those are even more profitable so sink. +.IP "\fBmax-stores-to-sink\fR" 4 +.IX Item "max-stores-to-sink" +The maximum number of conditional stores paires that can be sunk. Set to 0 +if either vectorization (\fB\-ftree\-vectorize\fR) or if-conversion +(\fB\-ftree\-loop\-if\-convert\fR) is disabled. The default is 2. +.IP "\fBallow-load-data-races\fR" 4 +.IX Item "allow-load-data-races" +Allow optimizers to introduce new data races on loads. +Set to 1 to allow, otherwise to 0. This option is enabled by default +unless implicitly set by the \fB\-fmemory\-model=\fR option. +.IP "\fBallow-store-data-races\fR" 4 +.IX Item "allow-store-data-races" +Allow optimizers to introduce new data races on stores. +Set to 1 to allow, otherwise to 0. This option is enabled by default +unless implicitly set by the \fB\-fmemory\-model=\fR option. +.IP "\fBallow-packed-load-data-races\fR" 4 +.IX Item "allow-packed-load-data-races" +Allow optimizers to introduce new data races on packed data loads. +Set to 1 to allow, otherwise to 0. This option is enabled by default +unless implicitly set by the \fB\-fmemory\-model=\fR option. +.IP "\fBallow-packed-store-data-races\fR" 4 +.IX Item "allow-packed-store-data-races" +Allow optimizers to introduce new data races on packed data stores. +Set to 1 to allow, otherwise to 0. This option is enabled by default +unless implicitly set by the \fB\-fmemory\-model=\fR option. +.IP "\fBcase-values-threshold\fR" 4 +.IX Item "case-values-threshold" +The smallest number of different values for which it is best to use a +jump-table instead of a tree of conditional branches. If the value is +0, use the default for the machine. The default is 0. +.IP "\fBtree-reassoc-width\fR" 4 +.IX Item "tree-reassoc-width" +Set the maximum number of instructions executed in parallel in +reassociated tree. This parameter overrides target dependent +heuristics used by default if has non zero value. +.IP "\fBsched-pressure-algorithm\fR" 4 +.IX Item "sched-pressure-algorithm" +Choose between the two available implementations of +\&\fB\-fsched\-pressure\fR. Algorithm 1 is the original implementation +and is the more likely to prevent instructions from being reordered. +Algorithm 2 was designed to be a compromise between the relatively +conservative approach taken by algorithm 1 and the rather aggressive +approach taken by the default scheduler. It relies more heavily on +having a regular register file and accurate register pressure classes. +See \fIhaifa\-sched.c\fR in the \s-1GCC\s0 sources for more details. +.Sp +The default choice depends on the target. +.IP "\fBmax-slsr-cand-scan\fR" 4 +.IX Item "max-slsr-cand-scan" +Set the maximum number of existing candidates that will be considered when +seeking a basis for a new straight-line strength reduction candidate. +.IP "\fBasan-globals\fR" 4 +.IX Item "asan-globals" +Enable buffer overflow detection for global objects. This kind +of protection is enabled by default if you are using +\&\fB\-fsanitize=address\fR option. +To disable global objects protection use \fB\-\-param asan\-globals=0\fR. +.IP "\fBasan-stack\fR" 4 +.IX Item "asan-stack" +Enable buffer overflow detection for stack objects. This kind of +protection is enabled by default when using\fB\-fsanitize=address\fR. +To disable stack protection use \fB\-\-param asan\-stack=0\fR option. +.IP "\fBasan-instrument-reads\fR" 4 +.IX Item "asan-instrument-reads" +Enable buffer overflow detection for memory reads. This kind of +protection is enabled by default when using \fB\-fsanitize=address\fR. +To disable memory reads protection use +\&\fB\-\-param asan\-instrument\-reads=0\fR. +.IP "\fBasan-instrument-writes\fR" 4 +.IX Item "asan-instrument-writes" +Enable buffer overflow detection for memory writes. This kind of +protection is enabled by default when using \fB\-fsanitize=address\fR. +To disable memory writes protection use +\&\fB\-\-param asan\-instrument\-writes=0\fR option. +.IP "\fBasan-memintrin\fR" 4 +.IX Item "asan-memintrin" +Enable detection for built-in functions. This kind of protection +is enabled by default when using \fB\-fsanitize=address\fR. +To disable built-in functions protection use +\&\fB\-\-param asan\-memintrin=0\fR. +.IP "\fBasan-use-after-return\fR" 4 +.IX Item "asan-use-after-return" +Enable detection of use-after-return. This kind of protection +is enabled by default when using \fB\-fsanitize=address\fR option. +To disable use-after-return detection use +\&\fB\-\-param asan\-use\-after\-return=0\fR. +.RE +.RS 4 +.RE +.SS "Options Controlling the Preprocessor" +.IX Subsection "Options Controlling the Preprocessor" +These options control the C preprocessor, which is run on each C source +file before actual compilation. +.PP +If you use the \fB\-E\fR option, nothing is done except preprocessing. +Some of these options make sense only together with \fB\-E\fR because +they cause the preprocessor output to be unsuitable for actual +compilation. +.IP "\fB\-Wp,\fR\fIoption\fR" 4 +.IX Item "-Wp,option" +You can use \fB\-Wp,\fR\fIoption\fR to bypass the compiler driver +and pass \fIoption\fR directly through to the preprocessor. If +\&\fIoption\fR contains commas, it is split into multiple options at the +commas. However, many options are modified, translated or interpreted +by the compiler driver before being passed to the preprocessor, and +\&\fB\-Wp\fR forcibly bypasses this phase. The preprocessor's direct +interface is undocumented and subject to change, so whenever possible +you should avoid using \fB\-Wp\fR and let the driver handle the +options instead. +.IP "\fB\-Xpreprocessor\fR \fIoption\fR" 4 +.IX Item "-Xpreprocessor option" +Pass \fIoption\fR as an option to the preprocessor. You can use this to +supply system-specific preprocessor options that \s-1GCC\s0 does not +recognize. +.Sp +If you want to pass an option that takes an argument, you must use +\&\fB\-Xpreprocessor\fR twice, once for the option and once for the argument. +.IP "\fB\-no\-integrated\-cpp\fR" 4 +.IX Item "-no-integrated-cpp" +Perform preprocessing as a separate pass before compilation. +By default, \s-1GCC\s0 performs preprocessing as an integrated part of +input tokenization and parsing. +If this option is provided, the appropriate language front end +(\fBcc1\fR, \fBcc1plus\fR, or \fBcc1obj\fR for C, \*(C+, +and Objective-C, respectively) is instead invoked twice, +once for preprocessing only and once for actual compilation +of the preprocessed input. +This option may be useful in conjunction with the \fB\-B\fR or +\&\fB\-wrapper\fR options to specify an alternate preprocessor or +perform additional processing of the program source between +normal preprocessing and compilation. +.IP "\fB\-D\fR \fIname\fR" 4 +.IX Item "-D name" +Predefine \fIname\fR as a macro, with definition \f(CW1\fR. +.IP "\fB\-D\fR \fIname\fR\fB=\fR\fIdefinition\fR" 4 +.IX Item "-D name=definition" +The contents of \fIdefinition\fR are tokenized and processed as if +they appeared during translation phase three in a \fB#define\fR +directive. In particular, the definition will be truncated by +embedded newline characters. +.Sp +If you are invoking the preprocessor from a shell or shell-like +program you may need to use the shell's quoting syntax to protect +characters such as spaces that have a meaning in the shell syntax. +.Sp +If you wish to define a function-like macro on the command line, write +its argument list with surrounding parentheses before the equals sign +(if any). Parentheses are meaningful to most shells, so you will need +to quote the option. With \fBsh\fR and \fBcsh\fR, +\&\fB\-D'\fR\fIname\fR\fB(\fR\fIargs...\fR\fB)=\fR\fIdefinition\fR\fB'\fR works. +.Sp +\&\fB\-D\fR and \fB\-U\fR options are processed in the order they +are given on the command line. All \fB\-imacros\fR \fIfile\fR and +\&\fB\-include\fR \fIfile\fR options are processed after all +\&\fB\-D\fR and \fB\-U\fR options. +.IP "\fB\-U\fR \fIname\fR" 4 +.IX Item "-U name" +Cancel any previous definition of \fIname\fR, either built in or +provided with a \fB\-D\fR option. +.IP "\fB\-undef\fR" 4 +.IX Item "-undef" +Do not predefine any system-specific or GCC-specific macros. The +standard predefined macros remain defined. +.IP "\fB\-I\fR \fIdir\fR" 4 +.IX Item "-I dir" +Add the directory \fIdir\fR to the list of directories to be searched +for header files. +Directories named by \fB\-I\fR are searched before the standard +system include directories. If the directory \fIdir\fR is a standard +system include directory, the option is ignored to ensure that the +default search order for system directories and the special treatment +of system headers are not defeated +\&. +If \fIdir\fR begins with \f(CW\*(C`=\*(C'\fR, then the \f(CW\*(C`=\*(C'\fR will be replaced +by the sysroot prefix; see \fB\-\-sysroot\fR and \fB\-isysroot\fR. +.IP "\fB\-o\fR \fIfile\fR" 4 +.IX Item "-o file" +Write output to \fIfile\fR. This is the same as specifying \fIfile\fR +as the second non-option argument to \fBcpp\fR. \fBgcc\fR has a +different interpretation of a second non-option argument, so you must +use \fB\-o\fR to specify the output file. +.IP "\fB\-Wall\fR" 4 +.IX Item "-Wall" +Turns on all optional warnings which are desirable for normal code. +At present this is \fB\-Wcomment\fR, \fB\-Wtrigraphs\fR, +\&\fB\-Wmultichar\fR and a warning about integer promotion causing a +change of sign in \f(CW\*(C`#if\*(C'\fR expressions. Note that many of the +preprocessor's warnings are on by default and have no options to +control them. +.IP "\fB\-Wcomment\fR" 4 +.IX Item "-Wcomment" +.PD 0 +.IP "\fB\-Wcomments\fR" 4 +.IX Item "-Wcomments" +.PD +Warn whenever a comment-start sequence \fB/*\fR appears in a \fB/*\fR +comment, or whenever a backslash-newline appears in a \fB//\fR comment. +(Both forms have the same effect.) +.IP "\fB\-Wtrigraphs\fR" 4 +.IX Item "-Wtrigraphs" +Most trigraphs in comments cannot affect the meaning of the program. +However, a trigraph that would form an escaped newline (\fB??/\fR at +the end of a line) can, by changing where the comment begins or ends. +Therefore, only trigraphs that would form escaped newlines produce +warnings inside a comment. +.Sp +This option is implied by \fB\-Wall\fR. If \fB\-Wall\fR is not +given, this option is still enabled unless trigraphs are enabled. To +get trigraph conversion without warnings, but get the other +\&\fB\-Wall\fR warnings, use \fB\-trigraphs \-Wall \-Wno\-trigraphs\fR. +.IP "\fB\-Wtraditional\fR" 4 +.IX Item "-Wtraditional" +Warn about certain constructs that behave differently in traditional and +\&\s-1ISO C. \s0 Also warn about \s-1ISO C\s0 constructs that have no traditional C +equivalent, and problematic constructs which should be avoided. +.IP "\fB\-Wundef\fR" 4 +.IX Item "-Wundef" +Warn whenever an identifier which is not a macro is encountered in an +\&\fB#if\fR directive, outside of \fBdefined\fR. Such identifiers are +replaced with zero. +.IP "\fB\-Wunused\-macros\fR" 4 +.IX Item "-Wunused-macros" +Warn about macros defined in the main file that are unused. A macro +is \fIused\fR if it is expanded or tested for existence at least once. +The preprocessor will also warn if the macro has not been used at the +time it is redefined or undefined. +.Sp +Built-in macros, macros defined on the command line, and macros +defined in include files are not warned about. +.Sp +\&\fINote:\fR If a macro is actually used, but only used in skipped +conditional blocks, then \s-1CPP\s0 will report it as unused. To avoid the +warning in such a case, you might improve the scope of the macro's +definition by, for example, moving it into the first skipped block. +Alternatively, you could provide a dummy use with something like: +.Sp +.Vb 2 +\& #if defined the_macro_causing_the_warning +\& #endif +.Ve +.IP "\fB\-Wendif\-labels\fR" 4 +.IX Item "-Wendif-labels" +Warn whenever an \fB#else\fR or an \fB#endif\fR are followed by text. +This usually happens in code of the form +.Sp +.Vb 5 +\& #if FOO +\& ... +\& #else FOO +\& ... +\& #endif FOO +.Ve +.Sp +The second and third \f(CW\*(C`FOO\*(C'\fR should be in comments, but often are not +in older programs. This warning is on by default. +.IP "\fB\-Werror\fR" 4 +.IX Item "-Werror" +Make all warnings into hard errors. Source code which triggers warnings +will be rejected. +.IP "\fB\-Wsystem\-headers\fR" 4 +.IX Item "-Wsystem-headers" +Issue warnings for code in system headers. These are normally unhelpful +in finding bugs in your own code, therefore suppressed. If you are +responsible for the system library, you may want to see them. +.IP "\fB\-w\fR" 4 +.IX Item "-w" +Suppress all warnings, including those which \s-1GNU CPP\s0 issues by default. +.IP "\fB\-pedantic\fR" 4 +.IX Item "-pedantic" +Issue all the mandatory diagnostics listed in the C standard. Some of +them are left out by default, since they trigger frequently on harmless +code. +.IP "\fB\-pedantic\-errors\fR" 4 +.IX Item "-pedantic-errors" +Issue all the mandatory diagnostics, and make all mandatory diagnostics +into errors. This includes mandatory diagnostics that \s-1GCC\s0 issues +without \fB\-pedantic\fR but treats as warnings. +.IP "\fB\-M\fR" 4 +.IX Item "-M" +Instead of outputting the result of preprocessing, output a rule +suitable for \fBmake\fR describing the dependencies of the main +source file. The preprocessor outputs one \fBmake\fR rule containing +the object file name for that source file, a colon, and the names of all +the included files, including those coming from \fB\-include\fR or +\&\fB\-imacros\fR command line options. +.Sp +Unless specified explicitly (with \fB\-MT\fR or \fB\-MQ\fR), the +object file name consists of the name of the source file with any +suffix replaced with object file suffix and with any leading directory +parts removed. If there are many included files then the rule is +split into several lines using \fB\e\fR\-newline. The rule has no +commands. +.Sp +This option does not suppress the preprocessor's debug output, such as +\&\fB\-dM\fR. To avoid mixing such debug output with the dependency +rules you should explicitly specify the dependency output file with +\&\fB\-MF\fR, or use an environment variable like +\&\fB\s-1DEPENDENCIES_OUTPUT\s0\fR. Debug output +will still be sent to the regular output stream as normal. +.Sp +Passing \fB\-M\fR to the driver implies \fB\-E\fR, and suppresses +warnings with an implicit \fB\-w\fR. +.IP "\fB\-MM\fR" 4 +.IX Item "-MM" +Like \fB\-M\fR but do not mention header files that are found in +system header directories, nor header files that are included, +directly or indirectly, from such a header. +.Sp +This implies that the choice of angle brackets or double quotes in an +\&\fB#include\fR directive does not in itself determine whether that +header will appear in \fB\-MM\fR dependency output. This is a +slight change in semantics from \s-1GCC\s0 versions 3.0 and earlier. +.IP "\fB\-MF\fR \fIfile\fR" 4 +.IX Item "-MF file" +When used with \fB\-M\fR or \fB\-MM\fR, specifies a +file to write the dependencies to. If no \fB\-MF\fR switch is given +the preprocessor sends the rules to the same place it would have sent +preprocessed output. +.Sp +When used with the driver options \fB\-MD\fR or \fB\-MMD\fR, +\&\fB\-MF\fR overrides the default dependency output file. +.IP "\fB\-MG\fR" 4 +.IX Item "-MG" +In conjunction with an option such as \fB\-M\fR requesting +dependency generation, \fB\-MG\fR assumes missing header files are +generated files and adds them to the dependency list without raising +an error. The dependency filename is taken directly from the +\&\f(CW\*(C`#include\*(C'\fR directive without prepending any path. \fB\-MG\fR +also suppresses preprocessed output, as a missing header file renders +this useless. +.Sp +This feature is used in automatic updating of makefiles. +.IP "\fB\-MP\fR" 4 +.IX Item "-MP" +This option instructs \s-1CPP\s0 to add a phony target for each dependency +other than the main file, causing each to depend on nothing. These +dummy rules work around errors \fBmake\fR gives if you remove header +files without updating the \fIMakefile\fR to match. +.Sp +This is typical output: +.Sp +.Vb 1 +\& test.o: test.c test.h +\& +\& test.h: +.Ve +.IP "\fB\-MT\fR \fItarget\fR" 4 +.IX Item "-MT target" +Change the target of the rule emitted by dependency generation. By +default \s-1CPP\s0 takes the name of the main input file, deletes any +directory components and any file suffix such as \fB.c\fR, and +appends the platform's usual object suffix. The result is the target. +.Sp +An \fB\-MT\fR option will set the target to be exactly the string you +specify. If you want multiple targets, you can specify them as a single +argument to \fB\-MT\fR, or use multiple \fB\-MT\fR options. +.Sp +For example, \fB\-MT\ '$(objpfx)foo.o'\fR might give +.Sp +.Vb 1 +\& $(objpfx)foo.o: foo.c +.Ve +.IP "\fB\-MQ\fR \fItarget\fR" 4 +.IX Item "-MQ target" +Same as \fB\-MT\fR, but it quotes any characters which are special to +Make. \fB\-MQ\ '$(objpfx)foo.o'\fR gives +.Sp +.Vb 1 +\& $$(objpfx)foo.o: foo.c +.Ve +.Sp +The default target is automatically quoted, as if it were given with +\&\fB\-MQ\fR. +.IP "\fB\-MD\fR" 4 +.IX Item "-MD" +\&\fB\-MD\fR is equivalent to \fB\-M \-MF\fR \fIfile\fR, except that +\&\fB\-E\fR is not implied. The driver determines \fIfile\fR based on +whether an \fB\-o\fR option is given. If it is, the driver uses its +argument but with a suffix of \fI.d\fR, otherwise it takes the name +of the input file, removes any directory components and suffix, and +applies a \fI.d\fR suffix. +.Sp +If \fB\-MD\fR is used in conjunction with \fB\-E\fR, any +\&\fB\-o\fR switch is understood to specify the dependency output file, but if used without \fB\-E\fR, each \fB\-o\fR +is understood to specify a target object file. +.Sp +Since \fB\-E\fR is not implied, \fB\-MD\fR can be used to generate +a dependency output file as a side-effect of the compilation process. +.IP "\fB\-MMD\fR" 4 +.IX Item "-MMD" +Like \fB\-MD\fR except mention only user header files, not system +header files. +.IP "\fB\-fpch\-deps\fR" 4 +.IX Item "-fpch-deps" +When using precompiled headers, this flag +will cause the dependency-output flags to also list the files from the +precompiled header's dependencies. If not specified only the +precompiled header would be listed and not the files that were used to +create it because those files are not consulted when a precompiled +header is used. +.IP "\fB\-fpch\-preprocess\fR" 4 +.IX Item "-fpch-preprocess" +This option allows use of a precompiled header together with \fB\-E\fR. It inserts a special \f(CW\*(C`#pragma\*(C'\fR, +\&\f(CW\*(C`#pragma GCC pch_preprocess "\f(CIfilename\f(CW"\*(C'\fR in the output to mark +the place where the precompiled header was found, and its \fIfilename\fR. +When \fB\-fpreprocessed\fR is in use, \s-1GCC\s0 recognizes this \f(CW\*(C`#pragma\*(C'\fR +and loads the \s-1PCH.\s0 +.Sp +This option is off by default, because the resulting preprocessed output +is only really suitable as input to \s-1GCC. \s0 It is switched on by +\&\fB\-save\-temps\fR. +.Sp +You should not write this \f(CW\*(C`#pragma\*(C'\fR in your own code, but it is +safe to edit the filename if the \s-1PCH\s0 file is available in a different +location. The filename may be absolute or it may be relative to \s-1GCC\s0's +current directory. +.IP "\fB\-x c\fR" 4 +.IX Item "-x c" +.PD 0 +.IP "\fB\-x c++\fR" 4 +.IX Item "-x c++" +.IP "\fB\-x objective-c\fR" 4 +.IX Item "-x objective-c" +.IP "\fB\-x assembler-with-cpp\fR" 4 +.IX Item "-x assembler-with-cpp" +.PD +Specify the source language: C, \*(C+, Objective-C, or assembly. This has +nothing to do with standards conformance or extensions; it merely +selects which base syntax to expect. If you give none of these options, +cpp will deduce the language from the extension of the source file: +\&\fB.c\fR, \fB.cc\fR, \fB.m\fR, or \fB.S\fR. Some other common +extensions for \*(C+ and assembly are also recognized. If cpp does not +recognize the extension, it will treat the file as C; this is the most +generic mode. +.Sp +\&\fINote:\fR Previous versions of cpp accepted a \fB\-lang\fR option +which selected both the language and the standards conformance level. +This option has been removed, because it conflicts with the \fB\-l\fR +option. +.IP "\fB\-std=\fR\fIstandard\fR" 4 +.IX Item "-std=standard" +.PD 0 +.IP "\fB\-ansi\fR" 4 +.IX Item "-ansi" +.PD +Specify the standard to which the code should conform. Currently \s-1CPP\s0 +knows about C and \*(C+ standards; others may be added in the future. +.Sp +\&\fIstandard\fR +may be one of: +.RS 4 +.ie n .IP """c90""" 4 +.el .IP "\f(CWc90\fR" 4 +.IX Item "c90" +.PD 0 +.ie n .IP """c89""" 4 +.el .IP "\f(CWc89\fR" 4 +.IX Item "c89" +.ie n .IP """iso9899:1990""" 4 +.el .IP "\f(CWiso9899:1990\fR" 4 +.IX Item "iso9899:1990" +.PD +The \s-1ISO C\s0 standard from 1990. \fBc90\fR is the customary shorthand for +this version of the standard. +.Sp +The \fB\-ansi\fR option is equivalent to \fB\-std=c90\fR. +.ie n .IP """iso9899:199409""" 4 +.el .IP "\f(CWiso9899:199409\fR" 4 +.IX Item "iso9899:199409" +The 1990 C standard, as amended in 1994. +.ie n .IP """iso9899:1999""" 4 +.el .IP "\f(CWiso9899:1999\fR" 4 +.IX Item "iso9899:1999" +.PD 0 +.ie n .IP """c99""" 4 +.el .IP "\f(CWc99\fR" 4 +.IX Item "c99" +.ie n .IP """iso9899:199x""" 4 +.el .IP "\f(CWiso9899:199x\fR" 4 +.IX Item "iso9899:199x" +.ie n .IP """c9x""" 4 +.el .IP "\f(CWc9x\fR" 4 +.IX Item "c9x" +.PD +The revised \s-1ISO C\s0 standard, published in December 1999. Before +publication, this was known as C9X. +.ie n .IP """iso9899:2011""" 4 +.el .IP "\f(CWiso9899:2011\fR" 4 +.IX Item "iso9899:2011" +.PD 0 +.ie n .IP """c11""" 4 +.el .IP "\f(CWc11\fR" 4 +.IX Item "c11" +.ie n .IP """c1x""" 4 +.el .IP "\f(CWc1x\fR" 4 +.IX Item "c1x" +.PD +The revised \s-1ISO C\s0 standard, published in December 2011. Before +publication, this was known as C1X. +.ie n .IP """gnu90""" 4 +.el .IP "\f(CWgnu90\fR" 4 +.IX Item "gnu90" +.PD 0 +.ie n .IP """gnu89""" 4 +.el .IP "\f(CWgnu89\fR" 4 +.IX Item "gnu89" +.PD +The 1990 C standard plus \s-1GNU\s0 extensions. This is the default. +.ie n .IP """gnu99""" 4 +.el .IP "\f(CWgnu99\fR" 4 +.IX Item "gnu99" +.PD 0 +.ie n .IP """gnu9x""" 4 +.el .IP "\f(CWgnu9x\fR" 4 +.IX Item "gnu9x" +.PD +The 1999 C standard plus \s-1GNU\s0 extensions. +.ie n .IP """gnu11""" 4 +.el .IP "\f(CWgnu11\fR" 4 +.IX Item "gnu11" +.PD 0 +.ie n .IP """gnu1x""" 4 +.el .IP "\f(CWgnu1x\fR" 4 +.IX Item "gnu1x" +.PD +The 2011 C standard plus \s-1GNU\s0 extensions. +.ie n .IP """c++98""" 4 +.el .IP "\f(CWc++98\fR" 4 +.IX Item "c++98" +The 1998 \s-1ISO \*(C+\s0 standard plus amendments. +.ie n .IP """gnu++98""" 4 +.el .IP "\f(CWgnu++98\fR" 4 +.IX Item "gnu++98" +The same as \fB\-std=c++98\fR plus \s-1GNU\s0 extensions. This is the +default for \*(C+ code. +.RE +.RS 4 +.RE +.IP "\fB\-I\-\fR" 4 +.IX Item "-I-" +Split the include path. Any directories specified with \fB\-I\fR +options before \fB\-I\-\fR are searched only for headers requested with +\&\f(CW\*(C`#include\ "\f(CIfile\f(CW"\*(C'\fR; they are not searched for +\&\f(CW\*(C`#include\ <\f(CIfile\f(CW>\*(C'\fR. If additional directories are +specified with \fB\-I\fR options after the \fB\-I\-\fR, those +directories are searched for all \fB#include\fR directives. +.Sp +In addition, \fB\-I\-\fR inhibits the use of the directory of the current +file directory as the first search directory for \f(CW\*(C`#include\ "\f(CIfile\f(CW"\*(C'\fR. +This option has been deprecated. +.IP "\fB\-nostdinc\fR" 4 +.IX Item "-nostdinc" +Do not search the standard system directories for header files. +Only the directories you have specified with \fB\-I\fR options +(and the directory of the current file, if appropriate) are searched. +.IP "\fB\-nostdinc++\fR" 4 +.IX Item "-nostdinc++" +Do not search for header files in the \*(C+\-specific standard directories, +but do still search the other standard directories. (This option is +used when building the \*(C+ library.) +.IP "\fB\-include\fR \fIfile\fR" 4 +.IX Item "-include file" +Process \fIfile\fR as if \f(CW\*(C`#include "file"\*(C'\fR appeared as the first +line of the primary source file. However, the first directory searched +for \fIfile\fR is the preprocessor's working directory \fIinstead of\fR +the directory containing the main source file. If not found there, it +is searched for in the remainder of the \f(CW\*(C`#include "..."\*(C'\fR search +chain as normal. +.Sp +If multiple \fB\-include\fR options are given, the files are included +in the order they appear on the command line. +.IP "\fB\-imacros\fR \fIfile\fR" 4 +.IX Item "-imacros file" +Exactly like \fB\-include\fR, except that any output produced by +scanning \fIfile\fR is thrown away. Macros it defines remain defined. +This allows you to acquire all the macros from a header without also +processing its declarations. +.Sp +All files specified by \fB\-imacros\fR are processed before all files +specified by \fB\-include\fR. +.IP "\fB\-idirafter\fR \fIdir\fR" 4 +.IX Item "-idirafter dir" +Search \fIdir\fR for header files, but do it \fIafter\fR all +directories specified with \fB\-I\fR and the standard system directories +have been exhausted. \fIdir\fR is treated as a system include directory. +If \fIdir\fR begins with \f(CW\*(C`=\*(C'\fR, then the \f(CW\*(C`=\*(C'\fR will be replaced +by the sysroot prefix; see \fB\-\-sysroot\fR and \fB\-isysroot\fR. +.IP "\fB\-iprefix\fR \fIprefix\fR" 4 +.IX Item "-iprefix prefix" +Specify \fIprefix\fR as the prefix for subsequent \fB\-iwithprefix\fR +options. If the prefix represents a directory, you should include the +final \fB/\fR. +.IP "\fB\-iwithprefix\fR \fIdir\fR" 4 +.IX Item "-iwithprefix dir" +.PD 0 +.IP "\fB\-iwithprefixbefore\fR \fIdir\fR" 4 +.IX Item "-iwithprefixbefore dir" +.PD +Append \fIdir\fR to the prefix specified previously with +\&\fB\-iprefix\fR, and add the resulting directory to the include search +path. \fB\-iwithprefixbefore\fR puts it in the same place \fB\-I\fR +would; \fB\-iwithprefix\fR puts it where \fB\-idirafter\fR would. +.IP "\fB\-isysroot\fR \fIdir\fR" 4 +.IX Item "-isysroot dir" +This option is like the \fB\-\-sysroot\fR option, but applies only to +header files (except for Darwin targets, where it applies to both header +files and libraries). See the \fB\-\-sysroot\fR option for more +information. +.IP "\fB\-imultilib\fR \fIdir\fR" 4 +.IX Item "-imultilib dir" +Use \fIdir\fR as a subdirectory of the directory containing +target-specific \*(C+ headers. +.IP "\fB\-isystem\fR \fIdir\fR" 4 +.IX Item "-isystem dir" +Search \fIdir\fR for header files, after all directories specified by +\&\fB\-I\fR but before the standard system directories. Mark it +as a system directory, so that it gets the same special treatment as +is applied to the standard system directories. +If \fIdir\fR begins with \f(CW\*(C`=\*(C'\fR, then the \f(CW\*(C`=\*(C'\fR will be replaced +by the sysroot prefix; see \fB\-\-sysroot\fR and \fB\-isysroot\fR. +.IP "\fB\-iquote\fR \fIdir\fR" 4 +.IX Item "-iquote dir" +Search \fIdir\fR only for header files requested with +\&\f(CW\*(C`#include\ "\f(CIfile\f(CW"\*(C'\fR; they are not searched for +\&\f(CW\*(C`#include\ <\f(CIfile\f(CW>\*(C'\fR, before all directories specified by +\&\fB\-I\fR and before the standard system directories. +If \fIdir\fR begins with \f(CW\*(C`=\*(C'\fR, then the \f(CW\*(C`=\*(C'\fR will be replaced +by the sysroot prefix; see \fB\-\-sysroot\fR and \fB\-isysroot\fR. +.IP "\fB\-fdirectives\-only\fR" 4 +.IX Item "-fdirectives-only" +When preprocessing, handle directives, but do not expand macros. +.Sp +The option's behavior depends on the \fB\-E\fR and \fB\-fpreprocessed\fR +options. +.Sp +With \fB\-E\fR, preprocessing is limited to the handling of directives +such as \f(CW\*(C`#define\*(C'\fR, \f(CW\*(C`#ifdef\*(C'\fR, and \f(CW\*(C`#error\*(C'\fR. Other +preprocessor operations, such as macro expansion and trigraph +conversion are not performed. In addition, the \fB\-dD\fR option is +implicitly enabled. +.Sp +With \fB\-fpreprocessed\fR, predefinition of command line and most +builtin macros is disabled. Macros such as \f(CW\*(C`_\|_LINE_\|_\*(C'\fR, which are +contextually dependent, are handled normally. This enables compilation of +files previously preprocessed with \f(CW\*(C`\-E \-fdirectives\-only\*(C'\fR. +.Sp +With both \fB\-E\fR and \fB\-fpreprocessed\fR, the rules for +\&\fB\-fpreprocessed\fR take precedence. This enables full preprocessing of +files previously preprocessed with \f(CW\*(C`\-E \-fdirectives\-only\*(C'\fR. +.IP "\fB\-fdollars\-in\-identifiers\fR" 4 +.IX Item "-fdollars-in-identifiers" +Accept \fB$\fR in identifiers. +.IP "\fB\-fextended\-identifiers\fR" 4 +.IX Item "-fextended-identifiers" +Accept universal character names in identifiers. This option is +experimental; in a future version of \s-1GCC,\s0 it will be enabled by +default for C99 and \*(C+. +.IP "\fB\-fno\-canonical\-system\-headers\fR" 4 +.IX Item "-fno-canonical-system-headers" +When preprocessing, do not shorten system header paths with canonicalization. +.IP "\fB\-fpreprocessed\fR" 4 +.IX Item "-fpreprocessed" +Indicate to the preprocessor that the input file has already been +preprocessed. This suppresses things like macro expansion, trigraph +conversion, escaped newline splicing, and processing of most directives. +The preprocessor still recognizes and removes comments, so that you can +pass a file preprocessed with \fB\-C\fR to the compiler without +problems. In this mode the integrated preprocessor is little more than +a tokenizer for the front ends. +.Sp +\&\fB\-fpreprocessed\fR is implicit if the input file has one of the +extensions \fB.i\fR, \fB.ii\fR or \fB.mi\fR. These are the +extensions that \s-1GCC\s0 uses for preprocessed files created by +\&\fB\-save\-temps\fR. +.IP "\fB\-ftabstop=\fR\fIwidth\fR" 4 +.IX Item "-ftabstop=width" +Set the distance between tab stops. This helps the preprocessor report +correct column numbers in warnings or errors, even if tabs appear on the +line. If the value is less than 1 or greater than 100, the option is +ignored. The default is 8. +.IP "\fB\-fdebug\-cpp\fR" 4 +.IX Item "-fdebug-cpp" +This option is only useful for debugging \s-1GCC. \s0 When used with +\&\fB\-E\fR, dumps debugging information about location maps. Every +token in the output is preceded by the dump of the map its location +belongs to. The dump of the map holding the location of a token would +be: +.Sp +.Vb 1 +\& {"P":F</file/path>;"F":F</includer/path>;"L":<line_num>;"C":<col_num>;"S":<system_header_p>;"M":<map_address>;"E":<macro_expansion_p>,"loc":<location>} +.Ve +.Sp +When used without \fB\-E\fR, this option has no effect. +.IP "\fB\-ftrack\-macro\-expansion\fR[\fB=\fR\fIlevel\fR]" 4 +.IX Item "-ftrack-macro-expansion[=level]" +Track locations of tokens across macro expansions. This allows the +compiler to emit diagnostic about the current macro expansion stack +when a compilation error occurs in a macro expansion. Using this +option makes the preprocessor and the compiler consume more +memory. The \fIlevel\fR parameter can be used to choose the level of +precision of token location tracking thus decreasing the memory +consumption if necessary. Value \fB0\fR of \fIlevel\fR de-activates +this option just as if no \fB\-ftrack\-macro\-expansion\fR was present +on the command line. Value \fB1\fR tracks tokens locations in a +degraded mode for the sake of minimal memory overhead. In this mode +all tokens resulting from the expansion of an argument of a +function-like macro have the same location. Value \fB2\fR tracks +tokens locations completely. This value is the most memory hungry. +When this option is given no argument, the default parameter value is +\&\fB2\fR. +.Sp +Note that \-ftrack\-macro\-expansion=2 is activated by default. +.IP "\fB\-fexec\-charset=\fR\fIcharset\fR" 4 +.IX Item "-fexec-charset=charset" +Set the execution character set, used for string and character +constants. The default is \s-1UTF\-8. \s0\fIcharset\fR can be any encoding +supported by the system's \f(CW\*(C`iconv\*(C'\fR library routine. +.IP "\fB\-fwide\-exec\-charset=\fR\fIcharset\fR" 4 +.IX Item "-fwide-exec-charset=charset" +Set the wide execution character set, used for wide string and +character constants. The default is \s-1UTF\-32\s0 or \s-1UTF\-16,\s0 whichever +corresponds to the width of \f(CW\*(C`wchar_t\*(C'\fR. As with +\&\fB\-fexec\-charset\fR, \fIcharset\fR can be any encoding supported +by the system's \f(CW\*(C`iconv\*(C'\fR library routine; however, you will have +problems with encodings that do not fit exactly in \f(CW\*(C`wchar_t\*(C'\fR. +.IP "\fB\-finput\-charset=\fR\fIcharset\fR" 4 +.IX Item "-finput-charset=charset" +Set the input character set, used for translation from the character +set of the input file to the source character set used by \s-1GCC. \s0 If the +locale does not specify, or \s-1GCC\s0 cannot get this information from the +locale, the default is \s-1UTF\-8. \s0 This can be overridden by either the locale +or this command line option. Currently the command line option takes +precedence if there's a conflict. \fIcharset\fR can be any encoding +supported by the system's \f(CW\*(C`iconv\*(C'\fR library routine. +.IP "\fB\-fworking\-directory\fR" 4 +.IX Item "-fworking-directory" +Enable generation of linemarkers in the preprocessor output that will +let the compiler know the current working directory at the time of +preprocessing. When this option is enabled, the preprocessor will +emit, after the initial linemarker, a second linemarker with the +current working directory followed by two slashes. \s-1GCC\s0 will use this +directory, when it's present in the preprocessed input, as the +directory emitted as the current working directory in some debugging +information formats. This option is implicitly enabled if debugging +information is enabled, but this can be inhibited with the negated +form \fB\-fno\-working\-directory\fR. If the \fB\-P\fR flag is +present in the command line, this option has no effect, since no +\&\f(CW\*(C`#line\*(C'\fR directives are emitted whatsoever. +.IP "\fB\-fno\-show\-column\fR" 4 +.IX Item "-fno-show-column" +Do not print column numbers in diagnostics. This may be necessary if +diagnostics are being scanned by a program that does not understand the +column numbers, such as \fBdejagnu\fR. +.IP "\fB\-A\fR \fIpredicate\fR\fB=\fR\fIanswer\fR" 4 +.IX Item "-A predicate=answer" +Make an assertion with the predicate \fIpredicate\fR and answer +\&\fIanswer\fR. This form is preferred to the older form \fB\-A\fR +\&\fIpredicate\fR\fB(\fR\fIanswer\fR\fB)\fR, which is still supported, because +it does not use shell special characters. +.IP "\fB\-A \-\fR\fIpredicate\fR\fB=\fR\fIanswer\fR" 4 +.IX Item "-A -predicate=answer" +Cancel an assertion with the predicate \fIpredicate\fR and answer +\&\fIanswer\fR. +.IP "\fB\-dCHARS\fR" 4 +.IX Item "-dCHARS" +\&\fI\s-1CHARS\s0\fR is a sequence of one or more of the following characters, +and must not be preceded by a space. Other characters are interpreted +by the compiler proper, or reserved for future versions of \s-1GCC,\s0 and so +are silently ignored. If you specify characters whose behavior +conflicts, the result is undefined. +.RS 4 +.IP "\fBM\fR" 4 +.IX Item "M" +Instead of the normal output, generate a list of \fB#define\fR +directives for all the macros defined during the execution of the +preprocessor, including predefined macros. This gives you a way of +finding out what is predefined in your version of the preprocessor. +Assuming you have no file \fIfoo.h\fR, the command +.Sp +.Vb 1 +\& touch foo.h; cpp \-dM foo.h +.Ve +.Sp +will show all the predefined macros. +.Sp +If you use \fB\-dM\fR without the \fB\-E\fR option, \fB\-dM\fR is +interpreted as a synonym for \fB\-fdump\-rtl\-mach\fR. +.IP "\fBD\fR" 4 +.IX Item "D" +Like \fBM\fR except in two respects: it does \fInot\fR include the +predefined macros, and it outputs \fIboth\fR the \fB#define\fR +directives and the result of preprocessing. Both kinds of output go to +the standard output file. +.IP "\fBN\fR" 4 +.IX Item "N" +Like \fBD\fR, but emit only the macro names, not their expansions. +.IP "\fBI\fR" 4 +.IX Item "I" +Output \fB#include\fR directives in addition to the result of +preprocessing. +.IP "\fBU\fR" 4 +.IX Item "U" +Like \fBD\fR except that only macros that are expanded, or whose +definedness is tested in preprocessor directives, are output; the +output is delayed until the use or test of the macro; and +\&\fB#undef\fR directives are also output for macros tested but +undefined at the time. +.RE +.RS 4 +.RE +.IP "\fB\-P\fR" 4 +.IX Item "-P" +Inhibit generation of linemarkers in the output from the preprocessor. +This might be useful when running the preprocessor on something that is +not C code, and will be sent to a program which might be confused by the +linemarkers. +.IP "\fB\-C\fR" 4 +.IX Item "-C" +Do not discard comments. All comments are passed through to the output +file, except for comments in processed directives, which are deleted +along with the directive. +.Sp +You should be prepared for side effects when using \fB\-C\fR; it +causes the preprocessor to treat comments as tokens in their own right. +For example, comments appearing at the start of what would be a +directive line have the effect of turning that line into an ordinary +source line, since the first token on the line is no longer a \fB#\fR. +.IP "\fB\-CC\fR" 4 +.IX Item "-CC" +Do not discard comments, including during macro expansion. This is +like \fB\-C\fR, except that comments contained within macros are +also passed through to the output file where the macro is expanded. +.Sp +In addition to the side-effects of the \fB\-C\fR option, the +\&\fB\-CC\fR option causes all \*(C+\-style comments inside a macro +to be converted to C\-style comments. This is to prevent later use +of that macro from inadvertently commenting out the remainder of +the source line. +.Sp +The \fB\-CC\fR option is generally used to support lint comments. +.IP "\fB\-traditional\-cpp\fR" 4 +.IX Item "-traditional-cpp" +Try to imitate the behavior of old-fashioned C preprocessors, as +opposed to \s-1ISO C\s0 preprocessors. +.IP "\fB\-trigraphs\fR" 4 +.IX Item "-trigraphs" +Process trigraph sequences. +These are three-character sequences, all starting with \fB??\fR, that +are defined by \s-1ISO C\s0 to stand for single characters. For example, +\&\fB??/\fR stands for \fB\e\fR, so \fB'??/n'\fR is a character +constant for a newline. By default, \s-1GCC\s0 ignores trigraphs, but in +standard-conforming modes it converts them. See the \fB\-std\fR and +\&\fB\-ansi\fR options. +.Sp +The nine trigraphs and their replacements are +.Sp +.Vb 2 +\& Trigraph: ??( ??) ??< ??> ??= ??/ ??\*(Aq ??! ??\- +\& Replacement: [ ] { } # \e ^ | ~ +.Ve +.IP "\fB\-remap\fR" 4 +.IX Item "-remap" +Enable special code to work around file systems which only permit very +short file names, such as MS-DOS. +.IP "\fB\-\-help\fR" 4 +.IX Item "--help" +.PD 0 +.IP "\fB\-\-target\-help\fR" 4 +.IX Item "--target-help" +.PD +Print text describing all the command line options instead of +preprocessing anything. +.IP "\fB\-v\fR" 4 +.IX Item "-v" +Verbose mode. Print out \s-1GNU CPP\s0's version number at the beginning of +execution, and report the final form of the include path. +.IP "\fB\-H\fR" 4 +.IX Item "-H" +Print the name of each header file used, in addition to other normal +activities. Each name is indented to show how deep in the +\&\fB#include\fR stack it is. Precompiled header files are also +printed, even if they are found to be invalid; an invalid precompiled +header file is printed with \fB...x\fR and a valid one with \fB...!\fR . +.IP "\fB\-version\fR" 4 +.IX Item "-version" +.PD 0 +.IP "\fB\-\-version\fR" 4 +.IX Item "--version" +.PD +Print out \s-1GNU CPP\s0's version number. With one dash, proceed to +preprocess as normal. With two dashes, exit immediately. +.SS "Passing Options to the Assembler" +.IX Subsection "Passing Options to the Assembler" +You can pass options to the assembler. +.IP "\fB\-Wa,\fR\fIoption\fR" 4 +.IX Item "-Wa,option" +Pass \fIoption\fR as an option to the assembler. If \fIoption\fR +contains commas, it is split into multiple options at the commas. +.IP "\fB\-Xassembler\fR \fIoption\fR" 4 +.IX Item "-Xassembler option" +Pass \fIoption\fR as an option to the assembler. You can use this to +supply system-specific assembler options that \s-1GCC\s0 does not +recognize. +.Sp +If you want to pass an option that takes an argument, you must use +\&\fB\-Xassembler\fR twice, once for the option and once for the argument. +.SS "Options for Linking" +.IX Subsection "Options for Linking" +These options come into play when the compiler links object files into +an executable output file. They are meaningless if the compiler is +not doing a link step. +.IP "\fIobject-file-name\fR" 4 +.IX Item "object-file-name" +A file name that does not end in a special recognized suffix is +considered to name an object file or library. (Object files are +distinguished from libraries by the linker according to the file +contents.) If linking is done, these object files are used as input +to the linker. +.IP "\fB\-c\fR" 4 +.IX Item "-c" +.PD 0 +.IP "\fB\-S\fR" 4 +.IX Item "-S" +.IP "\fB\-E\fR" 4 +.IX Item "-E" +.PD +If any of these options is used, then the linker is not run, and +object file names should not be used as arguments. +.IP "\fB\-l\fR\fIlibrary\fR" 4 +.IX Item "-llibrary" +.PD 0 +.IP "\fB\-l\fR \fIlibrary\fR" 4 +.IX Item "-l library" +.PD +Search the library named \fIlibrary\fR when linking. (The second +alternative with the library as a separate argument is only for +\&\s-1POSIX\s0 compliance and is not recommended.) +.Sp +It makes a difference where in the command you write this option; the +linker searches and processes libraries and object files in the order they +are specified. Thus, \fBfoo.o \-lz bar.o\fR searches library \fBz\fR +after file \fIfoo.o\fR but before \fIbar.o\fR. If \fIbar.o\fR refers +to functions in \fBz\fR, those functions may not be loaded. +.Sp +The linker searches a standard list of directories for the library, +which is actually a file named \fIlib\fIlibrary\fI.a\fR. The linker +then uses this file as if it had been specified precisely by name. +.Sp +The directories searched include several standard system directories +plus any that you specify with \fB\-L\fR. +.Sp +Normally the files found this way are library files\-\-\-archive files +whose members are object files. The linker handles an archive file by +scanning through it for members which define symbols that have so far +been referenced but not defined. But if the file that is found is an +ordinary object file, it is linked in the usual fashion. The only +difference between using an \fB\-l\fR option and specifying a file name +is that \fB\-l\fR surrounds \fIlibrary\fR with \fBlib\fR and \fB.a\fR +and searches several directories. +.IP "\fB\-lobjc\fR" 4 +.IX Item "-lobjc" +You need this special case of the \fB\-l\fR option in order to +link an Objective-C or Objective\-\*(C+ program. +.IP "\fB\-nostartfiles\fR" 4 +.IX Item "-nostartfiles" +Do not use the standard system startup files when linking. +The standard system libraries are used normally, unless \fB\-nostdlib\fR +or \fB\-nodefaultlibs\fR is used. +.IP "\fB\-nodefaultlibs\fR" 4 +.IX Item "-nodefaultlibs" +Do not use the standard system libraries when linking. +Only the libraries you specify are passed to the linker, and options +specifying linkage of the system libraries, such as \f(CW\*(C`\-static\-libgcc\*(C'\fR +or \f(CW\*(C`\-shared\-libgcc\*(C'\fR, are ignored. +The standard startup files are used normally, unless \fB\-nostartfiles\fR +is used. +.Sp +The compiler may generate calls to \f(CW\*(C`memcmp\*(C'\fR, +\&\f(CW\*(C`memset\*(C'\fR, \f(CW\*(C`memcpy\*(C'\fR and \f(CW\*(C`memmove\*(C'\fR. +These entries are usually resolved by entries in +libc. These entry points should be supplied through some other +mechanism when this option is specified. +.IP "\fB\-nostdlib\fR" 4 +.IX Item "-nostdlib" +Do not use the standard system startup files or libraries when linking. +No startup files and only the libraries you specify are passed to +the linker, and options specifying linkage of the system libraries, such as +\&\f(CW\*(C`\-static\-libgcc\*(C'\fR or \f(CW\*(C`\-shared\-libgcc\*(C'\fR, are ignored. +.Sp +The compiler may generate calls to \f(CW\*(C`memcmp\*(C'\fR, \f(CW\*(C`memset\*(C'\fR, +\&\f(CW\*(C`memcpy\*(C'\fR and \f(CW\*(C`memmove\*(C'\fR. +These entries are usually resolved by entries in +libc. These entry points should be supplied through some other +mechanism when this option is specified. +.Sp +One of the standard libraries bypassed by \fB\-nostdlib\fR and +\&\fB\-nodefaultlibs\fR is \fIlibgcc.a\fR, a library of internal subroutines +which \s-1GCC\s0 uses to overcome shortcomings of particular machines, or special +needs for some languages. +.Sp +In most cases, you need \fIlibgcc.a\fR even when you want to avoid +other standard libraries. In other words, when you specify \fB\-nostdlib\fR +or \fB\-nodefaultlibs\fR you should usually specify \fB\-lgcc\fR as well. +This ensures that you have no unresolved references to internal \s-1GCC\s0 +library subroutines. +(An example of such an internal subroutine is \fB_\|_main\fR, used to ensure \*(C+ +constructors are called.) +.IP "\fB\-pie\fR" 4 +.IX Item "-pie" +Produce a position independent executable on targets that support it. +For predictable results, you must also specify the same set of options +used for compilation (\fB\-fpie\fR, \fB\-fPIE\fR, +or model suboptions) when you specify this linker option. +.IP "\fB\-rdynamic\fR" 4 +.IX Item "-rdynamic" +Pass the flag \fB\-export\-dynamic\fR to the \s-1ELF\s0 linker, on targets +that support it. This instructs the linker to add all symbols, not +only used ones, to the dynamic symbol table. This option is needed +for some uses of \f(CW\*(C`dlopen\*(C'\fR or to allow obtaining backtraces +from within a program. +.IP "\fB\-s\fR" 4 +.IX Item "-s" +Remove all symbol table and relocation information from the executable. +.IP "\fB\-static\fR" 4 +.IX Item "-static" +On systems that support dynamic linking, this prevents linking with the shared +libraries. On other systems, this option has no effect. +.IP "\fB\-shared\fR" 4 +.IX Item "-shared" +Produce a shared object which can then be linked with other objects to +form an executable. Not all systems support this option. For predictable +results, you must also specify the same set of options used for compilation +(\fB\-fpic\fR, \fB\-fPIC\fR, or model suboptions) when +you specify this linker option.[1] +.IP "\fB\-shared\-libgcc\fR" 4 +.IX Item "-shared-libgcc" +.PD 0 +.IP "\fB\-static\-libgcc\fR" 4 +.IX Item "-static-libgcc" +.PD +On systems that provide \fIlibgcc\fR as a shared library, these options +force the use of either the shared or static version, respectively. +If no shared version of \fIlibgcc\fR was built when the compiler was +configured, these options have no effect. +.Sp +There are several situations in which an application should use the +shared \fIlibgcc\fR instead of the static version. The most common +of these is when the application wishes to throw and catch exceptions +across different shared libraries. In that case, each of the libraries +as well as the application itself should use the shared \fIlibgcc\fR. +.Sp +Therefore, the G++ and \s-1GCJ\s0 drivers automatically add +\&\fB\-shared\-libgcc\fR whenever you build a shared library or a main +executable, because \*(C+ and Java programs typically use exceptions, so +this is the right thing to do. +.Sp +If, instead, you use the \s-1GCC\s0 driver to create shared libraries, you may +find that they are not always linked with the shared \fIlibgcc\fR. +If \s-1GCC\s0 finds, at its configuration time, that you have a non-GNU linker +or a \s-1GNU\s0 linker that does not support option \fB\-\-eh\-frame\-hdr\fR, +it links the shared version of \fIlibgcc\fR into shared libraries +by default. Otherwise, it takes advantage of the linker and optimizes +away the linking with the shared version of \fIlibgcc\fR, linking with +the static version of libgcc by default. This allows exceptions to +propagate through such shared libraries, without incurring relocation +costs at library load time. +.Sp +However, if a library or main executable is supposed to throw or catch +exceptions, you must link it using the G++ or \s-1GCJ\s0 driver, as appropriate +for the languages used in the program, or using the option +\&\fB\-shared\-libgcc\fR, such that it is linked with the shared +\&\fIlibgcc\fR. +.IP "\fB\-static\-libasan\fR" 4 +.IX Item "-static-libasan" +When the \fB\-fsanitize=address\fR option is used to link a program, +the \s-1GCC\s0 driver automatically links against \fBlibasan\fR. If +\&\fIlibasan\fR is available as a shared library, and the \fB\-static\fR +option is not used, then this links against the shared version of +\&\fIlibasan\fR. The \fB\-static\-libasan\fR option directs the \s-1GCC\s0 +driver to link \fIlibasan\fR statically, without necessarily linking +other libraries statically. +.IP "\fB\-static\-libtsan\fR" 4 +.IX Item "-static-libtsan" +When the \fB\-fsanitize=thread\fR option is used to link a program, +the \s-1GCC\s0 driver automatically links against \fBlibtsan\fR. If +\&\fIlibtsan\fR is available as a shared library, and the \fB\-static\fR +option is not used, then this links against the shared version of +\&\fIlibtsan\fR. The \fB\-static\-libtsan\fR option directs the \s-1GCC\s0 +driver to link \fIlibtsan\fR statically, without necessarily linking +other libraries statically. +.IP "\fB\-static\-liblsan\fR" 4 +.IX Item "-static-liblsan" +When the \fB\-fsanitize=leak\fR option is used to link a program, +the \s-1GCC\s0 driver automatically links against \fBliblsan\fR. If +\&\fIliblsan\fR is available as a shared library, and the \fB\-static\fR +option is not used, then this links against the shared version of +\&\fIliblsan\fR. The \fB\-static\-liblsan\fR option directs the \s-1GCC\s0 +driver to link \fIliblsan\fR statically, without necessarily linking +other libraries statically. +.IP "\fB\-static\-libubsan\fR" 4 +.IX Item "-static-libubsan" +When the \fB\-fsanitize=undefined\fR option is used to link a program, +the \s-1GCC\s0 driver automatically links against \fBlibubsan\fR. If +\&\fIlibubsan\fR is available as a shared library, and the \fB\-static\fR +option is not used, then this links against the shared version of +\&\fIlibubsan\fR. The \fB\-static\-libubsan\fR option directs the \s-1GCC\s0 +driver to link \fIlibubsan\fR statically, without necessarily linking +other libraries statically. +.IP "\fB\-static\-libstdc++\fR" 4 +.IX Item "-static-libstdc++" +When the \fBg++\fR program is used to link a \*(C+ program, it +normally automatically links against \fBlibstdc++\fR. If +\&\fIlibstdc++\fR is available as a shared library, and the +\&\fB\-static\fR option is not used, then this links against the +shared version of \fIlibstdc++\fR. That is normally fine. However, it +is sometimes useful to freeze the version of \fIlibstdc++\fR used by +the program without going all the way to a fully static link. The +\&\fB\-static\-libstdc++\fR option directs the \fBg++\fR driver to +link \fIlibstdc++\fR statically, without necessarily linking other +libraries statically. +.IP "\fB\-symbolic\fR" 4 +.IX Item "-symbolic" +Bind references to global symbols when building a shared object. Warn +about any unresolved references (unless overridden by the link editor +option \fB\-Xlinker \-z \-Xlinker defs\fR). Only a few systems support +this option. +.IP "\fB\-T\fR \fIscript\fR" 4 +.IX Item "-T script" +Use \fIscript\fR as the linker script. This option is supported by most +systems using the \s-1GNU\s0 linker. On some targets, such as bare-board +targets without an operating system, the \fB\-T\fR option may be required +when linking to avoid references to undefined symbols. +.IP "\fB\-Xlinker\fR \fIoption\fR" 4 +.IX Item "-Xlinker option" +Pass \fIoption\fR as an option to the linker. You can use this to +supply system-specific linker options that \s-1GCC\s0 does not recognize. +.Sp +If you want to pass an option that takes a separate argument, you must use +\&\fB\-Xlinker\fR twice, once for the option and once for the argument. +For example, to pass \fB\-assert definitions\fR, you must write +\&\fB\-Xlinker \-assert \-Xlinker definitions\fR. It does not work to write +\&\fB\-Xlinker \*(L"\-assert definitions\*(R"\fR, because this passes the entire +string as a single argument, which is not what the linker expects. +.Sp +When using the \s-1GNU\s0 linker, it is usually more convenient to pass +arguments to linker options using the \fIoption\fR\fB=\fR\fIvalue\fR +syntax than as separate arguments. For example, you can specify +\&\fB\-Xlinker \-Map=output.map\fR rather than +\&\fB\-Xlinker \-Map \-Xlinker output.map\fR. Other linkers may not support +this syntax for command-line options. +.IP "\fB\-Wl,\fR\fIoption\fR" 4 +.IX Item "-Wl,option" +Pass \fIoption\fR as an option to the linker. If \fIoption\fR contains +commas, it is split into multiple options at the commas. You can use this +syntax to pass an argument to the option. +For example, \fB\-Wl,\-Map,output.map\fR passes \fB\-Map output.map\fR to the +linker. When using the \s-1GNU\s0 linker, you can also get the same effect with +\&\fB\-Wl,\-Map=output.map\fR. +.IP "\fB\-u\fR \fIsymbol\fR" 4 +.IX Item "-u symbol" +Pretend the symbol \fIsymbol\fR is undefined, to force linking of +library modules to define it. You can use \fB\-u\fR multiple times with +different symbols to force loading of additional library modules. +.SS "Options for Directory Search" +.IX Subsection "Options for Directory Search" +These options specify directories to search for header files, for +libraries and for parts of the compiler: +.IP "\fB\-I\fR\fIdir\fR" 4 +.IX Item "-Idir" +Add the directory \fIdir\fR to the head of the list of directories to be +searched for header files. This can be used to override a system header +file, substituting your own version, since these directories are +searched before the system header file directories. However, you should +not use this option to add directories that contain vendor-supplied +system header files (use \fB\-isystem\fR for that). If you use more than +one \fB\-I\fR option, the directories are scanned in left-to-right +order; the standard system directories come after. +.Sp +If a standard system include directory, or a directory specified with +\&\fB\-isystem\fR, is also specified with \fB\-I\fR, the \fB\-I\fR +option is ignored. The directory is still searched but as a +system directory at its normal position in the system include chain. +This is to ensure that \s-1GCC\s0's procedure to fix buggy system headers and +the ordering for the \f(CW\*(C`include_next\*(C'\fR directive are not inadvertently changed. +If you really need to change the search order for system directories, +use the \fB\-nostdinc\fR and/or \fB\-isystem\fR options. +.IP "\fB\-iplugindir=\fR\fIdir\fR" 4 +.IX Item "-iplugindir=dir" +Set the directory to search for plugins that are passed +by \fB\-fplugin=\fR\fIname\fR instead of +\&\fB\-fplugin=\fR\fIpath\fR\fB/\fR\fIname\fR\fB.so\fR. This option is not meant +to be used by the user, but only passed by the driver. +.IP "\fB\-iquote\fR\fIdir\fR" 4 +.IX Item "-iquotedir" +Add the directory \fIdir\fR to the head of the list of directories to +be searched for header files only for the case of \fB#include +"\fR\fIfile\fR\fB"\fR; they are not searched for \fB#include <\fR\fIfile\fR\fB>\fR, +otherwise just like \fB\-I\fR. +.IP "\fB\-L\fR\fIdir\fR" 4 +.IX Item "-Ldir" +Add directory \fIdir\fR to the list of directories to be searched +for \fB\-l\fR. +.IP "\fB\-B\fR\fIprefix\fR" 4 +.IX Item "-Bprefix" +This option specifies where to find the executables, libraries, +include files, and data files of the compiler itself. +.Sp +The compiler driver program runs one or more of the subprograms +\&\fBcpp\fR, \fBcc1\fR, \fBas\fR and \fBld\fR. It tries +\&\fIprefix\fR as a prefix for each program it tries to run, both with and +without \fImachine\fR\fB/\fR\fIversion\fR\fB/\fR. +.Sp +For each subprogram to be run, the compiler driver first tries the +\&\fB\-B\fR prefix, if any. If that name is not found, or if \fB\-B\fR +is not specified, the driver tries two standard prefixes, +\&\fI/usr/lib/gcc/\fR and \fI/usr/local/lib/gcc/\fR. If neither of +those results in a file name that is found, the unmodified program +name is searched for using the directories specified in your +\&\fB\s-1PATH\s0\fR environment variable. +.Sp +The compiler checks to see if the path provided by the \fB\-B\fR +refers to a directory, and if necessary it adds a directory +separator character at the end of the path. +.Sp +\&\fB\-B\fR prefixes that effectively specify directory names also apply +to libraries in the linker, because the compiler translates these +options into \fB\-L\fR options for the linker. They also apply to +include files in the preprocessor, because the compiler translates these +options into \fB\-isystem\fR options for the preprocessor. In this case, +the compiler appends \fBinclude\fR to the prefix. +.Sp +The runtime support file \fIlibgcc.a\fR can also be searched for using +the \fB\-B\fR prefix, if needed. If it is not found there, the two +standard prefixes above are tried, and that is all. The file is left +out of the link if it is not found by those means. +.Sp +Another way to specify a prefix much like the \fB\-B\fR prefix is to use +the environment variable \fB\s-1GCC_EXEC_PREFIX\s0\fR. +.Sp +As a special kludge, if the path provided by \fB\-B\fR is +\&\fI[dir/]stage\fIN\fI/\fR, where \fIN\fR is a number in the range 0 to +9, then it is replaced by \fI[dir/]include\fR. This is to help +with boot-strapping the compiler. +.IP "\fB\-specs=\fR\fIfile\fR" 4 +.IX Item "-specs=file" +Process \fIfile\fR after the compiler reads in the standard \fIspecs\fR +file, in order to override the defaults which the \fBgcc\fR driver +program uses when determining what switches to pass to \fBcc1\fR, +\&\fBcc1plus\fR, \fBas\fR, \fBld\fR, etc. More than one +\&\fB\-specs=\fR\fIfile\fR can be specified on the command line, and they +are processed in order, from left to right. +.IP "\fB\-\-sysroot=\fR\fIdir\fR" 4 +.IX Item "--sysroot=dir" +Use \fIdir\fR as the logical root directory for headers and libraries. +For example, if the compiler normally searches for headers in +\&\fI/usr/include\fR and libraries in \fI/usr/lib\fR, it instead +searches \fI\fIdir\fI/usr/include\fR and \fI\fIdir\fI/usr/lib\fR. +.Sp +If you use both this option and the \fB\-isysroot\fR option, then +the \fB\-\-sysroot\fR option applies to libraries, but the +\&\fB\-isysroot\fR option applies to header files. +.Sp +The \s-1GNU\s0 linker (beginning with version 2.16) has the necessary support +for this option. If your linker does not support this option, the +header file aspect of \fB\-\-sysroot\fR still works, but the +library aspect does not. +.IP "\fB\-\-no\-sysroot\-suffix\fR" 4 +.IX Item "--no-sysroot-suffix" +For some targets, a suffix is added to the root directory specified +with \fB\-\-sysroot\fR, depending on the other options used, so that +headers may for example be found in +\&\fI\fIdir\fI/\fIsuffix\fI/usr/include\fR instead of +\&\fI\fIdir\fI/usr/include\fR. This option disables the addition of +such a suffix. +.IP "\fB\-I\-\fR" 4 +.IX Item "-I-" +This option has been deprecated. Please use \fB\-iquote\fR instead for +\&\fB\-I\fR directories before the \fB\-I\-\fR and remove the \fB\-I\-\fR. +Any directories you specify with \fB\-I\fR options before the \fB\-I\-\fR +option are searched only for the case of \fB#include "\fR\fIfile\fR\fB"\fR; +they are not searched for \fB#include <\fR\fIfile\fR\fB>\fR. +.Sp +If additional directories are specified with \fB\-I\fR options after +the \fB\-I\-\fR, these directories are searched for all \fB#include\fR +directives. (Ordinarily \fIall\fR \fB\-I\fR directories are used +this way.) +.Sp +In addition, the \fB\-I\-\fR option inhibits the use of the current +directory (where the current input file came from) as the first search +directory for \fB#include "\fR\fIfile\fR\fB"\fR. There is no way to +override this effect of \fB\-I\-\fR. With \fB\-I.\fR you can specify +searching the directory that is current when the compiler is +invoked. That is not exactly the same as what the preprocessor does +by default, but it is often satisfactory. +.Sp +\&\fB\-I\-\fR does not inhibit the use of the standard system directories +for header files. Thus, \fB\-I\-\fR and \fB\-nostdinc\fR are +independent. +.SS "Specifying Target Machine and Compiler Version" +.IX Subsection "Specifying Target Machine and Compiler Version" +The usual way to run \s-1GCC\s0 is to run the executable called \fBgcc\fR, or +\&\fImachine\fR\fB\-gcc\fR when cross-compiling, or +\&\fImachine\fR\fB\-gcc\-\fR\fIversion\fR to run a version other than the +one that was installed last. +.SS "Hardware Models and Configurations" +.IX Subsection "Hardware Models and Configurations" +Each target machine types can have its own +special options, starting with \fB\-m\fR, to choose among various +hardware models or configurations\-\-\-for example, 68010 vs 68020, +floating coprocessor or none. A single installed version of the +compiler can compile for any model or configuration, according to the +options specified. +.PP +Some configurations of the compiler also support additional special +options, usually for compatibility with other compilers on the same +platform. +.PP +\fIAArch64 Options\fR +.IX Subsection "AArch64 Options" +.PP +These options are defined for AArch64 implementations: +.IP "\fB\-mabi=\fR\fIname\fR" 4 +.IX Item "-mabi=name" +Generate code for the specified data model. Permissible values +are \fBilp32\fR for SysV-like data model where int, long int and pointer +are 32\-bit, and \fBlp64\fR for SysV-like data model where int is 32\-bit, +but long int and pointer are 64\-bit. +.Sp +The default depends on the specific target configuration. Note that +the \s-1LP64\s0 and \s-1ILP32\s0 ABIs are not link-compatible; you must compile your +entire program with the same \s-1ABI,\s0 and link with a compatible set of libraries. +.IP "\fB\-mbig\-endian\fR" 4 +.IX Item "-mbig-endian" +Generate big-endian code. This is the default when \s-1GCC\s0 is configured for an +\&\fBaarch64_be\-*\-*\fR target. +.IP "\fB\-mgeneral\-regs\-only\fR" 4 +.IX Item "-mgeneral-regs-only" +Generate code which uses only the general registers. +.IP "\fB\-mlittle\-endian\fR" 4 +.IX Item "-mlittle-endian" +Generate little-endian code. This is the default when \s-1GCC\s0 is configured for an +\&\fBaarch64\-*\-*\fR but not an \fBaarch64_be\-*\-*\fR target. +.IP "\fB\-mcmodel=tiny\fR" 4 +.IX Item "-mcmodel=tiny" +Generate code for the tiny code model. The program and its statically defined +symbols must be within 1GB of each other. Pointers are 64 bits. Programs can +be statically or dynamically linked. This model is not fully implemented and +mostly treated as \fBsmall\fR. +.IP "\fB\-mcmodel=small\fR" 4 +.IX Item "-mcmodel=small" +Generate code for the small code model. The program and its statically defined +symbols must be within 4GB of each other. Pointers are 64 bits. Programs can +be statically or dynamically linked. This is the default code model. +.IP "\fB\-mcmodel=large\fR" 4 +.IX Item "-mcmodel=large" +Generate code for the large code model. This makes no assumptions about +addresses and sizes of sections. Pointers are 64 bits. Programs can be +statically linked only. +.IP "\fB\-mstrict\-align\fR" 4 +.IX Item "-mstrict-align" +Do not assume that unaligned memory references will be handled by the system. +.IP "\fB\-momit\-leaf\-frame\-pointer\fR" 4 +.IX Item "-momit-leaf-frame-pointer" +.PD 0 +.IP "\fB\-mno\-omit\-leaf\-frame\-pointer\fR" 4 +.IX Item "-mno-omit-leaf-frame-pointer" +.PD +Omit or keep the frame pointer in leaf functions. The former behaviour is the +default. +.IP "\fB\-mtls\-dialect=desc\fR" 4 +.IX Item "-mtls-dialect=desc" +Use \s-1TLS\s0 descriptors as the thread-local storage mechanism for dynamic accesses +of \s-1TLS\s0 variables. This is the default. +.IP "\fB\-mtls\-dialect=traditional\fR" 4 +.IX Item "-mtls-dialect=traditional" +Use traditional \s-1TLS\s0 as the thread-local storage mechanism for dynamic accesses +of \s-1TLS\s0 variables. +.IP "\fB\-march=\fR\fIname\fR" 4 +.IX Item "-march=name" +Specify the name of the target architecture, optionally suffixed by one or +more feature modifiers. This option has the form +\&\fB\-march=\fR\fIarch\fR{\fB+\fR[\fBno\fR]\fIfeature\fR}*, where the +only permissible value for \fIarch\fR is \fBarmv8\-a\fR. The permissible +values for \fIfeature\fR are documented in the sub-section below. +.Sp +Where conflicting feature modifiers are specified, the right-most feature is +used. +.Sp +\&\s-1GCC\s0 uses this name to determine what kind of instructions it can emit when +generating assembly code. +.Sp +Where \fB\-march\fR is specified without either of \fB\-mtune\fR +or \fB\-mcpu\fR also being specified, the code will be tuned to perform +well across a range of target processors implementing the target +architecture. +.IP "\fB\-mtune=\fR\fIname\fR" 4 +.IX Item "-mtune=name" +Specify the name of the target processor for which \s-1GCC\s0 should tune the +performance of the code. Permissible values for this option are: +\&\fBgeneric\fR, \fBcortex\-a53\fR, \fBcortex\-a57\fR. +.Sp +Additionally, this option can specify that \s-1GCC\s0 should tune the performance +of the code for a big.LITTLE system. The only permissible value is +\&\fBcortex\-a57.cortex\-a53\fR. +.Sp +Where none of \fB\-mtune=\fR, \fB\-mcpu=\fR or \fB\-march=\fR +are specified, the code will be tuned to perform well across a range +of target processors. +.Sp +This option cannot be suffixed by feature modifiers. +.IP "\fB\-mcpu=\fR\fIname\fR" 4 +.IX Item "-mcpu=name" +Specify the name of the target processor, optionally suffixed by one or more +feature modifiers. This option has the form +\&\fB\-mcpu=\fR\fIcpu\fR{\fB+\fR[\fBno\fR]\fIfeature\fR}*, where the +permissible values for \fIcpu\fR are the same as those available for +\&\fB\-mtune\fR. +.Sp +The permissible values for \fIfeature\fR are documented in the sub-section +below. +.Sp +Where conflicting feature modifiers are specified, the right-most feature is +used. +.Sp +\&\s-1GCC\s0 uses this name to determine what kind of instructions it can emit when +generating assembly code (as if by \fB\-march\fR) and to determine +the target processor for which to tune for performance (as if +by \fB\-mtune\fR). Where this option is used in conjunction +with \fB\-march\fR or \fB\-mtune\fR, those options take precedence +over the appropriate part of this option. +.PP +\fB\-march\fR and \fB\-mcpu\fR feature modifiers +.IX Subsection "-march and -mcpu feature modifiers" +.PP +Feature modifiers used with \fB\-march\fR and \fB\-mcpu\fR can be one +the following: +.IP "\fBcrc\fR" 4 +.IX Item "crc" +Enable \s-1CRC\s0 extension. +.IP "\fBcrypto\fR" 4 +.IX Item "crypto" +Enable Crypto extension. This implies Advanced \s-1SIMD\s0 is enabled. +.IP "\fBfp\fR" 4 +.IX Item "fp" +Enable floating-point instructions. +.IP "\fBsimd\fR" 4 +.IX Item "simd" +Enable Advanced \s-1SIMD\s0 instructions. This implies floating-point instructions +are enabled. This is the default for all current possible values for options +\&\fB\-march\fR and \fB\-mcpu=\fR. +.PP +\fIAdapteva Epiphany Options\fR +.IX Subsection "Adapteva Epiphany Options" +.PP +These \fB\-m\fR options are defined for Adapteva Epiphany: +.IP "\fB\-mhalf\-reg\-file\fR" 4 +.IX Item "-mhalf-reg-file" +Don't allocate any register in the range \f(CW\*(C`r32\*(C'\fR...\f(CW\*(C`r63\*(C'\fR. +That allows code to run on hardware variants that lack these registers. +.IP "\fB\-mprefer\-short\-insn\-regs\fR" 4 +.IX Item "-mprefer-short-insn-regs" +Preferrentially allocate registers that allow short instruction generation. +This can result in increased instruction count, so this may either reduce or +increase overall code size. +.IP "\fB\-mbranch\-cost=\fR\fInum\fR" 4 +.IX Item "-mbranch-cost=num" +Set the cost of branches to roughly \fInum\fR \*(L"simple\*(R" instructions. +This cost is only a heuristic and is not guaranteed to produce +consistent results across releases. +.IP "\fB\-mcmove\fR" 4 +.IX Item "-mcmove" +Enable the generation of conditional moves. +.IP "\fB\-mnops=\fR\fInum\fR" 4 +.IX Item "-mnops=num" +Emit \fInum\fR NOPs before every other generated instruction. +.IP "\fB\-mno\-soft\-cmpsf\fR" 4 +.IX Item "-mno-soft-cmpsf" +For single-precision floating-point comparisons, emit an \f(CW\*(C`fsub\*(C'\fR instruction +and test the flags. This is faster than a software comparison, but can +get incorrect results in the presence of NaNs, or when two different small +numbers are compared such that their difference is calculated as zero. +The default is \fB\-msoft\-cmpsf\fR, which uses slower, but IEEE-compliant, +software comparisons. +.IP "\fB\-mstack\-offset=\fR\fInum\fR" 4 +.IX Item "-mstack-offset=num" +Set the offset between the top of the stack and the stack pointer. +E.g., a value of 8 means that the eight bytes in the range \f(CW\*(C`sp+0...sp+7\*(C'\fR +can be used by leaf functions without stack allocation. +Values other than \fB8\fR or \fB16\fR are untested and unlikely to work. +Note also that this option changes the \s-1ABI\s0; compiling a program with a +different stack offset than the libraries have been compiled with +generally does not work. +This option can be useful if you want to evaluate if a different stack +offset would give you better code, but to actually use a different stack +offset to build working programs, it is recommended to configure the +toolchain with the appropriate \fB\-\-with\-stack\-offset=\fR\fInum\fR option. +.IP "\fB\-mno\-round\-nearest\fR" 4 +.IX Item "-mno-round-nearest" +Make the scheduler assume that the rounding mode has been set to +truncating. The default is \fB\-mround\-nearest\fR. +.IP "\fB\-mlong\-calls\fR" 4 +.IX Item "-mlong-calls" +If not otherwise specified by an attribute, assume all calls might be beyond +the offset range of the \f(CW\*(C`b\*(C'\fR / \f(CW\*(C`bl\*(C'\fR instructions, and therefore load the +function address into a register before performing a (otherwise direct) call. +This is the default. +.IP "\fB\-mshort\-calls\fR" 4 +.IX Item "-mshort-calls" +If not otherwise specified by an attribute, assume all direct calls are +in the range of the \f(CW\*(C`b\*(C'\fR / \f(CW\*(C`bl\*(C'\fR instructions, so use these instructions +for direct calls. The default is \fB\-mlong\-calls\fR. +.IP "\fB\-msmall16\fR" 4 +.IX Item "-msmall16" +Assume addresses can be loaded as 16\-bit unsigned values. This does not +apply to function addresses for which \fB\-mlong\-calls\fR semantics +are in effect. +.IP "\fB\-mfp\-mode=\fR\fImode\fR" 4 +.IX Item "-mfp-mode=mode" +Set the prevailing mode of the floating-point unit. +This determines the floating-point mode that is provided and expected +at function call and return time. Making this mode match the mode you +predominantly need at function start can make your programs smaller and +faster by avoiding unnecessary mode switches. +.Sp +\&\fImode\fR can be set to one the following values: +.RS 4 +.IP "\fBcaller\fR" 4 +.IX Item "caller" +Any mode at function entry is valid, and retained or restored when +the function returns, and when it calls other functions. +This mode is useful for compiling libraries or other compilation units +you might want to incorporate into different programs with different +prevailing \s-1FPU\s0 modes, and the convenience of being able to use a single +object file outweighs the size and speed overhead for any extra +mode switching that might be needed, compared with what would be needed +with a more specific choice of prevailing \s-1FPU\s0 mode. +.IP "\fBtruncate\fR" 4 +.IX Item "truncate" +This is the mode used for floating-point calculations with +truncating (i.e. round towards zero) rounding mode. That includes +conversion from floating point to integer. +.IP "\fBround-nearest\fR" 4 +.IX Item "round-nearest" +This is the mode used for floating-point calculations with +round-to-nearest-or-even rounding mode. +.IP "\fBint\fR" 4 +.IX Item "int" +This is the mode used to perform integer calculations in the \s-1FPU,\s0 e.g. +integer multiply, or integer multiply-and-accumulate. +.RE +.RS 4 +.Sp +The default is \fB\-mfp\-mode=caller\fR +.RE +.IP "\fB\-mnosplit\-lohi\fR" 4 +.IX Item "-mnosplit-lohi" +.PD 0 +.IP "\fB\-mno\-postinc\fR" 4 +.IX Item "-mno-postinc" +.IP "\fB\-mno\-postmodify\fR" 4 +.IX Item "-mno-postmodify" +.PD +Code generation tweaks that disable, respectively, splitting of 32\-bit +loads, generation of post-increment addresses, and generation of +post-modify addresses. The defaults are \fBmsplit-lohi\fR, +\&\fB\-mpost\-inc\fR, and \fB\-mpost\-modify\fR. +.IP "\fB\-mnovect\-double\fR" 4 +.IX Item "-mnovect-double" +Change the preferred \s-1SIMD\s0 mode to SImode. The default is +\&\fB\-mvect\-double\fR, which uses DImode as preferred \s-1SIMD\s0 mode. +.IP "\fB\-max\-vect\-align=\fR\fInum\fR" 4 +.IX Item "-max-vect-align=num" +The maximum alignment for \s-1SIMD\s0 vector mode types. +\&\fInum\fR may be 4 or 8. The default is 8. +Note that this is an \s-1ABI\s0 change, even though many library function +interfaces are unaffected if they don't use \s-1SIMD\s0 vector modes +in places that affect size and/or alignment of relevant types. +.IP "\fB\-msplit\-vecmove\-early\fR" 4 +.IX Item "-msplit-vecmove-early" +Split vector moves into single word moves before reload. In theory this +can give better register allocation, but so far the reverse seems to be +generally the case. +.IP "\fB\-m1reg\-\fR\fIreg\fR" 4 +.IX Item "-m1reg-reg" +Specify a register to hold the constant \-1, which makes loading small negative +constants and certain bitmasks faster. +Allowable values for \fIreg\fR are \fBr43\fR and \fBr63\fR, +which specify use of that register as a fixed register, +and \fBnone\fR, which means that no register is used for this +purpose. The default is \fB\-m1reg\-none\fR. +.PP +\fI\s-1ARC\s0 Options\fR +.IX Subsection "ARC Options" +.PP +The following options control the architecture variant for which code +is being compiled: +.IP "\fB\-mbarrel\-shifter\fR" 4 +.IX Item "-mbarrel-shifter" +Generate instructions supported by barrel shifter. This is the default +unless \fB\-mcpu=ARC601\fR is in effect. +.IP "\fB\-mcpu=\fR\fIcpu\fR" 4 +.IX Item "-mcpu=cpu" +Set architecture type, register usage, and instruction scheduling +parameters for \fIcpu\fR. There are also shortcut alias options +available for backward compatibility and convenience. Supported +values for \fIcpu\fR are +.RS 4 +.IP "\fB\s-1ARC600\s0\fR" 4 +.IX Item "ARC600" +Compile for \s-1ARC600. \s0 Aliases: \fB\-mA6\fR, \fB\-mARC600\fR. +.IP "\fB\s-1ARC601\s0\fR" 4 +.IX Item "ARC601" +Compile for \s-1ARC601. \s0 Alias: \fB\-mARC601\fR. +.IP "\fB\s-1ARC700\s0\fR" 4 +.IX Item "ARC700" +Compile for \s-1ARC700. \s0 Aliases: \fB\-mA7\fR, \fB\-mARC700\fR. +This is the default when configured with \fB\-\-with\-cpu=arc700\fR. +.RE +.RS 4 +.RE +.IP "\fB\-mdpfp\fR" 4 +.IX Item "-mdpfp" +.PD 0 +.IP "\fB\-mdpfp\-compact\fR" 4 +.IX Item "-mdpfp-compact" +.PD +\&\s-1FPX:\s0 Generate Double Precision \s-1FPX\s0 instructions, tuned for the compact +implementation. +.IP "\fB\-mdpfp\-fast\fR" 4 +.IX Item "-mdpfp-fast" +\&\s-1FPX:\s0 Generate Double Precision \s-1FPX\s0 instructions, tuned for the fast +implementation. +.IP "\fB\-mno\-dpfp\-lrsr\fR" 4 +.IX Item "-mno-dpfp-lrsr" +Disable \s-1LR\s0 and \s-1SR\s0 instructions from using \s-1FPX\s0 extension aux registers. +.IP "\fB\-mea\fR" 4 +.IX Item "-mea" +Generate Extended arithmetic instructions. Currently only +\&\f(CW\*(C`divaw\*(C'\fR, \f(CW\*(C`adds\*(C'\fR, \f(CW\*(C`subs\*(C'\fR, and \f(CW\*(C`sat16\*(C'\fR are +supported. This is always enabled for \fB\-mcpu=ARC700\fR. +.IP "\fB\-mno\-mpy\fR" 4 +.IX Item "-mno-mpy" +Do not generate mpy instructions for \s-1ARC700.\s0 +.IP "\fB\-mmul32x16\fR" 4 +.IX Item "-mmul32x16" +Generate 32x16 bit multiply and mac instructions. +.IP "\fB\-mmul64\fR" 4 +.IX Item "-mmul64" +Generate mul64 and mulu64 instructions. Only valid for \fB\-mcpu=ARC600\fR. +.IP "\fB\-mnorm\fR" 4 +.IX Item "-mnorm" +Generate norm instruction. This is the default if \fB\-mcpu=ARC700\fR +is in effect. +.IP "\fB\-mspfp\fR" 4 +.IX Item "-mspfp" +.PD 0 +.IP "\fB\-mspfp\-compact\fR" 4 +.IX Item "-mspfp-compact" +.PD +\&\s-1FPX:\s0 Generate Single Precision \s-1FPX\s0 instructions, tuned for the compact +implementation. +.IP "\fB\-mspfp\-fast\fR" 4 +.IX Item "-mspfp-fast" +\&\s-1FPX:\s0 Generate Single Precision \s-1FPX\s0 instructions, tuned for the fast +implementation. +.IP "\fB\-msimd\fR" 4 +.IX Item "-msimd" +Enable generation of \s-1ARC SIMD\s0 instructions via target-specific +builtins. Only valid for \fB\-mcpu=ARC700\fR. +.IP "\fB\-msoft\-float\fR" 4 +.IX Item "-msoft-float" +This option ignored; it is provided for compatibility purposes only. +Software floating point code is emitted by default, and this default +can overridden by \s-1FPX\s0 options; \fBmspfp\fR, \fBmspfp-compact\fR, or +\&\fBmspfp-fast\fR for single precision, and \fBmdpfp\fR, +\&\fBmdpfp-compact\fR, or \fBmdpfp-fast\fR for double precision. +.IP "\fB\-mswap\fR" 4 +.IX Item "-mswap" +Generate swap instructions. +.PP +The following options are passed through to the assembler, and also +define preprocessor macro symbols. +.IP "\fB\-mdsp\-packa\fR" 4 +.IX Item "-mdsp-packa" +Passed down to the assembler to enable the \s-1DSP\s0 Pack A extensions. +Also sets the preprocessor symbol \f(CW\*(C`_\|_Xdsp_packa\*(C'\fR. +.IP "\fB\-mdvbf\fR" 4 +.IX Item "-mdvbf" +Passed down to the assembler to enable the dual viterbi butterfly +extension. Also sets the preprocessor symbol \f(CW\*(C`_\|_Xdvbf\*(C'\fR. +.IP "\fB\-mlock\fR" 4 +.IX Item "-mlock" +Passed down to the assembler to enable the Locked Load/Store +Conditional extension. Also sets the preprocessor symbol +\&\f(CW\*(C`_\|_Xlock\*(C'\fR. +.IP "\fB\-mmac\-d16\fR" 4 +.IX Item "-mmac-d16" +Passed down to the assembler. Also sets the preprocessor symbol +\&\f(CW\*(C`_\|_Xxmac_d16\*(C'\fR. +.IP "\fB\-mmac\-24\fR" 4 +.IX Item "-mmac-24" +Passed down to the assembler. Also sets the preprocessor symbol +\&\f(CW\*(C`_\|_Xxmac_24\*(C'\fR. +.IP "\fB\-mrtsc\fR" 4 +.IX Item "-mrtsc" +Passed down to the assembler to enable the 64\-bit Time-Stamp Counter +extension instruction. Also sets the preprocessor symbol +\&\f(CW\*(C`_\|_Xrtsc\*(C'\fR. +.IP "\fB\-mswape\fR" 4 +.IX Item "-mswape" +Passed down to the assembler to enable the swap byte ordering +extension instruction. Also sets the preprocessor symbol +\&\f(CW\*(C`_\|_Xswape\*(C'\fR. +.IP "\fB\-mtelephony\fR" 4 +.IX Item "-mtelephony" +Passed down to the assembler to enable dual and single operand +instructions for telephony. Also sets the preprocessor symbol +\&\f(CW\*(C`_\|_Xtelephony\*(C'\fR. +.IP "\fB\-mxy\fR" 4 +.IX Item "-mxy" +Passed down to the assembler to enable the \s-1XY\s0 Memory extension. Also +sets the preprocessor symbol \f(CW\*(C`_\|_Xxy\*(C'\fR. +.PP +The following options control how the assembly code is annotated: +.IP "\fB\-misize\fR" 4 +.IX Item "-misize" +Annotate assembler instructions with estimated addresses. +.IP "\fB\-mannotate\-align\fR" 4 +.IX Item "-mannotate-align" +Explain what alignment considerations lead to the decision to make an +instruction short or long. +.PP +The following options are passed through to the linker: +.IP "\fB\-marclinux\fR" 4 +.IX Item "-marclinux" +Passed through to the linker, to specify use of the \f(CW\*(C`arclinux\*(C'\fR emulation. +This option is enabled by default in tool chains built for +\&\f(CW\*(C`arc\-linux\-uclibc\*(C'\fR and \f(CW\*(C`arceb\-linux\-uclibc\*(C'\fR targets +when profiling is not requested. +.IP "\fB\-marclinux_prof\fR" 4 +.IX Item "-marclinux_prof" +Passed through to the linker, to specify use of the +\&\f(CW\*(C`arclinux_prof\*(C'\fR emulation. This option is enabled by default in +tool chains built for \f(CW\*(C`arc\-linux\-uclibc\*(C'\fR and +\&\f(CW\*(C`arceb\-linux\-uclibc\*(C'\fR targets when profiling is requested. +.PP +The following options control the semantics of generated code: +.IP "\fB\-mepilogue\-cfi\fR" 4 +.IX Item "-mepilogue-cfi" +Enable generation of call frame information for epilogues. +.IP "\fB\-mno\-epilogue\-cfi\fR" 4 +.IX Item "-mno-epilogue-cfi" +Disable generation of call frame information for epilogues. +.IP "\fB\-mlong\-calls\fR" 4 +.IX Item "-mlong-calls" +Generate call insns as register indirect calls, thus providing access +to the full 32\-bit address range. +.IP "\fB\-mmedium\-calls\fR" 4 +.IX Item "-mmedium-calls" +Don't use less than 25 bit addressing range for calls, which is the +offset available for an unconditional branch-and-link +instruction. Conditional execution of function calls is suppressed, to +allow use of the 25\-bit range, rather than the 21\-bit range with +conditional branch-and-link. This is the default for tool chains built +for \f(CW\*(C`arc\-linux\-uclibc\*(C'\fR and \f(CW\*(C`arceb\-linux\-uclibc\*(C'\fR targets. +.IP "\fB\-mno\-sdata\fR" 4 +.IX Item "-mno-sdata" +Do not generate sdata references. This is the default for tool chains +built for \f(CW\*(C`arc\-linux\-uclibc\*(C'\fR and \f(CW\*(C`arceb\-linux\-uclibc\*(C'\fR +targets. +.IP "\fB\-mucb\-mcount\fR" 4 +.IX Item "-mucb-mcount" +Instrument with mcount calls as used in \s-1UCB\s0 code. I.e. do the +counting in the callee, not the caller. By default \s-1ARC\s0 instrumentation +counts in the caller. +.IP "\fB\-mvolatile\-cache\fR" 4 +.IX Item "-mvolatile-cache" +Use ordinarily cached memory accesses for volatile references. This is the +default. +.IP "\fB\-mno\-volatile\-cache\fR" 4 +.IX Item "-mno-volatile-cache" +Enable cache bypass for volatile references. +.PP +The following options fine tune code generation: +.IP "\fB\-malign\-call\fR" 4 +.IX Item "-malign-call" +Do alignment optimizations for call instructions. +.IP "\fB\-mauto\-modify\-reg\fR" 4 +.IX Item "-mauto-modify-reg" +Enable the use of pre/post modify with register displacement. +.IP "\fB\-mbbit\-peephole\fR" 4 +.IX Item "-mbbit-peephole" +Enable bbit peephole2. +.IP "\fB\-mno\-brcc\fR" 4 +.IX Item "-mno-brcc" +This option disables a target-specific pass in \fIarc_reorg\fR to +generate \f(CW\*(C`BRcc\*(C'\fR instructions. It has no effect on \f(CW\*(C`BRcc\*(C'\fR +generation driven by the combiner pass. +.IP "\fB\-mcase\-vector\-pcrel\fR" 4 +.IX Item "-mcase-vector-pcrel" +Use pc-relative switch case tables \- this enables case table shortening. +This is the default for \fB\-Os\fR. +.IP "\fB\-mcompact\-casesi\fR" 4 +.IX Item "-mcompact-casesi" +Enable compact casesi pattern. +This is the default for \fB\-Os\fR. +.IP "\fB\-mno\-cond\-exec\fR" 4 +.IX Item "-mno-cond-exec" +Disable ARCompact specific pass to generate conditional execution instructions. +Due to delay slot scheduling and interactions between operand numbers, +literal sizes, instruction lengths, and the support for conditional execution, +the target-independent pass to generate conditional execution is often lacking, +so the \s-1ARC\s0 port has kept a special pass around that tries to find more +conditional execution generating opportunities after register allocation, +branch shortening, and delay slot scheduling have been done. This pass +generally, but not always, improves performance and code size, at the cost of +extra compilation time, which is why there is an option to switch it off. +If you have a problem with call instructions exceeding their allowable +offset range because they are conditionalized, you should consider using +\&\fB\-mmedium\-calls\fR instead. +.IP "\fB\-mearly\-cbranchsi\fR" 4 +.IX Item "-mearly-cbranchsi" +Enable pre-reload use of the cbranchsi pattern. +.IP "\fB\-mexpand\-adddi\fR" 4 +.IX Item "-mexpand-adddi" +Expand \f(CW\*(C`adddi3\*(C'\fR and \f(CW\*(C`subdi3\*(C'\fR at rtl generation time into +\&\f(CW\*(C`add.f\*(C'\fR, \f(CW\*(C`adc\*(C'\fR etc. +.IP "\fB\-mindexed\-loads\fR" 4 +.IX Item "-mindexed-loads" +Enable the use of indexed loads. This can be problematic because some +optimizers will then assume the that indexed stores exist, which is not +the case. +.IP "\fB\-mlra\fR" 4 +.IX Item "-mlra" +Enable Local Register Allocation. This is still experimental for \s-1ARC,\s0 +so by default the compiler uses standard reload +(i.e. \fB\-mno\-lra\fR). +.IP "\fB\-mlra\-priority\-none\fR" 4 +.IX Item "-mlra-priority-none" +Don't indicate any priority for target registers. +.IP "\fB\-mlra\-priority\-compact\fR" 4 +.IX Item "-mlra-priority-compact" +Indicate target register priority for r0..r3 / r12..r15. +.IP "\fB\-mlra\-priority\-noncompact\fR" 4 +.IX Item "-mlra-priority-noncompact" +Reduce target regsiter priority for r0..r3 / r12..r15. +.IP "\fB\-mno\-millicode\fR" 4 +.IX Item "-mno-millicode" +When optimizing for size (using \fB\-Os\fR), prologues and epilogues +that have to save or restore a large number of registers are often +shortened by using call to a special function in libgcc; this is +referred to as a \fImillicode\fR call. As these calls can pose +performance issues, and/or cause linking issues when linking in a +nonstandard way, this option is provided to turn off millicode call +generation. +.IP "\fB\-mmixed\-code\fR" 4 +.IX Item "-mmixed-code" +Tweak register allocation to help 16\-bit instruction generation. +This generally has the effect of decreasing the average instruction size +while increasing the instruction count. +.IP "\fB\-mq\-class\fR" 4 +.IX Item "-mq-class" +Enable 'q' instruction alternatives. +This is the default for \fB\-Os\fR. +.IP "\fB\-mRcq\fR" 4 +.IX Item "-mRcq" +Enable Rcq constraint handling \- most short code generation depends on this. +This is the default. +.IP "\fB\-mRcw\fR" 4 +.IX Item "-mRcw" +Enable Rcw constraint handling \- ccfsm condexec mostly depends on this. +This is the default. +.IP "\fB\-msize\-level=\fR\fIlevel\fR" 4 +.IX Item "-msize-level=level" +Fine-tune size optimization with regards to instruction lengths and alignment. +The recognized values for \fIlevel\fR are: +.RS 4 +.IP "\fB0\fR" 4 +.IX Item "0" +No size optimization. This level is deprecated and treated like \fB1\fR. +.IP "\fB1\fR" 4 +.IX Item "1" +Short instructions are used opportunistically. +.IP "\fB2\fR" 4 +.IX Item "2" +In addition, alignment of loops and of code after barriers are dropped. +.IP "\fB3\fR" 4 +.IX Item "3" +In addition, optional data alignment is dropped, and the option \fBOs\fR is enabled. +.RE +.RS 4 +.Sp +This defaults to \fB3\fR when \fB\-Os\fR is in effect. Otherwise, +the behavior when this is not set is equivalent to level \fB1\fR. +.RE +.IP "\fB\-mtune=\fR\fIcpu\fR" 4 +.IX Item "-mtune=cpu" +Set instruction scheduling parameters for \fIcpu\fR, overriding any implied +by \fB\-mcpu=\fR. +.Sp +Supported values for \fIcpu\fR are +.RS 4 +.IP "\fB\s-1ARC600\s0\fR" 4 +.IX Item "ARC600" +Tune for \s-1ARC600\s0 cpu. +.IP "\fB\s-1ARC601\s0\fR" 4 +.IX Item "ARC601" +Tune for \s-1ARC601\s0 cpu. +.IP "\fB\s-1ARC700\s0\fR" 4 +.IX Item "ARC700" +Tune for \s-1ARC700\s0 cpu with standard multiplier block. +.IP "\fBARC700\-xmac\fR" 4 +.IX Item "ARC700-xmac" +Tune for \s-1ARC700\s0 cpu with \s-1XMAC\s0 block. +.IP "\fB\s-1ARC725D\s0\fR" 4 +.IX Item "ARC725D" +Tune for \s-1ARC725D\s0 cpu. +.IP "\fB\s-1ARC750D\s0\fR" 4 +.IX Item "ARC750D" +Tune for \s-1ARC750D\s0 cpu. +.RE +.RS 4 +.RE +.IP "\fB\-mmultcost=\fR\fInum\fR" 4 +.IX Item "-mmultcost=num" +Cost to assume for a multiply instruction, with \fB4\fR being equal to a +normal instruction. +.IP "\fB\-munalign\-prob\-threshold=\fR\fIprobability\fR" 4 +.IX Item "-munalign-prob-threshold=probability" +Set probability threshold for unaligning branches. +When tuning for \fB\s-1ARC700\s0\fR and optimizing for speed, branches without +filled delay slot are preferably emitted unaligned and long, unless +profiling indicates that the probability for the branch to be taken +is below \fIprobability\fR. +The default is (\s-1REG_BR_PROB_BASE/2\s0), i.e. 5000. +.PP +The following options are maintained for backward compatibility, but +are now deprecated and will be removed in a future release: +.IP "\fB\-margonaut\fR" 4 +.IX Item "-margonaut" +Obsolete \s-1FPX.\s0 +.IP "\fB\-mbig\-endian\fR" 4 +.IX Item "-mbig-endian" +.PD 0 +.IP "\fB\-EB\fR" 4 +.IX Item "-EB" +.PD +Compile code for big endian targets. Use of these options is now +deprecated. Users wanting big-endian code, should use the +\&\f(CW\*(C`arceb\-elf32\*(C'\fR and \f(CW\*(C`arceb\-linux\-uclibc\*(C'\fR targets when +building the tool chain, for which big-endian is the default. +.IP "\fB\-mlittle\-endian\fR" 4 +.IX Item "-mlittle-endian" +.PD 0 +.IP "\fB\-EL\fR" 4 +.IX Item "-EL" +.PD +Compile code for little endian targets. Use of these options is now +deprecated. Users wanting little-endian code should use the +\&\f(CW\*(C`arc\-elf32\*(C'\fR and \f(CW\*(C`arc\-linux\-uclibc\*(C'\fR targets when +building the tool chain, for which little-endian is the default. +.IP "\fB\-mbarrel_shifter\fR" 4 +.IX Item "-mbarrel_shifter" +Replaced by \fB\-mbarrel\-shifter\fR +.IP "\fB\-mdpfp_compact\fR" 4 +.IX Item "-mdpfp_compact" +Replaced by \fB\-mdpfp\-compact\fR +.IP "\fB\-mdpfp_fast\fR" 4 +.IX Item "-mdpfp_fast" +Replaced by \fB\-mdpfp\-fast\fR +.IP "\fB\-mdsp_packa\fR" 4 +.IX Item "-mdsp_packa" +Replaced by \fB\-mdsp\-packa\fR +.IP "\fB\-mEA\fR" 4 +.IX Item "-mEA" +Replaced by \fB\-mea\fR +.IP "\fB\-mmac_24\fR" 4 +.IX Item "-mmac_24" +Replaced by \fB\-mmac\-24\fR +.IP "\fB\-mmac_d16\fR" 4 +.IX Item "-mmac_d16" +Replaced by \fB\-mmac\-d16\fR +.IP "\fB\-mspfp_compact\fR" 4 +.IX Item "-mspfp_compact" +Replaced by \fB\-mspfp\-compact\fR +.IP "\fB\-mspfp_fast\fR" 4 +.IX Item "-mspfp_fast" +Replaced by \fB\-mspfp\-fast\fR +.IP "\fB\-mtune=\fR\fIcpu\fR" 4 +.IX Item "-mtune=cpu" +Values \fBarc600\fR, \fBarc601\fR, \fBarc700\fR and +\&\fBarc700\-xmac\fR for \fIcpu\fR are replaced by \fB\s-1ARC600\s0\fR, +\&\fB\s-1ARC601\s0\fR, \fB\s-1ARC700\s0\fR and \fBARC700\-xmac\fR respectively +.IP "\fB\-multcost=\fR\fInum\fR" 4 +.IX Item "-multcost=num" +Replaced by \fB\-mmultcost\fR. +.PP +\fI\s-1ARM\s0 Options\fR +.IX Subsection "ARM Options" +.PP +These \fB\-m\fR options are defined for Advanced \s-1RISC\s0 Machines (\s-1ARM\s0) +architectures: +.IP "\fB\-mabi=\fR\fIname\fR" 4 +.IX Item "-mabi=name" +Generate code for the specified \s-1ABI. \s0 Permissible values are: \fBapcs-gnu\fR, +\&\fBatpcs\fR, \fBaapcs\fR, \fBaapcs-linux\fR and \fBiwmmxt\fR. +.IP "\fB\-mapcs\-frame\fR" 4 +.IX Item "-mapcs-frame" +Generate a stack frame that is compliant with the \s-1ARM\s0 Procedure Call +Standard for all functions, even if this is not strictly necessary for +correct execution of the code. Specifying \fB\-fomit\-frame\-pointer\fR +with this option causes the stack frames not to be generated for +leaf functions. The default is \fB\-mno\-apcs\-frame\fR. +.IP "\fB\-mapcs\fR" 4 +.IX Item "-mapcs" +This is a synonym for \fB\-mapcs\-frame\fR. +.IP "\fB\-mthumb\-interwork\fR" 4 +.IX Item "-mthumb-interwork" +Generate code that supports calling between the \s-1ARM\s0 and Thumb +instruction sets. Without this option, on pre\-v5 architectures, the +two instruction sets cannot be reliably used inside one program. The +default is \fB\-mno\-thumb\-interwork\fR, since slightly larger code +is generated when \fB\-mthumb\-interwork\fR is specified. In \s-1AAPCS\s0 +configurations this option is meaningless. +.IP "\fB\-mno\-sched\-prolog\fR" 4 +.IX Item "-mno-sched-prolog" +Prevent the reordering of instructions in the function prologue, or the +merging of those instruction with the instructions in the function's +body. This means that all functions start with a recognizable set +of instructions (or in fact one of a choice from a small set of +different function prologues), and this information can be used to +locate the start of functions inside an executable piece of code. The +default is \fB\-msched\-prolog\fR. +.IP "\fB\-mfloat\-abi=\fR\fIname\fR" 4 +.IX Item "-mfloat-abi=name" +Specifies which floating-point \s-1ABI\s0 to use. Permissible values +are: \fBsoft\fR, \fBsoftfp\fR and \fBhard\fR. +.Sp +Specifying \fBsoft\fR causes \s-1GCC\s0 to generate output containing +library calls for floating-point operations. +\&\fBsoftfp\fR allows the generation of code using hardware floating-point +instructions, but still uses the soft-float calling conventions. +\&\fBhard\fR allows generation of floating-point instructions +and uses FPU-specific calling conventions. +.Sp +The default depends on the specific target configuration. Note that +the hard-float and soft-float ABIs are not link-compatible; you must +compile your entire program with the same \s-1ABI,\s0 and link with a +compatible set of libraries. +.IP "\fB\-mlittle\-endian\fR" 4 +.IX Item "-mlittle-endian" +Generate code for a processor running in little-endian mode. This is +the default for all standard configurations. +.IP "\fB\-mbig\-endian\fR" 4 +.IX Item "-mbig-endian" +Generate code for a processor running in big-endian mode; the default is +to compile code for a little-endian processor. +.IP "\fB\-mwords\-little\-endian\fR" 4 +.IX Item "-mwords-little-endian" +This option only applies when generating code for big-endian processors. +Generate code for a little-endian word order but a big-endian byte +order. That is, a byte order of the form \fB32107654\fR. Note: this +option should only be used if you require compatibility with code for +big-endian \s-1ARM\s0 processors generated by versions of the compiler prior to +2.8. This option is now deprecated. +.IP "\fB\-march=\fR\fIname\fR" 4 +.IX Item "-march=name" +This specifies the name of the target \s-1ARM\s0 architecture. \s-1GCC\s0 uses this +name to determine what kind of instructions it can emit when generating +assembly code. This option can be used in conjunction with or instead +of the \fB\-mcpu=\fR option. Permissible names are: \fBarmv2\fR, +\&\fBarmv2a\fR, \fBarmv3\fR, \fBarmv3m\fR, \fBarmv4\fR, \fBarmv4t\fR, +\&\fBarmv5\fR, \fBarmv5t\fR, \fBarmv5e\fR, \fBarmv5te\fR, +\&\fBarmv6\fR, \fBarmv6j\fR, +\&\fBarmv6t2\fR, \fBarmv6z\fR, \fBarmv6zk\fR, \fBarmv6\-m\fR, +\&\fBarmv7\fR, \fBarmv7\-a\fR, \fBarmv7\-r\fR, \fBarmv7\-m\fR, \fBarmv7e\-m\fR, +\&\fBarmv7ve\fR, \fBarmv8\-a\fR, \fBarmv8\-a+crc\fR, +\&\fBiwmmxt\fR, \fBiwmmxt2\fR, \fBep9312\fR. +.Sp +\&\fB\-march=armv7ve\fR is the armv7\-a architecture with virtualization +extensions. +.Sp +\&\fB\-march=armv8\-a+crc\fR enables code generation for the ARMv8\-A +architecture together with the optional \s-1CRC32\s0 extensions. +.Sp +\&\fB\-march=native\fR causes the compiler to auto-detect the architecture +of the build computer. At present, this feature is only supported on +Linux, and not all architectures are recognized. If the auto-detect is +unsuccessful the option has no effect. +.IP "\fB\-mtune=\fR\fIname\fR" 4 +.IX Item "-mtune=name" +This option specifies the name of the target \s-1ARM\s0 processor for +which \s-1GCC\s0 should tune the performance of the code. +For some \s-1ARM\s0 implementations better performance can be obtained by using +this option. +Permissible names are: \fBarm2\fR, \fBarm250\fR, +\&\fBarm3\fR, \fBarm6\fR, \fBarm60\fR, \fBarm600\fR, \fBarm610\fR, +\&\fBarm620\fR, \fBarm7\fR, \fBarm7m\fR, \fBarm7d\fR, \fBarm7dm\fR, +\&\fBarm7di\fR, \fBarm7dmi\fR, \fBarm70\fR, \fBarm700\fR, +\&\fBarm700i\fR, \fBarm710\fR, \fBarm710c\fR, \fBarm7100\fR, +\&\fBarm720\fR, +\&\fBarm7500\fR, \fBarm7500fe\fR, \fBarm7tdmi\fR, \fBarm7tdmi\-s\fR, +\&\fBarm710t\fR, \fBarm720t\fR, \fBarm740t\fR, +\&\fBstrongarm\fR, \fBstrongarm110\fR, \fBstrongarm1100\fR, +\&\fBstrongarm1110\fR, +\&\fBarm8\fR, \fBarm810\fR, \fBarm9\fR, \fBarm9e\fR, \fBarm920\fR, +\&\fBarm920t\fR, \fBarm922t\fR, \fBarm946e\-s\fR, \fBarm966e\-s\fR, +\&\fBarm968e\-s\fR, \fBarm926ej\-s\fR, \fBarm940t\fR, \fBarm9tdmi\fR, +\&\fBarm10tdmi\fR, \fBarm1020t\fR, \fBarm1026ej\-s\fR, +\&\fBarm10e\fR, \fBarm1020e\fR, \fBarm1022e\fR, +\&\fBarm1136j\-s\fR, \fBarm1136jf\-s\fR, \fBmpcore\fR, \fBmpcorenovfp\fR, +\&\fBarm1156t2\-s\fR, \fBarm1156t2f\-s\fR, \fBarm1176jz\-s\fR, \fBarm1176jzf\-s\fR, +\&\fBcortex\-a5\fR, \fBcortex\-a7\fR, \fBcortex\-a8\fR, \fBcortex\-a9\fR, +\&\fBcortex\-a12\fR, \fBcortex\-a15\fR, \fBcortex\-a53\fR, \fBcortex\-a57\fR, +\&\fBcortex\-r4\fR, +\&\fBcortex\-r4f\fR, \fBcortex\-r5\fR, \fBcortex\-r7\fR, \fBcortex\-m4\fR, +\&\fBcortex\-m3\fR, +\&\fBcortex\-m1\fR, +\&\fBcortex\-m0\fR, +\&\fBcortex\-m0plus\fR, +\&\fBmarvell\-pj4\fR, +\&\fBxscale\fR, \fBiwmmxt\fR, \fBiwmmxt2\fR, \fBep9312\fR, +\&\fBfa526\fR, \fBfa626\fR, +\&\fBfa606te\fR, \fBfa626te\fR, \fBfmp626\fR, \fBfa726te\fR. +.Sp +Additionally, this option can specify that \s-1GCC\s0 should tune the performance +of the code for a big.LITTLE system. Permissible names are: +\&\fBcortex\-a15.cortex\-a7\fR, \fBcortex\-a57.cortex\-a53\fR. +.Sp +\&\fB\-mtune=generic\-\fR\fIarch\fR specifies that \s-1GCC\s0 should tune the +performance for a blend of processors within architecture \fIarch\fR. +The aim is to generate code that run well on the current most popular +processors, balancing between optimizations that benefit some CPUs in the +range, and avoiding performance pitfalls of other CPUs. The effects of +this option may change in future \s-1GCC\s0 versions as \s-1CPU\s0 models come and go. +.Sp +\&\fB\-mtune=native\fR causes the compiler to auto-detect the \s-1CPU\s0 +of the build computer. At present, this feature is only supported on +Linux, and not all architectures are recognized. If the auto-detect is +unsuccessful the option has no effect. +.IP "\fB\-mcpu=\fR\fIname\fR" 4 +.IX Item "-mcpu=name" +This specifies the name of the target \s-1ARM\s0 processor. \s-1GCC\s0 uses this name +to derive the name of the target \s-1ARM\s0 architecture (as if specified +by \fB\-march\fR) and the \s-1ARM\s0 processor type for which to tune for +performance (as if specified by \fB\-mtune\fR). Where this option +is used in conjunction with \fB\-march\fR or \fB\-mtune\fR, +those options take precedence over the appropriate part of this option. +.Sp +Permissible names for this option are the same as those for +\&\fB\-mtune\fR. +.Sp +\&\fB\-mcpu=generic\-\fR\fIarch\fR is also permissible, and is +equivalent to \fB\-march=\fR\fIarch\fR \fB\-mtune=generic\-\fR\fIarch\fR. +See \fB\-mtune\fR for more information. +.Sp +\&\fB\-mcpu=native\fR causes the compiler to auto-detect the \s-1CPU\s0 +of the build computer. At present, this feature is only supported on +Linux, and not all architectures are recognized. If the auto-detect is +unsuccessful the option has no effect. +.IP "\fB\-mfpu=\fR\fIname\fR" 4 +.IX Item "-mfpu=name" +This specifies what floating-point hardware (or hardware emulation) is +available on the target. Permissible names are: \fBvfp\fR, \fBvfpv3\fR, +\&\fBvfpv3\-fp16\fR, \fBvfpv3\-d16\fR, \fBvfpv3\-d16\-fp16\fR, \fBvfpv3xd\fR, +\&\fBvfpv3xd\-fp16\fR, \fBneon\fR, \fBneon\-fp16\fR, \fBvfpv4\fR, +\&\fBvfpv4\-d16\fR, \fBfpv4\-sp\-d16\fR, \fBneon\-vfpv4\fR, +\&\fBfp\-armv8\fR, \fBneon\-fp\-armv8\fR, and \fBcrypto\-neon\-fp\-armv8\fR. +.Sp +If \fB\-msoft\-float\fR is specified this specifies the format of +floating-point values. +.Sp +If the selected floating-point hardware includes the \s-1NEON\s0 extension +(e.g. \fB\-mfpu\fR=\fBneon\fR), note that floating-point +operations are not generated by \s-1GCC\s0's auto-vectorization pass unless +\&\fB\-funsafe\-math\-optimizations\fR is also specified. This is +because \s-1NEON\s0 hardware does not fully implement the \s-1IEEE 754\s0 standard for +floating-point arithmetic (in particular denormal values are treated as +zero), so the use of \s-1NEON\s0 instructions may lead to a loss of precision. +.IP "\fB\-mfp16\-format=\fR\fIname\fR" 4 +.IX Item "-mfp16-format=name" +Specify the format of the \f(CW\*(C`_\|_fp16\*(C'\fR half-precision floating-point type. +Permissible names are \fBnone\fR, \fBieee\fR, and \fBalternative\fR; +the default is \fBnone\fR, in which case the \f(CW\*(C`_\|_fp16\*(C'\fR type is not +defined. +.IP "\fB\-mstructure\-size\-boundary=\fR\fIn\fR" 4 +.IX Item "-mstructure-size-boundary=n" +The sizes of all structures and unions are rounded up to a multiple +of the number of bits set by this option. Permissible values are 8, 32 +and 64. The default value varies for different toolchains. For the \s-1COFF\s0 +targeted toolchain the default value is 8. A value of 64 is only allowed +if the underlying \s-1ABI\s0 supports it. +.Sp +Specifying a larger number can produce faster, more efficient code, but +can also increase the size of the program. Different values are potentially +incompatible. Code compiled with one value cannot necessarily expect to +work with code or libraries compiled with another value, if they exchange +information using structures or unions. +.IP "\fB\-mabort\-on\-noreturn\fR" 4 +.IX Item "-mabort-on-noreturn" +Generate a call to the function \f(CW\*(C`abort\*(C'\fR at the end of a +\&\f(CW\*(C`noreturn\*(C'\fR function. It is executed if the function tries to +return. +.IP "\fB\-mlong\-calls\fR" 4 +.IX Item "-mlong-calls" +.PD 0 +.IP "\fB\-mno\-long\-calls\fR" 4 +.IX Item "-mno-long-calls" +.PD +Tells the compiler to perform function calls by first loading the +address of the function into a register and then performing a subroutine +call on this register. This switch is needed if the target function +lies outside of the 64\-megabyte addressing range of the offset-based +version of subroutine call instruction. +.Sp +Even if this switch is enabled, not all function calls are turned +into long calls. The heuristic is that static functions, functions +that have the \fBshort-call\fR attribute, functions that are inside +the scope of a \fB#pragma no_long_calls\fR directive, and functions whose +definitions have already been compiled within the current compilation +unit are not turned into long calls. The exceptions to this rule are +that weak function definitions, functions with the \fBlong-call\fR +attribute or the \fBsection\fR attribute, and functions that are within +the scope of a \fB#pragma long_calls\fR directive are always +turned into long calls. +.Sp +This feature is not enabled by default. Specifying +\&\fB\-mno\-long\-calls\fR restores the default behavior, as does +placing the function calls within the scope of a \fB#pragma +long_calls_off\fR directive. Note these switches have no effect on how +the compiler generates code to handle function calls via function +pointers. +.IP "\fB\-msingle\-pic\-base\fR" 4 +.IX Item "-msingle-pic-base" +Treat the register used for \s-1PIC\s0 addressing as read-only, rather than +loading it in the prologue for each function. The runtime system is +responsible for initializing this register with an appropriate value +before execution begins. +.IP "\fB\-mpic\-register=\fR\fIreg\fR" 4 +.IX Item "-mpic-register=reg" +Specify the register to be used for \s-1PIC\s0 addressing. +For standard \s-1PIC\s0 base case, the default will be any suitable register +determined by compiler. For single \s-1PIC\s0 base case, the default is +\&\fBR9\fR if target is \s-1EABI\s0 based or stack-checking is enabled, +otherwise the default is \fBR10\fR. +.IP "\fB\-mpic\-data\-is\-text\-relative\fR" 4 +.IX Item "-mpic-data-is-text-relative" +Assume that each data segments are relative to text segment at load time. +Therefore, it permits addressing data using PC-relative operations. +This option is on by default for targets other than VxWorks \s-1RTP.\s0 +.IP "\fB\-mpoke\-function\-name\fR" 4 +.IX Item "-mpoke-function-name" +Write the name of each function into the text section, directly +preceding the function prologue. The generated code is similar to this: +.Sp +.Vb 9 +\& t0 +\& .ascii "arm_poke_function_name", 0 +\& .align +\& t1 +\& .word 0xff000000 + (t1 \- t0) +\& arm_poke_function_name +\& mov ip, sp +\& stmfd sp!, {fp, ip, lr, pc} +\& sub fp, ip, #4 +.Ve +.Sp +When performing a stack backtrace, code can inspect the value of +\&\f(CW\*(C`pc\*(C'\fR stored at \f(CW\*(C`fp + 0\*(C'\fR. If the trace function then looks at +location \f(CW\*(C`pc \- 12\*(C'\fR and the top 8 bits are set, then we know that +there is a function name embedded immediately preceding this location +and has length \f(CW\*(C`((pc[\-3]) & 0xff000000)\*(C'\fR. +.IP "\fB\-mthumb\fR" 4 +.IX Item "-mthumb" +.PD 0 +.IP "\fB\-marm\fR" 4 +.IX Item "-marm" +.PD +Select between generating code that executes in \s-1ARM\s0 and Thumb +states. The default for most configurations is to generate code +that executes in \s-1ARM\s0 state, but the default can be changed by +configuring \s-1GCC\s0 with the \fB\-\-with\-mode=\fR\fIstate\fR +configure option. +.IP "\fB\-mtpcs\-frame\fR" 4 +.IX Item "-mtpcs-frame" +Generate a stack frame that is compliant with the Thumb Procedure Call +Standard for all non-leaf functions. (A leaf function is one that does +not call any other functions.) The default is \fB\-mno\-tpcs\-frame\fR. +.IP "\fB\-mtpcs\-leaf\-frame\fR" 4 +.IX Item "-mtpcs-leaf-frame" +Generate a stack frame that is compliant with the Thumb Procedure Call +Standard for all leaf functions. (A leaf function is one that does +not call any other functions.) The default is \fB\-mno\-apcs\-leaf\-frame\fR. +.IP "\fB\-mcallee\-super\-interworking\fR" 4 +.IX Item "-mcallee-super-interworking" +Gives all externally visible functions in the file being compiled an \s-1ARM\s0 +instruction set header which switches to Thumb mode before executing the +rest of the function. This allows these functions to be called from +non-interworking code. This option is not valid in \s-1AAPCS\s0 configurations +because interworking is enabled by default. +.IP "\fB\-mcaller\-super\-interworking\fR" 4 +.IX Item "-mcaller-super-interworking" +Allows calls via function pointers (including virtual functions) to +execute correctly regardless of whether the target code has been +compiled for interworking or not. There is a small overhead in the cost +of executing a function pointer if this option is enabled. This option +is not valid in \s-1AAPCS\s0 configurations because interworking is enabled +by default. +.IP "\fB\-mtp=\fR\fIname\fR" 4 +.IX Item "-mtp=name" +Specify the access model for the thread local storage pointer. The valid +models are \fBsoft\fR, which generates calls to \f(CW\*(C`_\|_aeabi_read_tp\*(C'\fR, +\&\fBcp15\fR, which fetches the thread pointer from \f(CW\*(C`cp15\*(C'\fR directly +(supported in the arm6k architecture), and \fBauto\fR, which uses the +best available method for the selected processor. The default setting is +\&\fBauto\fR. +.IP "\fB\-mtls\-dialect=\fR\fIdialect\fR" 4 +.IX Item "-mtls-dialect=dialect" +Specify the dialect to use for accessing thread local storage. Two +\&\fIdialect\fRs are supported\-\-\-\fBgnu\fR and \fBgnu2\fR. The +\&\fBgnu\fR dialect selects the original \s-1GNU\s0 scheme for supporting +local and global dynamic \s-1TLS\s0 models. The \fBgnu2\fR dialect +selects the \s-1GNU\s0 descriptor scheme, which provides better performance +for shared libraries. The \s-1GNU\s0 descriptor scheme is compatible with +the original scheme, but does require new assembler, linker and +library support. Initial and local exec \s-1TLS\s0 models are unaffected by +this option and always use the original scheme. +.IP "\fB\-mword\-relocations\fR" 4 +.IX Item "-mword-relocations" +Only generate absolute relocations on word-sized values (i.e. R_ARM_ABS32). +This is enabled by default on targets (uClinux, SymbianOS) where the runtime +loader imposes this restriction, and when \fB\-fpic\fR or \fB\-fPIC\fR +is specified. +.IP "\fB\-mfix\-cortex\-m3\-ldrd\fR" 4 +.IX Item "-mfix-cortex-m3-ldrd" +Some Cortex\-M3 cores can cause data corruption when \f(CW\*(C`ldrd\*(C'\fR instructions +with overlapping destination and base registers are used. This option avoids +generating these instructions. This option is enabled by default when +\&\fB\-mcpu=cortex\-m3\fR is specified. +.IP "\fB\-munaligned\-access\fR" 4 +.IX Item "-munaligned-access" +.PD 0 +.IP "\fB\-mno\-unaligned\-access\fR" 4 +.IX Item "-mno-unaligned-access" +.PD +Enables (or disables) reading and writing of 16\- and 32\- bit values +from addresses that are not 16\- or 32\- bit aligned. By default +unaligned access is disabled for all pre\-ARMv6 and all ARMv6\-M +architectures, and enabled for all other architectures. If unaligned +access is not enabled then words in packed data structures will be +accessed a byte at a time. +.Sp +The \s-1ARM\s0 attribute \f(CW\*(C`Tag_CPU_unaligned_access\*(C'\fR will be set in the +generated object file to either true or false, depending upon the +setting of this option. If unaligned access is enabled then the +preprocessor symbol \f(CW\*(C`_\|_ARM_FEATURE_UNALIGNED\*(C'\fR will also be +defined. +.IP "\fB\-mneon\-for\-64bits\fR" 4 +.IX Item "-mneon-for-64bits" +Enables using Neon to handle scalar 64\-bits operations. This is +disabled by default since the cost of moving data from core registers +to Neon is high. +.IP "\fB\-mslow\-flash\-data\fR" 4 +.IX Item "-mslow-flash-data" +Assume loading data from flash is slower than fetching instruction. +Therefore literal load is minimized for better performance. +This option is only supported when compiling for ARMv7 M\-profile and +off by default. +.IP "\fB\-mrestrict\-it\fR" 4 +.IX Item "-mrestrict-it" +Restricts generation of \s-1IT\s0 blocks to conform to the rules of ARMv8. +\&\s-1IT\s0 blocks can only contain a single 16\-bit instruction from a select +set of instructions. This option is on by default for ARMv8 Thumb mode. +.PP +\fI\s-1AVR\s0 Options\fR +.IX Subsection "AVR Options" +.PP +These options are defined for \s-1AVR\s0 implementations: +.IP "\fB\-mmcu=\fR\fImcu\fR" 4 +.IX Item "-mmcu=mcu" +Specify Atmel \s-1AVR\s0 instruction set architectures (\s-1ISA\s0) or \s-1MCU\s0 type. +.Sp +The default for this option is@tie{}\f(CW\*(C`avr2\*(C'\fR. +.Sp +\&\s-1GCC\s0 supports the following \s-1AVR\s0 devices and ISAs: +.RS 4 +.ie n .IP """avr2""" 4 +.el .IP "\f(CWavr2\fR" 4 +.IX Item "avr2" +\&\*(L"Classic\*(R" devices with up to 8@tie{}KiB of program memory. +\&\fImcu\fR\f(CW@tie\fR{}= \f(CW\*(C`attiny22\*(C'\fR, \f(CW\*(C`attiny26\*(C'\fR, \f(CW\*(C`at90c8534\*(C'\fR, \f(CW\*(C`at90s2313\*(C'\fR, \f(CW\*(C`at90s2323\*(C'\fR, \f(CW\*(C`at90s2333\*(C'\fR, \f(CW\*(C`at90s2343\*(C'\fR, \f(CW\*(C`at90s4414\*(C'\fR, \f(CW\*(C`at90s4433\*(C'\fR, \f(CW\*(C`at90s4434\*(C'\fR, \f(CW\*(C`at90s8515\*(C'\fR, \f(CW\*(C`at90s8535\*(C'\fR. +.ie n .IP """avr25""" 4 +.el .IP "\f(CWavr25\fR" 4 +.IX Item "avr25" +\&\*(L"Classic\*(R" devices with up to 8@tie{}KiB of program memory and with the \f(CW\*(C`MOVW\*(C'\fR instruction. +\&\fImcu\fR\f(CW@tie\fR{}= \f(CW\*(C`ata5272\*(C'\fR, \f(CW\*(C`ata6289\*(C'\fR, \f(CW\*(C`attiny13\*(C'\fR, \f(CW\*(C`attiny13a\*(C'\fR, \f(CW\*(C`attiny2313\*(C'\fR, \f(CW\*(C`attiny2313a\*(C'\fR, \f(CW\*(C`attiny24\*(C'\fR, \f(CW\*(C`attiny24a\*(C'\fR, \f(CW\*(C`attiny25\*(C'\fR, \f(CW\*(C`attiny261\*(C'\fR, \f(CW\*(C`attiny261a\*(C'\fR, \f(CW\*(C`attiny43u\*(C'\fR, \f(CW\*(C`attiny4313\*(C'\fR, \f(CW\*(C`attiny44\*(C'\fR, \f(CW\*(C`attiny44a\*(C'\fR, \f(CW\*(C`attiny45\*(C'\fR, \f(CW\*(C`attiny461\*(C'\fR, \f(CW\*(C`attiny461a\*(C'\fR, \f(CW\*(C`attiny48\*(C'\fR, \f(CW\*(C`attiny84\*(C'\fR, \f(CW\*(C`attiny84a\*(C'\fR, \f(CW\*(C`attiny85\*(C'\fR, \f(CW\*(C`attiny861\*(C'\fR, \f(CW\*(C`attiny861a\*(C'\fR, \f(CW\*(C`attiny87\*(C'\fR, \f(CW\*(C`attiny88\*(C'\fR, \f(CW\*(C`at86rf401\*(C'\fR. +.ie n .IP """avr3""" 4 +.el .IP "\f(CWavr3\fR" 4 +.IX Item "avr3" +\&\*(L"Classic\*(R" devices with 16@tie{}KiB up to 64@tie{}KiB of program memory. +\&\fImcu\fR\f(CW@tie\fR{}= \f(CW\*(C`at43usb355\*(C'\fR, \f(CW\*(C`at76c711\*(C'\fR. +.ie n .IP """avr31""" 4 +.el .IP "\f(CWavr31\fR" 4 +.IX Item "avr31" +\&\*(L"Classic\*(R" devices with 128@tie{}KiB of program memory. +\&\fImcu\fR\f(CW@tie\fR{}= \f(CW\*(C`atmega103\*(C'\fR, \f(CW\*(C`at43usb320\*(C'\fR. +.ie n .IP """avr35""" 4 +.el .IP "\f(CWavr35\fR" 4 +.IX Item "avr35" +\&\*(L"Classic\*(R" devices with 16@tie{}KiB up to 64@tie{}KiB of program memory and with the \f(CW\*(C`MOVW\*(C'\fR instruction. +\&\fImcu\fR\f(CW@tie\fR{}= \f(CW\*(C`ata5505\*(C'\fR, \f(CW\*(C`atmega16u2\*(C'\fR, \f(CW\*(C`atmega32u2\*(C'\fR, \f(CW\*(C`atmega8u2\*(C'\fR, \f(CW\*(C`attiny1634\*(C'\fR, \f(CW\*(C`attiny167\*(C'\fR, \f(CW\*(C`at90usb162\*(C'\fR, \f(CW\*(C`at90usb82\*(C'\fR. +.ie n .IP """avr4""" 4 +.el .IP "\f(CWavr4\fR" 4 +.IX Item "avr4" +\&\*(L"Enhanced\*(R" devices with up to 8@tie{}KiB of program memory. +\&\fImcu\fR\f(CW@tie\fR{}= \f(CW\*(C`ata6285\*(C'\fR, \f(CW\*(C`ata6286\*(C'\fR, \f(CW\*(C`atmega48\*(C'\fR, \f(CW\*(C`atmega48a\*(C'\fR, \f(CW\*(C`atmega48p\*(C'\fR, \f(CW\*(C`atmega48pa\*(C'\fR, \f(CW\*(C`atmega8\*(C'\fR, \f(CW\*(C`atmega8a\*(C'\fR, \f(CW\*(C`atmega8hva\*(C'\fR, \f(CW\*(C`atmega8515\*(C'\fR, \f(CW\*(C`atmega8535\*(C'\fR, \f(CW\*(C`atmega88\*(C'\fR, \f(CW\*(C`atmega88a\*(C'\fR, \f(CW\*(C`atmega88p\*(C'\fR, \f(CW\*(C`atmega88pa\*(C'\fR, \f(CW\*(C`at90pwm1\*(C'\fR, \f(CW\*(C`at90pwm2\*(C'\fR, \f(CW\*(C`at90pwm2b\*(C'\fR, \f(CW\*(C`at90pwm3\*(C'\fR, \f(CW\*(C`at90pwm3b\*(C'\fR, \f(CW\*(C`at90pwm81\*(C'\fR. +.ie n .IP """avr5""" 4 +.el .IP "\f(CWavr5\fR" 4 +.IX Item "avr5" +\&\*(L"Enhanced\*(R" devices with 16@tie{}KiB up to 64@tie{}KiB of program memory. +\&\fImcu\fR\f(CW@tie\fR{}= \f(CW\*(C`ata5790\*(C'\fR, \f(CW\*(C`ata5790n\*(C'\fR, \f(CW\*(C`ata5795\*(C'\fR, \f(CW\*(C`atmega16\*(C'\fR, \f(CW\*(C`atmega16a\*(C'\fR, \f(CW\*(C`atmega16hva\*(C'\fR, \f(CW\*(C`atmega16hva2\*(C'\fR, \f(CW\*(C`atmega16hvb\*(C'\fR, \f(CW\*(C`atmega16hvbrevb\*(C'\fR, \f(CW\*(C`atmega16m1\*(C'\fR, \f(CW\*(C`atmega16u4\*(C'\fR, \f(CW\*(C`atmega161\*(C'\fR, \f(CW\*(C`atmega162\*(C'\fR, \f(CW\*(C`atmega163\*(C'\fR, \f(CW\*(C`atmega164a\*(C'\fR, \f(CW\*(C`atmega164p\*(C'\fR, \f(CW\*(C`atmega164pa\*(C'\fR, \f(CW\*(C`atmega165\*(C'\fR, \f(CW\*(C`atmega165a\*(C'\fR, \f(CW\*(C`atmega165p\*(C'\fR, \f(CW\*(C`atmega165pa\*(C'\fR, \f(CW\*(C`atmega168\*(C'\fR, \f(CW\*(C`atmega168a\*(C'\fR, \f(CW\*(C`atmega168p\*(C'\fR, \f(CW\*(C`atmega168pa\*(C'\fR, \f(CW\*(C`atmega169\*(C'\fR, \f(CW\*(C`atmega169a\*(C'\fR, \f(CW\*(C`atmega169p\*(C'\fR, \f(CW\*(C`atmega169pa\*(C'\fR, \f(CW\*(C`atmega26hvg\*(C'\fR, \f(CW\*(C`atmega32\*(C'\fR, \f(CW\*(C`atmega32a\*(C'\fR, \f(CW\*(C`atmega32c1\*(C'\fR, \f(CW\*(C`atmega32hvb\*(C'\fR, \f(CW\*(C`atmega32hvbrevb\*(C'\fR, \f(CW\*(C`atmega32m1\*(C'\fR, \f(CW\*(C`atmega32u4\*(C'\fR, \f(CW\*(C`atmega32u6\*(C'\fR, \f(CW\*(C`atmega323\*(C'\fR, \f(CW\*(C`atmega324a\*(C'\fR, \f(CW\*(C`atmega324p\*(C'\fR, \f(CW\*(C`atmega324pa\*(C'\fR, \f(CW\*(C`atmega325\*(C'\fR, \f(CW\*(C`atmega325a\*(C'\fR, \f(CW\*(C`atmega325p\*(C'\fR, \f(CW\*(C`atmega3250\*(C'\fR, \f(CW\*(C`atmega3250a\*(C'\fR, \f(CW\*(C`atmega3250p\*(C'\fR, \f(CW\*(C`atmega3250pa\*(C'\fR, \f(CW\*(C`atmega328\*(C'\fR, \f(CW\*(C`atmega328p\*(C'\fR, \f(CW\*(C`atmega329\*(C'\fR, \f(CW\*(C`atmega329a\*(C'\fR, \f(CW\*(C`atmega329p\*(C'\fR, \f(CW\*(C`atmega329pa\*(C'\fR, \f(CW\*(C`atmega3290\*(C'\fR, \f(CW\*(C`atmega3290a\*(C'\fR, \f(CW\*(C`atmega3290p\*(C'\fR, \f(CW\*(C`atmega3290pa\*(C'\fR, \f(CW\*(C`atmega406\*(C'\fR, \f(CW\*(C`atmega48hvf\*(C'\fR, \f(CW\*(C`atmega64\*(C'\fR, \f(CW\*(C`atmega64a\*(C'\fR, \f(CW\*(C`atmega64c1\*(C'\fR, \f(CW\*(C`atmega64hve\*(C'\fR, \f(CW\*(C`atmega64m1\*(C'\fR, \f(CW\*(C`atmega64rfa2\*(C'\fR, \f(CW\*(C`atmega64rfr2\*(C'\fR, \f(CW\*(C`atmega640\*(C'\fR, \f(CW\*(C`atmega644\*(C'\fR, \f(CW\*(C`atmega644a\*(C'\fR, \f(CW\*(C`atmega644p\*(C'\fR, \f(CW\*(C`atmega644pa\*(C'\fR, \f(CW\*(C`atmega645\*(C'\fR, \f(CW\*(C`atmega645a\*(C'\fR, \f(CW\*(C`atmega645p\*(C'\fR, \f(CW\*(C`atmega6450\*(C'\fR, \f(CW\*(C`atmega6450a\*(C'\fR, \f(CW\*(C`atmega6450p\*(C'\fR, \f(CW\*(C`atmega649\*(C'\fR, \f(CW\*(C`atmega649a\*(C'\fR, \f(CW\*(C`atmega649p\*(C'\fR, \f(CW\*(C`atmega6490\*(C'\fR, \f(CW\*(C`atmega6490a\*(C'\fR, \f(CW\*(C`atmega6490p\*(C'\fR, \f(CW\*(C`at90can32\*(C'\fR, \f(CW\*(C`at90can64\*(C'\fR, \f(CW\*(C`at90pwm161\*(C'\fR, \f(CW\*(C`at90pwm216\*(C'\fR, \f(CW\*(C`at90pwm316\*(C'\fR, \f(CW\*(C`at90scr100\*(C'\fR, \f(CW\*(C`at90usb646\*(C'\fR, \f(CW\*(C`at90usb647\*(C'\fR, \f(CW\*(C`at94k\*(C'\fR, \f(CW\*(C`m3000\*(C'\fR. +.ie n .IP """avr51""" 4 +.el .IP "\f(CWavr51\fR" 4 +.IX Item "avr51" +\&\*(L"Enhanced\*(R" devices with 128@tie{}KiB of program memory. +\&\fImcu\fR\f(CW@tie\fR{}= \f(CW\*(C`atmega128\*(C'\fR, \f(CW\*(C`atmega128a\*(C'\fR, \f(CW\*(C`atmega128rfa1\*(C'\fR, \f(CW\*(C`atmega1280\*(C'\fR, \f(CW\*(C`atmega1281\*(C'\fR, \f(CW\*(C`atmega1284\*(C'\fR, \f(CW\*(C`atmega1284p\*(C'\fR, \f(CW\*(C`at90can128\*(C'\fR, \f(CW\*(C`at90usb1286\*(C'\fR, \f(CW\*(C`at90usb1287\*(C'\fR. +.ie n .IP """avr6""" 4 +.el .IP "\f(CWavr6\fR" 4 +.IX Item "avr6" +\&\*(L"Enhanced\*(R" devices with 3\-byte \s-1PC,\s0 i.e. with more than 128@tie{}KiB of program memory. +\&\fImcu\fR\f(CW@tie\fR{}= \f(CW\*(C`atmega2560\*(C'\fR, \f(CW\*(C`atmega2561\*(C'\fR. +.ie n .IP """avrxmega2""" 4 +.el .IP "\f(CWavrxmega2\fR" 4 +.IX Item "avrxmega2" +\&\*(L"\s-1XMEGA\*(R"\s0 devices with more than 8@tie{}KiB and up to 64@tie{}KiB of program memory. +\&\fImcu\fR\f(CW@tie\fR{}= \f(CW\*(C`atmxt112sl\*(C'\fR, \f(CW\*(C`atmxt224\*(C'\fR, \f(CW\*(C`atmxt224e\*(C'\fR, \f(CW\*(C`atmxt336s\*(C'\fR, \f(CW\*(C`atxmega16a4\*(C'\fR, \f(CW\*(C`atxmega16a4u\*(C'\fR, \f(CW\*(C`atxmega16c4\*(C'\fR, \f(CW\*(C`atxmega16d4\*(C'\fR, \f(CW\*(C`atxmega32a4\*(C'\fR, \f(CW\*(C`atxmega32a4u\*(C'\fR, \f(CW\*(C`atxmega32c4\*(C'\fR, \f(CW\*(C`atxmega32d4\*(C'\fR, \f(CW\*(C`atxmega32e5\*(C'\fR, \f(CW\*(C`atxmega32x1\*(C'\fR. +.ie n .IP """avrxmega4""" 4 +.el .IP "\f(CWavrxmega4\fR" 4 +.IX Item "avrxmega4" +\&\*(L"\s-1XMEGA\*(R"\s0 devices with more than 64@tie{}KiB and up to 128@tie{}KiB of program memory. +\&\fImcu\fR\f(CW@tie\fR{}= \f(CW\*(C`atxmega64a3\*(C'\fR, \f(CW\*(C`atxmega64a3u\*(C'\fR, \f(CW\*(C`atxmega64a4u\*(C'\fR, \f(CW\*(C`atxmega64b1\*(C'\fR, \f(CW\*(C`atxmega64b3\*(C'\fR, \f(CW\*(C`atxmega64c3\*(C'\fR, \f(CW\*(C`atxmega64d3\*(C'\fR, \f(CW\*(C`atxmega64d4\*(C'\fR. +.ie n .IP """avrxmega5""" 4 +.el .IP "\f(CWavrxmega5\fR" 4 +.IX Item "avrxmega5" +\&\*(L"\s-1XMEGA\*(R"\s0 devices with more than 64@tie{}KiB and up to 128@tie{}KiB of program memory and more than 64@tie{}KiB of \s-1RAM. +\&\s0\fImcu\fR\f(CW@tie\fR{}= \f(CW\*(C`atxmega64a1\*(C'\fR, \f(CW\*(C`atxmega64a1u\*(C'\fR. +.ie n .IP """avrxmega6""" 4 +.el .IP "\f(CWavrxmega6\fR" 4 +.IX Item "avrxmega6" +\&\*(L"\s-1XMEGA\*(R"\s0 devices with more than 128@tie{}KiB of program memory. +\&\fImcu\fR\f(CW@tie\fR{}= \f(CW\*(C`atmxt540s\*(C'\fR, \f(CW\*(C`atmxt540sreva\*(C'\fR, \f(CW\*(C`atxmega128a3\*(C'\fR, \f(CW\*(C`atxmega128a3u\*(C'\fR, \f(CW\*(C`atxmega128b1\*(C'\fR, \f(CW\*(C`atxmega128b3\*(C'\fR, \f(CW\*(C`atxmega128c3\*(C'\fR, \f(CW\*(C`atxmega128d3\*(C'\fR, \f(CW\*(C`atxmega128d4\*(C'\fR, \f(CW\*(C`atxmega192a3\*(C'\fR, \f(CW\*(C`atxmega192a3u\*(C'\fR, \f(CW\*(C`atxmega192c3\*(C'\fR, \f(CW\*(C`atxmega192d3\*(C'\fR, \f(CW\*(C`atxmega256a3\*(C'\fR, \f(CW\*(C`atxmega256a3b\*(C'\fR, \f(CW\*(C`atxmega256a3bu\*(C'\fR, \f(CW\*(C`atxmega256a3u\*(C'\fR, \f(CW\*(C`atxmega256c3\*(C'\fR, \f(CW\*(C`atxmega256d3\*(C'\fR, \f(CW\*(C`atxmega384c3\*(C'\fR, \f(CW\*(C`atxmega384d3\*(C'\fR. +.ie n .IP """avrxmega7""" 4 +.el .IP "\f(CWavrxmega7\fR" 4 +.IX Item "avrxmega7" +\&\*(L"\s-1XMEGA\*(R"\s0 devices with more than 128@tie{}KiB of program memory and more than 64@tie{}KiB of \s-1RAM. +\&\s0\fImcu\fR\f(CW@tie\fR{}= \f(CW\*(C`atxmega128a1\*(C'\fR, \f(CW\*(C`atxmega128a1u\*(C'\fR, \f(CW\*(C`atxmega128a4u\*(C'\fR. +.ie n .IP """avr1""" 4 +.el .IP "\f(CWavr1\fR" 4 +.IX Item "avr1" +This \s-1ISA\s0 is implemented by the minimal \s-1AVR\s0 core and supported for assembler only. +\&\fImcu\fR\f(CW@tie\fR{}= \f(CW\*(C`attiny11\*(C'\fR, \f(CW\*(C`attiny12\*(C'\fR, \f(CW\*(C`attiny15\*(C'\fR, \f(CW\*(C`attiny28\*(C'\fR, \f(CW\*(C`at90s1200\*(C'\fR. +.RE +.RS 4 +.RE +.IP "\fB\-maccumulate\-args\fR" 4 +.IX Item "-maccumulate-args" +Accumulate outgoing function arguments and acquire/release the needed +stack space for outgoing function arguments once in function +prologue/epilogue. Without this option, outgoing arguments are pushed +before calling a function and popped afterwards. +.Sp +Popping the arguments after the function call can be expensive on +\&\s-1AVR\s0 so that accumulating the stack space might lead to smaller +executables because arguments need not to be removed from the +stack after such a function call. +.Sp +This option can lead to reduced code size for functions that perform +several calls to functions that get their arguments on the stack like +calls to printf-like functions. +.IP "\fB\-mbranch\-cost=\fR\fIcost\fR" 4 +.IX Item "-mbranch-cost=cost" +Set the branch costs for conditional branch instructions to +\&\fIcost\fR. Reasonable values for \fIcost\fR are small, non-negative +integers. The default branch cost is 0. +.IP "\fB\-mcall\-prologues\fR" 4 +.IX Item "-mcall-prologues" +Functions prologues/epilogues are expanded as calls to appropriate +subroutines. Code size is smaller. +.IP "\fB\-mint8\fR" 4 +.IX Item "-mint8" +Assume \f(CW\*(C`int\*(C'\fR to be 8\-bit integer. This affects the sizes of all types: a +\&\f(CW\*(C`char\*(C'\fR is 1 byte, an \f(CW\*(C`int\*(C'\fR is 1 byte, a \f(CW\*(C`long\*(C'\fR is 2 bytes, +and \f(CW\*(C`long long\*(C'\fR is 4 bytes. Please note that this option does not +conform to the C standards, but it results in smaller code +size. +.IP "\fB\-mno\-interrupts\fR" 4 +.IX Item "-mno-interrupts" +Generated code is not compatible with hardware interrupts. +Code size is smaller. +.IP "\fB\-mrelax\fR" 4 +.IX Item "-mrelax" +Try to replace \f(CW\*(C`CALL\*(C'\fR resp. \f(CW\*(C`JMP\*(C'\fR instruction by the shorter +\&\f(CW\*(C`RCALL\*(C'\fR resp. \f(CW\*(C`RJMP\*(C'\fR instruction if applicable. +Setting \f(CW\*(C`\-mrelax\*(C'\fR just adds the \f(CW\*(C`\-\-relax\*(C'\fR option to the +linker command line when the linker is called. +.Sp +Jump relaxing is performed by the linker because jump offsets are not +known before code is located. Therefore, the assembler code generated by the +compiler is the same, but the instructions in the executable may +differ from instructions in the assembler code. +.Sp +Relaxing must be turned on if linker stubs are needed, see the +section on \f(CW\*(C`EIND\*(C'\fR and linker stubs below. +.IP "\fB\-msp8\fR" 4 +.IX Item "-msp8" +Treat the stack pointer register as an 8\-bit register, +i.e. assume the high byte of the stack pointer is zero. +In general, you don't need to set this option by hand. +.Sp +This option is used internally by the compiler to select and +build multilibs for architectures \f(CW\*(C`avr2\*(C'\fR and \f(CW\*(C`avr25\*(C'\fR. +These architectures mix devices with and without \f(CW\*(C`SPH\*(C'\fR. +For any setting other than \f(CW\*(C`\-mmcu=avr2\*(C'\fR or \f(CW\*(C`\-mmcu=avr25\*(C'\fR +the compiler driver will add or remove this option from the compiler +proper's command line, because the compiler then knows if the device +or architecture has an 8\-bit stack pointer and thus no \f(CW\*(C`SPH\*(C'\fR +register or not. +.IP "\fB\-mstrict\-X\fR" 4 +.IX Item "-mstrict-X" +Use address register \f(CW\*(C`X\*(C'\fR in a way proposed by the hardware. This means +that \f(CW\*(C`X\*(C'\fR is only used in indirect, post-increment or +pre-decrement addressing. +.Sp +Without this option, the \f(CW\*(C`X\*(C'\fR register may be used in the same way +as \f(CW\*(C`Y\*(C'\fR or \f(CW\*(C`Z\*(C'\fR which then is emulated by additional +instructions. +For example, loading a value with \f(CW\*(C`X+const\*(C'\fR addressing with a +small non-negative \f(CW\*(C`const < 64\*(C'\fR to a register \fIRn\fR is +performed as +.Sp +.Vb 3 +\& adiw r26, const ; X += const +\& ld <Rn>, X ; <Rn> = *X +\& sbiw r26, const ; X \-= const +.Ve +.IP "\fB\-mtiny\-stack\fR" 4 +.IX Item "-mtiny-stack" +Only change the lower 8@tie{}bits of the stack pointer. +.IP "\fB\-Waddr\-space\-convert\fR" 4 +.IX Item "-Waddr-space-convert" +Warn about conversions between address spaces in the case where the +resulting address space is not contained in the incoming address space. +.PP +\f(CW\*(C`EIND\*(C'\fR and Devices with more than 128 Ki Bytes of Flash +.IX Subsection "EIND and Devices with more than 128 Ki Bytes of Flash" +.PP +Pointers in the implementation are 16@tie{}bits wide. +The address of a function or label is represented as word address so +that indirect jumps and calls can target any code address in the +range of 64@tie{}Ki words. +.PP +In order to facilitate indirect jump on devices with more than 128@tie{}Ki +bytes of program memory space, there is a special function register called +\&\f(CW\*(C`EIND\*(C'\fR that serves as most significant part of the target address +when \f(CW\*(C`EICALL\*(C'\fR or \f(CW\*(C`EIJMP\*(C'\fR instructions are used. +.PP +Indirect jumps and calls on these devices are handled as follows by +the compiler and are subject to some limitations: +.IP "\(bu" 4 +The compiler never sets \f(CW\*(C`EIND\*(C'\fR. +.IP "\(bu" 4 +The compiler uses \f(CW\*(C`EIND\*(C'\fR implicitely in \f(CW\*(C`EICALL\*(C'\fR/\f(CW\*(C`EIJMP\*(C'\fR +instructions or might read \f(CW\*(C`EIND\*(C'\fR directly in order to emulate an +indirect call/jump by means of a \f(CW\*(C`RET\*(C'\fR instruction. +.IP "\(bu" 4 +The compiler assumes that \f(CW\*(C`EIND\*(C'\fR never changes during the startup +code or during the application. In particular, \f(CW\*(C`EIND\*(C'\fR is not +saved/restored in function or interrupt service routine +prologue/epilogue. +.IP "\(bu" 4 +For indirect calls to functions and computed goto, the linker +generates \fIstubs\fR. Stubs are jump pads sometimes also called +\&\fItrampolines\fR. Thus, the indirect call/jump jumps to such a stub. +The stub contains a direct jump to the desired address. +.IP "\(bu" 4 +Linker relaxation must be turned on so that the linker will generate +the stubs correctly an all situaltion. See the compiler option +\&\f(CW\*(C`\-mrelax\*(C'\fR and the linler option \f(CW\*(C`\-\-relax\*(C'\fR. +There are corner cases where the linker is supposed to generate stubs +but aborts without relaxation and without a helpful error message. +.IP "\(bu" 4 +The default linker script is arranged for code with \f(CW\*(C`EIND = 0\*(C'\fR. +If code is supposed to work for a setup with \f(CW\*(C`EIND != 0\*(C'\fR, a custom +linker script has to be used in order to place the sections whose +name start with \f(CW\*(C`.trampolines\*(C'\fR into the segment where \f(CW\*(C`EIND\*(C'\fR +points to. +.IP "\(bu" 4 +The startup code from libgcc never sets \f(CW\*(C`EIND\*(C'\fR. +Notice that startup code is a blend of code from libgcc and AVR-LibC. +For the impact of AVR-LibC on \f(CW\*(C`EIND\*(C'\fR, see the +AVR-LibC\ user\ manual (\f(CW\*(C`http://nongnu.org/avr\-libc/user\-manual/\*(C'\fR). +.IP "\(bu" 4 +It is legitimate for user-specific startup code to set up \f(CW\*(C`EIND\*(C'\fR +early, for example by means of initialization code located in +section \f(CW\*(C`.init3\*(C'\fR. Such code runs prior to general startup code +that initializes \s-1RAM\s0 and calls constructors, but after the bit +of startup code from AVR-LibC that sets \f(CW\*(C`EIND\*(C'\fR to the segment +where the vector table is located. +.Sp +.Vb 1 +\& #include <avr/io.h> +\& +\& static void +\& _\|_attribute_\|_((section(".init3"),naked,used,no_instrument_function)) +\& init3_set_eind (void) +\& { +\& _\|_asm volatile ("ldi r24,pm_hh8(_\|_trampolines_start)\en\et" +\& "out %i0,r24" :: "n" (&EIND) : "r24","memory"); +\& } +.Ve +.Sp +The \f(CW\*(C`_\|_trampolines_start\*(C'\fR symbol is defined in the linker script. +.IP "\(bu" 4 +Stubs are generated automatically by the linker if +the following two conditions are met: +.RS 4 +.ie n .IP "\-<The address of a label is taken by means of the ""gs"" modifier>" 4 +.el .IP "\-<The address of a label is taken by means of the \f(CWgs\fR modifier>" 4 +.IX Item "-<The address of a label is taken by means of the gs modifier>" +(short for \fIgenerate stubs\fR) like so: +.Sp +.Vb 2 +\& LDI r24, lo8(gs(<func>)) +\& LDI r25, hi8(gs(<func>)) +.Ve +.IP "\-<The final location of that label is in a code segment>" 4 +.IX Item "-<The final location of that label is in a code segment>" +\&\fIoutside\fR the segment where the stubs are located. +.RE +.RS 4 +.RE +.IP "\(bu" 4 +The compiler emits such \f(CW\*(C`gs\*(C'\fR modifiers for code labels in the +following situations: +.RS 4 +.IP "\-<Taking address of a function or code label.>" 4 +.IX Item "-<Taking address of a function or code label.>" +.PD 0 +.IP "\-<Computed goto.>" 4 +.IX Item "-<Computed goto.>" +.IP "\-<If prologue-save function is used, see \fB\-mcall\-prologues\fR>" 4 +.IX Item "-<If prologue-save function is used, see -mcall-prologues>" +.PD +command-line option. +.IP "\-<Switch/case dispatch tables. If you do not want such dispatch>" 4 +.IX Item "-<Switch/case dispatch tables. If you do not want such dispatch>" +tables you can specify the \fB\-fno\-jump\-tables\fR command-line option. +.IP "\-<C and \*(C+ constructors/destructors called during startup/shutdown.>" 4 +.IX Item "-<C and constructors/destructors called during startup/shutdown.>" +.PD 0 +.ie n .IP "\-<If the tools hit a ""gs()"" modifier explained above.>" 4 +.el .IP "\-<If the tools hit a \f(CWgs()\fR modifier explained above.>" 4 +.IX Item "-<If the tools hit a gs() modifier explained above.>" +.RE +.RS 4 +.RE +.IP "\(bu" 4 +.PD +Jumping to non-symbolic addresses like so is \fInot\fR supported: +.Sp +.Vb 5 +\& int main (void) +\& { +\& /* Call function at word address 0x2 */ +\& return ((int(*)(void)) 0x2)(); +\& } +.Ve +.Sp +Instead, a stub has to be set up, i.e. the function has to be called +through a symbol (\f(CW\*(C`func_4\*(C'\fR in the example): +.Sp +.Vb 3 +\& int main (void) +\& { +\& extern int func_4 (void); +\& +\& /* Call function at byte address 0x4 */ +\& return func_4(); +\& } +.Ve +.Sp +and the application be linked with \f(CW\*(C`\-Wl,\-\-defsym,func_4=0x4\*(C'\fR. +Alternatively, \f(CW\*(C`func_4\*(C'\fR can be defined in the linker script. +.PP +Handling of the \f(CW\*(C`RAMPD\*(C'\fR, \f(CW\*(C`RAMPX\*(C'\fR, \f(CW\*(C`RAMPY\*(C'\fR and \f(CW\*(C`RAMPZ\*(C'\fR Special Function Registers +.IX Subsection "Handling of the RAMPD, RAMPX, RAMPY and RAMPZ Special Function Registers" +.PP +Some \s-1AVR\s0 devices support memories larger than the 64@tie{}KiB range +that can be accessed with 16\-bit pointers. To access memory locations +outside this 64@tie{}KiB range, the contentent of a \f(CW\*(C`RAMP\*(C'\fR +register is used as high part of the address: +The \f(CW\*(C`X\*(C'\fR, \f(CW\*(C`Y\*(C'\fR, \f(CW\*(C`Z\*(C'\fR address register is concatenated +with the \f(CW\*(C`RAMPX\*(C'\fR, \f(CW\*(C`RAMPY\*(C'\fR, \f(CW\*(C`RAMPZ\*(C'\fR special function +register, respectively, to get a wide address. Similarly, +\&\f(CW\*(C`RAMPD\*(C'\fR is used together with direct addressing. +.IP "\(bu" 4 +The startup code initializes the \f(CW\*(C`RAMP\*(C'\fR special function +registers with zero. +.IP "\(bu" 4 +If a \fB\s-1AVR\s0 Named Address Spaces,named address space\fR other than +generic or \f(CW\*(C`_\|_flash\*(C'\fR is used, then \f(CW\*(C`RAMPZ\*(C'\fR is set +as needed before the operation. +.IP "\(bu" 4 +If the device supports \s-1RAM\s0 larger than 64@tie{}KiB and the compiler +needs to change \f(CW\*(C`RAMPZ\*(C'\fR to accomplish an operation, \f(CW\*(C`RAMPZ\*(C'\fR +is reset to zero after the operation. +.IP "\(bu" 4 +If the device comes with a specific \f(CW\*(C`RAMP\*(C'\fR register, the \s-1ISR\s0 +prologue/epilogue saves/restores that \s-1SFR\s0 and initializes it with +zero in case the \s-1ISR\s0 code might (implicitly) use it. +.IP "\(bu" 4 +\&\s-1RAM\s0 larger than 64@tie{}KiB is not supported by \s-1GCC\s0 for \s-1AVR\s0 targets. +If you use inline assembler to read from locations outside the +16\-bit address range and change one of the \f(CW\*(C`RAMP\*(C'\fR registers, +you must reset it to zero after the access. +.PP +\s-1AVR\s0 Built-in Macros +.IX Subsection "AVR Built-in Macros" +.PP +\&\s-1GCC\s0 defines several built-in macros so that the user code can test +for the presence or absence of features. Almost any of the following +built-in macros are deduced from device capabilities and thus +triggered by the \f(CW\*(C`\-mmcu=\*(C'\fR command-line option. +.PP +For even more AVR-specific built-in macros see +\&\fB\s-1AVR\s0 Named Address Spaces\fR and \fB\s-1AVR\s0 Built-in Functions\fR. +.ie n .IP """_\|_AVR_ARCH_\|_""" 4 +.el .IP "\f(CW_\|_AVR_ARCH_\|_\fR" 4 +.IX Item "__AVR_ARCH__" +Build-in macro that resolves to a decimal number that identifies the +architecture and depends on the \f(CW\*(C`\-mmcu=\f(CImcu\f(CW\*(C'\fR option. +Possible values are: +.Sp +\&\f(CW2\fR, \f(CW25\fR, \f(CW3\fR, \f(CW31\fR, \f(CW35\fR, +\&\f(CW4\fR, \f(CW5\fR, \f(CW51\fR, \f(CW6\fR, \f(CW102\fR, \f(CW104\fR, +\&\f(CW105\fR, \f(CW106\fR, \f(CW107\fR +.Sp +for \fImcu\fR=\f(CW\*(C`avr2\*(C'\fR, \f(CW\*(C`avr25\*(C'\fR, \f(CW\*(C`avr3\*(C'\fR, +\&\f(CW\*(C`avr31\*(C'\fR, \f(CW\*(C`avr35\*(C'\fR, \f(CW\*(C`avr4\*(C'\fR, \f(CW\*(C`avr5\*(C'\fR, \f(CW\*(C`avr51\*(C'\fR, +\&\f(CW\*(C`avr6\*(C'\fR, \f(CW\*(C`avrxmega2\*(C'\fR, \f(CW\*(C`avrxmega4\*(C'\fR, \f(CW\*(C`avrxmega5\*(C'\fR, +\&\f(CW\*(C`avrxmega6\*(C'\fR, \f(CW\*(C`avrxmega7\*(C'\fR, respectively. +If \fImcu\fR specifies a device, this built-in macro is set +accordingly. For example, with \f(CW\*(C`\-mmcu=atmega8\*(C'\fR the macro will be +defined to \f(CW4\fR. +.ie n .IP """_\|_AVR_\f(CIDevice\f(CW_\|_""" 4 +.el .IP "\f(CW_\|_AVR_\f(CIDevice\f(CW_\|_\fR" 4 +.IX Item "__AVR_Device__" +Setting \f(CW\*(C`\-mmcu=\f(CIdevice\f(CW\*(C'\fR defines this built-in macro which reflects +the device's name. For example, \f(CW\*(C`\-mmcu=atmega8\*(C'\fR defines the +built-in macro \f(CW\*(C`_\|_AVR_ATmega8_\|_\*(C'\fR, \f(CW\*(C`\-mmcu=attiny261a\*(C'\fR defines +\&\f(CW\*(C`_\|_AVR_ATtiny261A_\|_\*(C'\fR, etc. +.Sp +The built-in macros' names follow +the scheme \f(CW\*(C`_\|_AVR_\f(CIDevice\f(CW_\|_\*(C'\fR where \fIDevice\fR is +the device name as from the \s-1AVR\s0 user manual. The difference between +\&\fIDevice\fR in the built-in macro and \fIdevice\fR in +\&\f(CW\*(C`\-mmcu=\f(CIdevice\f(CW\*(C'\fR is that the latter is always lowercase. +.Sp +If \fIdevice\fR is not a device but only a core architecture like +\&\f(CW\*(C`avr51\*(C'\fR, this macro will not be defined. +.ie n .IP """_\|_AVR_XMEGA_\|_""" 4 +.el .IP "\f(CW_\|_AVR_XMEGA_\|_\fR" 4 +.IX Item "__AVR_XMEGA__" +The device / architecture belongs to the \s-1XMEGA\s0 family of devices. +.ie n .IP """_\|_AVR_HAVE_ELPM_\|_""" 4 +.el .IP "\f(CW_\|_AVR_HAVE_ELPM_\|_\fR" 4 +.IX Item "__AVR_HAVE_ELPM__" +The device has the the \f(CW\*(C`ELPM\*(C'\fR instruction. +.ie n .IP """_\|_AVR_HAVE_ELPMX_\|_""" 4 +.el .IP "\f(CW_\|_AVR_HAVE_ELPMX_\|_\fR" 4 +.IX Item "__AVR_HAVE_ELPMX__" +The device has the \f(CW\*(C`ELPM R\f(CIn\f(CW,Z\*(C'\fR and \f(CW\*(C`ELPM +R\f(CIn\f(CW,Z+\*(C'\fR instructions. +.ie n .IP """_\|_AVR_HAVE_MOVW_\|_""" 4 +.el .IP "\f(CW_\|_AVR_HAVE_MOVW_\|_\fR" 4 +.IX Item "__AVR_HAVE_MOVW__" +The device has the \f(CW\*(C`MOVW\*(C'\fR instruction to perform 16\-bit +register-register moves. +.ie n .IP """_\|_AVR_HAVE_LPMX_\|_""" 4 +.el .IP "\f(CW_\|_AVR_HAVE_LPMX_\|_\fR" 4 +.IX Item "__AVR_HAVE_LPMX__" +The device has the \f(CW\*(C`LPM R\f(CIn\f(CW,Z\*(C'\fR and +\&\f(CW\*(C`LPM R\f(CIn\f(CW,Z+\*(C'\fR instructions. +.ie n .IP """_\|_AVR_HAVE_MUL_\|_""" 4 +.el .IP "\f(CW_\|_AVR_HAVE_MUL_\|_\fR" 4 +.IX Item "__AVR_HAVE_MUL__" +The device has a hardware multiplier. +.ie n .IP """_\|_AVR_HAVE_JMP_CALL_\|_""" 4 +.el .IP "\f(CW_\|_AVR_HAVE_JMP_CALL_\|_\fR" 4 +.IX Item "__AVR_HAVE_JMP_CALL__" +The device has the \f(CW\*(C`JMP\*(C'\fR and \f(CW\*(C`CALL\*(C'\fR instructions. +This is the case for devices with at least 16@tie{}KiB of program +memory. +.ie n .IP """_\|_AVR_HAVE_EIJMP_EICALL_\|_""" 4 +.el .IP "\f(CW_\|_AVR_HAVE_EIJMP_EICALL_\|_\fR" 4 +.IX Item "__AVR_HAVE_EIJMP_EICALL__" +.PD 0 +.ie n .IP """_\|_AVR_3_BYTE_PC_\|_""" 4 +.el .IP "\f(CW_\|_AVR_3_BYTE_PC_\|_\fR" 4 +.IX Item "__AVR_3_BYTE_PC__" +.PD +The device has the \f(CW\*(C`EIJMP\*(C'\fR and \f(CW\*(C`EICALL\*(C'\fR instructions. +This is the case for devices with more than 128@tie{}KiB of program memory. +This also means that the program counter +(\s-1PC\s0) is 3@tie{}bytes wide. +.ie n .IP """_\|_AVR_2_BYTE_PC_\|_""" 4 +.el .IP "\f(CW_\|_AVR_2_BYTE_PC_\|_\fR" 4 +.IX Item "__AVR_2_BYTE_PC__" +The program counter (\s-1PC\s0) is 2@tie{}bytes wide. This is the case for devices +with up to 128@tie{}KiB of program memory. +.ie n .IP """_\|_AVR_HAVE_8BIT_SP_\|_""" 4 +.el .IP "\f(CW_\|_AVR_HAVE_8BIT_SP_\|_\fR" 4 +.IX Item "__AVR_HAVE_8BIT_SP__" +.PD 0 +.ie n .IP """_\|_AVR_HAVE_16BIT_SP_\|_""" 4 +.el .IP "\f(CW_\|_AVR_HAVE_16BIT_SP_\|_\fR" 4 +.IX Item "__AVR_HAVE_16BIT_SP__" +.PD +The stack pointer (\s-1SP\s0) register is treated as 8\-bit respectively +16\-bit register by the compiler. +The definition of these macros is affected by \f(CW\*(C`\-mtiny\-stack\*(C'\fR. +.ie n .IP """_\|_AVR_HAVE_SPH_\|_""" 4 +.el .IP "\f(CW_\|_AVR_HAVE_SPH_\|_\fR" 4 +.IX Item "__AVR_HAVE_SPH__" +.PD 0 +.ie n .IP """_\|_AVR_SP8_\|_""" 4 +.el .IP "\f(CW_\|_AVR_SP8_\|_\fR" 4 +.IX Item "__AVR_SP8__" +.PD +The device has the \s-1SPH \s0(high part of stack pointer) special function +register or has an 8\-bit stack pointer, respectively. +The definition of these macros is affected by \f(CW\*(C`\-mmcu=\*(C'\fR and +in the cases of \f(CW\*(C`\-mmcu=avr2\*(C'\fR and \f(CW\*(C`\-mmcu=avr25\*(C'\fR also +by \f(CW\*(C`\-msp8\*(C'\fR. +.ie n .IP """_\|_AVR_HAVE_RAMPD_\|_""" 4 +.el .IP "\f(CW_\|_AVR_HAVE_RAMPD_\|_\fR" 4 +.IX Item "__AVR_HAVE_RAMPD__" +.PD 0 +.ie n .IP """_\|_AVR_HAVE_RAMPX_\|_""" 4 +.el .IP "\f(CW_\|_AVR_HAVE_RAMPX_\|_\fR" 4 +.IX Item "__AVR_HAVE_RAMPX__" +.ie n .IP """_\|_AVR_HAVE_RAMPY_\|_""" 4 +.el .IP "\f(CW_\|_AVR_HAVE_RAMPY_\|_\fR" 4 +.IX Item "__AVR_HAVE_RAMPY__" +.ie n .IP """_\|_AVR_HAVE_RAMPZ_\|_""" 4 +.el .IP "\f(CW_\|_AVR_HAVE_RAMPZ_\|_\fR" 4 +.IX Item "__AVR_HAVE_RAMPZ__" +.PD +The device has the \f(CW\*(C`RAMPD\*(C'\fR, \f(CW\*(C`RAMPX\*(C'\fR, \f(CW\*(C`RAMPY\*(C'\fR, +\&\f(CW\*(C`RAMPZ\*(C'\fR special function register, respectively. +.ie n .IP """_\|_NO_INTERRUPTS_\|_""" 4 +.el .IP "\f(CW_\|_NO_INTERRUPTS_\|_\fR" 4 +.IX Item "__NO_INTERRUPTS__" +This macro reflects the \f(CW\*(C`\-mno\-interrupts\*(C'\fR command line option. +.ie n .IP """_\|_AVR_ERRATA_SKIP_\|_""" 4 +.el .IP "\f(CW_\|_AVR_ERRATA_SKIP_\|_\fR" 4 +.IX Item "__AVR_ERRATA_SKIP__" +.PD 0 +.ie n .IP """_\|_AVR_ERRATA_SKIP_JMP_CALL_\|_""" 4 +.el .IP "\f(CW_\|_AVR_ERRATA_SKIP_JMP_CALL_\|_\fR" 4 +.IX Item "__AVR_ERRATA_SKIP_JMP_CALL__" +.PD +Some \s-1AVR\s0 devices (\s-1AT90S8515,\s0 ATmega103) must not skip 32\-bit +instructions because of a hardware erratum. Skip instructions are +\&\f(CW\*(C`SBRS\*(C'\fR, \f(CW\*(C`SBRC\*(C'\fR, \f(CW\*(C`SBIS\*(C'\fR, \f(CW\*(C`SBIC\*(C'\fR and \f(CW\*(C`CPSE\*(C'\fR. +The second macro is only defined if \f(CW\*(C`_\|_AVR_HAVE_JMP_CALL_\|_\*(C'\fR is also +set. +.ie n .IP """_\|_AVR_ISA_RMW_\|_""" 4 +.el .IP "\f(CW_\|_AVR_ISA_RMW_\|_\fR" 4 +.IX Item "__AVR_ISA_RMW__" +The device has Read-Modify-Write instructions (\s-1XCH, LAC, LAS\s0 and \s-1LAT\s0). +.ie n .IP """_\|_AVR_SFR_OFFSET_\|_=\f(CIoffset\f(CW""" 4 +.el .IP "\f(CW_\|_AVR_SFR_OFFSET_\|_=\f(CIoffset\f(CW\fR" 4 +.IX Item "__AVR_SFR_OFFSET__=offset" +Instructions that can address I/O special function registers directly +like \f(CW\*(C`IN\*(C'\fR, \f(CW\*(C`OUT\*(C'\fR, \f(CW\*(C`SBI\*(C'\fR, etc. may use a different +address as if addressed by an instruction to access \s-1RAM\s0 like \f(CW\*(C`LD\*(C'\fR +or \f(CW\*(C`STS\*(C'\fR. This offset depends on the device architecture and has +to be subtracted from the \s-1RAM\s0 address in order to get the +respective I/O@tie{}address. +.ie n .IP """_\|_WITH_AVRLIBC_\|_""" 4 +.el .IP "\f(CW_\|_WITH_AVRLIBC_\|_\fR" 4 +.IX Item "__WITH_AVRLIBC__" +The compiler is configured to be used together with AVR-Libc. +See the \f(CW\*(C`\-\-with\-avrlibc\*(C'\fR configure option. +.PP +\fIBlackfin Options\fR +.IX Subsection "Blackfin Options" +.IP "\fB\-mcpu=\fR\fIcpu\fR[\fB\-\fR\fIsirevision\fR]" 4 +.IX Item "-mcpu=cpu[-sirevision]" +Specifies the name of the target Blackfin processor. Currently, \fIcpu\fR +can be one of \fBbf512\fR, \fBbf514\fR, \fBbf516\fR, \fBbf518\fR, +\&\fBbf522\fR, \fBbf523\fR, \fBbf524\fR, \fBbf525\fR, \fBbf526\fR, +\&\fBbf527\fR, \fBbf531\fR, \fBbf532\fR, \fBbf533\fR, +\&\fBbf534\fR, \fBbf536\fR, \fBbf537\fR, \fBbf538\fR, \fBbf539\fR, +\&\fBbf542\fR, \fBbf544\fR, \fBbf547\fR, \fBbf548\fR, \fBbf549\fR, +\&\fBbf542m\fR, \fBbf544m\fR, \fBbf547m\fR, \fBbf548m\fR, \fBbf549m\fR, +\&\fBbf561\fR, \fBbf592\fR. +.Sp +The optional \fIsirevision\fR specifies the silicon revision of the target +Blackfin processor. Any workarounds available for the targeted silicon revision +are enabled. If \fIsirevision\fR is \fBnone\fR, no workarounds are enabled. +If \fIsirevision\fR is \fBany\fR, all workarounds for the targeted processor +are enabled. The \f(CW\*(C`_\|_SILICON_REVISION_\|_\*(C'\fR macro is defined to two +hexadecimal digits representing the major and minor numbers in the silicon +revision. If \fIsirevision\fR is \fBnone\fR, the \f(CW\*(C`_\|_SILICON_REVISION_\|_\*(C'\fR +is not defined. If \fIsirevision\fR is \fBany\fR, the +\&\f(CW\*(C`_\|_SILICON_REVISION_\|_\*(C'\fR is defined to be \f(CW0xffff\fR. +If this optional \fIsirevision\fR is not used, \s-1GCC\s0 assumes the latest known +silicon revision of the targeted Blackfin processor. +.Sp +\&\s-1GCC\s0 defines a preprocessor macro for the specified \fIcpu\fR. +For the \fBbfin-elf\fR toolchain, this option causes the hardware \s-1BSP\s0 +provided by libgloss to be linked in if \fB\-msim\fR is not given. +.Sp +Without this option, \fBbf532\fR is used as the processor by default. +.Sp +Note that support for \fBbf561\fR is incomplete. For \fBbf561\fR, +only the preprocessor macro is defined. +.IP "\fB\-msim\fR" 4 +.IX Item "-msim" +Specifies that the program will be run on the simulator. This causes +the simulator \s-1BSP\s0 provided by libgloss to be linked in. This option +has effect only for \fBbfin-elf\fR toolchain. +Certain other options, such as \fB\-mid\-shared\-library\fR and +\&\fB\-mfdpic\fR, imply \fB\-msim\fR. +.IP "\fB\-momit\-leaf\-frame\-pointer\fR" 4 +.IX Item "-momit-leaf-frame-pointer" +Don't keep the frame pointer in a register for leaf functions. This +avoids the instructions to save, set up and restore frame pointers and +makes an extra register available in leaf functions. The option +\&\fB\-fomit\-frame\-pointer\fR removes the frame pointer for all functions, +which might make debugging harder. +.IP "\fB\-mspecld\-anomaly\fR" 4 +.IX Item "-mspecld-anomaly" +When enabled, the compiler ensures that the generated code does not +contain speculative loads after jump instructions. If this option is used, +\&\f(CW\*(C`_\|_WORKAROUND_SPECULATIVE_LOADS\*(C'\fR is defined. +.IP "\fB\-mno\-specld\-anomaly\fR" 4 +.IX Item "-mno-specld-anomaly" +Don't generate extra code to prevent speculative loads from occurring. +.IP "\fB\-mcsync\-anomaly\fR" 4 +.IX Item "-mcsync-anomaly" +When enabled, the compiler ensures that the generated code does not +contain \s-1CSYNC\s0 or \s-1SSYNC\s0 instructions too soon after conditional branches. +If this option is used, \f(CW\*(C`_\|_WORKAROUND_SPECULATIVE_SYNCS\*(C'\fR is defined. +.IP "\fB\-mno\-csync\-anomaly\fR" 4 +.IX Item "-mno-csync-anomaly" +Don't generate extra code to prevent \s-1CSYNC\s0 or \s-1SSYNC\s0 instructions from +occurring too soon after a conditional branch. +.IP "\fB\-mlow\-64k\fR" 4 +.IX Item "-mlow-64k" +When enabled, the compiler is free to take advantage of the knowledge that +the entire program fits into the low 64k of memory. +.IP "\fB\-mno\-low\-64k\fR" 4 +.IX Item "-mno-low-64k" +Assume that the program is arbitrarily large. This is the default. +.IP "\fB\-mstack\-check\-l1\fR" 4 +.IX Item "-mstack-check-l1" +Do stack checking using information placed into L1 scratchpad memory by the +uClinux kernel. +.IP "\fB\-mid\-shared\-library\fR" 4 +.IX Item "-mid-shared-library" +Generate code that supports shared libraries via the library \s-1ID\s0 method. +This allows for execute in place and shared libraries in an environment +without virtual memory management. This option implies \fB\-fPIC\fR. +With a \fBbfin-elf\fR target, this option implies \fB\-msim\fR. +.IP "\fB\-mno\-id\-shared\-library\fR" 4 +.IX Item "-mno-id-shared-library" +Generate code that doesn't assume ID-based shared libraries are being used. +This is the default. +.IP "\fB\-mleaf\-id\-shared\-library\fR" 4 +.IX Item "-mleaf-id-shared-library" +Generate code that supports shared libraries via the library \s-1ID\s0 method, +but assumes that this library or executable won't link against any other +\&\s-1ID\s0 shared libraries. That allows the compiler to use faster code for jumps +and calls. +.IP "\fB\-mno\-leaf\-id\-shared\-library\fR" 4 +.IX Item "-mno-leaf-id-shared-library" +Do not assume that the code being compiled won't link against any \s-1ID\s0 shared +libraries. Slower code is generated for jump and call insns. +.IP "\fB\-mshared\-library\-id=n\fR" 4 +.IX Item "-mshared-library-id=n" +Specifies the identification number of the ID-based shared library being +compiled. Specifying a value of 0 generates more compact code; specifying +other values forces the allocation of that number to the current +library but is no more space\- or time-efficient than omitting this option. +.IP "\fB\-msep\-data\fR" 4 +.IX Item "-msep-data" +Generate code that allows the data segment to be located in a different +area of memory from the text segment. This allows for execute in place in +an environment without virtual memory management by eliminating relocations +against the text section. +.IP "\fB\-mno\-sep\-data\fR" 4 +.IX Item "-mno-sep-data" +Generate code that assumes that the data segment follows the text segment. +This is the default. +.IP "\fB\-mlong\-calls\fR" 4 +.IX Item "-mlong-calls" +.PD 0 +.IP "\fB\-mno\-long\-calls\fR" 4 +.IX Item "-mno-long-calls" +.PD +Tells the compiler to perform function calls by first loading the +address of the function into a register and then performing a subroutine +call on this register. This switch is needed if the target function +lies outside of the 24\-bit addressing range of the offset-based +version of subroutine call instruction. +.Sp +This feature is not enabled by default. Specifying +\&\fB\-mno\-long\-calls\fR restores the default behavior. Note these +switches have no effect on how the compiler generates code to handle +function calls via function pointers. +.IP "\fB\-mfast\-fp\fR" 4 +.IX Item "-mfast-fp" +Link with the fast floating-point library. This library relaxes some of +the \s-1IEEE\s0 floating-point standard's rules for checking inputs against +Not-a-Number (\s-1NAN\s0), in the interest of performance. +.IP "\fB\-minline\-plt\fR" 4 +.IX Item "-minline-plt" +Enable inlining of \s-1PLT\s0 entries in function calls to functions that are +not known to bind locally. It has no effect without \fB\-mfdpic\fR. +.IP "\fB\-mmulticore\fR" 4 +.IX Item "-mmulticore" +Build a standalone application for multicore Blackfin processors. +This option causes proper start files and link scripts supporting +multicore to be used, and defines the macro \f(CW\*(C`_\|_BFIN_MULTICORE\*(C'\fR. +It can only be used with \fB\-mcpu=bf561\fR[\fB\-\fR\fIsirevision\fR]. +.Sp +This option can be used with \fB\-mcorea\fR or \fB\-mcoreb\fR, which +selects the one-application-per-core programming model. Without +\&\fB\-mcorea\fR or \fB\-mcoreb\fR, the single\-application/dual\-core +programming model is used. In this model, the main function of Core B +should be named as \f(CW\*(C`coreb_main\*(C'\fR. +.Sp +If this option is not used, the single-core application programming +model is used. +.IP "\fB\-mcorea\fR" 4 +.IX Item "-mcorea" +Build a standalone application for Core A of \s-1BF561\s0 when using +the one-application-per-core programming model. Proper start files +and link scripts are used to support Core A, and the macro +\&\f(CW\*(C`_\|_BFIN_COREA\*(C'\fR is defined. +This option can only be used in conjunction with \fB\-mmulticore\fR. +.IP "\fB\-mcoreb\fR" 4 +.IX Item "-mcoreb" +Build a standalone application for Core B of \s-1BF561\s0 when using +the one-application-per-core programming model. Proper start files +and link scripts are used to support Core B, and the macro +\&\f(CW\*(C`_\|_BFIN_COREB\*(C'\fR is defined. When this option is used, \f(CW\*(C`coreb_main\*(C'\fR +should be used instead of \f(CW\*(C`main\*(C'\fR. +This option can only be used in conjunction with \fB\-mmulticore\fR. +.IP "\fB\-msdram\fR" 4 +.IX Item "-msdram" +Build a standalone application for \s-1SDRAM.\s0 Proper start files and +link scripts are used to put the application into \s-1SDRAM,\s0 and the macro +\&\f(CW\*(C`_\|_BFIN_SDRAM\*(C'\fR is defined. +The loader should initialize \s-1SDRAM\s0 before loading the application. +.IP "\fB\-micplb\fR" 4 +.IX Item "-micplb" +Assume that ICPLBs are enabled at run time. This has an effect on certain +anomaly workarounds. For Linux targets, the default is to assume ICPLBs +are enabled; for standalone applications the default is off. +.PP +\fIC6X Options\fR +.IX Subsection "C6X Options" +.IP "\fB\-march=\fR\fIname\fR" 4 +.IX Item "-march=name" +This specifies the name of the target architecture. \s-1GCC\s0 uses this +name to determine what kind of instructions it can emit when generating +assembly code. Permissible names are: \fBc62x\fR, +\&\fBc64x\fR, \fBc64x+\fR, \fBc67x\fR, \fBc67x+\fR, \fBc674x\fR. +.IP "\fB\-mbig\-endian\fR" 4 +.IX Item "-mbig-endian" +Generate code for a big-endian target. +.IP "\fB\-mlittle\-endian\fR" 4 +.IX Item "-mlittle-endian" +Generate code for a little-endian target. This is the default. +.IP "\fB\-msim\fR" 4 +.IX Item "-msim" +Choose startup files and linker script suitable for the simulator. +.IP "\fB\-msdata=default\fR" 4 +.IX Item "-msdata=default" +Put small global and static data in the \fB.neardata\fR section, +which is pointed to by register \f(CW\*(C`B14\*(C'\fR. Put small uninitialized +global and static data in the \fB.bss\fR section, which is adjacent +to the \fB.neardata\fR section. Put small read-only data into the +\&\fB.rodata\fR section. The corresponding sections used for large +pieces of data are \fB.fardata\fR, \fB.far\fR and \fB.const\fR. +.IP "\fB\-msdata=all\fR" 4 +.IX Item "-msdata=all" +Put all data, not just small objects, into the sections reserved for +small data, and use addressing relative to the \f(CW\*(C`B14\*(C'\fR register to +access them. +.IP "\fB\-msdata=none\fR" 4 +.IX Item "-msdata=none" +Make no use of the sections reserved for small data, and use absolute +addresses to access all data. Put all initialized global and static +data in the \fB.fardata\fR section, and all uninitialized data in the +\&\fB.far\fR section. Put all constant data into the \fB.const\fR +section. +.PP +\fI\s-1CRIS\s0 Options\fR +.IX Subsection "CRIS Options" +.PP +These options are defined specifically for the \s-1CRIS\s0 ports. +.IP "\fB\-march=\fR\fIarchitecture-type\fR" 4 +.IX Item "-march=architecture-type" +.PD 0 +.IP "\fB\-mcpu=\fR\fIarchitecture-type\fR" 4 +.IX Item "-mcpu=architecture-type" +.PD +Generate code for the specified architecture. The choices for +\&\fIarchitecture-type\fR are \fBv3\fR, \fBv8\fR and \fBv10\fR for +respectively \s-1ETRAX\s0\ 4, \s-1ETRAX\s0\ 100, and \s-1ETRAX\s0\ 100\ \s-1LX.\s0 +Default is \fBv0\fR except for cris-axis-linux-gnu, where the default is +\&\fBv10\fR. +.IP "\fB\-mtune=\fR\fIarchitecture-type\fR" 4 +.IX Item "-mtune=architecture-type" +Tune to \fIarchitecture-type\fR everything applicable about the generated +code, except for the \s-1ABI\s0 and the set of available instructions. The +choices for \fIarchitecture-type\fR are the same as for +\&\fB\-march=\fR\fIarchitecture-type\fR. +.IP "\fB\-mmax\-stack\-frame=\fR\fIn\fR" 4 +.IX Item "-mmax-stack-frame=n" +Warn when the stack frame of a function exceeds \fIn\fR bytes. +.IP "\fB\-metrax4\fR" 4 +.IX Item "-metrax4" +.PD 0 +.IP "\fB\-metrax100\fR" 4 +.IX Item "-metrax100" +.PD +The options \fB\-metrax4\fR and \fB\-metrax100\fR are synonyms for +\&\fB\-march=v3\fR and \fB\-march=v8\fR respectively. +.IP "\fB\-mmul\-bug\-workaround\fR" 4 +.IX Item "-mmul-bug-workaround" +.PD 0 +.IP "\fB\-mno\-mul\-bug\-workaround\fR" 4 +.IX Item "-mno-mul-bug-workaround" +.PD +Work around a bug in the \f(CW\*(C`muls\*(C'\fR and \f(CW\*(C`mulu\*(C'\fR instructions for \s-1CPU\s0 +models where it applies. This option is active by default. +.IP "\fB\-mpdebug\fR" 4 +.IX Item "-mpdebug" +Enable CRIS-specific verbose debug-related information in the assembly +code. This option also has the effect of turning off the \fB#NO_APP\fR +formatted-code indicator to the assembler at the beginning of the +assembly file. +.IP "\fB\-mcc\-init\fR" 4 +.IX Item "-mcc-init" +Do not use condition-code results from previous instruction; always emit +compare and test instructions before use of condition codes. +.IP "\fB\-mno\-side\-effects\fR" 4 +.IX Item "-mno-side-effects" +Do not emit instructions with side effects in addressing modes other than +post-increment. +.IP "\fB\-mstack\-align\fR" 4 +.IX Item "-mstack-align" +.PD 0 +.IP "\fB\-mno\-stack\-align\fR" 4 +.IX Item "-mno-stack-align" +.IP "\fB\-mdata\-align\fR" 4 +.IX Item "-mdata-align" +.IP "\fB\-mno\-data\-align\fR" 4 +.IX Item "-mno-data-align" +.IP "\fB\-mconst\-align\fR" 4 +.IX Item "-mconst-align" +.IP "\fB\-mno\-const\-align\fR" 4 +.IX Item "-mno-const-align" +.PD +These options (\fBno\-\fR options) arrange (eliminate arrangements) for the +stack frame, individual data and constants to be aligned for the maximum +single data access size for the chosen \s-1CPU\s0 model. The default is to +arrange for 32\-bit alignment. \s-1ABI\s0 details such as structure layout are +not affected by these options. +.IP "\fB\-m32\-bit\fR" 4 +.IX Item "-m32-bit" +.PD 0 +.IP "\fB\-m16\-bit\fR" 4 +.IX Item "-m16-bit" +.IP "\fB\-m8\-bit\fR" 4 +.IX Item "-m8-bit" +.PD +Similar to the stack\- data\- and const-align options above, these options +arrange for stack frame, writable data and constants to all be 32\-bit, +16\-bit or 8\-bit aligned. The default is 32\-bit alignment. +.IP "\fB\-mno\-prologue\-epilogue\fR" 4 +.IX Item "-mno-prologue-epilogue" +.PD 0 +.IP "\fB\-mprologue\-epilogue\fR" 4 +.IX Item "-mprologue-epilogue" +.PD +With \fB\-mno\-prologue\-epilogue\fR, the normal function prologue and +epilogue which set up the stack frame are omitted and no return +instructions or return sequences are generated in the code. Use this +option only together with visual inspection of the compiled code: no +warnings or errors are generated when call-saved registers must be saved, +or storage for local variables needs to be allocated. +.IP "\fB\-mno\-gotplt\fR" 4 +.IX Item "-mno-gotplt" +.PD 0 +.IP "\fB\-mgotplt\fR" 4 +.IX Item "-mgotplt" +.PD +With \fB\-fpic\fR and \fB\-fPIC\fR, don't generate (do generate) +instruction sequences that load addresses for functions from the \s-1PLT\s0 part +of the \s-1GOT\s0 rather than (traditional on other architectures) calls to the +\&\s-1PLT. \s0 The default is \fB\-mgotplt\fR. +.IP "\fB\-melf\fR" 4 +.IX Item "-melf" +Legacy no-op option only recognized with the cris-axis-elf and +cris-axis-linux-gnu targets. +.IP "\fB\-mlinux\fR" 4 +.IX Item "-mlinux" +Legacy no-op option only recognized with the cris-axis-linux-gnu target. +.IP "\fB\-sim\fR" 4 +.IX Item "-sim" +This option, recognized for the cris-axis-elf, arranges +to link with input-output functions from a simulator library. Code, +initialized data and zero-initialized data are allocated consecutively. +.IP "\fB\-sim2\fR" 4 +.IX Item "-sim2" +Like \fB\-sim\fR, but pass linker options to locate initialized data at +0x40000000 and zero-initialized data at 0x80000000. +.PP +\fI\s-1CR16\s0 Options\fR +.IX Subsection "CR16 Options" +.PP +These options are defined specifically for the \s-1CR16\s0 ports. +.IP "\fB\-mmac\fR" 4 +.IX Item "-mmac" +Enable the use of multiply-accumulate instructions. Disabled by default. +.IP "\fB\-mcr16cplus\fR" 4 +.IX Item "-mcr16cplus" +.PD 0 +.IP "\fB\-mcr16c\fR" 4 +.IX Item "-mcr16c" +.PD +Generate code for \s-1CR16C\s0 or \s-1CR16C+\s0 architecture. \s-1CR16C+\s0 architecture +is default. +.IP "\fB\-msim\fR" 4 +.IX Item "-msim" +Links the library libsim.a which is in compatible with simulator. Applicable +to \s-1ELF\s0 compiler only. +.IP "\fB\-mint32\fR" 4 +.IX Item "-mint32" +Choose integer type as 32\-bit wide. +.IP "\fB\-mbit\-ops\fR" 4 +.IX Item "-mbit-ops" +Generates \f(CW\*(C`sbit\*(C'\fR/\f(CW\*(C`cbit\*(C'\fR instructions for bit manipulations. +.IP "\fB\-mdata\-model=\fR\fImodel\fR" 4 +.IX Item "-mdata-model=model" +Choose a data model. The choices for \fImodel\fR are \fBnear\fR, +\&\fBfar\fR or \fBmedium\fR. \fBmedium\fR is default. +However, \fBfar\fR is not valid with \fB\-mcr16c\fR, as the +\&\s-1CR16C\s0 architecture does not support the far data model. +.PP +\fIDarwin Options\fR +.IX Subsection "Darwin Options" +.PP +These options are defined for all architectures running the Darwin operating +system. +.PP +\&\s-1FSF GCC\s0 on Darwin does not create \*(L"fat\*(R" object files; it creates +an object file for the single architecture that \s-1GCC\s0 was built to +target. Apple's \s-1GCC\s0 on Darwin does create \*(L"fat\*(R" files if multiple +\&\fB\-arch\fR options are used; it does so by running the compiler or +linker multiple times and joining the results together with +\&\fIlipo\fR. +.PP +The subtype of the file created (like \fBppc7400\fR or \fBppc970\fR or +\&\fBi686\fR) is determined by the flags that specify the \s-1ISA\s0 +that \s-1GCC\s0 is targeting, like \fB\-mcpu\fR or \fB\-march\fR. The +\&\fB\-force_cpusubtype_ALL\fR option can be used to override this. +.PP +The Darwin tools vary in their behavior when presented with an \s-1ISA\s0 +mismatch. The assembler, \fIas\fR, only permits instructions to +be used that are valid for the subtype of the file it is generating, +so you cannot put 64\-bit instructions in a \fBppc750\fR object file. +The linker for shared libraries, \fI/usr/bin/libtool\fR, fails +and prints an error if asked to create a shared library with a less +restrictive subtype than its input files (for instance, trying to put +a \fBppc970\fR object file in a \fBppc7400\fR library). The linker +for executables, \fBld\fR, quietly gives the executable the most +restrictive subtype of any of its input files. +.IP "\fB\-F\fR\fIdir\fR" 4 +.IX Item "-Fdir" +Add the framework directory \fIdir\fR to the head of the list of +directories to be searched for header files. These directories are +interleaved with those specified by \fB\-I\fR options and are +scanned in a left-to-right order. +.Sp +A framework directory is a directory with frameworks in it. A +framework is a directory with a \fIHeaders\fR and/or +\&\fIPrivateHeaders\fR directory contained directly in it that ends +in \fI.framework\fR. The name of a framework is the name of this +directory excluding the \fI.framework\fR. Headers associated with +the framework are found in one of those two directories, with +\&\fIHeaders\fR being searched first. A subframework is a framework +directory that is in a framework's \fIFrameworks\fR directory. +Includes of subframework headers can only appear in a header of a +framework that contains the subframework, or in a sibling subframework +header. Two subframeworks are siblings if they occur in the same +framework. A subframework should not have the same name as a +framework; a warning is issued if this is violated. Currently a +subframework cannot have subframeworks; in the future, the mechanism +may be extended to support this. The standard frameworks can be found +in \fI/System/Library/Frameworks\fR and +\&\fI/Library/Frameworks\fR. An example include looks like +\&\f(CW\*(C`#include <Framework/header.h>\*(C'\fR, where \fIFramework\fR denotes +the name of the framework and \fIheader.h\fR is found in the +\&\fIPrivateHeaders\fR or \fIHeaders\fR directory. +.IP "\fB\-iframework\fR\fIdir\fR" 4 +.IX Item "-iframeworkdir" +Like \fB\-F\fR except the directory is a treated as a system +directory. The main difference between this \fB\-iframework\fR and +\&\fB\-F\fR is that with \fB\-iframework\fR the compiler does not +warn about constructs contained within header files found via +\&\fIdir\fR. This option is valid only for the C family of languages. +.IP "\fB\-gused\fR" 4 +.IX Item "-gused" +Emit debugging information for symbols that are used. For stabs +debugging format, this enables \fB\-feliminate\-unused\-debug\-symbols\fR. +This is by default \s-1ON.\s0 +.IP "\fB\-gfull\fR" 4 +.IX Item "-gfull" +Emit debugging information for all symbols and types. +.IP "\fB\-mmacosx\-version\-min=\fR\fIversion\fR" 4 +.IX Item "-mmacosx-version-min=version" +The earliest version of MacOS X that this executable will run on +is \fIversion\fR. Typical values of \fIversion\fR include \f(CW10.1\fR, +\&\f(CW10.2\fR, and \f(CW10.3.9\fR. +.Sp +If the compiler was built to use the system's headers by default, +then the default for this option is the system version on which the +compiler is running, otherwise the default is to make choices that +are compatible with as many systems and code bases as possible. +.IP "\fB\-mkernel\fR" 4 +.IX Item "-mkernel" +Enable kernel development mode. The \fB\-mkernel\fR option sets +\&\fB\-static\fR, \fB\-fno\-common\fR, \fB\-fno\-cxa\-atexit\fR, +\&\fB\-fno\-exceptions\fR, \fB\-fno\-non\-call\-exceptions\fR, +\&\fB\-fapple\-kext\fR, \fB\-fno\-weak\fR and \fB\-fno\-rtti\fR where +applicable. This mode also sets \fB\-mno\-altivec\fR, +\&\fB\-msoft\-float\fR, \fB\-fno\-builtin\fR and +\&\fB\-mlong\-branch\fR for PowerPC targets. +.IP "\fB\-mone\-byte\-bool\fR" 4 +.IX Item "-mone-byte-bool" +Override the defaults for \fBbool\fR so that \fBsizeof(bool)==1\fR. +By default \fBsizeof(bool)\fR is \fB4\fR when compiling for +Darwin/PowerPC and \fB1\fR when compiling for Darwin/x86, so this +option has no effect on x86. +.Sp +\&\fBWarning:\fR The \fB\-mone\-byte\-bool\fR switch causes \s-1GCC\s0 +to generate code that is not binary compatible with code generated +without that switch. Using this switch may require recompiling all +other modules in a program, including system libraries. Use this +switch to conform to a non-default data model. +.IP "\fB\-mfix\-and\-continue\fR" 4 +.IX Item "-mfix-and-continue" +.PD 0 +.IP "\fB\-ffix\-and\-continue\fR" 4 +.IX Item "-ffix-and-continue" +.IP "\fB\-findirect\-data\fR" 4 +.IX Item "-findirect-data" +.PD +Generate code suitable for fast turnaround development, such as to +allow \s-1GDB\s0 to dynamically load \f(CW\*(C`.o\*(C'\fR files into already-running +programs. \fB\-findirect\-data\fR and \fB\-ffix\-and\-continue\fR +are provided for backwards compatibility. +.IP "\fB\-all_load\fR" 4 +.IX Item "-all_load" +Loads all members of static archive libraries. +See man \fIld\fR\|(1) for more information. +.IP "\fB\-arch_errors_fatal\fR" 4 +.IX Item "-arch_errors_fatal" +Cause the errors having to do with files that have the wrong architecture +to be fatal. +.IP "\fB\-bind_at_load\fR" 4 +.IX Item "-bind_at_load" +Causes the output file to be marked such that the dynamic linker will +bind all undefined references when the file is loaded or launched. +.IP "\fB\-bundle\fR" 4 +.IX Item "-bundle" +Produce a Mach-o bundle format file. +See man \fIld\fR\|(1) for more information. +.IP "\fB\-bundle_loader\fR \fIexecutable\fR" 4 +.IX Item "-bundle_loader executable" +This option specifies the \fIexecutable\fR that will load the build +output file being linked. See man \fIld\fR\|(1) for more information. +.IP "\fB\-dynamiclib\fR" 4 +.IX Item "-dynamiclib" +When passed this option, \s-1GCC\s0 produces a dynamic library instead of +an executable when linking, using the Darwin \fIlibtool\fR command. +.IP "\fB\-force_cpusubtype_ALL\fR" 4 +.IX Item "-force_cpusubtype_ALL" +This causes \s-1GCC\s0's output file to have the \fI\s-1ALL\s0\fR subtype, instead of +one controlled by the \fB\-mcpu\fR or \fB\-march\fR option. +.IP "\fB\-allowable_client\fR \fIclient_name\fR" 4 +.IX Item "-allowable_client client_name" +.PD 0 +.IP "\fB\-client_name\fR" 4 +.IX Item "-client_name" +.IP "\fB\-compatibility_version\fR" 4 +.IX Item "-compatibility_version" +.IP "\fB\-current_version\fR" 4 +.IX Item "-current_version" +.IP "\fB\-dead_strip\fR" 4 +.IX Item "-dead_strip" +.IP "\fB\-dependency\-file\fR" 4 +.IX Item "-dependency-file" +.IP "\fB\-dylib_file\fR" 4 +.IX Item "-dylib_file" +.IP "\fB\-dylinker_install_name\fR" 4 +.IX Item "-dylinker_install_name" +.IP "\fB\-dynamic\fR" 4 +.IX Item "-dynamic" +.IP "\fB\-exported_symbols_list\fR" 4 +.IX Item "-exported_symbols_list" +.IP "\fB\-filelist\fR" 4 +.IX Item "-filelist" +.IP "\fB\-flat_namespace\fR" 4 +.IX Item "-flat_namespace" +.IP "\fB\-force_flat_namespace\fR" 4 +.IX Item "-force_flat_namespace" +.IP "\fB\-headerpad_max_install_names\fR" 4 +.IX Item "-headerpad_max_install_names" +.IP "\fB\-image_base\fR" 4 +.IX Item "-image_base" +.IP "\fB\-init\fR" 4 +.IX Item "-init" +.IP "\fB\-install_name\fR" 4 +.IX Item "-install_name" +.IP "\fB\-keep_private_externs\fR" 4 +.IX Item "-keep_private_externs" +.IP "\fB\-multi_module\fR" 4 +.IX Item "-multi_module" +.IP "\fB\-multiply_defined\fR" 4 +.IX Item "-multiply_defined" +.IP "\fB\-multiply_defined_unused\fR" 4 +.IX Item "-multiply_defined_unused" +.IP "\fB\-noall_load\fR" 4 +.IX Item "-noall_load" +.IP "\fB\-no_dead_strip_inits_and_terms\fR" 4 +.IX Item "-no_dead_strip_inits_and_terms" +.IP "\fB\-nofixprebinding\fR" 4 +.IX Item "-nofixprebinding" +.IP "\fB\-nomultidefs\fR" 4 +.IX Item "-nomultidefs" +.IP "\fB\-noprebind\fR" 4 +.IX Item "-noprebind" +.IP "\fB\-noseglinkedit\fR" 4 +.IX Item "-noseglinkedit" +.IP "\fB\-pagezero_size\fR" 4 +.IX Item "-pagezero_size" +.IP "\fB\-prebind\fR" 4 +.IX Item "-prebind" +.IP "\fB\-prebind_all_twolevel_modules\fR" 4 +.IX Item "-prebind_all_twolevel_modules" +.IP "\fB\-private_bundle\fR" 4 +.IX Item "-private_bundle" +.IP "\fB\-read_only_relocs\fR" 4 +.IX Item "-read_only_relocs" +.IP "\fB\-sectalign\fR" 4 +.IX Item "-sectalign" +.IP "\fB\-sectobjectsymbols\fR" 4 +.IX Item "-sectobjectsymbols" +.IP "\fB\-whyload\fR" 4 +.IX Item "-whyload" +.IP "\fB\-seg1addr\fR" 4 +.IX Item "-seg1addr" +.IP "\fB\-sectcreate\fR" 4 +.IX Item "-sectcreate" +.IP "\fB\-sectobjectsymbols\fR" 4 +.IX Item "-sectobjectsymbols" +.IP "\fB\-sectorder\fR" 4 +.IX Item "-sectorder" +.IP "\fB\-segaddr\fR" 4 +.IX Item "-segaddr" +.IP "\fB\-segs_read_only_addr\fR" 4 +.IX Item "-segs_read_only_addr" +.IP "\fB\-segs_read_write_addr\fR" 4 +.IX Item "-segs_read_write_addr" +.IP "\fB\-seg_addr_table\fR" 4 +.IX Item "-seg_addr_table" +.IP "\fB\-seg_addr_table_filename\fR" 4 +.IX Item "-seg_addr_table_filename" +.IP "\fB\-seglinkedit\fR" 4 +.IX Item "-seglinkedit" +.IP "\fB\-segprot\fR" 4 +.IX Item "-segprot" +.IP "\fB\-segs_read_only_addr\fR" 4 +.IX Item "-segs_read_only_addr" +.IP "\fB\-segs_read_write_addr\fR" 4 +.IX Item "-segs_read_write_addr" +.IP "\fB\-single_module\fR" 4 +.IX Item "-single_module" +.IP "\fB\-static\fR" 4 +.IX Item "-static" +.IP "\fB\-sub_library\fR" 4 +.IX Item "-sub_library" +.IP "\fB\-sub_umbrella\fR" 4 +.IX Item "-sub_umbrella" +.IP "\fB\-twolevel_namespace\fR" 4 +.IX Item "-twolevel_namespace" +.IP "\fB\-umbrella\fR" 4 +.IX Item "-umbrella" +.IP "\fB\-undefined\fR" 4 +.IX Item "-undefined" +.IP "\fB\-unexported_symbols_list\fR" 4 +.IX Item "-unexported_symbols_list" +.IP "\fB\-weak_reference_mismatches\fR" 4 +.IX Item "-weak_reference_mismatches" +.IP "\fB\-whatsloaded\fR" 4 +.IX Item "-whatsloaded" +.PD +These options are passed to the Darwin linker. The Darwin linker man page +describes them in detail. +.PP +\fI\s-1DEC\s0 Alpha Options\fR +.IX Subsection "DEC Alpha Options" +.PP +These \fB\-m\fR options are defined for the \s-1DEC\s0 Alpha implementations: +.IP "\fB\-mno\-soft\-float\fR" 4 +.IX Item "-mno-soft-float" +.PD 0 +.IP "\fB\-msoft\-float\fR" 4 +.IX Item "-msoft-float" +.PD +Use (do not use) the hardware floating-point instructions for +floating-point operations. When \fB\-msoft\-float\fR is specified, +functions in \fIlibgcc.a\fR are used to perform floating-point +operations. Unless they are replaced by routines that emulate the +floating-point operations, or compiled in such a way as to call such +emulations routines, these routines issue floating-point +operations. If you are compiling for an Alpha without floating-point +operations, you must ensure that the library is built so as not to call +them. +.Sp +Note that Alpha implementations without floating-point operations are +required to have floating-point registers. +.IP "\fB\-mfp\-reg\fR" 4 +.IX Item "-mfp-reg" +.PD 0 +.IP "\fB\-mno\-fp\-regs\fR" 4 +.IX Item "-mno-fp-regs" +.PD +Generate code that uses (does not use) the floating-point register set. +\&\fB\-mno\-fp\-regs\fR implies \fB\-msoft\-float\fR. If the floating-point +register set is not used, floating-point operands are passed in integer +registers as if they were integers and floating-point results are passed +in \f(CW$0\fR instead of \f(CW$f0\fR. This is a non-standard calling sequence, +so any function with a floating-point argument or return value called by code +compiled with \fB\-mno\-fp\-regs\fR must also be compiled with that +option. +.Sp +A typical use of this option is building a kernel that does not use, +and hence need not save and restore, any floating-point registers. +.IP "\fB\-mieee\fR" 4 +.IX Item "-mieee" +The Alpha architecture implements floating-point hardware optimized for +maximum performance. It is mostly compliant with the \s-1IEEE\s0 floating-point +standard. However, for full compliance, software assistance is +required. This option generates code fully IEEE-compliant code +\&\fIexcept\fR that the \fIinexact-flag\fR is not maintained (see below). +If this option is turned on, the preprocessor macro \f(CW\*(C`_IEEE_FP\*(C'\fR is +defined during compilation. The resulting code is less efficient but is +able to correctly support denormalized numbers and exceptional \s-1IEEE\s0 +values such as not-a-number and plus/minus infinity. Other Alpha +compilers call this option \fB\-ieee_with_no_inexact\fR. +.IP "\fB\-mieee\-with\-inexact\fR" 4 +.IX Item "-mieee-with-inexact" +This is like \fB\-mieee\fR except the generated code also maintains +the \s-1IEEE \s0\fIinexact-flag\fR. Turning on this option causes the +generated code to implement fully-compliant \s-1IEEE\s0 math. In addition to +\&\f(CW\*(C`_IEEE_FP\*(C'\fR, \f(CW\*(C`_IEEE_FP_EXACT\*(C'\fR is defined as a preprocessor +macro. On some Alpha implementations the resulting code may execute +significantly slower than the code generated by default. Since there is +very little code that depends on the \fIinexact-flag\fR, you should +normally not specify this option. Other Alpha compilers call this +option \fB\-ieee_with_inexact\fR. +.IP "\fB\-mfp\-trap\-mode=\fR\fItrap-mode\fR" 4 +.IX Item "-mfp-trap-mode=trap-mode" +This option controls what floating-point related traps are enabled. +Other Alpha compilers call this option \fB\-fptm\fR \fItrap-mode\fR. +The trap mode can be set to one of four values: +.RS 4 +.IP "\fBn\fR" 4 +.IX Item "n" +This is the default (normal) setting. The only traps that are enabled +are the ones that cannot be disabled in software (e.g., division by zero +trap). +.IP "\fBu\fR" 4 +.IX Item "u" +In addition to the traps enabled by \fBn\fR, underflow traps are enabled +as well. +.IP "\fBsu\fR" 4 +.IX Item "su" +Like \fBu\fR, but the instructions are marked to be safe for software +completion (see Alpha architecture manual for details). +.IP "\fBsui\fR" 4 +.IX Item "sui" +Like \fBsu\fR, but inexact traps are enabled as well. +.RE +.RS 4 +.RE +.IP "\fB\-mfp\-rounding\-mode=\fR\fIrounding-mode\fR" 4 +.IX Item "-mfp-rounding-mode=rounding-mode" +Selects the \s-1IEEE\s0 rounding mode. Other Alpha compilers call this option +\&\fB\-fprm\fR \fIrounding-mode\fR. The \fIrounding-mode\fR can be one +of: +.RS 4 +.IP "\fBn\fR" 4 +.IX Item "n" +Normal \s-1IEEE\s0 rounding mode. Floating-point numbers are rounded towards +the nearest machine number or towards the even machine number in case +of a tie. +.IP "\fBm\fR" 4 +.IX Item "m" +Round towards minus infinity. +.IP "\fBc\fR" 4 +.IX Item "c" +Chopped rounding mode. Floating-point numbers are rounded towards zero. +.IP "\fBd\fR" 4 +.IX Item "d" +Dynamic rounding mode. A field in the floating-point control register +(\fIfpcr\fR, see Alpha architecture reference manual) controls the +rounding mode in effect. The C library initializes this register for +rounding towards plus infinity. Thus, unless your program modifies the +\&\fIfpcr\fR, \fBd\fR corresponds to round towards plus infinity. +.RE +.RS 4 +.RE +.IP "\fB\-mtrap\-precision=\fR\fItrap-precision\fR" 4 +.IX Item "-mtrap-precision=trap-precision" +In the Alpha architecture, floating-point traps are imprecise. This +means without software assistance it is impossible to recover from a +floating trap and program execution normally needs to be terminated. +\&\s-1GCC\s0 can generate code that can assist operating system trap handlers +in determining the exact location that caused a floating-point trap. +Depending on the requirements of an application, different levels of +precisions can be selected: +.RS 4 +.IP "\fBp\fR" 4 +.IX Item "p" +Program precision. This option is the default and means a trap handler +can only identify which program caused a floating-point exception. +.IP "\fBf\fR" 4 +.IX Item "f" +Function precision. The trap handler can determine the function that +caused a floating-point exception. +.IP "\fBi\fR" 4 +.IX Item "i" +Instruction precision. The trap handler can determine the exact +instruction that caused a floating-point exception. +.RE +.RS 4 +.Sp +Other Alpha compilers provide the equivalent options called +\&\fB\-scope_safe\fR and \fB\-resumption_safe\fR. +.RE +.IP "\fB\-mieee\-conformant\fR" 4 +.IX Item "-mieee-conformant" +This option marks the generated code as \s-1IEEE\s0 conformant. You must not +use this option unless you also specify \fB\-mtrap\-precision=i\fR and either +\&\fB\-mfp\-trap\-mode=su\fR or \fB\-mfp\-trap\-mode=sui\fR. Its only effect +is to emit the line \fB.eflag 48\fR in the function prologue of the +generated assembly file. +.IP "\fB\-mbuild\-constants\fR" 4 +.IX Item "-mbuild-constants" +Normally \s-1GCC\s0 examines a 32\- or 64\-bit integer constant to +see if it can construct it from smaller constants in two or three +instructions. If it cannot, it outputs the constant as a literal and +generates code to load it from the data segment at run time. +.Sp +Use this option to require \s-1GCC\s0 to construct \fIall\fR integer constants +using code, even if it takes more instructions (the maximum is six). +.Sp +You typically use this option to build a shared library dynamic +loader. Itself a shared library, it must relocate itself in memory +before it can find the variables and constants in its own data segment. +.IP "\fB\-mbwx\fR" 4 +.IX Item "-mbwx" +.PD 0 +.IP "\fB\-mno\-bwx\fR" 4 +.IX Item "-mno-bwx" +.IP "\fB\-mcix\fR" 4 +.IX Item "-mcix" +.IP "\fB\-mno\-cix\fR" 4 +.IX Item "-mno-cix" +.IP "\fB\-mfix\fR" 4 +.IX Item "-mfix" +.IP "\fB\-mno\-fix\fR" 4 +.IX Item "-mno-fix" +.IP "\fB\-mmax\fR" 4 +.IX Item "-mmax" +.IP "\fB\-mno\-max\fR" 4 +.IX Item "-mno-max" +.PD +Indicate whether \s-1GCC\s0 should generate code to use the optional \s-1BWX, +CIX, FIX\s0 and \s-1MAX\s0 instruction sets. The default is to use the instruction +sets supported by the \s-1CPU\s0 type specified via \fB\-mcpu=\fR option or that +of the \s-1CPU\s0 on which \s-1GCC\s0 was built if none is specified. +.IP "\fB\-mfloat\-vax\fR" 4 +.IX Item "-mfloat-vax" +.PD 0 +.IP "\fB\-mfloat\-ieee\fR" 4 +.IX Item "-mfloat-ieee" +.PD +Generate code that uses (does not use) \s-1VAX F\s0 and G floating-point +arithmetic instead of \s-1IEEE\s0 single and double precision. +.IP "\fB\-mexplicit\-relocs\fR" 4 +.IX Item "-mexplicit-relocs" +.PD 0 +.IP "\fB\-mno\-explicit\-relocs\fR" 4 +.IX Item "-mno-explicit-relocs" +.PD +Older Alpha assemblers provided no way to generate symbol relocations +except via assembler macros. Use of these macros does not allow +optimal instruction scheduling. \s-1GNU\s0 binutils as of version 2.12 +supports a new syntax that allows the compiler to explicitly mark +which relocations should apply to which instructions. This option +is mostly useful for debugging, as \s-1GCC\s0 detects the capabilities of +the assembler when it is built and sets the default accordingly. +.IP "\fB\-msmall\-data\fR" 4 +.IX Item "-msmall-data" +.PD 0 +.IP "\fB\-mlarge\-data\fR" 4 +.IX Item "-mlarge-data" +.PD +When \fB\-mexplicit\-relocs\fR is in effect, static data is +accessed via \fIgp-relative\fR relocations. When \fB\-msmall\-data\fR +is used, objects 8 bytes long or smaller are placed in a \fIsmall data area\fR +(the \f(CW\*(C`.sdata\*(C'\fR and \f(CW\*(C`.sbss\*(C'\fR sections) and are accessed via +16\-bit relocations off of the \f(CW$gp\fR register. This limits the +size of the small data area to 64KB, but allows the variables to be +directly accessed via a single instruction. +.Sp +The default is \fB\-mlarge\-data\fR. With this option the data area +is limited to just below 2GB. Programs that require more than 2GB of +data must use \f(CW\*(C`malloc\*(C'\fR or \f(CW\*(C`mmap\*(C'\fR to allocate the data in the +heap instead of in the program's data segment. +.Sp +When generating code for shared libraries, \fB\-fpic\fR implies +\&\fB\-msmall\-data\fR and \fB\-fPIC\fR implies \fB\-mlarge\-data\fR. +.IP "\fB\-msmall\-text\fR" 4 +.IX Item "-msmall-text" +.PD 0 +.IP "\fB\-mlarge\-text\fR" 4 +.IX Item "-mlarge-text" +.PD +When \fB\-msmall\-text\fR is used, the compiler assumes that the +code of the entire program (or shared library) fits in 4MB, and is +thus reachable with a branch instruction. When \fB\-msmall\-data\fR +is used, the compiler can assume that all local symbols share the +same \f(CW$gp\fR value, and thus reduce the number of instructions +required for a function call from 4 to 1. +.Sp +The default is \fB\-mlarge\-text\fR. +.IP "\fB\-mcpu=\fR\fIcpu_type\fR" 4 +.IX Item "-mcpu=cpu_type" +Set the instruction set and instruction scheduling parameters for +machine type \fIcpu_type\fR. You can specify either the \fB\s-1EV\s0\fR +style name or the corresponding chip number. \s-1GCC\s0 supports scheduling +parameters for the \s-1EV4, EV5\s0 and \s-1EV6\s0 family of processors and +chooses the default values for the instruction set from the processor +you specify. If you do not specify a processor type, \s-1GCC\s0 defaults +to the processor on which the compiler was built. +.Sp +Supported values for \fIcpu_type\fR are +.RS 4 +.IP "\fBev4\fR" 4 +.IX Item "ev4" +.PD 0 +.IP "\fBev45\fR" 4 +.IX Item "ev45" +.IP "\fB21064\fR" 4 +.IX Item "21064" +.PD +Schedules as an \s-1EV4\s0 and has no instruction set extensions. +.IP "\fBev5\fR" 4 +.IX Item "ev5" +.PD 0 +.IP "\fB21164\fR" 4 +.IX Item "21164" +.PD +Schedules as an \s-1EV5\s0 and has no instruction set extensions. +.IP "\fBev56\fR" 4 +.IX Item "ev56" +.PD 0 +.IP "\fB21164a\fR" 4 +.IX Item "21164a" +.PD +Schedules as an \s-1EV5\s0 and supports the \s-1BWX\s0 extension. +.IP "\fBpca56\fR" 4 +.IX Item "pca56" +.PD 0 +.IP "\fB21164pc\fR" 4 +.IX Item "21164pc" +.IP "\fB21164PC\fR" 4 +.IX Item "21164PC" +.PD +Schedules as an \s-1EV5\s0 and supports the \s-1BWX\s0 and \s-1MAX\s0 extensions. +.IP "\fBev6\fR" 4 +.IX Item "ev6" +.PD 0 +.IP "\fB21264\fR" 4 +.IX Item "21264" +.PD +Schedules as an \s-1EV6\s0 and supports the \s-1BWX, FIX,\s0 and \s-1MAX\s0 extensions. +.IP "\fBev67\fR" 4 +.IX Item "ev67" +.PD 0 +.IP "\fB21264a\fR" 4 +.IX Item "21264a" +.PD +Schedules as an \s-1EV6\s0 and supports the \s-1BWX, CIX, FIX,\s0 and \s-1MAX\s0 extensions. +.RE +.RS 4 +.Sp +Native toolchains also support the value \fBnative\fR, +which selects the best architecture option for the host processor. +\&\fB\-mcpu=native\fR has no effect if \s-1GCC\s0 does not recognize +the processor. +.RE +.IP "\fB\-mtune=\fR\fIcpu_type\fR" 4 +.IX Item "-mtune=cpu_type" +Set only the instruction scheduling parameters for machine type +\&\fIcpu_type\fR. The instruction set is not changed. +.Sp +Native toolchains also support the value \fBnative\fR, +which selects the best architecture option for the host processor. +\&\fB\-mtune=native\fR has no effect if \s-1GCC\s0 does not recognize +the processor. +.IP "\fB\-mmemory\-latency=\fR\fItime\fR" 4 +.IX Item "-mmemory-latency=time" +Sets the latency the scheduler should assume for typical memory +references as seen by the application. This number is highly +dependent on the memory access patterns used by the application +and the size of the external cache on the machine. +.Sp +Valid options for \fItime\fR are +.RS 4 +.IP "\fInumber\fR" 4 +.IX Item "number" +A decimal number representing clock cycles. +.IP "\fBL1\fR" 4 +.IX Item "L1" +.PD 0 +.IP "\fBL2\fR" 4 +.IX Item "L2" +.IP "\fBL3\fR" 4 +.IX Item "L3" +.IP "\fBmain\fR" 4 +.IX Item "main" +.PD +The compiler contains estimates of the number of clock cycles for +\&\*(L"typical\*(R" \s-1EV4 & EV5\s0 hardware for the Level 1, 2 & 3 caches +(also called Dcache, Scache, and Bcache), as well as to main memory. +Note that L3 is only valid for \s-1EV5.\s0 +.RE +.RS 4 +.RE +.PP +\fI\s-1FR30\s0 Options\fR +.IX Subsection "FR30 Options" +.PP +These options are defined specifically for the \s-1FR30\s0 port. +.IP "\fB\-msmall\-model\fR" 4 +.IX Item "-msmall-model" +Use the small address space model. This can produce smaller code, but +it does assume that all symbolic values and addresses fit into a +20\-bit range. +.IP "\fB\-mno\-lsim\fR" 4 +.IX Item "-mno-lsim" +Assume that runtime support has been provided and so there is no need +to include the simulator library (\fIlibsim.a\fR) on the linker +command line. +.PP +\fI\s-1FRV\s0 Options\fR +.IX Subsection "FRV Options" +.IP "\fB\-mgpr\-32\fR" 4 +.IX Item "-mgpr-32" +Only use the first 32 general-purpose registers. +.IP "\fB\-mgpr\-64\fR" 4 +.IX Item "-mgpr-64" +Use all 64 general-purpose registers. +.IP "\fB\-mfpr\-32\fR" 4 +.IX Item "-mfpr-32" +Use only the first 32 floating-point registers. +.IP "\fB\-mfpr\-64\fR" 4 +.IX Item "-mfpr-64" +Use all 64 floating-point registers. +.IP "\fB\-mhard\-float\fR" 4 +.IX Item "-mhard-float" +Use hardware instructions for floating-point operations. +.IP "\fB\-msoft\-float\fR" 4 +.IX Item "-msoft-float" +Use library routines for floating-point operations. +.IP "\fB\-malloc\-cc\fR" 4 +.IX Item "-malloc-cc" +Dynamically allocate condition code registers. +.IP "\fB\-mfixed\-cc\fR" 4 +.IX Item "-mfixed-cc" +Do not try to dynamically allocate condition code registers, only +use \f(CW\*(C`icc0\*(C'\fR and \f(CW\*(C`fcc0\*(C'\fR. +.IP "\fB\-mdword\fR" 4 +.IX Item "-mdword" +Change \s-1ABI\s0 to use double word insns. +.IP "\fB\-mno\-dword\fR" 4 +.IX Item "-mno-dword" +Do not use double word instructions. +.IP "\fB\-mdouble\fR" 4 +.IX Item "-mdouble" +Use floating-point double instructions. +.IP "\fB\-mno\-double\fR" 4 +.IX Item "-mno-double" +Do not use floating-point double instructions. +.IP "\fB\-mmedia\fR" 4 +.IX Item "-mmedia" +Use media instructions. +.IP "\fB\-mno\-media\fR" 4 +.IX Item "-mno-media" +Do not use media instructions. +.IP "\fB\-mmuladd\fR" 4 +.IX Item "-mmuladd" +Use multiply and add/subtract instructions. +.IP "\fB\-mno\-muladd\fR" 4 +.IX Item "-mno-muladd" +Do not use multiply and add/subtract instructions. +.IP "\fB\-mfdpic\fR" 4 +.IX Item "-mfdpic" +Select the \s-1FDPIC ABI,\s0 which uses function descriptors to represent +pointers to functions. Without any PIC/PIE\-related options, it +implies \fB\-fPIE\fR. With \fB\-fpic\fR or \fB\-fpie\fR, it +assumes \s-1GOT\s0 entries and small data are within a 12\-bit range from the +\&\s-1GOT\s0 base address; with \fB\-fPIC\fR or \fB\-fPIE\fR, \s-1GOT\s0 offsets +are computed with 32 bits. +With a \fBbfin-elf\fR target, this option implies \fB\-msim\fR. +.IP "\fB\-minline\-plt\fR" 4 +.IX Item "-minline-plt" +Enable inlining of \s-1PLT\s0 entries in function calls to functions that are +not known to bind locally. It has no effect without \fB\-mfdpic\fR. +It's enabled by default if optimizing for speed and compiling for +shared libraries (i.e., \fB\-fPIC\fR or \fB\-fpic\fR), or when an +optimization option such as \fB\-O3\fR or above is present in the +command line. +.IP "\fB\-mTLS\fR" 4 +.IX Item "-mTLS" +Assume a large \s-1TLS\s0 segment when generating thread-local code. +.IP "\fB\-mtls\fR" 4 +.IX Item "-mtls" +Do not assume a large \s-1TLS\s0 segment when generating thread-local code. +.IP "\fB\-mgprel\-ro\fR" 4 +.IX Item "-mgprel-ro" +Enable the use of \f(CW\*(C`GPREL\*(C'\fR relocations in the \s-1FDPIC ABI\s0 for data +that is known to be in read-only sections. It's enabled by default, +except for \fB\-fpic\fR or \fB\-fpie\fR: even though it may help +make the global offset table smaller, it trades 1 instruction for 4. +With \fB\-fPIC\fR or \fB\-fPIE\fR, it trades 3 instructions for 4, +one of which may be shared by multiple symbols, and it avoids the need +for a \s-1GOT\s0 entry for the referenced symbol, so it's more likely to be a +win. If it is not, \fB\-mno\-gprel\-ro\fR can be used to disable it. +.IP "\fB\-multilib\-library\-pic\fR" 4 +.IX Item "-multilib-library-pic" +Link with the (library, not \s-1FD\s0) pic libraries. It's implied by +\&\fB\-mlibrary\-pic\fR, as well as by \fB\-fPIC\fR and +\&\fB\-fpic\fR without \fB\-mfdpic\fR. You should never have to use +it explicitly. +.IP "\fB\-mlinked\-fp\fR" 4 +.IX Item "-mlinked-fp" +Follow the \s-1EABI\s0 requirement of always creating a frame pointer whenever +a stack frame is allocated. This option is enabled by default and can +be disabled with \fB\-mno\-linked\-fp\fR. +.IP "\fB\-mlong\-calls\fR" 4 +.IX Item "-mlong-calls" +Use indirect addressing to call functions outside the current +compilation unit. This allows the functions to be placed anywhere +within the 32\-bit address space. +.IP "\fB\-malign\-labels\fR" 4 +.IX Item "-malign-labels" +Try to align labels to an 8\-byte boundary by inserting NOPs into the +previous packet. This option only has an effect when \s-1VLIW\s0 packing +is enabled. It doesn't create new packets; it merely adds NOPs to +existing ones. +.IP "\fB\-mlibrary\-pic\fR" 4 +.IX Item "-mlibrary-pic" +Generate position-independent \s-1EABI\s0 code. +.IP "\fB\-macc\-4\fR" 4 +.IX Item "-macc-4" +Use only the first four media accumulator registers. +.IP "\fB\-macc\-8\fR" 4 +.IX Item "-macc-8" +Use all eight media accumulator registers. +.IP "\fB\-mpack\fR" 4 +.IX Item "-mpack" +Pack \s-1VLIW\s0 instructions. +.IP "\fB\-mno\-pack\fR" 4 +.IX Item "-mno-pack" +Do not pack \s-1VLIW\s0 instructions. +.IP "\fB\-mno\-eflags\fR" 4 +.IX Item "-mno-eflags" +Do not mark \s-1ABI\s0 switches in e_flags. +.IP "\fB\-mcond\-move\fR" 4 +.IX Item "-mcond-move" +Enable the use of conditional-move instructions (default). +.Sp +This switch is mainly for debugging the compiler and will likely be removed +in a future version. +.IP "\fB\-mno\-cond\-move\fR" 4 +.IX Item "-mno-cond-move" +Disable the use of conditional-move instructions. +.Sp +This switch is mainly for debugging the compiler and will likely be removed +in a future version. +.IP "\fB\-mscc\fR" 4 +.IX Item "-mscc" +Enable the use of conditional set instructions (default). +.Sp +This switch is mainly for debugging the compiler and will likely be removed +in a future version. +.IP "\fB\-mno\-scc\fR" 4 +.IX Item "-mno-scc" +Disable the use of conditional set instructions. +.Sp +This switch is mainly for debugging the compiler and will likely be removed +in a future version. +.IP "\fB\-mcond\-exec\fR" 4 +.IX Item "-mcond-exec" +Enable the use of conditional execution (default). +.Sp +This switch is mainly for debugging the compiler and will likely be removed +in a future version. +.IP "\fB\-mno\-cond\-exec\fR" 4 +.IX Item "-mno-cond-exec" +Disable the use of conditional execution. +.Sp +This switch is mainly for debugging the compiler and will likely be removed +in a future version. +.IP "\fB\-mvliw\-branch\fR" 4 +.IX Item "-mvliw-branch" +Run a pass to pack branches into \s-1VLIW\s0 instructions (default). +.Sp +This switch is mainly for debugging the compiler and will likely be removed +in a future version. +.IP "\fB\-mno\-vliw\-branch\fR" 4 +.IX Item "-mno-vliw-branch" +Do not run a pass to pack branches into \s-1VLIW\s0 instructions. +.Sp +This switch is mainly for debugging the compiler and will likely be removed +in a future version. +.IP "\fB\-mmulti\-cond\-exec\fR" 4 +.IX Item "-mmulti-cond-exec" +Enable optimization of \f(CW\*(C`&&\*(C'\fR and \f(CW\*(C`||\*(C'\fR in conditional execution +(default). +.Sp +This switch is mainly for debugging the compiler and will likely be removed +in a future version. +.IP "\fB\-mno\-multi\-cond\-exec\fR" 4 +.IX Item "-mno-multi-cond-exec" +Disable optimization of \f(CW\*(C`&&\*(C'\fR and \f(CW\*(C`||\*(C'\fR in conditional execution. +.Sp +This switch is mainly for debugging the compiler and will likely be removed +in a future version. +.IP "\fB\-mnested\-cond\-exec\fR" 4 +.IX Item "-mnested-cond-exec" +Enable nested conditional execution optimizations (default). +.Sp +This switch is mainly for debugging the compiler and will likely be removed +in a future version. +.IP "\fB\-mno\-nested\-cond\-exec\fR" 4 +.IX Item "-mno-nested-cond-exec" +Disable nested conditional execution optimizations. +.Sp +This switch is mainly for debugging the compiler and will likely be removed +in a future version. +.IP "\fB\-moptimize\-membar\fR" 4 +.IX Item "-moptimize-membar" +This switch removes redundant \f(CW\*(C`membar\*(C'\fR instructions from the +compiler-generated code. It is enabled by default. +.IP "\fB\-mno\-optimize\-membar\fR" 4 +.IX Item "-mno-optimize-membar" +This switch disables the automatic removal of redundant \f(CW\*(C`membar\*(C'\fR +instructions from the generated code. +.IP "\fB\-mtomcat\-stats\fR" 4 +.IX Item "-mtomcat-stats" +Cause gas to print out tomcat statistics. +.IP "\fB\-mcpu=\fR\fIcpu\fR" 4 +.IX Item "-mcpu=cpu" +Select the processor type for which to generate code. Possible values are +\&\fBfrv\fR, \fBfr550\fR, \fBtomcat\fR, \fBfr500\fR, \fBfr450\fR, +\&\fBfr405\fR, \fBfr400\fR, \fBfr300\fR and \fBsimple\fR. +.PP +\fIGNU/Linux Options\fR +.IX Subsection "GNU/Linux Options" +.PP +These \fB\-m\fR options are defined for GNU/Linux targets: +.IP "\fB\-mglibc\fR" 4 +.IX Item "-mglibc" +Use the \s-1GNU C\s0 library. This is the default except +on \fB*\-*\-linux\-*uclibc*\fR and \fB*\-*\-linux\-*android*\fR targets. +.IP "\fB\-muclibc\fR" 4 +.IX Item "-muclibc" +Use uClibc C library. This is the default on +\&\fB*\-*\-linux\-*uclibc*\fR targets. +.IP "\fB\-mbionic\fR" 4 +.IX Item "-mbionic" +Use Bionic C library. This is the default on +\&\fB*\-*\-linux\-*android*\fR targets. +.IP "\fB\-mandroid\fR" 4 +.IX Item "-mandroid" +Compile code compatible with Android platform. This is the default on +\&\fB*\-*\-linux\-*android*\fR targets. +.Sp +When compiling, this option enables \fB\-mbionic\fR, \fB\-fPIC\fR, +\&\fB\-fno\-exceptions\fR and \fB\-fno\-rtti\fR by default. When linking, +this option makes the \s-1GCC\s0 driver pass Android-specific options to the linker. +Finally, this option causes the preprocessor macro \f(CW\*(C`_\|_ANDROID_\|_\*(C'\fR +to be defined. +.IP "\fB\-tno\-android\-cc\fR" 4 +.IX Item "-tno-android-cc" +Disable compilation effects of \fB\-mandroid\fR, i.e., do not enable +\&\fB\-mbionic\fR, \fB\-fPIC\fR, \fB\-fno\-exceptions\fR and +\&\fB\-fno\-rtti\fR by default. +.IP "\fB\-tno\-android\-ld\fR" 4 +.IX Item "-tno-android-ld" +Disable linking effects of \fB\-mandroid\fR, i.e., pass standard Linux +linking options to the linker. +.PP +\fIH8/300 Options\fR +.IX Subsection "H8/300 Options" +.PP +These \fB\-m\fR options are defined for the H8/300 implementations: +.IP "\fB\-mrelax\fR" 4 +.IX Item "-mrelax" +Shorten some address references at link time, when possible; uses the +linker option \fB\-relax\fR. +.IP "\fB\-mh\fR" 4 +.IX Item "-mh" +Generate code for the H8/300H. +.IP "\fB\-ms\fR" 4 +.IX Item "-ms" +Generate code for the H8S. +.IP "\fB\-mn\fR" 4 +.IX Item "-mn" +Generate code for the H8S and H8/300H in the normal mode. This switch +must be used either with \fB\-mh\fR or \fB\-ms\fR. +.IP "\fB\-ms2600\fR" 4 +.IX Item "-ms2600" +Generate code for the H8S/2600. This switch must be used with \fB\-ms\fR. +.IP "\fB\-mexr\fR" 4 +.IX Item "-mexr" +Extended registers are stored on stack before execution of function +with monitor attribute. Default option is \fB\-mexr\fR. +This option is valid only for H8S targets. +.IP "\fB\-mno\-exr\fR" 4 +.IX Item "-mno-exr" +Extended registers are not stored on stack before execution of function +with monitor attribute. Default option is \fB\-mno\-exr\fR. +This option is valid only for H8S targets. +.IP "\fB\-mint32\fR" 4 +.IX Item "-mint32" +Make \f(CW\*(C`int\*(C'\fR data 32 bits by default. +.IP "\fB\-malign\-300\fR" 4 +.IX Item "-malign-300" +On the H8/300H and H8S, use the same alignment rules as for the H8/300. +The default for the H8/300H and H8S is to align longs and floats on +4\-byte boundaries. +\&\fB\-malign\-300\fR causes them to be aligned on 2\-byte boundaries. +This option has no effect on the H8/300. +.PP +\fI\s-1HPPA\s0 Options\fR +.IX Subsection "HPPA Options" +.PP +These \fB\-m\fR options are defined for the \s-1HPPA\s0 family of computers: +.IP "\fB\-march=\fR\fIarchitecture-type\fR" 4 +.IX Item "-march=architecture-type" +Generate code for the specified architecture. The choices for +\&\fIarchitecture-type\fR are \fB1.0\fR for \s-1PA 1.0, \s0\fB1.1\fR for \s-1PA +1.1,\s0 and \fB2.0\fR for \s-1PA 2.0\s0 processors. Refer to +\&\fI/usr/lib/sched.models\fR on an HP-UX system to determine the proper +architecture option for your machine. Code compiled for lower numbered +architectures runs on higher numbered architectures, but not the +other way around. +.IP "\fB\-mpa\-risc\-1\-0\fR" 4 +.IX Item "-mpa-risc-1-0" +.PD 0 +.IP "\fB\-mpa\-risc\-1\-1\fR" 4 +.IX Item "-mpa-risc-1-1" +.IP "\fB\-mpa\-risc\-2\-0\fR" 4 +.IX Item "-mpa-risc-2-0" +.PD +Synonyms for \fB\-march=1.0\fR, \fB\-march=1.1\fR, and \fB\-march=2.0\fR respectively. +.IP "\fB\-mjump\-in\-delay\fR" 4 +.IX Item "-mjump-in-delay" +Fill delay slots of function calls with unconditional jump instructions +by modifying the return pointer for the function call to be the target +of the conditional jump. +.IP "\fB\-mdisable\-fpregs\fR" 4 +.IX Item "-mdisable-fpregs" +Prevent floating-point registers from being used in any manner. This is +necessary for compiling kernels that perform lazy context switching of +floating-point registers. If you use this option and attempt to perform +floating-point operations, the compiler aborts. +.IP "\fB\-mdisable\-indexing\fR" 4 +.IX Item "-mdisable-indexing" +Prevent the compiler from using indexing address modes. This avoids some +rather obscure problems when compiling \s-1MIG\s0 generated code under \s-1MACH.\s0 +.IP "\fB\-mno\-space\-regs\fR" 4 +.IX Item "-mno-space-regs" +Generate code that assumes the target has no space registers. This allows +\&\s-1GCC\s0 to generate faster indirect calls and use unscaled index address modes. +.Sp +Such code is suitable for level 0 \s-1PA\s0 systems and kernels. +.IP "\fB\-mfast\-indirect\-calls\fR" 4 +.IX Item "-mfast-indirect-calls" +Generate code that assumes calls never cross space boundaries. This +allows \s-1GCC\s0 to emit code that performs faster indirect calls. +.Sp +This option does not work in the presence of shared libraries or nested +functions. +.IP "\fB\-mfixed\-range=\fR\fIregister-range\fR" 4 +.IX Item "-mfixed-range=register-range" +Generate code treating the given register range as fixed registers. +A fixed register is one that the register allocator cannot use. This is +useful when compiling kernel code. A register range is specified as +two registers separated by a dash. Multiple register ranges can be +specified separated by a comma. +.IP "\fB\-mlong\-load\-store\fR" 4 +.IX Item "-mlong-load-store" +Generate 3\-instruction load and store sequences as sometimes required by +the HP-UX 10 linker. This is equivalent to the \fB+k\fR option to +the \s-1HP\s0 compilers. +.IP "\fB\-mportable\-runtime\fR" 4 +.IX Item "-mportable-runtime" +Use the portable calling conventions proposed by \s-1HP\s0 for \s-1ELF\s0 systems. +.IP "\fB\-mgas\fR" 4 +.IX Item "-mgas" +Enable the use of assembler directives only \s-1GAS\s0 understands. +.IP "\fB\-mschedule=\fR\fIcpu-type\fR" 4 +.IX Item "-mschedule=cpu-type" +Schedule code according to the constraints for the machine type +\&\fIcpu-type\fR. The choices for \fIcpu-type\fR are \fB700\fR +\&\fB7100\fR, \fB7100LC\fR, \fB7200\fR, \fB7300\fR and \fB8000\fR. Refer +to \fI/usr/lib/sched.models\fR on an HP-UX system to determine the +proper scheduling option for your machine. The default scheduling is +\&\fB8000\fR. +.IP "\fB\-mlinker\-opt\fR" 4 +.IX Item "-mlinker-opt" +Enable the optimization pass in the HP-UX linker. Note this makes symbolic +debugging impossible. It also triggers a bug in the HP-UX 8 and HP-UX 9 +linkers in which they give bogus error messages when linking some programs. +.IP "\fB\-msoft\-float\fR" 4 +.IX Item "-msoft-float" +Generate output containing library calls for floating point. +\&\fBWarning:\fR the requisite libraries are not available for all \s-1HPPA\s0 +targets. Normally the facilities of the machine's usual C compiler are +used, but this cannot be done directly in cross-compilation. You must make +your own arrangements to provide suitable library functions for +cross-compilation. +.Sp +\&\fB\-msoft\-float\fR changes the calling convention in the output file; +therefore, it is only useful if you compile \fIall\fR of a program with +this option. In particular, you need to compile \fIlibgcc.a\fR, the +library that comes with \s-1GCC,\s0 with \fB\-msoft\-float\fR in order for +this to work. +.IP "\fB\-msio\fR" 4 +.IX Item "-msio" +Generate the predefine, \f(CW\*(C`_SIO\*(C'\fR, for server \s-1IO. \s0 The default is +\&\fB\-mwsio\fR. This generates the predefines, \f(CW\*(C`_\|_hp9000s700\*(C'\fR, +\&\f(CW\*(C`_\|_hp9000s700_\|_\*(C'\fR and \f(CW\*(C`_WSIO\*(C'\fR, for workstation \s-1IO. \s0 These +options are available under HP-UX and HI-UX. +.IP "\fB\-mgnu\-ld\fR" 4 +.IX Item "-mgnu-ld" +Use options specific to \s-1GNU \s0\fBld\fR. +This passes \fB\-shared\fR to \fBld\fR when +building a shared library. It is the default when \s-1GCC\s0 is configured, +explicitly or implicitly, with the \s-1GNU\s0 linker. This option does not +affect which \fBld\fR is called; it only changes what parameters +are passed to that \fBld\fR. +The \fBld\fR that is called is determined by the +\&\fB\-\-with\-ld\fR configure option, \s-1GCC\s0's program search path, and +finally by the user's \fB\s-1PATH\s0\fR. The linker used by \s-1GCC\s0 can be printed +using \fBwhich `gcc \-print\-prog\-name=ld`\fR. This option is only available +on the 64\-bit HP-UX \s-1GCC,\s0 i.e. configured with \fBhppa*64*\-*\-hpux*\fR. +.IP "\fB\-mhp\-ld\fR" 4 +.IX Item "-mhp-ld" +Use options specific to \s-1HP \s0\fBld\fR. +This passes \fB\-b\fR to \fBld\fR when building +a shared library and passes \fB+Accept TypeMismatch\fR to \fBld\fR on all +links. It is the default when \s-1GCC\s0 is configured, explicitly or +implicitly, with the \s-1HP\s0 linker. This option does not affect +which \fBld\fR is called; it only changes what parameters are passed to that +\&\fBld\fR. +The \fBld\fR that is called is determined by the \fB\-\-with\-ld\fR +configure option, \s-1GCC\s0's program search path, and finally by the user's +\&\fB\s-1PATH\s0\fR. The linker used by \s-1GCC\s0 can be printed using \fBwhich +`gcc \-print\-prog\-name=ld`\fR. This option is only available on the 64\-bit +HP-UX \s-1GCC,\s0 i.e. configured with \fBhppa*64*\-*\-hpux*\fR. +.IP "\fB\-mlong\-calls\fR" 4 +.IX Item "-mlong-calls" +Generate code that uses long call sequences. This ensures that a call +is always able to reach linker generated stubs. The default is to generate +long calls only when the distance from the call site to the beginning +of the function or translation unit, as the case may be, exceeds a +predefined limit set by the branch type being used. The limits for +normal calls are 7,600,000 and 240,000 bytes, respectively for the +\&\s-1PA 2.0\s0 and \s-1PA 1.X\s0 architectures. Sibcalls are always limited at +240,000 bytes. +.Sp +Distances are measured from the beginning of functions when using the +\&\fB\-ffunction\-sections\fR option, or when using the \fB\-mgas\fR +and \fB\-mno\-portable\-runtime\fR options together under HP-UX with +the \s-1SOM\s0 linker. +.Sp +It is normally not desirable to use this option as it degrades +performance. However, it may be useful in large applications, +particularly when partial linking is used to build the application. +.Sp +The types of long calls used depends on the capabilities of the +assembler and linker, and the type of code being generated. The +impact on systems that support long absolute calls, and long pic +symbol-difference or pc-relative calls should be relatively small. +However, an indirect call is used on 32\-bit \s-1ELF\s0 systems in pic code +and it is quite long. +.IP "\fB\-munix=\fR\fIunix-std\fR" 4 +.IX Item "-munix=unix-std" +Generate compiler predefines and select a startfile for the specified +\&\s-1UNIX\s0 standard. The choices for \fIunix-std\fR are \fB93\fR, \fB95\fR +and \fB98\fR. \fB93\fR is supported on all HP-UX versions. \fB95\fR +is available on HP-UX 10.10 and later. \fB98\fR is available on HP-UX +11.11 and later. The default values are \fB93\fR for HP-UX 10.00, +\&\fB95\fR for HP-UX 10.10 though to 11.00, and \fB98\fR for HP-UX 11.11 +and later. +.Sp +\&\fB\-munix=93\fR provides the same predefines as \s-1GCC 3.3\s0 and 3.4. +\&\fB\-munix=95\fR provides additional predefines for \f(CW\*(C`XOPEN_UNIX\*(C'\fR +and \f(CW\*(C`_XOPEN_SOURCE_EXTENDED\*(C'\fR, and the startfile \fIunix95.o\fR. +\&\fB\-munix=98\fR provides additional predefines for \f(CW\*(C`_XOPEN_UNIX\*(C'\fR, +\&\f(CW\*(C`_XOPEN_SOURCE_EXTENDED\*(C'\fR, \f(CW\*(C`_INCLUDE_\|_STDC_A1_SOURCE\*(C'\fR and +\&\f(CW\*(C`_INCLUDE_XOPEN_SOURCE_500\*(C'\fR, and the startfile \fIunix98.o\fR. +.Sp +It is \fIimportant\fR to note that this option changes the interfaces +for various library routines. It also affects the operational behavior +of the C library. Thus, \fIextreme\fR care is needed in using this +option. +.Sp +Library code that is intended to operate with more than one \s-1UNIX\s0 +standard must test, set and restore the variable \fI_\|_xpg4_extended_mask\fR +as appropriate. Most \s-1GNU\s0 software doesn't provide this capability. +.IP "\fB\-nolibdld\fR" 4 +.IX Item "-nolibdld" +Suppress the generation of link options to search libdld.sl when the +\&\fB\-static\fR option is specified on HP-UX 10 and later. +.IP "\fB\-static\fR" 4 +.IX Item "-static" +The HP-UX implementation of setlocale in libc has a dependency on +libdld.sl. There isn't an archive version of libdld.sl. Thus, +when the \fB\-static\fR option is specified, special link options +are needed to resolve this dependency. +.Sp +On HP-UX 10 and later, the \s-1GCC\s0 driver adds the necessary options to +link with libdld.sl when the \fB\-static\fR option is specified. +This causes the resulting binary to be dynamic. On the 64\-bit port, +the linkers generate dynamic binaries by default in any case. The +\&\fB\-nolibdld\fR option can be used to prevent the \s-1GCC\s0 driver from +adding these link options. +.IP "\fB\-threads\fR" 4 +.IX Item "-threads" +Add support for multithreading with the \fIdce thread\fR library +under HP-UX. This option sets flags for both the preprocessor and +linker. +.PP +\fIIntel 386 and \s-1AMD\s0 x86\-64 Options\fR +.IX Subsection "Intel 386 and AMD x86-64 Options" +.PP +These \fB\-m\fR options are defined for the i386 and x86\-64 family of +computers: +.IP "\fB\-march=\fR\fIcpu-type\fR" 4 +.IX Item "-march=cpu-type" +Generate instructions for the machine type \fIcpu-type\fR. In contrast to +\&\fB\-mtune=\fR\fIcpu-type\fR, which merely tunes the generated code +for the specified \fIcpu-type\fR, \fB\-march=\fR\fIcpu-type\fR allows \s-1GCC\s0 +to generate code that may not run at all on processors other than the one +indicated. Specifying \fB\-march=\fR\fIcpu-type\fR implies +\&\fB\-mtune=\fR\fIcpu-type\fR. +.Sp +The choices for \fIcpu-type\fR are: +.RS 4 +.IP "\fBnative\fR" 4 +.IX Item "native" +This selects the \s-1CPU\s0 to generate code for at compilation time by determining +the processor type of the compiling machine. Using \fB\-march=native\fR +enables all instruction subsets supported by the local machine (hence +the result might not run on different machines). Using \fB\-mtune=native\fR +produces code optimized for the local machine under the constraints +of the selected instruction set. +.IP "\fBi386\fR" 4 +.IX Item "i386" +Original Intel i386 \s-1CPU.\s0 +.IP "\fBi486\fR" 4 +.IX Item "i486" +Intel i486 \s-1CPU. \s0(No scheduling is implemented for this chip.) +.IP "\fBi586\fR" 4 +.IX Item "i586" +.PD 0 +.IP "\fBpentium\fR" 4 +.IX Item "pentium" +.PD +Intel Pentium \s-1CPU\s0 with no \s-1MMX\s0 support. +.IP "\fBpentium-mmx\fR" 4 +.IX Item "pentium-mmx" +Intel Pentium \s-1MMX CPU,\s0 based on Pentium core with \s-1MMX\s0 instruction set support. +.IP "\fBpentiumpro\fR" 4 +.IX Item "pentiumpro" +Intel Pentium Pro \s-1CPU.\s0 +.IP "\fBi686\fR" 4 +.IX Item "i686" +When used with \fB\-march\fR, the Pentium Pro +instruction set is used, so the code runs on all i686 family chips. +When used with \fB\-mtune\fR, it has the same meaning as \fBgeneric\fR. +.IP "\fBpentium2\fR" 4 +.IX Item "pentium2" +Intel Pentium \s-1II CPU,\s0 based on Pentium Pro core with \s-1MMX\s0 instruction set +support. +.IP "\fBpentium3\fR" 4 +.IX Item "pentium3" +.PD 0 +.IP "\fBpentium3m\fR" 4 +.IX Item "pentium3m" +.PD +Intel Pentium \s-1III CPU,\s0 based on Pentium Pro core with \s-1MMX\s0 and \s-1SSE\s0 instruction +set support. +.IP "\fBpentium-m\fR" 4 +.IX Item "pentium-m" +Intel Pentium M; low-power version of Intel Pentium \s-1III CPU\s0 +with \s-1MMX, SSE\s0 and \s-1SSE2\s0 instruction set support. Used by Centrino notebooks. +.IP "\fBpentium4\fR" 4 +.IX Item "pentium4" +.PD 0 +.IP "\fBpentium4m\fR" 4 +.IX Item "pentium4m" +.PD +Intel Pentium 4 \s-1CPU\s0 with \s-1MMX, SSE\s0 and \s-1SSE2\s0 instruction set support. +.IP "\fBprescott\fR" 4 +.IX Item "prescott" +Improved version of Intel Pentium 4 \s-1CPU\s0 with \s-1MMX, SSE, SSE2\s0 and \s-1SSE3\s0 instruction +set support. +.IP "\fBnocona\fR" 4 +.IX Item "nocona" +Improved version of Intel Pentium 4 \s-1CPU\s0 with 64\-bit extensions, \s-1MMX, SSE, +SSE2\s0 and \s-1SSE3\s0 instruction set support. +.IP "\fBcore2\fR" 4 +.IX Item "core2" +Intel Core 2 \s-1CPU\s0 with 64\-bit extensions, \s-1MMX, SSE, SSE2, SSE3\s0 and \s-1SSSE3\s0 +instruction set support. +.IP "\fBnehalem\fR" 4 +.IX Item "nehalem" +Intel Nehalem \s-1CPU\s0 with 64\-bit extensions, \s-1MMX, SSE, SSE2, SSE3, SSSE3, +SSE4.1, SSE4.2\s0 and \s-1POPCNT\s0 instruction set support. +.IP "\fBwestmere\fR" 4 +.IX Item "westmere" +Intel Westmere \s-1CPU\s0 with 64\-bit extensions, \s-1MMX, SSE, SSE2, SSE3, SSSE3, +SSE4.1, SSE4.2, POPCNT, AES\s0 and \s-1PCLMUL\s0 instruction set support. +.IP "\fBsandybridge\fR" 4 +.IX Item "sandybridge" +Intel Sandy Bridge \s-1CPU\s0 with 64\-bit extensions, \s-1MMX, SSE, SSE2, SSE3, SSSE3, +SSE4.1, SSE4.2, POPCNT, AVX, AES\s0 and \s-1PCLMUL\s0 instruction set support. +.IP "\fBivybridge\fR" 4 +.IX Item "ivybridge" +Intel Ivy Bridge \s-1CPU\s0 with 64\-bit extensions, \s-1MMX, SSE, SSE2, SSE3, SSSE3, +SSE4.1, SSE4.2, POPCNT, AVX, AES, PCLMUL, FSGSBASE, RDRND\s0 and F16C +instruction set support. +.IP "\fBhaswell\fR" 4 +.IX Item "haswell" +Intel Haswell \s-1CPU\s0 with 64\-bit extensions, \s-1MOVBE, MMX, SSE, SSE2, SSE3, SSSE3, +SSE4.1, SSE4.2, POPCNT, AVX, AVX2, AES, PCLMUL, FSGSBASE, RDRND, FMA, +BMI, BMI2\s0 and F16C instruction set support. +.IP "\fBbroadwell\fR" 4 +.IX Item "broadwell" +Intel Broadwell \s-1CPU\s0 with 64\-bit extensions, \s-1MOVBE, MMX, SSE, SSE2, SSE3, SSSE3, +SSE4.1, SSE4.2, POPCNT, AVX, AVX2, AES, PCLMUL, FSGSBASE, RDRND, FMA, +BMI, BMI2, F16C, RDSEED, ADCX\s0 and \s-1PREFETCHW\s0 instruction set support. +.IP "\fBbonnell\fR" 4 +.IX Item "bonnell" +Intel Bonnell \s-1CPU\s0 with 64\-bit extensions, \s-1MOVBE, MMX, SSE, SSE2, SSE3\s0 and \s-1SSSE3\s0 +instruction set support. +.IP "\fBsilvermont\fR" 4 +.IX Item "silvermont" +Intel Silvermont \s-1CPU\s0 with 64\-bit extensions, \s-1MOVBE, MMX, SSE, SSE2, SSE3, SSSE3, +SSE4.1, SSE4.2, POPCNT, AES, PCLMUL\s0 and \s-1RDRND\s0 instruction set support. +.IP "\fBk6\fR" 4 +.IX Item "k6" +\&\s-1AMD K6 CPU\s0 with \s-1MMX\s0 instruction set support. +.IP "\fBk6\-2\fR" 4 +.IX Item "k6-2" +.PD 0 +.IP "\fBk6\-3\fR" 4 +.IX Item "k6-3" +.PD +Improved versions of \s-1AMD K6 CPU\s0 with \s-1MMX\s0 and 3DNow! instruction set support. +.IP "\fBathlon\fR" 4 +.IX Item "athlon" +.PD 0 +.IP "\fBathlon-tbird\fR" 4 +.IX Item "athlon-tbird" +.PD +\&\s-1AMD\s0 Athlon \s-1CPU\s0 with \s-1MMX,\s0 3dNOW!, enhanced 3DNow! and \s-1SSE\s0 prefetch instructions +support. +.IP "\fBathlon\-4\fR" 4 +.IX Item "athlon-4" +.PD 0 +.IP "\fBathlon-xp\fR" 4 +.IX Item "athlon-xp" +.IP "\fBathlon-mp\fR" 4 +.IX Item "athlon-mp" +.PD +Improved \s-1AMD\s0 Athlon \s-1CPU\s0 with \s-1MMX,\s0 3DNow!, enhanced 3DNow! and full \s-1SSE\s0 +instruction set support. +.IP "\fBk8\fR" 4 +.IX Item "k8" +.PD 0 +.IP "\fBopteron\fR" 4 +.IX Item "opteron" +.IP "\fBathlon64\fR" 4 +.IX Item "athlon64" +.IP "\fBathlon-fx\fR" 4 +.IX Item "athlon-fx" +.PD +Processors based on the \s-1AMD K8\s0 core with x86\-64 instruction set support, +including the \s-1AMD\s0 Opteron, Athlon 64, and Athlon 64 \s-1FX\s0 processors. +(This supersets \s-1MMX, SSE, SSE2,\s0 3DNow!, enhanced 3DNow! and 64\-bit +instruction set extensions.) +.IP "\fBk8\-sse3\fR" 4 +.IX Item "k8-sse3" +.PD 0 +.IP "\fBopteron\-sse3\fR" 4 +.IX Item "opteron-sse3" +.IP "\fBathlon64\-sse3\fR" 4 +.IX Item "athlon64-sse3" +.PD +Improved versions of \s-1AMD K8\s0 cores with \s-1SSE3\s0 instruction set support. +.IP "\fBamdfam10\fR" 4 +.IX Item "amdfam10" +.PD 0 +.IP "\fBbarcelona\fR" 4 +.IX Item "barcelona" +.PD +CPUs based on \s-1AMD\s0 Family 10h cores with x86\-64 instruction set support. (This +supersets \s-1MMX, SSE, SSE2, SSE3, SSE4A,\s0 3DNow!, enhanced 3DNow!, \s-1ABM\s0 and 64\-bit +instruction set extensions.) +.IP "\fBbdver1\fR" 4 +.IX Item "bdver1" +CPUs based on \s-1AMD\s0 Family 15h cores with x86\-64 instruction set support. (This +supersets \s-1FMA4, AVX, XOP, LWP, AES, PCL_MUL, CX16, MMX, SSE, SSE2, SSE3, SSE4A, +SSSE3, SSE4.1, SSE4.2, ABM\s0 and 64\-bit instruction set extensions.) +.IP "\fBbdver2\fR" 4 +.IX Item "bdver2" +\&\s-1AMD\s0 Family 15h core based CPUs with x86\-64 instruction set support. (This +supersets \s-1BMI, TBM, F16C, FMA, FMA4, AVX, XOP, LWP, AES, PCL_MUL, CX16, MMX, +SSE, SSE2, SSE3, SSE4A, SSSE3, SSE4.1, SSE4.2, ABM\s0 and 64\-bit instruction set +extensions.) +.IP "\fBbdver3\fR" 4 +.IX Item "bdver3" +\&\s-1AMD\s0 Family 15h core based CPUs with x86\-64 instruction set support. (This +supersets \s-1BMI, TBM, F16C, FMA, FMA4, FSGSBASE, AVX, XOP, LWP, AES, +PCL_MUL, CX16, MMX, SSE, SSE2, SSE3, SSE4A, SSSE3, SSE4.1, SSE4.2, ABM\s0 and +64\-bit instruction set extensions. +.IP "\fBbdver4\fR" 4 +.IX Item "bdver4" +\&\s-1AMD\s0 Family 15h core based CPUs with x86\-64 instruction set support. (This +supersets \s-1BMI, BMI2, TBM, F16C, FMA, FMA4, FSGSBASE, AVX, AVX2, XOP, LWP, +AES, PCL_MUL, CX16, MOVBE, MMX, SSE, SSE2, SSE3, SSE4A, SSSE3, SSE4.1, +SSE4.2, ABM\s0 and 64\-bit instruction set extensions. +.IP "\fBbtver1\fR" 4 +.IX Item "btver1" +CPUs based on \s-1AMD\s0 Family 14h cores with x86\-64 instruction set support. (This +supersets \s-1MMX, SSE, SSE2, SSE3, SSSE3, SSE4A, CX16, ABM\s0 and 64\-bit +instruction set extensions.) +.IP "\fBbtver2\fR" 4 +.IX Item "btver2" +CPUs based on \s-1AMD\s0 Family 16h cores with x86\-64 instruction set support. This +includes \s-1MOVBE, F16C, BMI, AVX, PCL_MUL, AES, SSE4.2, SSE4.1, CX16, ABM, +SSE4A, SSSE3, SSE3, SSE2, SSE, MMX\s0 and 64\-bit instruction set extensions. +.IP "\fBwinchip\-c6\fR" 4 +.IX Item "winchip-c6" +\&\s-1IDT\s0 WinChip C6 \s-1CPU,\s0 dealt in same way as i486 with additional \s-1MMX\s0 instruction +set support. +.IP "\fBwinchip2\fR" 4 +.IX Item "winchip2" +\&\s-1IDT\s0 WinChip 2 \s-1CPU,\s0 dealt in same way as i486 with additional \s-1MMX\s0 and 3DNow! +instruction set support. +.IP "\fBc3\fR" 4 +.IX Item "c3" +\&\s-1VIA C3 CPU\s0 with \s-1MMX\s0 and 3DNow! instruction set support. (No scheduling is +implemented for this chip.) +.IP "\fBc3\-2\fR" 4 +.IX Item "c3-2" +\&\s-1VIA C3\-2 \s0(Nehemiah/C5XL) \s-1CPU\s0 with \s-1MMX\s0 and \s-1SSE\s0 instruction set support. +(No scheduling is +implemented for this chip.) +.IP "\fBgeode\fR" 4 +.IX Item "geode" +\&\s-1AMD\s0 Geode embedded processor with \s-1MMX\s0 and 3DNow! instruction set support. +.RE +.RS 4 +.RE +.IP "\fB\-mtune=\fR\fIcpu-type\fR" 4 +.IX Item "-mtune=cpu-type" +Tune to \fIcpu-type\fR everything applicable about the generated code, except +for the \s-1ABI\s0 and the set of available instructions. +While picking a specific \fIcpu-type\fR schedules things appropriately +for that particular chip, the compiler does not generate any code that +cannot run on the default machine type unless you use a +\&\fB\-march=\fR\fIcpu-type\fR option. +For example, if \s-1GCC\s0 is configured for i686\-pc\-linux\-gnu +then \fB\-mtune=pentium4\fR generates code that is tuned for Pentium 4 +but still runs on i686 machines. +.Sp +The choices for \fIcpu-type\fR are the same as for \fB\-march\fR. +In addition, \fB\-mtune\fR supports 2 extra choices for \fIcpu-type\fR: +.RS 4 +.IP "\fBgeneric\fR" 4 +.IX Item "generic" +Produce code optimized for the most common \s-1IA32/AMD64/EM64T\s0 processors. +If you know the \s-1CPU\s0 on which your code will run, then you should use +the corresponding \fB\-mtune\fR or \fB\-march\fR option instead of +\&\fB\-mtune=generic\fR. But, if you do not know exactly what \s-1CPU\s0 users +of your application will have, then you should use this option. +.Sp +As new processors are deployed in the marketplace, the behavior of this +option will change. Therefore, if you upgrade to a newer version of +\&\s-1GCC,\s0 code generation controlled by this option will change to reflect +the processors +that are most common at the time that version of \s-1GCC\s0 is released. +.Sp +There is no \fB\-march=generic\fR option because \fB\-march\fR +indicates the instruction set the compiler can use, and there is no +generic instruction set applicable to all processors. In contrast, +\&\fB\-mtune\fR indicates the processor (or, in this case, collection of +processors) for which the code is optimized. +.IP "\fBintel\fR" 4 +.IX Item "intel" +Produce code optimized for the most current Intel processors, which are +Haswell and Silvermont for this version of \s-1GCC. \s0 If you know the \s-1CPU\s0 +on which your code will run, then you should use the corresponding +\&\fB\-mtune\fR or \fB\-march\fR option instead of \fB\-mtune=intel\fR. +But, if you want your application performs better on both Haswell and +Silvermont, then you should use this option. +.Sp +As new Intel processors are deployed in the marketplace, the behavior of +this option will change. Therefore, if you upgrade to a newer version of +\&\s-1GCC,\s0 code generation controlled by this option will change to reflect +the most current Intel processors at the time that version of \s-1GCC\s0 is +released. +.Sp +There is no \fB\-march=intel\fR option because \fB\-march\fR indicates +the instruction set the compiler can use, and there is no common +instruction set applicable to all processors. In contrast, +\&\fB\-mtune\fR indicates the processor (or, in this case, collection of +processors) for which the code is optimized. +.RE +.RS 4 +.RE +.IP "\fB\-mcpu=\fR\fIcpu-type\fR" 4 +.IX Item "-mcpu=cpu-type" +A deprecated synonym for \fB\-mtune\fR. +.IP "\fB\-mfpmath=\fR\fIunit\fR" 4 +.IX Item "-mfpmath=unit" +Generate floating-point arithmetic for selected unit \fIunit\fR. The choices +for \fIunit\fR are: +.RS 4 +.IP "\fB387\fR" 4 +.IX Item "387" +Use the standard 387 floating-point coprocessor present on the majority of chips and +emulated otherwise. Code compiled with this option runs almost everywhere. +The temporary results are computed in 80\-bit precision instead of the precision +specified by the type, resulting in slightly different results compared to most +of other chips. See \fB\-ffloat\-store\fR for more detailed description. +.Sp +This is the default choice for i386 compiler. +.IP "\fBsse\fR" 4 +.IX Item "sse" +Use scalar floating-point instructions present in the \s-1SSE\s0 instruction set. +This instruction set is supported by Pentium \s-1III\s0 and newer chips, +and in the \s-1AMD\s0 line +by Athlon\-4, Athlon \s-1XP\s0 and Athlon \s-1MP\s0 chips. The earlier version of the \s-1SSE\s0 +instruction set supports only single-precision arithmetic, thus the double and +extended-precision arithmetic are still done using 387. A later version, present +only in Pentium 4 and \s-1AMD\s0 x86\-64 chips, supports double-precision +arithmetic too. +.Sp +For the i386 compiler, you must use \fB\-march=\fR\fIcpu-type\fR, \fB\-msse\fR +or \fB\-msse2\fR switches to enable \s-1SSE\s0 extensions and make this option +effective. For the x86\-64 compiler, these extensions are enabled by default. +.Sp +The resulting code should be considerably faster in the majority of cases and avoid +the numerical instability problems of 387 code, but may break some existing +code that expects temporaries to be 80 bits. +.Sp +This is the default choice for the x86\-64 compiler. +.IP "\fBsse,387\fR" 4 +.IX Item "sse,387" +.PD 0 +.IP "\fBsse+387\fR" 4 +.IX Item "sse+387" +.IP "\fBboth\fR" 4 +.IX Item "both" +.PD +Attempt to utilize both instruction sets at once. This effectively doubles the +amount of available registers, and on chips with separate execution units for +387 and \s-1SSE\s0 the execution resources too. Use this option with care, as it is +still experimental, because the \s-1GCC\s0 register allocator does not model separate +functional units well, resulting in unstable performance. +.RE +.RS 4 +.RE +.IP "\fB\-masm=\fR\fIdialect\fR" 4 +.IX Item "-masm=dialect" +Output assembly instructions using selected \fIdialect\fR. Supported +choices are \fBintel\fR or \fBatt\fR (the default). Darwin does +not support \fBintel\fR. +.IP "\fB\-mieee\-fp\fR" 4 +.IX Item "-mieee-fp" +.PD 0 +.IP "\fB\-mno\-ieee\-fp\fR" 4 +.IX Item "-mno-ieee-fp" +.PD +Control whether or not the compiler uses \s-1IEEE\s0 floating-point +comparisons. These correctly handle the case where the result of a +comparison is unordered. +.IP "\fB\-msoft\-float\fR" 4 +.IX Item "-msoft-float" +Generate output containing library calls for floating point. +.Sp +\&\fBWarning:\fR the requisite libraries are not part of \s-1GCC.\s0 +Normally the facilities of the machine's usual C compiler are used, but +this can't be done directly in cross-compilation. You must make your +own arrangements to provide suitable library functions for +cross-compilation. +.Sp +On machines where a function returns floating-point results in the 80387 +register stack, some floating-point opcodes may be emitted even if +\&\fB\-msoft\-float\fR is used. +.IP "\fB\-mno\-fp\-ret\-in\-387\fR" 4 +.IX Item "-mno-fp-ret-in-387" +Do not use the \s-1FPU\s0 registers for return values of functions. +.Sp +The usual calling convention has functions return values of types +\&\f(CW\*(C`float\*(C'\fR and \f(CW\*(C`double\*(C'\fR in an \s-1FPU\s0 register, even if there +is no \s-1FPU. \s0 The idea is that the operating system should emulate +an \s-1FPU.\s0 +.Sp +The option \fB\-mno\-fp\-ret\-in\-387\fR causes such values to be returned +in ordinary \s-1CPU\s0 registers instead. +.IP "\fB\-mno\-fancy\-math\-387\fR" 4 +.IX Item "-mno-fancy-math-387" +Some 387 emulators do not support the \f(CW\*(C`sin\*(C'\fR, \f(CW\*(C`cos\*(C'\fR and +\&\f(CW\*(C`sqrt\*(C'\fR instructions for the 387. Specify this option to avoid +generating those instructions. This option is the default on FreeBSD, +OpenBSD and NetBSD. This option is overridden when \fB\-march\fR +indicates that the target \s-1CPU\s0 always has an \s-1FPU\s0 and so the +instruction does not need emulation. These +instructions are not generated unless you also use the +\&\fB\-funsafe\-math\-optimizations\fR switch. +.IP "\fB\-malign\-double\fR" 4 +.IX Item "-malign-double" +.PD 0 +.IP "\fB\-mno\-align\-double\fR" 4 +.IX Item "-mno-align-double" +.PD +Control whether \s-1GCC\s0 aligns \f(CW\*(C`double\*(C'\fR, \f(CW\*(C`long double\*(C'\fR, and +\&\f(CW\*(C`long long\*(C'\fR variables on a two-word boundary or a one-word +boundary. Aligning \f(CW\*(C`double\*(C'\fR variables on a two-word boundary +produces code that runs somewhat faster on a Pentium at the +expense of more memory. +.Sp +On x86\-64, \fB\-malign\-double\fR is enabled by default. +.Sp +\&\fBWarning:\fR if you use the \fB\-malign\-double\fR switch, +structures containing the above types are aligned differently than +the published application binary interface specifications for the 386 +and are not binary compatible with structures in code compiled +without that switch. +.IP "\fB\-m96bit\-long\-double\fR" 4 +.IX Item "-m96bit-long-double" +.PD 0 +.IP "\fB\-m128bit\-long\-double\fR" 4 +.IX Item "-m128bit-long-double" +.PD +These switches control the size of \f(CW\*(C`long double\*(C'\fR type. The i386 +application binary interface specifies the size to be 96 bits, +so \fB\-m96bit\-long\-double\fR is the default in 32\-bit mode. +.Sp +Modern architectures (Pentium and newer) prefer \f(CW\*(C`long double\*(C'\fR +to be aligned to an 8\- or 16\-byte boundary. In arrays or structures +conforming to the \s-1ABI,\s0 this is not possible. So specifying +\&\fB\-m128bit\-long\-double\fR aligns \f(CW\*(C`long double\*(C'\fR +to a 16\-byte boundary by padding the \f(CW\*(C`long double\*(C'\fR with an additional +32\-bit zero. +.Sp +In the x86\-64 compiler, \fB\-m128bit\-long\-double\fR is the default choice as +its \s-1ABI\s0 specifies that \f(CW\*(C`long double\*(C'\fR is aligned on 16\-byte boundary. +.Sp +Notice that neither of these options enable any extra precision over the x87 +standard of 80 bits for a \f(CW\*(C`long double\*(C'\fR. +.Sp +\&\fBWarning:\fR if you override the default value for your target \s-1ABI,\s0 this +changes the size of +structures and arrays containing \f(CW\*(C`long double\*(C'\fR variables, +as well as modifying the function calling convention for functions taking +\&\f(CW\*(C`long double\*(C'\fR. Hence they are not binary-compatible +with code compiled without that switch. +.IP "\fB\-mlong\-double\-64\fR" 4 +.IX Item "-mlong-double-64" +.PD 0 +.IP "\fB\-mlong\-double\-80\fR" 4 +.IX Item "-mlong-double-80" +.IP "\fB\-mlong\-double\-128\fR" 4 +.IX Item "-mlong-double-128" +.PD +These switches control the size of \f(CW\*(C`long double\*(C'\fR type. A size +of 64 bits makes the \f(CW\*(C`long double\*(C'\fR type equivalent to the \f(CW\*(C`double\*(C'\fR +type. This is the default for 32\-bit Bionic C library. A size +of 128 bits makes the \f(CW\*(C`long double\*(C'\fR type equivalent to the +\&\f(CW\*(C`_\|_float128\*(C'\fR type. This is the default for 64\-bit Bionic C library. +.Sp +\&\fBWarning:\fR if you override the default value for your target \s-1ABI,\s0 this +changes the size of +structures and arrays containing \f(CW\*(C`long double\*(C'\fR variables, +as well as modifying the function calling convention for functions taking +\&\f(CW\*(C`long double\*(C'\fR. Hence they are not binary-compatible +with code compiled without that switch. +.IP "\fB\-mlarge\-data\-threshold=\fR\fIthreshold\fR" 4 +.IX Item "-mlarge-data-threshold=threshold" +When \fB\-mcmodel=medium\fR is specified, data objects larger than +\&\fIthreshold\fR are placed in the large data section. This value must be the +same across all objects linked into the binary, and defaults to 65535. +.IP "\fB\-mrtd\fR" 4 +.IX Item "-mrtd" +Use a different function-calling convention, in which functions that +take a fixed number of arguments return with the \f(CW\*(C`ret \f(CInum\f(CW\*(C'\fR +instruction, which pops their arguments while returning. This saves one +instruction in the caller since there is no need to pop the arguments +there. +.Sp +You can specify that an individual function is called with this calling +sequence with the function attribute \fBstdcall\fR. You can also +override the \fB\-mrtd\fR option by using the function attribute +\&\fBcdecl\fR. +.Sp +\&\fBWarning:\fR this calling convention is incompatible with the one +normally used on Unix, so you cannot use it if you need to call +libraries compiled with the Unix compiler. +.Sp +Also, you must provide function prototypes for all functions that +take variable numbers of arguments (including \f(CW\*(C`printf\*(C'\fR); +otherwise incorrect code is generated for calls to those +functions. +.Sp +In addition, seriously incorrect code results if you call a +function with too many arguments. (Normally, extra arguments are +harmlessly ignored.) +.IP "\fB\-mregparm=\fR\fInum\fR" 4 +.IX Item "-mregparm=num" +Control how many registers are used to pass integer arguments. By +default, no registers are used to pass arguments, and at most 3 +registers can be used. You can control this behavior for a specific +function by using the function attribute \fBregparm\fR. +.Sp +\&\fBWarning:\fR if you use this switch, and +\&\fInum\fR is nonzero, then you must build all modules with the same +value, including any libraries. This includes the system libraries and +startup modules. +.IP "\fB\-msseregparm\fR" 4 +.IX Item "-msseregparm" +Use \s-1SSE\s0 register passing conventions for float and double arguments +and return values. You can control this behavior for a specific +function by using the function attribute \fBsseregparm\fR. +.Sp +\&\fBWarning:\fR if you use this switch then you must build all +modules with the same value, including any libraries. This includes +the system libraries and startup modules. +.IP "\fB\-mvect8\-ret\-in\-mem\fR" 4 +.IX Item "-mvect8-ret-in-mem" +Return 8\-byte vectors in memory instead of \s-1MMX\s0 registers. This is the +default on Solaris@tie{}8 and 9 and VxWorks to match the \s-1ABI\s0 of the Sun +Studio compilers until version 12. Later compiler versions (starting +with Studio 12 Update@tie{}1) follow the \s-1ABI\s0 used by other x86 targets, which +is the default on Solaris@tie{}10 and later. \fIOnly\fR use this option if +you need to remain compatible with existing code produced by those +previous compiler versions or older versions of \s-1GCC.\s0 +.IP "\fB\-mpc32\fR" 4 +.IX Item "-mpc32" +.PD 0 +.IP "\fB\-mpc64\fR" 4 +.IX Item "-mpc64" +.IP "\fB\-mpc80\fR" 4 +.IX Item "-mpc80" +.PD +Set 80387 floating-point precision to 32, 64 or 80 bits. When \fB\-mpc32\fR +is specified, the significands of results of floating-point operations are +rounded to 24 bits (single precision); \fB\-mpc64\fR rounds the +significands of results of floating-point operations to 53 bits (double +precision) and \fB\-mpc80\fR rounds the significands of results of +floating-point operations to 64 bits (extended double precision), which is +the default. When this option is used, floating-point operations in higher +precisions are not available to the programmer without setting the \s-1FPU\s0 +control word explicitly. +.Sp +Setting the rounding of floating-point operations to less than the default +80 bits can speed some programs by 2% or more. Note that some mathematical +libraries assume that extended-precision (80\-bit) floating-point operations +are enabled by default; routines in such libraries could suffer significant +loss of accuracy, typically through so-called \*(L"catastrophic cancellation\*(R", +when this option is used to set the precision to less than extended precision. +.IP "\fB\-mstackrealign\fR" 4 +.IX Item "-mstackrealign" +Realign the stack at entry. On the Intel x86, the \fB\-mstackrealign\fR +option generates an alternate prologue and epilogue that realigns the +run-time stack if necessary. This supports mixing legacy codes that keep +4\-byte stack alignment with modern codes that keep 16\-byte stack alignment for +\&\s-1SSE\s0 compatibility. See also the attribute \f(CW\*(C`force_align_arg_pointer\*(C'\fR, +applicable to individual functions. +.IP "\fB\-mpreferred\-stack\-boundary=\fR\fInum\fR" 4 +.IX Item "-mpreferred-stack-boundary=num" +Attempt to keep the stack boundary aligned to a 2 raised to \fInum\fR +byte boundary. If \fB\-mpreferred\-stack\-boundary\fR is not specified, +the default is 4 (16 bytes or 128 bits). +.Sp +\&\fBWarning:\fR When generating code for the x86\-64 architecture with +\&\s-1SSE\s0 extensions disabled, \fB\-mpreferred\-stack\-boundary=3\fR can be +used to keep the stack boundary aligned to 8 byte boundary. Since +x86\-64 \s-1ABI\s0 require 16 byte stack alignment, this is \s-1ABI\s0 incompatible and +intended to be used in controlled environment where stack space is +important limitation. This option will lead to wrong code when functions +compiled with 16 byte stack alignment (such as functions from a standard +library) are called with misaligned stack. In this case, \s-1SSE\s0 +instructions may lead to misaligned memory access traps. In addition, +variable arguments will be handled incorrectly for 16 byte aligned +objects (including x87 long double and _\|_int128), leading to wrong +results. You must build all modules with +\&\fB\-mpreferred\-stack\-boundary=3\fR, including any libraries. This +includes the system libraries and startup modules. +.IP "\fB\-mincoming\-stack\-boundary=\fR\fInum\fR" 4 +.IX Item "-mincoming-stack-boundary=num" +Assume the incoming stack is aligned to a 2 raised to \fInum\fR byte +boundary. If \fB\-mincoming\-stack\-boundary\fR is not specified, +the one specified by \fB\-mpreferred\-stack\-boundary\fR is used. +.Sp +On Pentium and Pentium Pro, \f(CW\*(C`double\*(C'\fR and \f(CW\*(C`long double\*(C'\fR values +should be aligned to an 8\-byte boundary (see \fB\-malign\-double\fR) or +suffer significant run time performance penalties. On Pentium \s-1III,\s0 the +Streaming \s-1SIMD\s0 Extension (\s-1SSE\s0) data type \f(CW\*(C`_\|_m128\*(C'\fR may not work +properly if it is not 16\-byte aligned. +.Sp +To ensure proper alignment of this values on the stack, the stack boundary +must be as aligned as that required by any value stored on the stack. +Further, every function must be generated such that it keeps the stack +aligned. Thus calling a function compiled with a higher preferred +stack boundary from a function compiled with a lower preferred stack +boundary most likely misaligns the stack. It is recommended that +libraries that use callbacks always use the default setting. +.Sp +This extra alignment does consume extra stack space, and generally +increases code size. Code that is sensitive to stack space usage, such +as embedded systems and operating system kernels, may want to reduce the +preferred alignment to \fB\-mpreferred\-stack\-boundary=2\fR. +.IP "\fB\-mmmx\fR" 4 +.IX Item "-mmmx" +.PD 0 +.IP "\fB\-mno\-mmx\fR" 4 +.IX Item "-mno-mmx" +.IP "\fB\-msse\fR" 4 +.IX Item "-msse" +.IP "\fB\-mno\-sse\fR" 4 +.IX Item "-mno-sse" +.IP "\fB\-msse2\fR" 4 +.IX Item "-msse2" +.IP "\fB\-mno\-sse2\fR" 4 +.IX Item "-mno-sse2" +.IP "\fB\-msse3\fR" 4 +.IX Item "-msse3" +.IP "\fB\-mno\-sse3\fR" 4 +.IX Item "-mno-sse3" +.IP "\fB\-mssse3\fR" 4 +.IX Item "-mssse3" +.IP "\fB\-mno\-ssse3\fR" 4 +.IX Item "-mno-ssse3" +.IP "\fB\-msse4.1\fR" 4 +.IX Item "-msse4.1" +.IP "\fB\-mno\-sse4.1\fR" 4 +.IX Item "-mno-sse4.1" +.IP "\fB\-msse4.2\fR" 4 +.IX Item "-msse4.2" +.IP "\fB\-mno\-sse4.2\fR" 4 +.IX Item "-mno-sse4.2" +.IP "\fB\-msse4\fR" 4 +.IX Item "-msse4" +.IP "\fB\-mno\-sse4\fR" 4 +.IX Item "-mno-sse4" +.IP "\fB\-mavx\fR" 4 +.IX Item "-mavx" +.IP "\fB\-mno\-avx\fR" 4 +.IX Item "-mno-avx" +.IP "\fB\-mavx2\fR" 4 +.IX Item "-mavx2" +.IP "\fB\-mno\-avx2\fR" 4 +.IX Item "-mno-avx2" +.IP "\fB\-mavx512f\fR" 4 +.IX Item "-mavx512f" +.IP "\fB\-mno\-avx512f\fR" 4 +.IX Item "-mno-avx512f" +.IP "\fB\-mavx512pf\fR" 4 +.IX Item "-mavx512pf" +.IP "\fB\-mno\-avx512pf\fR" 4 +.IX Item "-mno-avx512pf" +.IP "\fB\-mavx512er\fR" 4 +.IX Item "-mavx512er" +.IP "\fB\-mno\-avx512er\fR" 4 +.IX Item "-mno-avx512er" +.IP "\fB\-mavx512cd\fR" 4 +.IX Item "-mavx512cd" +.IP "\fB\-mno\-avx512cd\fR" 4 +.IX Item "-mno-avx512cd" +.IP "\fB\-msha\fR" 4 +.IX Item "-msha" +.IP "\fB\-mno\-sha\fR" 4 +.IX Item "-mno-sha" +.IP "\fB\-maes\fR" 4 +.IX Item "-maes" +.IP "\fB\-mno\-aes\fR" 4 +.IX Item "-mno-aes" +.IP "\fB\-mpclmul\fR" 4 +.IX Item "-mpclmul" +.IP "\fB\-mno\-pclmul\fR" 4 +.IX Item "-mno-pclmul" +.IP "\fB\-mfsgsbase\fR" 4 +.IX Item "-mfsgsbase" +.IP "\fB\-mno\-fsgsbase\fR" 4 +.IX Item "-mno-fsgsbase" +.IP "\fB\-mrdrnd\fR" 4 +.IX Item "-mrdrnd" +.IP "\fB\-mno\-rdrnd\fR" 4 +.IX Item "-mno-rdrnd" +.IP "\fB\-mf16c\fR" 4 +.IX Item "-mf16c" +.IP "\fB\-mno\-f16c\fR" 4 +.IX Item "-mno-f16c" +.IP "\fB\-mfma\fR" 4 +.IX Item "-mfma" +.IP "\fB\-mno\-fma\fR" 4 +.IX Item "-mno-fma" +.IP "\fB\-mprefetchwt1\fR" 4 +.IX Item "-mprefetchwt1" +.IP "\fB\-mno\-prefetchwt1\fR" 4 +.IX Item "-mno-prefetchwt1" +.IP "\fB\-msse4a\fR" 4 +.IX Item "-msse4a" +.IP "\fB\-mno\-sse4a\fR" 4 +.IX Item "-mno-sse4a" +.IP "\fB\-mfma4\fR" 4 +.IX Item "-mfma4" +.IP "\fB\-mno\-fma4\fR" 4 +.IX Item "-mno-fma4" +.IP "\fB\-mxop\fR" 4 +.IX Item "-mxop" +.IP "\fB\-mno\-xop\fR" 4 +.IX Item "-mno-xop" +.IP "\fB\-mlwp\fR" 4 +.IX Item "-mlwp" +.IP "\fB\-mno\-lwp\fR" 4 +.IX Item "-mno-lwp" +.IP "\fB\-m3dnow\fR" 4 +.IX Item "-m3dnow" +.IP "\fB\-mno\-3dnow\fR" 4 +.IX Item "-mno-3dnow" +.IP "\fB\-mpopcnt\fR" 4 +.IX Item "-mpopcnt" +.IP "\fB\-mno\-popcnt\fR" 4 +.IX Item "-mno-popcnt" +.IP "\fB\-mabm\fR" 4 +.IX Item "-mabm" +.IP "\fB\-mno\-abm\fR" 4 +.IX Item "-mno-abm" +.IP "\fB\-mbmi\fR" 4 +.IX Item "-mbmi" +.IP "\fB\-mbmi2\fR" 4 +.IX Item "-mbmi2" +.IP "\fB\-mno\-bmi\fR" 4 +.IX Item "-mno-bmi" +.IP "\fB\-mno\-bmi2\fR" 4 +.IX Item "-mno-bmi2" +.IP "\fB\-mlzcnt\fR" 4 +.IX Item "-mlzcnt" +.IP "\fB\-mno\-lzcnt\fR" 4 +.IX Item "-mno-lzcnt" +.IP "\fB\-mfxsr\fR" 4 +.IX Item "-mfxsr" +.IP "\fB\-mxsave\fR" 4 +.IX Item "-mxsave" +.IP "\fB\-mxsaveopt\fR" 4 +.IX Item "-mxsaveopt" +.IP "\fB\-mrtm\fR" 4 +.IX Item "-mrtm" +.IP "\fB\-mtbm\fR" 4 +.IX Item "-mtbm" +.IP "\fB\-mno\-tbm\fR" 4 +.IX Item "-mno-tbm" +.PD +These switches enable or disable the use of instructions in the \s-1MMX, SSE, +SSE2, SSE3, SSSE3, SSE4.1, AVX, AVX2, AVX512F, AVX512PF, AVX512ER, AVX512CD, +SHA, AES, PCLMUL, FSGSBASE, RDRND, F16C, FMA, SSE4A, FMA4, XOP, LWP, ABM, +BMI, BMI2, FXSR, XSAVE, XSAVEOPT, LZCNT, RTM,\s0 or 3DNow! +extended instruction sets. +These extensions are also available as built-in functions: see +\&\fBX86 Built-in Functions\fR, for details of the functions enabled and +disabled by these switches. +.Sp +To generate \s-1SSE/SSE2\s0 instructions automatically from floating-point +code (as opposed to 387 instructions), see \fB\-mfpmath=sse\fR. +.Sp +\&\s-1GCC\s0 depresses SSEx instructions when \fB\-mavx\fR is used. Instead, it +generates new \s-1AVX\s0 instructions or \s-1AVX\s0 equivalence for all SSEx instructions +when needed. +.Sp +These options enable \s-1GCC\s0 to use these extended instructions in +generated code, even without \fB\-mfpmath=sse\fR. Applications that +perform run-time \s-1CPU\s0 detection must compile separate files for each +supported architecture, using the appropriate flags. In particular, +the file containing the \s-1CPU\s0 detection code should be compiled without +these options. +.IP "\fB\-mdump\-tune\-features\fR" 4 +.IX Item "-mdump-tune-features" +This option instructs \s-1GCC\s0 to dump the names of the x86 performance +tuning features and default settings. The names can be used in +\&\fB\-mtune\-ctrl=\fR\fIfeature-list\fR. +.IP "\fB\-mtune\-ctrl=\fR\fIfeature-list\fR" 4 +.IX Item "-mtune-ctrl=feature-list" +This option is used to do fine grain control of x86 code generation features. +\&\fIfeature-list\fR is a comma separated list of \fIfeature\fR names. See also +\&\fB\-mdump\-tune\-features\fR. When specified, the \fIfeature\fR will be turned +on if it is not preceded with \f(CW\*(C`^\*(C'\fR, otherwise, it will be turned off. +\&\fB\-mtune\-ctrl=\fR\fIfeature-list\fR is intended to be used by \s-1GCC\s0 +developers. Using it may lead to code paths not covered by testing and can +potentially result in compiler ICEs or runtime errors. +.IP "\fB\-mno\-default\fR" 4 +.IX Item "-mno-default" +This option instructs \s-1GCC\s0 to turn off all tunable features. See also +\&\fB\-mtune\-ctrl=\fR\fIfeature-list\fR and \fB\-mdump\-tune\-features\fR. +.IP "\fB\-mcld\fR" 4 +.IX Item "-mcld" +This option instructs \s-1GCC\s0 to emit a \f(CW\*(C`cld\*(C'\fR instruction in the prologue +of functions that use string instructions. String instructions depend on +the \s-1DF\s0 flag to select between autoincrement or autodecrement mode. While the +\&\s-1ABI\s0 specifies the \s-1DF\s0 flag to be cleared on function entry, some operating +systems violate this specification by not clearing the \s-1DF\s0 flag in their +exception dispatchers. The exception handler can be invoked with the \s-1DF\s0 flag +set, which leads to wrong direction mode when string instructions are used. +This option can be enabled by default on 32\-bit x86 targets by configuring +\&\s-1GCC\s0 with the \fB\-\-enable\-cld\fR configure option. Generation of \f(CW\*(C`cld\*(C'\fR +instructions can be suppressed with the \fB\-mno\-cld\fR compiler option +in this case. +.IP "\fB\-mvzeroupper\fR" 4 +.IX Item "-mvzeroupper" +This option instructs \s-1GCC\s0 to emit a \f(CW\*(C`vzeroupper\*(C'\fR instruction +before a transfer of control flow out of the function to minimize +the \s-1AVX\s0 to \s-1SSE\s0 transition penalty as well as remove unnecessary \f(CW\*(C`zeroupper\*(C'\fR +intrinsics. +.IP "\fB\-mprefer\-avx128\fR" 4 +.IX Item "-mprefer-avx128" +This option instructs \s-1GCC\s0 to use 128\-bit \s-1AVX\s0 instructions instead of +256\-bit \s-1AVX\s0 instructions in the auto-vectorizer. +.IP "\fB\-mcx16\fR" 4 +.IX Item "-mcx16" +This option enables \s-1GCC\s0 to generate \f(CW\*(C`CMPXCHG16B\*(C'\fR instructions. +\&\f(CW\*(C`CMPXCHG16B\*(C'\fR allows for atomic operations on 128\-bit double quadword +(or oword) data types. +This is useful for high-resolution counters that can be updated +by multiple processors (or cores). This instruction is generated as part of +atomic built-in functions: see \fB_\|_sync Builtins\fR or +\&\fB_\|_atomic Builtins\fR for details. +.IP "\fB\-msahf\fR" 4 +.IX Item "-msahf" +This option enables generation of \f(CW\*(C`SAHF\*(C'\fR instructions in 64\-bit code. +Early Intel Pentium 4 CPUs with Intel 64 support, +prior to the introduction of Pentium 4 G1 step in December 2005, +lacked the \f(CW\*(C`LAHF\*(C'\fR and \f(CW\*(C`SAHF\*(C'\fR instructions +which were supported by \s-1AMD64.\s0 +These are load and store instructions, respectively, for certain status flags. +In 64\-bit mode, the \f(CW\*(C`SAHF\*(C'\fR instruction is used to optimize \f(CW\*(C`fmod\*(C'\fR, +\&\f(CW\*(C`drem\*(C'\fR, and \f(CW\*(C`remainder\*(C'\fR built-in functions; +see \fBOther Builtins\fR for details. +.IP "\fB\-mmovbe\fR" 4 +.IX Item "-mmovbe" +This option enables use of the \f(CW\*(C`movbe\*(C'\fR instruction to implement +\&\f(CW\*(C`_\|_builtin_bswap32\*(C'\fR and \f(CW\*(C`_\|_builtin_bswap64\*(C'\fR. +.IP "\fB\-mcrc32\fR" 4 +.IX Item "-mcrc32" +This option enables built-in functions \f(CW\*(C`_\|_builtin_ia32_crc32qi\*(C'\fR, +\&\f(CW\*(C`_\|_builtin_ia32_crc32hi\*(C'\fR, \f(CW\*(C`_\|_builtin_ia32_crc32si\*(C'\fR and +\&\f(CW\*(C`_\|_builtin_ia32_crc32di\*(C'\fR to generate the \f(CW\*(C`crc32\*(C'\fR machine instruction. +.IP "\fB\-mrecip\fR" 4 +.IX Item "-mrecip" +This option enables use of \f(CW\*(C`RCPSS\*(C'\fR and \f(CW\*(C`RSQRTSS\*(C'\fR instructions +(and their vectorized variants \f(CW\*(C`RCPPS\*(C'\fR and \f(CW\*(C`RSQRTPS\*(C'\fR) +with an additional Newton-Raphson step +to increase precision instead of \f(CW\*(C`DIVSS\*(C'\fR and \f(CW\*(C`SQRTSS\*(C'\fR +(and their vectorized +variants) for single-precision floating-point arguments. These instructions +are generated only when \fB\-funsafe\-math\-optimizations\fR is enabled +together with \fB\-finite\-math\-only\fR and \fB\-fno\-trapping\-math\fR. +Note that while the throughput of the sequence is higher than the throughput +of the non-reciprocal instruction, the precision of the sequence can be +decreased by up to 2 ulp (i.e. the inverse of 1.0 equals 0.99999994). +.Sp +Note that \s-1GCC\s0 implements \f(CW\*(C`1.0f/sqrtf(\f(CIx\f(CW)\*(C'\fR in terms of \f(CW\*(C`RSQRTSS\*(C'\fR +(or \f(CW\*(C`RSQRTPS\*(C'\fR) already with \fB\-ffast\-math\fR (or the above option +combination), and doesn't need \fB\-mrecip\fR. +.Sp +Also note that \s-1GCC\s0 emits the above sequence with additional Newton-Raphson step +for vectorized single-float division and vectorized \f(CW\*(C`sqrtf(\f(CIx\f(CW)\*(C'\fR +already with \fB\-ffast\-math\fR (or the above option combination), and +doesn't need \fB\-mrecip\fR. +.IP "\fB\-mrecip=\fR\fIopt\fR" 4 +.IX Item "-mrecip=opt" +This option controls which reciprocal estimate instructions +may be used. \fIopt\fR is a comma-separated list of options, which may +be preceded by a \fB!\fR to invert the option: +.RS 4 +.IP "\fBall\fR" 4 +.IX Item "all" +Enable all estimate instructions. +.IP "\fBdefault\fR" 4 +.IX Item "default" +Enable the default instructions, equivalent to \fB\-mrecip\fR. +.IP "\fBnone\fR" 4 +.IX Item "none" +Disable all estimate instructions, equivalent to \fB\-mno\-recip\fR. +.IP "\fBdiv\fR" 4 +.IX Item "div" +Enable the approximation for scalar division. +.IP "\fBvec-div\fR" 4 +.IX Item "vec-div" +Enable the approximation for vectorized division. +.IP "\fBsqrt\fR" 4 +.IX Item "sqrt" +Enable the approximation for scalar square root. +.IP "\fBvec-sqrt\fR" 4 +.IX Item "vec-sqrt" +Enable the approximation for vectorized square root. +.RE +.RS 4 +.Sp +So, for example, \fB\-mrecip=all,!sqrt\fR enables +all of the reciprocal approximations, except for square root. +.RE +.IP "\fB\-mveclibabi=\fR\fItype\fR" 4 +.IX Item "-mveclibabi=type" +Specifies the \s-1ABI\s0 type to use for vectorizing intrinsics using an +external library. Supported values for \fItype\fR are \fBsvml\fR +for the Intel short +vector math library and \fBacml\fR for the \s-1AMD\s0 math core library. +To use this option, both \fB\-ftree\-vectorize\fR and +\&\fB\-funsafe\-math\-optimizations\fR have to be enabled, and an \s-1SVML\s0 or \s-1ACML \s0 +ABI-compatible library must be specified at link time. +.Sp +\&\s-1GCC\s0 currently emits calls to \f(CW\*(C`vmldExp2\*(C'\fR, +\&\f(CW\*(C`vmldLn2\*(C'\fR, \f(CW\*(C`vmldLog102\*(C'\fR, \f(CW\*(C`vmldLog102\*(C'\fR, \f(CW\*(C`vmldPow2\*(C'\fR, +\&\f(CW\*(C`vmldTanh2\*(C'\fR, \f(CW\*(C`vmldTan2\*(C'\fR, \f(CW\*(C`vmldAtan2\*(C'\fR, \f(CW\*(C`vmldAtanh2\*(C'\fR, +\&\f(CW\*(C`vmldCbrt2\*(C'\fR, \f(CW\*(C`vmldSinh2\*(C'\fR, \f(CW\*(C`vmldSin2\*(C'\fR, \f(CW\*(C`vmldAsinh2\*(C'\fR, +\&\f(CW\*(C`vmldAsin2\*(C'\fR, \f(CW\*(C`vmldCosh2\*(C'\fR, \f(CW\*(C`vmldCos2\*(C'\fR, \f(CW\*(C`vmldAcosh2\*(C'\fR, +\&\f(CW\*(C`vmldAcos2\*(C'\fR, \f(CW\*(C`vmlsExp4\*(C'\fR, \f(CW\*(C`vmlsLn4\*(C'\fR, \f(CW\*(C`vmlsLog104\*(C'\fR, +\&\f(CW\*(C`vmlsLog104\*(C'\fR, \f(CW\*(C`vmlsPow4\*(C'\fR, \f(CW\*(C`vmlsTanh4\*(C'\fR, \f(CW\*(C`vmlsTan4\*(C'\fR, +\&\f(CW\*(C`vmlsAtan4\*(C'\fR, \f(CW\*(C`vmlsAtanh4\*(C'\fR, \f(CW\*(C`vmlsCbrt4\*(C'\fR, \f(CW\*(C`vmlsSinh4\*(C'\fR, +\&\f(CW\*(C`vmlsSin4\*(C'\fR, \f(CW\*(C`vmlsAsinh4\*(C'\fR, \f(CW\*(C`vmlsAsin4\*(C'\fR, \f(CW\*(C`vmlsCosh4\*(C'\fR, +\&\f(CW\*(C`vmlsCos4\*(C'\fR, \f(CW\*(C`vmlsAcosh4\*(C'\fR and \f(CW\*(C`vmlsAcos4\*(C'\fR for corresponding +function type when \fB\-mveclibabi=svml\fR is used, and \f(CW\*(C`_\|_vrd2_sin\*(C'\fR, +\&\f(CW\*(C`_\|_vrd2_cos\*(C'\fR, \f(CW\*(C`_\|_vrd2_exp\*(C'\fR, \f(CW\*(C`_\|_vrd2_log\*(C'\fR, \f(CW\*(C`_\|_vrd2_log2\*(C'\fR, +\&\f(CW\*(C`_\|_vrd2_log10\*(C'\fR, \f(CW\*(C`_\|_vrs4_sinf\*(C'\fR, \f(CW\*(C`_\|_vrs4_cosf\*(C'\fR, +\&\f(CW\*(C`_\|_vrs4_expf\*(C'\fR, \f(CW\*(C`_\|_vrs4_logf\*(C'\fR, \f(CW\*(C`_\|_vrs4_log2f\*(C'\fR, +\&\f(CW\*(C`_\|_vrs4_log10f\*(C'\fR and \f(CW\*(C`_\|_vrs4_powf\*(C'\fR for the corresponding function type +when \fB\-mveclibabi=acml\fR is used. +.IP "\fB\-mabi=\fR\fIname\fR" 4 +.IX Item "-mabi=name" +Generate code for the specified calling convention. Permissible values +are \fBsysv\fR for the \s-1ABI\s0 used on GNU/Linux and other systems, and +\&\fBms\fR for the Microsoft \s-1ABI. \s0 The default is to use the Microsoft +\&\s-1ABI\s0 when targeting Microsoft Windows and the SysV \s-1ABI\s0 on all other systems. +You can control this behavior for a specific function by +using the function attribute \fBms_abi\fR/\fBsysv_abi\fR. +.IP "\fB\-mtls\-dialect=\fR\fItype\fR" 4 +.IX Item "-mtls-dialect=type" +Generate code to access thread-local storage using the \fBgnu\fR or +\&\fBgnu2\fR conventions. \fBgnu\fR is the conservative default; +\&\fBgnu2\fR is more efficient, but it may add compile\- and run-time +requirements that cannot be satisfied on all systems. +.IP "\fB\-mpush\-args\fR" 4 +.IX Item "-mpush-args" +.PD 0 +.IP "\fB\-mno\-push\-args\fR" 4 +.IX Item "-mno-push-args" +.PD +Use \s-1PUSH\s0 operations to store outgoing parameters. This method is shorter +and usually equally fast as method using \s-1SUB/MOV\s0 operations and is enabled +by default. In some cases disabling it may improve performance because of +improved scheduling and reduced dependencies. +.IP "\fB\-maccumulate\-outgoing\-args\fR" 4 +.IX Item "-maccumulate-outgoing-args" +If enabled, the maximum amount of space required for outgoing arguments is +computed in the function prologue. This is faster on most modern CPUs +because of reduced dependencies, improved scheduling and reduced stack usage +when the preferred stack boundary is not equal to 2. The drawback is a notable +increase in code size. This switch implies \fB\-mno\-push\-args\fR. +.IP "\fB\-mthreads\fR" 4 +.IX Item "-mthreads" +Support thread-safe exception handling on MinGW. Programs that rely +on thread-safe exception handling must compile and link all code with the +\&\fB\-mthreads\fR option. When compiling, \fB\-mthreads\fR defines +\&\f(CW\*(C`\-D_MT\*(C'\fR; when linking, it links in a special thread helper library +\&\fB\-lmingwthrd\fR which cleans up per-thread exception-handling data. +.IP "\fB\-mno\-align\-stringops\fR" 4 +.IX Item "-mno-align-stringops" +Do not align the destination of inlined string operations. This switch reduces +code size and improves performance in case the destination is already aligned, +but \s-1GCC\s0 doesn't know about it. +.IP "\fB\-minline\-all\-stringops\fR" 4 +.IX Item "-minline-all-stringops" +By default \s-1GCC\s0 inlines string operations only when the destination is +known to be aligned to least a 4\-byte boundary. +This enables more inlining and increases code +size, but may improve performance of code that depends on fast +\&\f(CW\*(C`memcpy\*(C'\fR, \f(CW\*(C`strlen\*(C'\fR, +and \f(CW\*(C`memset\*(C'\fR for short lengths. +.IP "\fB\-minline\-stringops\-dynamically\fR" 4 +.IX Item "-minline-stringops-dynamically" +For string operations of unknown size, use run-time checks with +inline code for small blocks and a library call for large blocks. +.IP "\fB\-mstringop\-strategy=\fR\fIalg\fR" 4 +.IX Item "-mstringop-strategy=alg" +Override the internal decision heuristic for the particular algorithm to use +for inlining string operations. The allowed values for \fIalg\fR are: +.RS 4 +.IP "\fBrep_byte\fR" 4 +.IX Item "rep_byte" +.PD 0 +.IP "\fBrep_4byte\fR" 4 +.IX Item "rep_4byte" +.IP "\fBrep_8byte\fR" 4 +.IX Item "rep_8byte" +.PD +Expand using i386 \f(CW\*(C`rep\*(C'\fR prefix of the specified size. +.IP "\fBbyte_loop\fR" 4 +.IX Item "byte_loop" +.PD 0 +.IP "\fBloop\fR" 4 +.IX Item "loop" +.IP "\fBunrolled_loop\fR" 4 +.IX Item "unrolled_loop" +.PD +Expand into an inline loop. +.IP "\fBlibcall\fR" 4 +.IX Item "libcall" +Always use a library call. +.RE +.RS 4 +.RE +.IP "\fB\-mmemcpy\-strategy=\fR\fIstrategy\fR" 4 +.IX Item "-mmemcpy-strategy=strategy" +Override the internal decision heuristic to decide if \f(CW\*(C`_\|_builtin_memcpy\*(C'\fR +should be inlined and what inline algorithm to use when the expected size +of the copy operation is known. \fIstrategy\fR +is a comma-separated list of \fIalg\fR:\fImax_size\fR:\fIdest_align\fR triplets. +\&\fIalg\fR is specified in \fB\-mstringop\-strategy\fR, \fImax_size\fR specifies +the max byte size with which inline algorithm \fIalg\fR is allowed. For the last +triplet, the \fImax_size\fR must be \f(CW\*(C`\-1\*(C'\fR. The \fImax_size\fR of the triplets +in the list must be specified in increasing order. The minimal byte size for +\&\fIalg\fR is \f(CW0\fR for the first triplet and \f(CW\*(C`\f(CImax_size\f(CW + 1\*(C'\fR of the +preceding range. +.IP "\fB\-mmemset\-strategy=\fR\fIstrategy\fR" 4 +.IX Item "-mmemset-strategy=strategy" +The option is similar to \fB\-mmemcpy\-strategy=\fR except that it is to control +\&\f(CW\*(C`_\|_builtin_memset\*(C'\fR expansion. +.IP "\fB\-momit\-leaf\-frame\-pointer\fR" 4 +.IX Item "-momit-leaf-frame-pointer" +Don't keep the frame pointer in a register for leaf functions. This +avoids the instructions to save, set up, and restore frame pointers and +makes an extra register available in leaf functions. The option +\&\fB\-fomit\-leaf\-frame\-pointer\fR removes the frame pointer for leaf functions, +which might make debugging harder. +.IP "\fB\-mtls\-direct\-seg\-refs\fR" 4 +.IX Item "-mtls-direct-seg-refs" +.PD 0 +.IP "\fB\-mno\-tls\-direct\-seg\-refs\fR" 4 +.IX Item "-mno-tls-direct-seg-refs" +.PD +Controls whether \s-1TLS\s0 variables may be accessed with offsets from the +\&\s-1TLS\s0 segment register (\f(CW%gs\fR for 32\-bit, \f(CW%fs\fR for 64\-bit), +or whether the thread base pointer must be added. Whether or not this +is valid depends on the operating system, and whether it maps the +segment to cover the entire \s-1TLS\s0 area. +.Sp +For systems that use the \s-1GNU C\s0 Library, the default is on. +.IP "\fB\-msse2avx\fR" 4 +.IX Item "-msse2avx" +.PD 0 +.IP "\fB\-mno\-sse2avx\fR" 4 +.IX Item "-mno-sse2avx" +.PD +Specify that the assembler should encode \s-1SSE\s0 instructions with \s-1VEX\s0 +prefix. The option \fB\-mavx\fR turns this on by default. +.IP "\fB\-mfentry\fR" 4 +.IX Item "-mfentry" +.PD 0 +.IP "\fB\-mno\-fentry\fR" 4 +.IX Item "-mno-fentry" +.PD +If profiling is active (\fB\-pg\fR), put the profiling +counter call before the prologue. +Note: On x86 architectures the attribute \f(CW\*(C`ms_hook_prologue\*(C'\fR +isn't possible at the moment for \fB\-mfentry\fR and \fB\-pg\fR. +.IP "\fB\-m8bit\-idiv\fR" 4 +.IX Item "-m8bit-idiv" +.PD 0 +.IP "\fB\-mno\-8bit\-idiv\fR" 4 +.IX Item "-mno-8bit-idiv" +.PD +On some processors, like Intel Atom, 8\-bit unsigned integer divide is +much faster than 32\-bit/64\-bit integer divide. This option generates a +run-time check. If both dividend and divisor are within range of 0 +to 255, 8\-bit unsigned integer divide is used instead of +32\-bit/64\-bit integer divide. +.IP "\fB\-mavx256\-split\-unaligned\-load\fR" 4 +.IX Item "-mavx256-split-unaligned-load" +.PD 0 +.IP "\fB\-mavx256\-split\-unaligned\-store\fR" 4 +.IX Item "-mavx256-split-unaligned-store" +.PD +Split 32\-byte \s-1AVX\s0 unaligned load and store. +.IP "\fB\-mstack\-protector\-guard=\fR\fIguard\fR" 4 +.IX Item "-mstack-protector-guard=guard" +Generate stack protection code using canary at \fIguard\fR. Supported +locations are \fBglobal\fR for global canary or \fBtls\fR for per-thread +canary in the \s-1TLS\s0 block (the default). This option has effect only when +\&\fB\-fstack\-protector\fR or \fB\-fstack\-protector\-all\fR is specified. +.PP +These \fB\-m\fR switches are supported in addition to the above +on x86\-64 processors in 64\-bit environments. +.IP "\fB\-m32\fR" 4 +.IX Item "-m32" +.PD 0 +.IP "\fB\-m64\fR" 4 +.IX Item "-m64" +.IP "\fB\-mx32\fR" 4 +.IX Item "-mx32" +.IP "\fB\-m16\fR" 4 +.IX Item "-m16" +.PD +Generate code for a 16\-bit, 32\-bit or 64\-bit environment. +The \fB\-m32\fR option sets \f(CW\*(C`int\*(C'\fR, \f(CW\*(C`long\*(C'\fR, and pointer types +to 32 bits, and +generates code that runs on any i386 system. +.Sp +The \fB\-m64\fR option sets \f(CW\*(C`int\*(C'\fR to 32 bits and \f(CW\*(C`long\*(C'\fR and pointer +types to 64 bits, and generates code for the x86\-64 architecture. +For Darwin only the \fB\-m64\fR option also turns off the \fB\-fno\-pic\fR +and \fB\-mdynamic\-no\-pic\fR options. +.Sp +The \fB\-mx32\fR option sets \f(CW\*(C`int\*(C'\fR, \f(CW\*(C`long\*(C'\fR, and pointer types +to 32 bits, and +generates code for the x86\-64 architecture. +.Sp +The \fB\-m16\fR option is the same as \fB\-m32\fR, except for that +it outputs the \f(CW\*(C`.code16gcc\*(C'\fR assembly directive at the beginning of +the assembly output so that the binary can run in 16\-bit mode. +.IP "\fB\-mno\-red\-zone\fR" 4 +.IX Item "-mno-red-zone" +Do not use a so-called \*(L"red zone\*(R" for x86\-64 code. The red zone is mandated +by the x86\-64 \s-1ABI\s0; it is a 128\-byte area beyond the location of the +stack pointer that is not modified by signal or interrupt handlers +and therefore can be used for temporary data without adjusting the stack +pointer. The flag \fB\-mno\-red\-zone\fR disables this red zone. +.IP "\fB\-mcmodel=small\fR" 4 +.IX Item "-mcmodel=small" +Generate code for the small code model: the program and its symbols must +be linked in the lower 2 \s-1GB\s0 of the address space. Pointers are 64 bits. +Programs can be statically or dynamically linked. This is the default +code model. +.IP "\fB\-mcmodel=kernel\fR" 4 +.IX Item "-mcmodel=kernel" +Generate code for the kernel code model. The kernel runs in the +negative 2 \s-1GB\s0 of the address space. +This model has to be used for Linux kernel code. +.IP "\fB\-mcmodel=medium\fR" 4 +.IX Item "-mcmodel=medium" +Generate code for the medium model: the program is linked in the lower 2 +\&\s-1GB\s0 of the address space. Small symbols are also placed there. Symbols +with sizes larger than \fB\-mlarge\-data\-threshold\fR are put into +large data or \s-1BSS\s0 sections and can be located above 2GB. Programs can +be statically or dynamically linked. +.IP "\fB\-mcmodel=large\fR" 4 +.IX Item "-mcmodel=large" +Generate code for the large model. This model makes no assumptions +about addresses and sizes of sections. +.IP "\fB\-maddress\-mode=long\fR" 4 +.IX Item "-maddress-mode=long" +Generate code for long address mode. This is only supported for 64\-bit +and x32 environments. It is the default address mode for 64\-bit +environments. +.IP "\fB\-maddress\-mode=short\fR" 4 +.IX Item "-maddress-mode=short" +Generate code for short address mode. This is only supported for 32\-bit +and x32 environments. It is the default address mode for 32\-bit and +x32 environments. +.PP +\fIi386 and x86\-64 Windows Options\fR +.IX Subsection "i386 and x86-64 Windows Options" +.PP +These additional options are available for Microsoft Windows targets: +.IP "\fB\-mconsole\fR" 4 +.IX Item "-mconsole" +This option +specifies that a console application is to be generated, by +instructing the linker to set the \s-1PE\s0 header subsystem type +required for console applications. +This option is available for Cygwin and MinGW targets and is +enabled by default on those targets. +.IP "\fB\-mdll\fR" 4 +.IX Item "-mdll" +This option is available for Cygwin and MinGW targets. It +specifies that a DLL\-\-\-a dynamic link library\-\-\-is to be +generated, enabling the selection of the required runtime +startup object and entry point. +.IP "\fB\-mnop\-fun\-dllimport\fR" 4 +.IX Item "-mnop-fun-dllimport" +This option is available for Cygwin and MinGW targets. It +specifies that the \f(CW\*(C`dllimport\*(C'\fR attribute should be ignored. +.IP "\fB\-mthread\fR" 4 +.IX Item "-mthread" +This option is available for MinGW targets. It specifies +that MinGW-specific thread support is to be used. +.IP "\fB\-municode\fR" 4 +.IX Item "-municode" +This option is available for MinGW\-w64 targets. It causes +the \f(CW\*(C`UNICODE\*(C'\fR preprocessor macro to be predefined, and +chooses Unicode-capable runtime startup code. +.IP "\fB\-mwin32\fR" 4 +.IX Item "-mwin32" +This option is available for Cygwin and MinGW targets. It +specifies that the typical Microsoft Windows predefined macros are to +be set in the pre-processor, but does not influence the choice +of runtime library/startup code. +.IP "\fB\-mwindows\fR" 4 +.IX Item "-mwindows" +This option is available for Cygwin and MinGW targets. It +specifies that a \s-1GUI\s0 application is to be generated by +instructing the linker to set the \s-1PE\s0 header subsystem type +appropriately. +.IP "\fB\-fno\-set\-stack\-executable\fR" 4 +.IX Item "-fno-set-stack-executable" +This option is available for MinGW targets. It specifies that +the executable flag for the stack used by nested functions isn't +set. This is necessary for binaries running in kernel mode of +Microsoft Windows, as there the User32 \s-1API,\s0 which is used to set executable +privileges, isn't available. +.IP "\fB\-fwritable\-relocated\-rdata\fR" 4 +.IX Item "-fwritable-relocated-rdata" +This option is available for MinGW and Cygwin targets. It specifies +that relocated-data in read-only section is put into .data +section. This is a necessary for older runtimes not supporting +modification of .rdata sections for pseudo-relocation. +.IP "\fB\-mpe\-aligned\-commons\fR" 4 +.IX Item "-mpe-aligned-commons" +This option is available for Cygwin and MinGW targets. It +specifies that the \s-1GNU\s0 extension to the \s-1PE\s0 file format that +permits the correct alignment of \s-1COMMON\s0 variables should be +used when generating code. It is enabled by default if +\&\s-1GCC\s0 detects that the target assembler found during configuration +supports the feature. +.PP +See also under \fBi386 and x86\-64 Options\fR for standard options. +.PP +\fI\s-1IA\-64\s0 Options\fR +.IX Subsection "IA-64 Options" +.PP +These are the \fB\-m\fR options defined for the Intel \s-1IA\-64\s0 architecture. +.IP "\fB\-mbig\-endian\fR" 4 +.IX Item "-mbig-endian" +Generate code for a big-endian target. This is the default for HP-UX. +.IP "\fB\-mlittle\-endian\fR" 4 +.IX Item "-mlittle-endian" +Generate code for a little-endian target. This is the default for \s-1AIX5\s0 +and GNU/Linux. +.IP "\fB\-mgnu\-as\fR" 4 +.IX Item "-mgnu-as" +.PD 0 +.IP "\fB\-mno\-gnu\-as\fR" 4 +.IX Item "-mno-gnu-as" +.PD +Generate (or don't) code for the \s-1GNU\s0 assembler. This is the default. +.IP "\fB\-mgnu\-ld\fR" 4 +.IX Item "-mgnu-ld" +.PD 0 +.IP "\fB\-mno\-gnu\-ld\fR" 4 +.IX Item "-mno-gnu-ld" +.PD +Generate (or don't) code for the \s-1GNU\s0 linker. This is the default. +.IP "\fB\-mno\-pic\fR" 4 +.IX Item "-mno-pic" +Generate code that does not use a global pointer register. The result +is not position independent code, and violates the \s-1IA\-64 ABI.\s0 +.IP "\fB\-mvolatile\-asm\-stop\fR" 4 +.IX Item "-mvolatile-asm-stop" +.PD 0 +.IP "\fB\-mno\-volatile\-asm\-stop\fR" 4 +.IX Item "-mno-volatile-asm-stop" +.PD +Generate (or don't) a stop bit immediately before and after volatile asm +statements. +.IP "\fB\-mregister\-names\fR" 4 +.IX Item "-mregister-names" +.PD 0 +.IP "\fB\-mno\-register\-names\fR" 4 +.IX Item "-mno-register-names" +.PD +Generate (or don't) \fBin\fR, \fBloc\fR, and \fBout\fR register names for +the stacked registers. This may make assembler output more readable. +.IP "\fB\-mno\-sdata\fR" 4 +.IX Item "-mno-sdata" +.PD 0 +.IP "\fB\-msdata\fR" 4 +.IX Item "-msdata" +.PD +Disable (or enable) optimizations that use the small data section. This may +be useful for working around optimizer bugs. +.IP "\fB\-mconstant\-gp\fR" 4 +.IX Item "-mconstant-gp" +Generate code that uses a single constant global pointer value. This is +useful when compiling kernel code. +.IP "\fB\-mauto\-pic\fR" 4 +.IX Item "-mauto-pic" +Generate code that is self-relocatable. This implies \fB\-mconstant\-gp\fR. +This is useful when compiling firmware code. +.IP "\fB\-minline\-float\-divide\-min\-latency\fR" 4 +.IX Item "-minline-float-divide-min-latency" +Generate code for inline divides of floating-point values +using the minimum latency algorithm. +.IP "\fB\-minline\-float\-divide\-max\-throughput\fR" 4 +.IX Item "-minline-float-divide-max-throughput" +Generate code for inline divides of floating-point values +using the maximum throughput algorithm. +.IP "\fB\-mno\-inline\-float\-divide\fR" 4 +.IX Item "-mno-inline-float-divide" +Do not generate inline code for divides of floating-point values. +.IP "\fB\-minline\-int\-divide\-min\-latency\fR" 4 +.IX Item "-minline-int-divide-min-latency" +Generate code for inline divides of integer values +using the minimum latency algorithm. +.IP "\fB\-minline\-int\-divide\-max\-throughput\fR" 4 +.IX Item "-minline-int-divide-max-throughput" +Generate code for inline divides of integer values +using the maximum throughput algorithm. +.IP "\fB\-mno\-inline\-int\-divide\fR" 4 +.IX Item "-mno-inline-int-divide" +Do not generate inline code for divides of integer values. +.IP "\fB\-minline\-sqrt\-min\-latency\fR" 4 +.IX Item "-minline-sqrt-min-latency" +Generate code for inline square roots +using the minimum latency algorithm. +.IP "\fB\-minline\-sqrt\-max\-throughput\fR" 4 +.IX Item "-minline-sqrt-max-throughput" +Generate code for inline square roots +using the maximum throughput algorithm. +.IP "\fB\-mno\-inline\-sqrt\fR" 4 +.IX Item "-mno-inline-sqrt" +Do not generate inline code for \f(CW\*(C`sqrt\*(C'\fR. +.IP "\fB\-mfused\-madd\fR" 4 +.IX Item "-mfused-madd" +.PD 0 +.IP "\fB\-mno\-fused\-madd\fR" 4 +.IX Item "-mno-fused-madd" +.PD +Do (don't) generate code that uses the fused multiply/add or multiply/subtract +instructions. The default is to use these instructions. +.IP "\fB\-mno\-dwarf2\-asm\fR" 4 +.IX Item "-mno-dwarf2-asm" +.PD 0 +.IP "\fB\-mdwarf2\-asm\fR" 4 +.IX Item "-mdwarf2-asm" +.PD +Don't (or do) generate assembler code for the \s-1DWARF 2\s0 line number debugging +info. This may be useful when not using the \s-1GNU\s0 assembler. +.IP "\fB\-mearly\-stop\-bits\fR" 4 +.IX Item "-mearly-stop-bits" +.PD 0 +.IP "\fB\-mno\-early\-stop\-bits\fR" 4 +.IX Item "-mno-early-stop-bits" +.PD +Allow stop bits to be placed earlier than immediately preceding the +instruction that triggered the stop bit. This can improve instruction +scheduling, but does not always do so. +.IP "\fB\-mfixed\-range=\fR\fIregister-range\fR" 4 +.IX Item "-mfixed-range=register-range" +Generate code treating the given register range as fixed registers. +A fixed register is one that the register allocator cannot use. This is +useful when compiling kernel code. A register range is specified as +two registers separated by a dash. Multiple register ranges can be +specified separated by a comma. +.IP "\fB\-mtls\-size=\fR\fItls-size\fR" 4 +.IX Item "-mtls-size=tls-size" +Specify bit size of immediate \s-1TLS\s0 offsets. Valid values are 14, 22, and +64. +.IP "\fB\-mtune=\fR\fIcpu-type\fR" 4 +.IX Item "-mtune=cpu-type" +Tune the instruction scheduling for a particular \s-1CPU,\s0 Valid values are +\&\fBitanium\fR, \fBitanium1\fR, \fBmerced\fR, \fBitanium2\fR, +and \fBmckinley\fR. +.IP "\fB\-milp32\fR" 4 +.IX Item "-milp32" +.PD 0 +.IP "\fB\-mlp64\fR" 4 +.IX Item "-mlp64" +.PD +Generate code for a 32\-bit or 64\-bit environment. +The 32\-bit environment sets int, long and pointer to 32 bits. +The 64\-bit environment sets int to 32 bits and long and pointer +to 64 bits. These are HP-UX specific flags. +.IP "\fB\-mno\-sched\-br\-data\-spec\fR" 4 +.IX Item "-mno-sched-br-data-spec" +.PD 0 +.IP "\fB\-msched\-br\-data\-spec\fR" 4 +.IX Item "-msched-br-data-spec" +.PD +(Dis/En)able data speculative scheduling before reload. +This results in generation of \f(CW\*(C`ld.a\*(C'\fR instructions and +the corresponding check instructions (\f(CW\*(C`ld.c\*(C'\fR / \f(CW\*(C`chk.a\*(C'\fR). +The default is 'disable'. +.IP "\fB\-msched\-ar\-data\-spec\fR" 4 +.IX Item "-msched-ar-data-spec" +.PD 0 +.IP "\fB\-mno\-sched\-ar\-data\-spec\fR" 4 +.IX Item "-mno-sched-ar-data-spec" +.PD +(En/Dis)able data speculative scheduling after reload. +This results in generation of \f(CW\*(C`ld.a\*(C'\fR instructions and +the corresponding check instructions (\f(CW\*(C`ld.c\*(C'\fR / \f(CW\*(C`chk.a\*(C'\fR). +The default is 'enable'. +.IP "\fB\-mno\-sched\-control\-spec\fR" 4 +.IX Item "-mno-sched-control-spec" +.PD 0 +.IP "\fB\-msched\-control\-spec\fR" 4 +.IX Item "-msched-control-spec" +.PD +(Dis/En)able control speculative scheduling. This feature is +available only during region scheduling (i.e. before reload). +This results in generation of the \f(CW\*(C`ld.s\*(C'\fR instructions and +the corresponding check instructions \f(CW\*(C`chk.s\*(C'\fR. +The default is 'disable'. +.IP "\fB\-msched\-br\-in\-data\-spec\fR" 4 +.IX Item "-msched-br-in-data-spec" +.PD 0 +.IP "\fB\-mno\-sched\-br\-in\-data\-spec\fR" 4 +.IX Item "-mno-sched-br-in-data-spec" +.PD +(En/Dis)able speculative scheduling of the instructions that +are dependent on the data speculative loads before reload. +This is effective only with \fB\-msched\-br\-data\-spec\fR enabled. +The default is 'enable'. +.IP "\fB\-msched\-ar\-in\-data\-spec\fR" 4 +.IX Item "-msched-ar-in-data-spec" +.PD 0 +.IP "\fB\-mno\-sched\-ar\-in\-data\-spec\fR" 4 +.IX Item "-mno-sched-ar-in-data-spec" +.PD +(En/Dis)able speculative scheduling of the instructions that +are dependent on the data speculative loads after reload. +This is effective only with \fB\-msched\-ar\-data\-spec\fR enabled. +The default is 'enable'. +.IP "\fB\-msched\-in\-control\-spec\fR" 4 +.IX Item "-msched-in-control-spec" +.PD 0 +.IP "\fB\-mno\-sched\-in\-control\-spec\fR" 4 +.IX Item "-mno-sched-in-control-spec" +.PD +(En/Dis)able speculative scheduling of the instructions that +are dependent on the control speculative loads. +This is effective only with \fB\-msched\-control\-spec\fR enabled. +The default is 'enable'. +.IP "\fB\-mno\-sched\-prefer\-non\-data\-spec\-insns\fR" 4 +.IX Item "-mno-sched-prefer-non-data-spec-insns" +.PD 0 +.IP "\fB\-msched\-prefer\-non\-data\-spec\-insns\fR" 4 +.IX Item "-msched-prefer-non-data-spec-insns" +.PD +If enabled, data-speculative instructions are chosen for schedule +only if there are no other choices at the moment. This makes +the use of the data speculation much more conservative. +The default is 'disable'. +.IP "\fB\-mno\-sched\-prefer\-non\-control\-spec\-insns\fR" 4 +.IX Item "-mno-sched-prefer-non-control-spec-insns" +.PD 0 +.IP "\fB\-msched\-prefer\-non\-control\-spec\-insns\fR" 4 +.IX Item "-msched-prefer-non-control-spec-insns" +.PD +If enabled, control-speculative instructions are chosen for schedule +only if there are no other choices at the moment. This makes +the use of the control speculation much more conservative. +The default is 'disable'. +.IP "\fB\-mno\-sched\-count\-spec\-in\-critical\-path\fR" 4 +.IX Item "-mno-sched-count-spec-in-critical-path" +.PD 0 +.IP "\fB\-msched\-count\-spec\-in\-critical\-path\fR" 4 +.IX Item "-msched-count-spec-in-critical-path" +.PD +If enabled, speculative dependencies are considered during +computation of the instructions priorities. This makes the use of the +speculation a bit more conservative. +The default is 'disable'. +.IP "\fB\-msched\-spec\-ldc\fR" 4 +.IX Item "-msched-spec-ldc" +Use a simple data speculation check. This option is on by default. +.IP "\fB\-msched\-control\-spec\-ldc\fR" 4 +.IX Item "-msched-control-spec-ldc" +Use a simple check for control speculation. This option is on by default. +.IP "\fB\-msched\-stop\-bits\-after\-every\-cycle\fR" 4 +.IX Item "-msched-stop-bits-after-every-cycle" +Place a stop bit after every cycle when scheduling. This option is on +by default. +.IP "\fB\-msched\-fp\-mem\-deps\-zero\-cost\fR" 4 +.IX Item "-msched-fp-mem-deps-zero-cost" +Assume that floating-point stores and loads are not likely to cause a conflict +when placed into the same instruction group. This option is disabled by +default. +.IP "\fB\-msel\-sched\-dont\-check\-control\-spec\fR" 4 +.IX Item "-msel-sched-dont-check-control-spec" +Generate checks for control speculation in selective scheduling. +This flag is disabled by default. +.IP "\fB\-msched\-max\-memory\-insns=\fR\fImax-insns\fR" 4 +.IX Item "-msched-max-memory-insns=max-insns" +Limit on the number of memory insns per instruction group, giving lower +priority to subsequent memory insns attempting to schedule in the same +instruction group. Frequently useful to prevent cache bank conflicts. +The default value is 1. +.IP "\fB\-msched\-max\-memory\-insns\-hard\-limit\fR" 4 +.IX Item "-msched-max-memory-insns-hard-limit" +Makes the limit specified by \fBmsched-max-memory-insns\fR a hard limit, +disallowing more than that number in an instruction group. +Otherwise, the limit is \*(L"soft\*(R", meaning that non-memory operations +are preferred when the limit is reached, but memory operations may still +be scheduled. +.PP +\fI\s-1LM32\s0 Options\fR +.IX Subsection "LM32 Options" +.PP +These \fB\-m\fR options are defined for the LatticeMico32 architecture: +.IP "\fB\-mbarrel\-shift\-enabled\fR" 4 +.IX Item "-mbarrel-shift-enabled" +Enable barrel-shift instructions. +.IP "\fB\-mdivide\-enabled\fR" 4 +.IX Item "-mdivide-enabled" +Enable divide and modulus instructions. +.IP "\fB\-mmultiply\-enabled\fR" 4 +.IX Item "-mmultiply-enabled" +Enable multiply instructions. +.IP "\fB\-msign\-extend\-enabled\fR" 4 +.IX Item "-msign-extend-enabled" +Enable sign extend instructions. +.IP "\fB\-muser\-enabled\fR" 4 +.IX Item "-muser-enabled" +Enable user-defined instructions. +.PP +\fIM32C Options\fR +.IX Subsection "M32C Options" +.IP "\fB\-mcpu=\fR\fIname\fR" 4 +.IX Item "-mcpu=name" +Select the \s-1CPU\s0 for which code is generated. \fIname\fR may be one of +\&\fBr8c\fR for the R8C/Tiny series, \fBm16c\fR for the M16C (up to +/60) series, \fBm32cm\fR for the M16C/80 series, or \fBm32c\fR for +the M32C/80 series. +.IP "\fB\-msim\fR" 4 +.IX Item "-msim" +Specifies that the program will be run on the simulator. This causes +an alternate runtime library to be linked in which supports, for +example, file I/O. You must not use this option when generating +programs that will run on real hardware; you must provide your own +runtime library for whatever I/O functions are needed. +.IP "\fB\-memregs=\fR\fInumber\fR" 4 +.IX Item "-memregs=number" +Specifies the number of memory-based pseudo-registers \s-1GCC\s0 uses +during code generation. These pseudo-registers are used like real +registers, so there is a tradeoff between \s-1GCC\s0's ability to fit the +code into available registers, and the performance penalty of using +memory instead of registers. Note that all modules in a program must +be compiled with the same value for this option. Because of that, you +must not use this option with \s-1GCC\s0's default runtime libraries. +.PP +\fIM32R/D Options\fR +.IX Subsection "M32R/D Options" +.PP +These \fB\-m\fR options are defined for Renesas M32R/D architectures: +.IP "\fB\-m32r2\fR" 4 +.IX Item "-m32r2" +Generate code for the M32R/2. +.IP "\fB\-m32rx\fR" 4 +.IX Item "-m32rx" +Generate code for the M32R/X. +.IP "\fB\-m32r\fR" 4 +.IX Item "-m32r" +Generate code for the M32R. This is the default. +.IP "\fB\-mmodel=small\fR" 4 +.IX Item "-mmodel=small" +Assume all objects live in the lower 16MB of memory (so that their addresses +can be loaded with the \f(CW\*(C`ld24\*(C'\fR instruction), and assume all subroutines +are reachable with the \f(CW\*(C`bl\*(C'\fR instruction. +This is the default. +.Sp +The addressability of a particular object can be set with the +\&\f(CW\*(C`model\*(C'\fR attribute. +.IP "\fB\-mmodel=medium\fR" 4 +.IX Item "-mmodel=medium" +Assume objects may be anywhere in the 32\-bit address space (the compiler +generates \f(CW\*(C`seth/add3\*(C'\fR instructions to load their addresses), and +assume all subroutines are reachable with the \f(CW\*(C`bl\*(C'\fR instruction. +.IP "\fB\-mmodel=large\fR" 4 +.IX Item "-mmodel=large" +Assume objects may be anywhere in the 32\-bit address space (the compiler +generates \f(CW\*(C`seth/add3\*(C'\fR instructions to load their addresses), and +assume subroutines may not be reachable with the \f(CW\*(C`bl\*(C'\fR instruction +(the compiler generates the much slower \f(CW\*(C`seth/add3/jl\*(C'\fR +instruction sequence). +.IP "\fB\-msdata=none\fR" 4 +.IX Item "-msdata=none" +Disable use of the small data area. Variables are put into +one of \fB.data\fR, \fB.bss\fR, or \fB.rodata\fR (unless the +\&\f(CW\*(C`section\*(C'\fR attribute has been specified). +This is the default. +.Sp +The small data area consists of sections \fB.sdata\fR and \fB.sbss\fR. +Objects may be explicitly put in the small data area with the +\&\f(CW\*(C`section\*(C'\fR attribute using one of these sections. +.IP "\fB\-msdata=sdata\fR" 4 +.IX Item "-msdata=sdata" +Put small global and static data in the small data area, but do not +generate special code to reference them. +.IP "\fB\-msdata=use\fR" 4 +.IX Item "-msdata=use" +Put small global and static data in the small data area, and generate +special instructions to reference them. +.IP "\fB\-G\fR \fInum\fR" 4 +.IX Item "-G num" +Put global and static objects less than or equal to \fInum\fR bytes +into the small data or \s-1BSS\s0 sections instead of the normal data or \s-1BSS\s0 +sections. The default value of \fInum\fR is 8. +The \fB\-msdata\fR option must be set to one of \fBsdata\fR or \fBuse\fR +for this option to have any effect. +.Sp +All modules should be compiled with the same \fB\-G\fR \fInum\fR value. +Compiling with different values of \fInum\fR may or may not work; if it +doesn't the linker gives an error message\-\-\-incorrect code is not +generated. +.IP "\fB\-mdebug\fR" 4 +.IX Item "-mdebug" +Makes the M32R\-specific code in the compiler display some statistics +that might help in debugging programs. +.IP "\fB\-malign\-loops\fR" 4 +.IX Item "-malign-loops" +Align all loops to a 32\-byte boundary. +.IP "\fB\-mno\-align\-loops\fR" 4 +.IX Item "-mno-align-loops" +Do not enforce a 32\-byte alignment for loops. This is the default. +.IP "\fB\-missue\-rate=\fR\fInumber\fR" 4 +.IX Item "-missue-rate=number" +Issue \fInumber\fR instructions per cycle. \fInumber\fR can only be 1 +or 2. +.IP "\fB\-mbranch\-cost=\fR\fInumber\fR" 4 +.IX Item "-mbranch-cost=number" +\&\fInumber\fR can only be 1 or 2. If it is 1 then branches are +preferred over conditional code, if it is 2, then the opposite applies. +.IP "\fB\-mflush\-trap=\fR\fInumber\fR" 4 +.IX Item "-mflush-trap=number" +Specifies the trap number to use to flush the cache. The default is +12. Valid numbers are between 0 and 15 inclusive. +.IP "\fB\-mno\-flush\-trap\fR" 4 +.IX Item "-mno-flush-trap" +Specifies that the cache cannot be flushed by using a trap. +.IP "\fB\-mflush\-func=\fR\fIname\fR" 4 +.IX Item "-mflush-func=name" +Specifies the name of the operating system function to call to flush +the cache. The default is \fI_flush_cache\fR, but a function call +is only used if a trap is not available. +.IP "\fB\-mno\-flush\-func\fR" 4 +.IX Item "-mno-flush-func" +Indicates that there is no \s-1OS\s0 function for flushing the cache. +.PP +\fIM680x0 Options\fR +.IX Subsection "M680x0 Options" +.PP +These are the \fB\-m\fR options defined for M680x0 and ColdFire processors. +The default settings depend on which architecture was selected when +the compiler was configured; the defaults for the most common choices +are given below. +.IP "\fB\-march=\fR\fIarch\fR" 4 +.IX Item "-march=arch" +Generate code for a specific M680x0 or ColdFire instruction set +architecture. Permissible values of \fIarch\fR for M680x0 +architectures are: \fB68000\fR, \fB68010\fR, \fB68020\fR, +\&\fB68030\fR, \fB68040\fR, \fB68060\fR and \fBcpu32\fR. ColdFire +architectures are selected according to Freescale's \s-1ISA\s0 classification +and the permissible values are: \fBisaa\fR, \fBisaaplus\fR, +\&\fBisab\fR and \fBisac\fR. +.Sp +\&\s-1GCC\s0 defines a macro \fB_\|_mcf\fR\fIarch\fR\fB_\|_\fR whenever it is generating +code for a ColdFire target. The \fIarch\fR in this macro is one of the +\&\fB\-march\fR arguments given above. +.Sp +When used together, \fB\-march\fR and \fB\-mtune\fR select code +that runs on a family of similar processors but that is optimized +for a particular microarchitecture. +.IP "\fB\-mcpu=\fR\fIcpu\fR" 4 +.IX Item "-mcpu=cpu" +Generate code for a specific M680x0 or ColdFire processor. +The M680x0 \fIcpu\fRs are: \fB68000\fR, \fB68010\fR, \fB68020\fR, +\&\fB68030\fR, \fB68040\fR, \fB68060\fR, \fB68302\fR, \fB68332\fR +and \fBcpu32\fR. The ColdFire \fIcpu\fRs are given by the table +below, which also classifies the CPUs into families: +.RS 4 +.IP "Family : \fB\-mcpu\fR arguments" 4 +.IX Item "Family : -mcpu arguments" +.PD 0 +.IP "\fB51\fR : \fB51\fR \fB51ac\fR \fB51ag\fR \fB51cn\fR \fB51em\fR \fB51je\fR \fB51jf\fR \fB51jg\fR \fB51jm\fR \fB51mm\fR \fB51qe\fR \fB51qm\fR" 4 +.IX Item "51 : 51 51ac 51ag 51cn 51em 51je 51jf 51jg 51jm 51mm 51qe 51qm" +.IP "\fB5206\fR : \fB5202\fR \fB5204\fR \fB5206\fR" 4 +.IX Item "5206 : 5202 5204 5206" +.IP "\fB5206e\fR : \fB5206e\fR" 4 +.IX Item "5206e : 5206e" +.IP "\fB5208\fR : \fB5207\fR \fB5208\fR" 4 +.IX Item "5208 : 5207 5208" +.IP "\fB5211a\fR : \fB5210a\fR \fB5211a\fR" 4 +.IX Item "5211a : 5210a 5211a" +.IP "\fB5213\fR : \fB5211\fR \fB5212\fR \fB5213\fR" 4 +.IX Item "5213 : 5211 5212 5213" +.IP "\fB5216\fR : \fB5214\fR \fB5216\fR" 4 +.IX Item "5216 : 5214 5216" +.IP "\fB52235\fR : \fB52230\fR \fB52231\fR \fB52232\fR \fB52233\fR \fB52234\fR \fB52235\fR" 4 +.IX Item "52235 : 52230 52231 52232 52233 52234 52235" +.IP "\fB5225\fR : \fB5224\fR \fB5225\fR" 4 +.IX Item "5225 : 5224 5225" +.IP "\fB52259\fR : \fB52252\fR \fB52254\fR \fB52255\fR \fB52256\fR \fB52258\fR \fB52259\fR" 4 +.IX Item "52259 : 52252 52254 52255 52256 52258 52259" +.IP "\fB5235\fR : \fB5232\fR \fB5233\fR \fB5234\fR \fB5235\fR \fB523x\fR" 4 +.IX Item "5235 : 5232 5233 5234 5235 523x" +.IP "\fB5249\fR : \fB5249\fR" 4 +.IX Item "5249 : 5249" +.IP "\fB5250\fR : \fB5250\fR" 4 +.IX Item "5250 : 5250" +.IP "\fB5271\fR : \fB5270\fR \fB5271\fR" 4 +.IX Item "5271 : 5270 5271" +.IP "\fB5272\fR : \fB5272\fR" 4 +.IX Item "5272 : 5272" +.IP "\fB5275\fR : \fB5274\fR \fB5275\fR" 4 +.IX Item "5275 : 5274 5275" +.IP "\fB5282\fR : \fB5280\fR \fB5281\fR \fB5282\fR \fB528x\fR" 4 +.IX Item "5282 : 5280 5281 5282 528x" +.IP "\fB53017\fR : \fB53011\fR \fB53012\fR \fB53013\fR \fB53014\fR \fB53015\fR \fB53016\fR \fB53017\fR" 4 +.IX Item "53017 : 53011 53012 53013 53014 53015 53016 53017" +.IP "\fB5307\fR : \fB5307\fR" 4 +.IX Item "5307 : 5307" +.IP "\fB5329\fR : \fB5327\fR \fB5328\fR \fB5329\fR \fB532x\fR" 4 +.IX Item "5329 : 5327 5328 5329 532x" +.IP "\fB5373\fR : \fB5372\fR \fB5373\fR \fB537x\fR" 4 +.IX Item "5373 : 5372 5373 537x" +.IP "\fB5407\fR : \fB5407\fR" 4 +.IX Item "5407 : 5407" +.IP "\fB5475\fR : \fB5470\fR \fB5471\fR \fB5472\fR \fB5473\fR \fB5474\fR \fB5475\fR \fB547x\fR \fB5480\fR \fB5481\fR \fB5482\fR \fB5483\fR \fB5484\fR \fB5485\fR" 4 +.IX Item "5475 : 5470 5471 5472 5473 5474 5475 547x 5480 5481 5482 5483 5484 5485" +.RE +.RS 4 +.PD +.Sp +\&\fB\-mcpu=\fR\fIcpu\fR overrides \fB\-march=\fR\fIarch\fR if +\&\fIarch\fR is compatible with \fIcpu\fR. Other combinations of +\&\fB\-mcpu\fR and \fB\-march\fR are rejected. +.Sp +\&\s-1GCC\s0 defines the macro \fB_\|_mcf_cpu_\fR\fIcpu\fR when ColdFire target +\&\fIcpu\fR is selected. It also defines \fB_\|_mcf_family_\fR\fIfamily\fR, +where the value of \fIfamily\fR is given by the table above. +.RE +.IP "\fB\-mtune=\fR\fItune\fR" 4 +.IX Item "-mtune=tune" +Tune the code for a particular microarchitecture within the +constraints set by \fB\-march\fR and \fB\-mcpu\fR. +The M680x0 microarchitectures are: \fB68000\fR, \fB68010\fR, +\&\fB68020\fR, \fB68030\fR, \fB68040\fR, \fB68060\fR +and \fBcpu32\fR. The ColdFire microarchitectures +are: \fBcfv1\fR, \fBcfv2\fR, \fBcfv3\fR, \fBcfv4\fR and \fBcfv4e\fR. +.Sp +You can also use \fB\-mtune=68020\-40\fR for code that needs +to run relatively well on 68020, 68030 and 68040 targets. +\&\fB\-mtune=68020\-60\fR is similar but includes 68060 targets +as well. These two options select the same tuning decisions as +\&\fB\-m68020\-40\fR and \fB\-m68020\-60\fR respectively. +.Sp +\&\s-1GCC\s0 defines the macros \fB_\|_mc\fR\fIarch\fR and \fB_\|_mc\fR\fIarch\fR\fB_\|_\fR +when tuning for 680x0 architecture \fIarch\fR. It also defines +\&\fBmc\fR\fIarch\fR unless either \fB\-ansi\fR or a non-GNU \fB\-std\fR +option is used. If \s-1GCC\s0 is tuning for a range of architectures, +as selected by \fB\-mtune=68020\-40\fR or \fB\-mtune=68020\-60\fR, +it defines the macros for every architecture in the range. +.Sp +\&\s-1GCC\s0 also defines the macro \fB_\|_m\fR\fIuarch\fR\fB_\|_\fR when tuning for +ColdFire microarchitecture \fIuarch\fR, where \fIuarch\fR is one +of the arguments given above. +.IP "\fB\-m68000\fR" 4 +.IX Item "-m68000" +.PD 0 +.IP "\fB\-mc68000\fR" 4 +.IX Item "-mc68000" +.PD +Generate output for a 68000. This is the default +when the compiler is configured for 68000\-based systems. +It is equivalent to \fB\-march=68000\fR. +.Sp +Use this option for microcontrollers with a 68000 or \s-1EC000\s0 core, +including the 68008, 68302, 68306, 68307, 68322, 68328 and 68356. +.IP "\fB\-m68010\fR" 4 +.IX Item "-m68010" +Generate output for a 68010. This is the default +when the compiler is configured for 68010\-based systems. +It is equivalent to \fB\-march=68010\fR. +.IP "\fB\-m68020\fR" 4 +.IX Item "-m68020" +.PD 0 +.IP "\fB\-mc68020\fR" 4 +.IX Item "-mc68020" +.PD +Generate output for a 68020. This is the default +when the compiler is configured for 68020\-based systems. +It is equivalent to \fB\-march=68020\fR. +.IP "\fB\-m68030\fR" 4 +.IX Item "-m68030" +Generate output for a 68030. This is the default when the compiler is +configured for 68030\-based systems. It is equivalent to +\&\fB\-march=68030\fR. +.IP "\fB\-m68040\fR" 4 +.IX Item "-m68040" +Generate output for a 68040. This is the default when the compiler is +configured for 68040\-based systems. It is equivalent to +\&\fB\-march=68040\fR. +.Sp +This option inhibits the use of 68881/68882 instructions that have to be +emulated by software on the 68040. Use this option if your 68040 does not +have code to emulate those instructions. +.IP "\fB\-m68060\fR" 4 +.IX Item "-m68060" +Generate output for a 68060. This is the default when the compiler is +configured for 68060\-based systems. It is equivalent to +\&\fB\-march=68060\fR. +.Sp +This option inhibits the use of 68020 and 68881/68882 instructions that +have to be emulated by software on the 68060. Use this option if your 68060 +does not have code to emulate those instructions. +.IP "\fB\-mcpu32\fR" 4 +.IX Item "-mcpu32" +Generate output for a \s-1CPU32. \s0 This is the default +when the compiler is configured for CPU32\-based systems. +It is equivalent to \fB\-march=cpu32\fR. +.Sp +Use this option for microcontrollers with a +\&\s-1CPU32\s0 or \s-1CPU32+\s0 core, including the 68330, 68331, 68332, 68333, 68334, +68336, 68340, 68341, 68349 and 68360. +.IP "\fB\-m5200\fR" 4 +.IX Item "-m5200" +Generate output for a 520X ColdFire \s-1CPU. \s0 This is the default +when the compiler is configured for 520X\-based systems. +It is equivalent to \fB\-mcpu=5206\fR, and is now deprecated +in favor of that option. +.Sp +Use this option for microcontroller with a 5200 core, including +the \s-1MCF5202, MCF5203, MCF5204\s0 and \s-1MCF5206.\s0 +.IP "\fB\-m5206e\fR" 4 +.IX Item "-m5206e" +Generate output for a 5206e ColdFire \s-1CPU. \s0 The option is now +deprecated in favor of the equivalent \fB\-mcpu=5206e\fR. +.IP "\fB\-m528x\fR" 4 +.IX Item "-m528x" +Generate output for a member of the ColdFire 528X family. +The option is now deprecated in favor of the equivalent +\&\fB\-mcpu=528x\fR. +.IP "\fB\-m5307\fR" 4 +.IX Item "-m5307" +Generate output for a ColdFire 5307 \s-1CPU. \s0 The option is now deprecated +in favor of the equivalent \fB\-mcpu=5307\fR. +.IP "\fB\-m5407\fR" 4 +.IX Item "-m5407" +Generate output for a ColdFire 5407 \s-1CPU. \s0 The option is now deprecated +in favor of the equivalent \fB\-mcpu=5407\fR. +.IP "\fB\-mcfv4e\fR" 4 +.IX Item "-mcfv4e" +Generate output for a ColdFire V4e family \s-1CPU \s0(e.g. 547x/548x). +This includes use of hardware floating-point instructions. +The option is equivalent to \fB\-mcpu=547x\fR, and is now +deprecated in favor of that option. +.IP "\fB\-m68020\-40\fR" 4 +.IX Item "-m68020-40" +Generate output for a 68040, without using any of the new instructions. +This results in code that can run relatively efficiently on either a +68020/68881 or a 68030 or a 68040. The generated code does use the +68881 instructions that are emulated on the 68040. +.Sp +The option is equivalent to \fB\-march=68020\fR \fB\-mtune=68020\-40\fR. +.IP "\fB\-m68020\-60\fR" 4 +.IX Item "-m68020-60" +Generate output for a 68060, without using any of the new instructions. +This results in code that can run relatively efficiently on either a +68020/68881 or a 68030 or a 68040. The generated code does use the +68881 instructions that are emulated on the 68060. +.Sp +The option is equivalent to \fB\-march=68020\fR \fB\-mtune=68020\-60\fR. +.IP "\fB\-mhard\-float\fR" 4 +.IX Item "-mhard-float" +.PD 0 +.IP "\fB\-m68881\fR" 4 +.IX Item "-m68881" +.PD +Generate floating-point instructions. This is the default for 68020 +and above, and for ColdFire devices that have an \s-1FPU. \s0 It defines the +macro \fB_\|_HAVE_68881_\|_\fR on M680x0 targets and \fB_\|_mcffpu_\|_\fR +on ColdFire targets. +.IP "\fB\-msoft\-float\fR" 4 +.IX Item "-msoft-float" +Do not generate floating-point instructions; use library calls instead. +This is the default for 68000, 68010, and 68832 targets. It is also +the default for ColdFire devices that have no \s-1FPU.\s0 +.IP "\fB\-mdiv\fR" 4 +.IX Item "-mdiv" +.PD 0 +.IP "\fB\-mno\-div\fR" 4 +.IX Item "-mno-div" +.PD +Generate (do not generate) ColdFire hardware divide and remainder +instructions. If \fB\-march\fR is used without \fB\-mcpu\fR, +the default is \*(L"on\*(R" for ColdFire architectures and \*(L"off\*(R" for M680x0 +architectures. Otherwise, the default is taken from the target \s-1CPU +\&\s0(either the default \s-1CPU,\s0 or the one specified by \fB\-mcpu\fR). For +example, the default is \*(L"off\*(R" for \fB\-mcpu=5206\fR and \*(L"on\*(R" for +\&\fB\-mcpu=5206e\fR. +.Sp +\&\s-1GCC\s0 defines the macro \fB_\|_mcfhwdiv_\|_\fR when this option is enabled. +.IP "\fB\-mshort\fR" 4 +.IX Item "-mshort" +Consider type \f(CW\*(C`int\*(C'\fR to be 16 bits wide, like \f(CW\*(C`short int\*(C'\fR. +Additionally, parameters passed on the stack are also aligned to a +16\-bit boundary even on targets whose \s-1API\s0 mandates promotion to 32\-bit. +.IP "\fB\-mno\-short\fR" 4 +.IX Item "-mno-short" +Do not consider type \f(CW\*(C`int\*(C'\fR to be 16 bits wide. This is the default. +.IP "\fB\-mnobitfield\fR" 4 +.IX Item "-mnobitfield" +.PD 0 +.IP "\fB\-mno\-bitfield\fR" 4 +.IX Item "-mno-bitfield" +.PD +Do not use the bit-field instructions. The \fB\-m68000\fR, \fB\-mcpu32\fR +and \fB\-m5200\fR options imply \fB\-mnobitfield\fR. +.IP "\fB\-mbitfield\fR" 4 +.IX Item "-mbitfield" +Do use the bit-field instructions. The \fB\-m68020\fR option implies +\&\fB\-mbitfield\fR. This is the default if you use a configuration +designed for a 68020. +.IP "\fB\-mrtd\fR" 4 +.IX Item "-mrtd" +Use a different function-calling convention, in which functions +that take a fixed number of arguments return with the \f(CW\*(C`rtd\*(C'\fR +instruction, which pops their arguments while returning. This +saves one instruction in the caller since there is no need to pop +the arguments there. +.Sp +This calling convention is incompatible with the one normally +used on Unix, so you cannot use it if you need to call libraries +compiled with the Unix compiler. +.Sp +Also, you must provide function prototypes for all functions that +take variable numbers of arguments (including \f(CW\*(C`printf\*(C'\fR); +otherwise incorrect code is generated for calls to those +functions. +.Sp +In addition, seriously incorrect code results if you call a +function with too many arguments. (Normally, extra arguments are +harmlessly ignored.) +.Sp +The \f(CW\*(C`rtd\*(C'\fR instruction is supported by the 68010, 68020, 68030, +68040, 68060 and \s-1CPU32\s0 processors, but not by the 68000 or 5200. +.IP "\fB\-mno\-rtd\fR" 4 +.IX Item "-mno-rtd" +Do not use the calling conventions selected by \fB\-mrtd\fR. +This is the default. +.IP "\fB\-malign\-int\fR" 4 +.IX Item "-malign-int" +.PD 0 +.IP "\fB\-mno\-align\-int\fR" 4 +.IX Item "-mno-align-int" +.PD +Control whether \s-1GCC\s0 aligns \f(CW\*(C`int\*(C'\fR, \f(CW\*(C`long\*(C'\fR, \f(CW\*(C`long long\*(C'\fR, +\&\f(CW\*(C`float\*(C'\fR, \f(CW\*(C`double\*(C'\fR, and \f(CW\*(C`long double\*(C'\fR variables on a 32\-bit +boundary (\fB\-malign\-int\fR) or a 16\-bit boundary (\fB\-mno\-align\-int\fR). +Aligning variables on 32\-bit boundaries produces code that runs somewhat +faster on processors with 32\-bit busses at the expense of more memory. +.Sp +\&\fBWarning:\fR if you use the \fB\-malign\-int\fR switch, \s-1GCC\s0 +aligns structures containing the above types differently than +most published application binary interface specifications for the m68k. +.IP "\fB\-mpcrel\fR" 4 +.IX Item "-mpcrel" +Use the pc-relative addressing mode of the 68000 directly, instead of +using a global offset table. At present, this option implies \fB\-fpic\fR, +allowing at most a 16\-bit offset for pc-relative addressing. \fB\-fPIC\fR is +not presently supported with \fB\-mpcrel\fR, though this could be supported for +68020 and higher processors. +.IP "\fB\-mno\-strict\-align\fR" 4 +.IX Item "-mno-strict-align" +.PD 0 +.IP "\fB\-mstrict\-align\fR" 4 +.IX Item "-mstrict-align" +.PD +Do not (do) assume that unaligned memory references are handled by +the system. +.IP "\fB\-msep\-data\fR" 4 +.IX Item "-msep-data" +Generate code that allows the data segment to be located in a different +area of memory from the text segment. This allows for execute-in-place in +an environment without virtual memory management. This option implies +\&\fB\-fPIC\fR. +.IP "\fB\-mno\-sep\-data\fR" 4 +.IX Item "-mno-sep-data" +Generate code that assumes that the data segment follows the text segment. +This is the default. +.IP "\fB\-mid\-shared\-library\fR" 4 +.IX Item "-mid-shared-library" +Generate code that supports shared libraries via the library \s-1ID\s0 method. +This allows for execute-in-place and shared libraries in an environment +without virtual memory management. This option implies \fB\-fPIC\fR. +.IP "\fB\-mno\-id\-shared\-library\fR" 4 +.IX Item "-mno-id-shared-library" +Generate code that doesn't assume ID-based shared libraries are being used. +This is the default. +.IP "\fB\-mshared\-library\-id=n\fR" 4 +.IX Item "-mshared-library-id=n" +Specifies the identification number of the ID-based shared library being +compiled. Specifying a value of 0 generates more compact code; specifying +other values forces the allocation of that number to the current +library, but is no more space\- or time-efficient than omitting this option. +.IP "\fB\-mxgot\fR" 4 +.IX Item "-mxgot" +.PD 0 +.IP "\fB\-mno\-xgot\fR" 4 +.IX Item "-mno-xgot" +.PD +When generating position-independent code for ColdFire, generate code +that works if the \s-1GOT\s0 has more than 8192 entries. This code is +larger and slower than code generated without this option. On M680x0 +processors, this option is not needed; \fB\-fPIC\fR suffices. +.Sp +\&\s-1GCC\s0 normally uses a single instruction to load values from the \s-1GOT.\s0 +While this is relatively efficient, it only works if the \s-1GOT\s0 +is smaller than about 64k. Anything larger causes the linker +to report an error such as: +.Sp +.Vb 1 +\& relocation truncated to fit: R_68K_GOT16O foobar +.Ve +.Sp +If this happens, you should recompile your code with \fB\-mxgot\fR. +It should then work with very large GOTs. However, code generated with +\&\fB\-mxgot\fR is less efficient, since it takes 4 instructions to fetch +the value of a global symbol. +.Sp +Note that some linkers, including newer versions of the \s-1GNU\s0 linker, +can create multiple GOTs and sort \s-1GOT\s0 entries. If you have such a linker, +you should only need to use \fB\-mxgot\fR when compiling a single +object file that accesses more than 8192 \s-1GOT\s0 entries. Very few do. +.Sp +These options have no effect unless \s-1GCC\s0 is generating +position-independent code. +.PP +\fIMCore Options\fR +.IX Subsection "MCore Options" +.PP +These are the \fB\-m\fR options defined for the Motorola M*Core +processors. +.IP "\fB\-mhardlit\fR" 4 +.IX Item "-mhardlit" +.PD 0 +.IP "\fB\-mno\-hardlit\fR" 4 +.IX Item "-mno-hardlit" +.PD +Inline constants into the code stream if it can be done in two +instructions or less. +.IP "\fB\-mdiv\fR" 4 +.IX Item "-mdiv" +.PD 0 +.IP "\fB\-mno\-div\fR" 4 +.IX Item "-mno-div" +.PD +Use the divide instruction. (Enabled by default). +.IP "\fB\-mrelax\-immediate\fR" 4 +.IX Item "-mrelax-immediate" +.PD 0 +.IP "\fB\-mno\-relax\-immediate\fR" 4 +.IX Item "-mno-relax-immediate" +.PD +Allow arbitrary-sized immediates in bit operations. +.IP "\fB\-mwide\-bitfields\fR" 4 +.IX Item "-mwide-bitfields" +.PD 0 +.IP "\fB\-mno\-wide\-bitfields\fR" 4 +.IX Item "-mno-wide-bitfields" +.PD +Always treat bit-fields as \f(CW\*(C`int\*(C'\fR\-sized. +.IP "\fB\-m4byte\-functions\fR" 4 +.IX Item "-m4byte-functions" +.PD 0 +.IP "\fB\-mno\-4byte\-functions\fR" 4 +.IX Item "-mno-4byte-functions" +.PD +Force all functions to be aligned to a 4\-byte boundary. +.IP "\fB\-mcallgraph\-data\fR" 4 +.IX Item "-mcallgraph-data" +.PD 0 +.IP "\fB\-mno\-callgraph\-data\fR" 4 +.IX Item "-mno-callgraph-data" +.PD +Emit callgraph information. +.IP "\fB\-mslow\-bytes\fR" 4 +.IX Item "-mslow-bytes" +.PD 0 +.IP "\fB\-mno\-slow\-bytes\fR" 4 +.IX Item "-mno-slow-bytes" +.PD +Prefer word access when reading byte quantities. +.IP "\fB\-mlittle\-endian\fR" 4 +.IX Item "-mlittle-endian" +.PD 0 +.IP "\fB\-mbig\-endian\fR" 4 +.IX Item "-mbig-endian" +.PD +Generate code for a little-endian target. +.IP "\fB\-m210\fR" 4 +.IX Item "-m210" +.PD 0 +.IP "\fB\-m340\fR" 4 +.IX Item "-m340" +.PD +Generate code for the 210 processor. +.IP "\fB\-mno\-lsim\fR" 4 +.IX Item "-mno-lsim" +Assume that runtime support has been provided and so omit the +simulator library (\fIlibsim.a)\fR from the linker command line. +.IP "\fB\-mstack\-increment=\fR\fIsize\fR" 4 +.IX Item "-mstack-increment=size" +Set the maximum amount for a single stack increment operation. Large +values can increase the speed of programs that contain functions +that need a large amount of stack space, but they can also trigger a +segmentation fault if the stack is extended too much. The default +value is 0x1000. +.PP +\fIMeP Options\fR +.IX Subsection "MeP Options" +.IP "\fB\-mabsdiff\fR" 4 +.IX Item "-mabsdiff" +Enables the \f(CW\*(C`abs\*(C'\fR instruction, which is the absolute difference +between two registers. +.IP "\fB\-mall\-opts\fR" 4 +.IX Item "-mall-opts" +Enables all the optional instructions\-\-\-average, multiply, divide, bit +operations, leading zero, absolute difference, min/max, clip, and +saturation. +.IP "\fB\-maverage\fR" 4 +.IX Item "-maverage" +Enables the \f(CW\*(C`ave\*(C'\fR instruction, which computes the average of two +registers. +.IP "\fB\-mbased=\fR\fIn\fR" 4 +.IX Item "-mbased=n" +Variables of size \fIn\fR bytes or smaller are placed in the +\&\f(CW\*(C`.based\*(C'\fR section by default. Based variables use the \f(CW$tp\fR +register as a base register, and there is a 128\-byte limit to the +\&\f(CW\*(C`.based\*(C'\fR section. +.IP "\fB\-mbitops\fR" 4 +.IX Item "-mbitops" +Enables the bit operation instructions\-\-\-bit test (\f(CW\*(C`btstm\*(C'\fR), set +(\f(CW\*(C`bsetm\*(C'\fR), clear (\f(CW\*(C`bclrm\*(C'\fR), invert (\f(CW\*(C`bnotm\*(C'\fR), and +test-and-set (\f(CW\*(C`tas\*(C'\fR). +.IP "\fB\-mc=\fR\fIname\fR" 4 +.IX Item "-mc=name" +Selects which section constant data is placed in. \fIname\fR may +be \f(CW\*(C`tiny\*(C'\fR, \f(CW\*(C`near\*(C'\fR, or \f(CW\*(C`far\*(C'\fR. +.IP "\fB\-mclip\fR" 4 +.IX Item "-mclip" +Enables the \f(CW\*(C`clip\*(C'\fR instruction. Note that \f(CW\*(C`\-mclip\*(C'\fR is not +useful unless you also provide \f(CW\*(C`\-mminmax\*(C'\fR. +.IP "\fB\-mconfig=\fR\fIname\fR" 4 +.IX Item "-mconfig=name" +Selects one of the built-in core configurations. Each MeP chip has +one or more modules in it; each module has a core \s-1CPU\s0 and a variety of +coprocessors, optional instructions, and peripherals. The +\&\f(CW\*(C`MeP\-Integrator\*(C'\fR tool, not part of \s-1GCC,\s0 provides these +configurations through this option; using this option is the same as +using all the corresponding command-line options. The default +configuration is \f(CW\*(C`default\*(C'\fR. +.IP "\fB\-mcop\fR" 4 +.IX Item "-mcop" +Enables the coprocessor instructions. By default, this is a 32\-bit +coprocessor. Note that the coprocessor is normally enabled via the +\&\f(CW\*(C`\-mconfig=\*(C'\fR option. +.IP "\fB\-mcop32\fR" 4 +.IX Item "-mcop32" +Enables the 32\-bit coprocessor's instructions. +.IP "\fB\-mcop64\fR" 4 +.IX Item "-mcop64" +Enables the 64\-bit coprocessor's instructions. +.IP "\fB\-mivc2\fR" 4 +.IX Item "-mivc2" +Enables \s-1IVC2\s0 scheduling. \s-1IVC2\s0 is a 64\-bit \s-1VLIW\s0 coprocessor. +.IP "\fB\-mdc\fR" 4 +.IX Item "-mdc" +Causes constant variables to be placed in the \f(CW\*(C`.near\*(C'\fR section. +.IP "\fB\-mdiv\fR" 4 +.IX Item "-mdiv" +Enables the \f(CW\*(C`div\*(C'\fR and \f(CW\*(C`divu\*(C'\fR instructions. +.IP "\fB\-meb\fR" 4 +.IX Item "-meb" +Generate big-endian code. +.IP "\fB\-mel\fR" 4 +.IX Item "-mel" +Generate little-endian code. +.IP "\fB\-mio\-volatile\fR" 4 +.IX Item "-mio-volatile" +Tells the compiler that any variable marked with the \f(CW\*(C`io\*(C'\fR +attribute is to be considered volatile. +.IP "\fB\-ml\fR" 4 +.IX Item "-ml" +Causes variables to be assigned to the \f(CW\*(C`.far\*(C'\fR section by default. +.IP "\fB\-mleadz\fR" 4 +.IX Item "-mleadz" +Enables the \f(CW\*(C`leadz\*(C'\fR (leading zero) instruction. +.IP "\fB\-mm\fR" 4 +.IX Item "-mm" +Causes variables to be assigned to the \f(CW\*(C`.near\*(C'\fR section by default. +.IP "\fB\-mminmax\fR" 4 +.IX Item "-mminmax" +Enables the \f(CW\*(C`min\*(C'\fR and \f(CW\*(C`max\*(C'\fR instructions. +.IP "\fB\-mmult\fR" 4 +.IX Item "-mmult" +Enables the multiplication and multiply-accumulate instructions. +.IP "\fB\-mno\-opts\fR" 4 +.IX Item "-mno-opts" +Disables all the optional instructions enabled by \f(CW\*(C`\-mall\-opts\*(C'\fR. +.IP "\fB\-mrepeat\fR" 4 +.IX Item "-mrepeat" +Enables the \f(CW\*(C`repeat\*(C'\fR and \f(CW\*(C`erepeat\*(C'\fR instructions, used for +low-overhead looping. +.IP "\fB\-ms\fR" 4 +.IX Item "-ms" +Causes all variables to default to the \f(CW\*(C`.tiny\*(C'\fR section. Note +that there is a 65536\-byte limit to this section. Accesses to these +variables use the \f(CW%gp\fR base register. +.IP "\fB\-msatur\fR" 4 +.IX Item "-msatur" +Enables the saturation instructions. Note that the compiler does not +currently generate these itself, but this option is included for +compatibility with other tools, like \f(CW\*(C`as\*(C'\fR. +.IP "\fB\-msdram\fR" 4 +.IX Item "-msdram" +Link the SDRAM-based runtime instead of the default ROM-based runtime. +.IP "\fB\-msim\fR" 4 +.IX Item "-msim" +Link the simulator run-time libraries. +.IP "\fB\-msimnovec\fR" 4 +.IX Item "-msimnovec" +Link the simulator runtime libraries, excluding built-in support +for reset and exception vectors and tables. +.IP "\fB\-mtf\fR" 4 +.IX Item "-mtf" +Causes all functions to default to the \f(CW\*(C`.far\*(C'\fR section. Without +this option, functions default to the \f(CW\*(C`.near\*(C'\fR section. +.IP "\fB\-mtiny=\fR\fIn\fR" 4 +.IX Item "-mtiny=n" +Variables that are \fIn\fR bytes or smaller are allocated to the +\&\f(CW\*(C`.tiny\*(C'\fR section. These variables use the \f(CW$gp\fR base +register. The default for this option is 4, but note that there's a +65536\-byte limit to the \f(CW\*(C`.tiny\*(C'\fR section. +.PP +\fIMicroBlaze Options\fR +.IX Subsection "MicroBlaze Options" +.IP "\fB\-msoft\-float\fR" 4 +.IX Item "-msoft-float" +Use software emulation for floating point (default). +.IP "\fB\-mhard\-float\fR" 4 +.IX Item "-mhard-float" +Use hardware floating-point instructions. +.IP "\fB\-mmemcpy\fR" 4 +.IX Item "-mmemcpy" +Do not optimize block moves, use \f(CW\*(C`memcpy\*(C'\fR. +.IP "\fB\-mno\-clearbss\fR" 4 +.IX Item "-mno-clearbss" +This option is deprecated. Use \fB\-fno\-zero\-initialized\-in\-bss\fR instead. +.IP "\fB\-mcpu=\fR\fIcpu-type\fR" 4 +.IX Item "-mcpu=cpu-type" +Use features of, and schedule code for, the given \s-1CPU.\s0 +Supported values are in the format \fBv\fR\fIX\fR\fB.\fR\fI\s-1YY\s0\fR\fB.\fR\fIZ\fR, +where \fIX\fR is a major version, \fI\s-1YY\s0\fR is the minor version, and +\&\fIZ\fR is compatibility code. Example values are \fBv3.00.a\fR, +\&\fBv4.00.b\fR, \fBv5.00.a\fR, \fBv5.00.b\fR, \fBv5.00.b\fR, \fBv6.00.a\fR. +.IP "\fB\-mxl\-soft\-mul\fR" 4 +.IX Item "-mxl-soft-mul" +Use software multiply emulation (default). +.IP "\fB\-mxl\-soft\-div\fR" 4 +.IX Item "-mxl-soft-div" +Use software emulation for divides (default). +.IP "\fB\-mxl\-barrel\-shift\fR" 4 +.IX Item "-mxl-barrel-shift" +Use the hardware barrel shifter. +.IP "\fB\-mxl\-pattern\-compare\fR" 4 +.IX Item "-mxl-pattern-compare" +Use pattern compare instructions. +.IP "\fB\-msmall\-divides\fR" 4 +.IX Item "-msmall-divides" +Use table lookup optimization for small signed integer divisions. +.IP "\fB\-mxl\-stack\-check\fR" 4 +.IX Item "-mxl-stack-check" +This option is deprecated. Use \fB\-fstack\-check\fR instead. +.IP "\fB\-mxl\-gp\-opt\fR" 4 +.IX Item "-mxl-gp-opt" +Use GP-relative \f(CW\*(C`.sdata\*(C'\fR/\f(CW\*(C`.sbss\*(C'\fR sections. +.IP "\fB\-mxl\-multiply\-high\fR" 4 +.IX Item "-mxl-multiply-high" +Use multiply high instructions for high part of 32x32 multiply. +.IP "\fB\-mxl\-float\-convert\fR" 4 +.IX Item "-mxl-float-convert" +Use hardware floating-point conversion instructions. +.IP "\fB\-mxl\-float\-sqrt\fR" 4 +.IX Item "-mxl-float-sqrt" +Use hardware floating-point square root instruction. +.IP "\fB\-mbig\-endian\fR" 4 +.IX Item "-mbig-endian" +Generate code for a big-endian target. +.IP "\fB\-mlittle\-endian\fR" 4 +.IX Item "-mlittle-endian" +Generate code for a little-endian target. +.IP "\fB\-mxl\-reorder\fR" 4 +.IX Item "-mxl-reorder" +Use reorder instructions (swap and byte reversed load/store). +.IP "\fB\-mxl\-mode\-\fR\fIapp-model\fR" 4 +.IX Item "-mxl-mode-app-model" +Select application model \fIapp-model\fR. Valid models are +.RS 4 +.IP "\fBexecutable\fR" 4 +.IX Item "executable" +normal executable (default), uses startup code \fIcrt0.o\fR. +.IP "\fBxmdstub\fR" 4 +.IX Item "xmdstub" +for use with Xilinx Microprocessor Debugger (\s-1XMD\s0) based +software intrusive debug agent called xmdstub. This uses startup file +\&\fIcrt1.o\fR and sets the start address of the program to 0x800. +.IP "\fBbootstrap\fR" 4 +.IX Item "bootstrap" +for applications that are loaded using a bootloader. +This model uses startup file \fIcrt2.o\fR which does not contain a processor +reset vector handler. This is suitable for transferring control on a +processor reset to the bootloader rather than the application. +.IP "\fBnovectors\fR" 4 +.IX Item "novectors" +for applications that do not require any of the +MicroBlaze vectors. This option may be useful for applications running +within a monitoring application. This model uses \fIcrt3.o\fR as a startup file. +.RE +.RS 4 +.Sp +Option \fB\-xl\-mode\-\fR\fIapp-model\fR is a deprecated alias for +\&\fB\-mxl\-mode\-\fR\fIapp-model\fR. +.RE +.PP +\fI\s-1MIPS\s0 Options\fR +.IX Subsection "MIPS Options" +.IP "\fB\-EB\fR" 4 +.IX Item "-EB" +Generate big-endian code. +.IP "\fB\-EL\fR" 4 +.IX Item "-EL" +Generate little-endian code. This is the default for \fBmips*el\-*\-*\fR +configurations. +.IP "\fB\-march=\fR\fIarch\fR" 4 +.IX Item "-march=arch" +Generate code that runs on \fIarch\fR, which can be the name of a +generic \s-1MIPS ISA,\s0 or the name of a particular processor. +The \s-1ISA\s0 names are: +\&\fBmips1\fR, \fBmips2\fR, \fBmips3\fR, \fBmips4\fR, +\&\fBmips32\fR, \fBmips32r2\fR, \fBmips64\fR and \fBmips64r2\fR. +The processor names are: +\&\fB4kc\fR, \fB4km\fR, \fB4kp\fR, \fB4ksc\fR, +\&\fB4kec\fR, \fB4kem\fR, \fB4kep\fR, \fB4ksd\fR, +\&\fB5kc\fR, \fB5kf\fR, +\&\fB20kc\fR, +\&\fB24kc\fR, \fB24kf2_1\fR, \fB24kf1_1\fR, +\&\fB24kec\fR, \fB24kef2_1\fR, \fB24kef1_1\fR, +\&\fB34kc\fR, \fB34kf2_1\fR, \fB34kf1_1\fR, \fB34kn\fR, +\&\fB74kc\fR, \fB74kf2_1\fR, \fB74kf1_1\fR, \fB74kf3_2\fR, +\&\fB1004kc\fR, \fB1004kf2_1\fR, \fB1004kf1_1\fR, +\&\fBloongson2e\fR, \fBloongson2f\fR, \fBloongson3a\fR, +\&\fBm4k\fR, +\&\fBm14k\fR, \fBm14kc\fR, \fBm14ke\fR, \fBm14kec\fR, +\&\fBocteon\fR, \fBocteon+\fR, \fBocteon2\fR, +\&\fBorion\fR, +\&\fBr2000\fR, \fBr3000\fR, \fBr3900\fR, \fBr4000\fR, \fBr4400\fR, +\&\fBr4600\fR, \fBr4650\fR, \fBr4700\fR, \fBr6000\fR, \fBr8000\fR, +\&\fBrm7000\fR, \fBrm9000\fR, +\&\fBr10000\fR, \fBr12000\fR, \fBr14000\fR, \fBr16000\fR, +\&\fBsb1\fR, +\&\fBsr71000\fR, +\&\fBvr4100\fR, \fBvr4111\fR, \fBvr4120\fR, \fBvr4130\fR, \fBvr4300\fR, +\&\fBvr5000\fR, \fBvr5400\fR, \fBvr5500\fR, +\&\fBxlr\fR and \fBxlp\fR. +The special value \fBfrom-abi\fR selects the +most compatible architecture for the selected \s-1ABI \s0(that is, +\&\fBmips1\fR for 32\-bit ABIs and \fBmips3\fR for 64\-bit ABIs). +.Sp +The native Linux/GNU toolchain also supports the value \fBnative\fR, +which selects the best architecture option for the host processor. +\&\fB\-march=native\fR has no effect if \s-1GCC\s0 does not recognize +the processor. +.Sp +In processor names, a final \fB000\fR can be abbreviated as \fBk\fR +(for example, \fB\-march=r2k\fR). Prefixes are optional, and +\&\fBvr\fR may be written \fBr\fR. +.Sp +Names of the form \fIn\fR\fBf2_1\fR refer to processors with +FPUs clocked at half the rate of the core, names of the form +\&\fIn\fR\fBf1_1\fR refer to processors with FPUs clocked at the same +rate as the core, and names of the form \fIn\fR\fBf3_2\fR refer to +processors with FPUs clocked a ratio of 3:2 with respect to the core. +For compatibility reasons, \fIn\fR\fBf\fR is accepted as a synonym +for \fIn\fR\fBf2_1\fR while \fIn\fR\fBx\fR and \fIb\fR\fBfx\fR are +accepted as synonyms for \fIn\fR\fBf1_1\fR. +.Sp +\&\s-1GCC\s0 defines two macros based on the value of this option. The first +is \fB_MIPS_ARCH\fR, which gives the name of target architecture, as +a string. The second has the form \fB_MIPS_ARCH_\fR\fIfoo\fR, +where \fIfoo\fR is the capitalized value of \fB_MIPS_ARCH\fR. +For example, \fB\-march=r2000\fR sets \fB_MIPS_ARCH\fR +to \fB\*(L"r2000\*(R"\fR and defines the macro \fB_MIPS_ARCH_R2000\fR. +.Sp +Note that the \fB_MIPS_ARCH\fR macro uses the processor names given +above. In other words, it has the full prefix and does not +abbreviate \fB000\fR as \fBk\fR. In the case of \fBfrom-abi\fR, +the macro names the resolved architecture (either \fB\*(L"mips1\*(R"\fR or +\&\fB\*(L"mips3\*(R"\fR). It names the default architecture when no +\&\fB\-march\fR option is given. +.IP "\fB\-mtune=\fR\fIarch\fR" 4 +.IX Item "-mtune=arch" +Optimize for \fIarch\fR. Among other things, this option controls +the way instructions are scheduled, and the perceived cost of arithmetic +operations. The list of \fIarch\fR values is the same as for +\&\fB\-march\fR. +.Sp +When this option is not used, \s-1GCC\s0 optimizes for the processor +specified by \fB\-march\fR. By using \fB\-march\fR and +\&\fB\-mtune\fR together, it is possible to generate code that +runs on a family of processors, but optimize the code for one +particular member of that family. +.Sp +\&\fB\-mtune\fR defines the macros \fB_MIPS_TUNE\fR and +\&\fB_MIPS_TUNE_\fR\fIfoo\fR, which work in the same way as the +\&\fB\-march\fR ones described above. +.IP "\fB\-mips1\fR" 4 +.IX Item "-mips1" +Equivalent to \fB\-march=mips1\fR. +.IP "\fB\-mips2\fR" 4 +.IX Item "-mips2" +Equivalent to \fB\-march=mips2\fR. +.IP "\fB\-mips3\fR" 4 +.IX Item "-mips3" +Equivalent to \fB\-march=mips3\fR. +.IP "\fB\-mips4\fR" 4 +.IX Item "-mips4" +Equivalent to \fB\-march=mips4\fR. +.IP "\fB\-mips32\fR" 4 +.IX Item "-mips32" +Equivalent to \fB\-march=mips32\fR. +.IP "\fB\-mips32r2\fR" 4 +.IX Item "-mips32r2" +Equivalent to \fB\-march=mips32r2\fR. +.IP "\fB\-mips64\fR" 4 +.IX Item "-mips64" +Equivalent to \fB\-march=mips64\fR. +.IP "\fB\-mips64r2\fR" 4 +.IX Item "-mips64r2" +Equivalent to \fB\-march=mips64r2\fR. +.IP "\fB\-mips16\fR" 4 +.IX Item "-mips16" +.PD 0 +.IP "\fB\-mno\-mips16\fR" 4 +.IX Item "-mno-mips16" +.PD +Generate (do not generate) \s-1MIPS16\s0 code. If \s-1GCC\s0 is targeting a +\&\s-1MIPS32\s0 or \s-1MIPS64\s0 architecture, it makes use of the MIPS16e \s-1ASE.\s0 +.Sp +\&\s-1MIPS16\s0 code generation can also be controlled on a per-function basis +by means of \f(CW\*(C`mips16\*(C'\fR and \f(CW\*(C`nomips16\*(C'\fR attributes. +.IP "\fB\-mflip\-mips16\fR" 4 +.IX Item "-mflip-mips16" +Generate \s-1MIPS16\s0 code on alternating functions. This option is provided +for regression testing of mixed MIPS16/non\-MIPS16 code generation, and is +not intended for ordinary use in compiling user code. +.IP "\fB\-minterlink\-compressed\fR" 4 +.IX Item "-minterlink-compressed" +.PD 0 +.IP "\fB\-mno\-interlink\-compressed\fR" 4 +.IX Item "-mno-interlink-compressed" +.PD +Require (do not require) that code using the standard (uncompressed) \s-1MIPS ISA\s0 +be link-compatible with \s-1MIPS16\s0 and microMIPS code, and vice versa. +.Sp +For example, code using the standard \s-1ISA\s0 encoding cannot jump directly +to \s-1MIPS16\s0 or microMIPS code; it must either use a call or an indirect jump. +\&\fB\-minterlink\-compressed\fR therefore disables direct jumps unless \s-1GCC\s0 +knows that the target of the jump is not compressed. +.IP "\fB\-minterlink\-mips16\fR" 4 +.IX Item "-minterlink-mips16" +.PD 0 +.IP "\fB\-mno\-interlink\-mips16\fR" 4 +.IX Item "-mno-interlink-mips16" +.PD +Aliases of \fB\-minterlink\-compressed\fR and +\&\fB\-mno\-interlink\-compressed\fR. These options predate the microMIPS \s-1ASE\s0 +and are retained for backwards compatibility. +.IP "\fB\-mabi=32\fR" 4 +.IX Item "-mabi=32" +.PD 0 +.IP "\fB\-mabi=o64\fR" 4 +.IX Item "-mabi=o64" +.IP "\fB\-mabi=n32\fR" 4 +.IX Item "-mabi=n32" +.IP "\fB\-mabi=64\fR" 4 +.IX Item "-mabi=64" +.IP "\fB\-mabi=eabi\fR" 4 +.IX Item "-mabi=eabi" +.PD +Generate code for the given \s-1ABI.\s0 +.Sp +Note that the \s-1EABI\s0 has a 32\-bit and a 64\-bit variant. \s-1GCC\s0 normally +generates 64\-bit code when you select a 64\-bit architecture, but you +can use \fB\-mgp32\fR to get 32\-bit code instead. +.Sp +For information about the O64 \s-1ABI,\s0 see +<\fBhttp://gcc.gnu.org/projects/mipso64\-abi.html\fR>. +.Sp +\&\s-1GCC\s0 supports a variant of the o32 \s-1ABI\s0 in which floating-point registers +are 64 rather than 32 bits wide. You can select this combination with +\&\fB\-mabi=32\fR \fB\-mfp64\fR. This \s-1ABI\s0 relies on the \f(CW\*(C`mthc1\*(C'\fR +and \f(CW\*(C`mfhc1\*(C'\fR instructions and is therefore only supported for +\&\s-1MIPS32R2\s0 processors. +.Sp +The register assignments for arguments and return values remain the +same, but each scalar value is passed in a single 64\-bit register +rather than a pair of 32\-bit registers. For example, scalar +floating-point values are returned in \fB\f(CB$f0\fB\fR only, not a +\&\fB\f(CB$f0\fB\fR/\fB\f(CB$f1\fB\fR pair. The set of call-saved registers also +remains the same, but all 64 bits are saved. +.IP "\fB\-mabicalls\fR" 4 +.IX Item "-mabicalls" +.PD 0 +.IP "\fB\-mno\-abicalls\fR" 4 +.IX Item "-mno-abicalls" +.PD +Generate (do not generate) code that is suitable for SVR4\-style +dynamic objects. \fB\-mabicalls\fR is the default for SVR4\-based +systems. +.IP "\fB\-mshared\fR" 4 +.IX Item "-mshared" +.PD 0 +.IP "\fB\-mno\-shared\fR" 4 +.IX Item "-mno-shared" +.PD +Generate (do not generate) code that is fully position-independent, +and that can therefore be linked into shared libraries. This option +only affects \fB\-mabicalls\fR. +.Sp +All \fB\-mabicalls\fR code has traditionally been position-independent, +regardless of options like \fB\-fPIC\fR and \fB\-fpic\fR. However, +as an extension, the \s-1GNU\s0 toolchain allows executables to use absolute +accesses for locally-binding symbols. It can also use shorter \s-1GP\s0 +initialization sequences and generate direct calls to locally-defined +functions. This mode is selected by \fB\-mno\-shared\fR. +.Sp +\&\fB\-mno\-shared\fR depends on binutils 2.16 or higher and generates +objects that can only be linked by the \s-1GNU\s0 linker. However, the option +does not affect the \s-1ABI\s0 of the final executable; it only affects the \s-1ABI\s0 +of relocatable objects. Using \fB\-mno\-shared\fR generally makes +executables both smaller and quicker. +.Sp +\&\fB\-mshared\fR is the default. +.IP "\fB\-mplt\fR" 4 +.IX Item "-mplt" +.PD 0 +.IP "\fB\-mno\-plt\fR" 4 +.IX Item "-mno-plt" +.PD +Assume (do not assume) that the static and dynamic linkers +support PLTs and copy relocations. This option only affects +\&\fB\-mno\-shared \-mabicalls\fR. For the n64 \s-1ABI,\s0 this option +has no effect without \fB\-msym32\fR. +.Sp +You can make \fB\-mplt\fR the default by configuring +\&\s-1GCC\s0 with \fB\-\-with\-mips\-plt\fR. The default is +\&\fB\-mno\-plt\fR otherwise. +.IP "\fB\-mxgot\fR" 4 +.IX Item "-mxgot" +.PD 0 +.IP "\fB\-mno\-xgot\fR" 4 +.IX Item "-mno-xgot" +.PD +Lift (do not lift) the usual restrictions on the size of the global +offset table. +.Sp +\&\s-1GCC\s0 normally uses a single instruction to load values from the \s-1GOT.\s0 +While this is relatively efficient, it only works if the \s-1GOT\s0 +is smaller than about 64k. Anything larger causes the linker +to report an error such as: +.Sp +.Vb 1 +\& relocation truncated to fit: R_MIPS_GOT16 foobar +.Ve +.Sp +If this happens, you should recompile your code with \fB\-mxgot\fR. +This works with very large GOTs, although the code is also +less efficient, since it takes three instructions to fetch the +value of a global symbol. +.Sp +Note that some linkers can create multiple GOTs. If you have such a +linker, you should only need to use \fB\-mxgot\fR when a single object +file accesses more than 64k's worth of \s-1GOT\s0 entries. Very few do. +.Sp +These options have no effect unless \s-1GCC\s0 is generating position +independent code. +.IP "\fB\-mgp32\fR" 4 +.IX Item "-mgp32" +Assume that general-purpose registers are 32 bits wide. +.IP "\fB\-mgp64\fR" 4 +.IX Item "-mgp64" +Assume that general-purpose registers are 64 bits wide. +.IP "\fB\-mfp32\fR" 4 +.IX Item "-mfp32" +Assume that floating-point registers are 32 bits wide. +.IP "\fB\-mfp64\fR" 4 +.IX Item "-mfp64" +Assume that floating-point registers are 64 bits wide. +.IP "\fB\-mhard\-float\fR" 4 +.IX Item "-mhard-float" +Use floating-point coprocessor instructions. +.IP "\fB\-msoft\-float\fR" 4 +.IX Item "-msoft-float" +Do not use floating-point coprocessor instructions. Implement +floating-point calculations using library calls instead. +.IP "\fB\-mno\-float\fR" 4 +.IX Item "-mno-float" +Equivalent to \fB\-msoft\-float\fR, but additionally asserts that the +program being compiled does not perform any floating-point operations. +This option is presently supported only by some bare-metal \s-1MIPS\s0 +configurations, where it may select a special set of libraries +that lack all floating-point support (including, for example, the +floating-point \f(CW\*(C`printf\*(C'\fR formats). +If code compiled with \f(CW\*(C`\-mno\-float\*(C'\fR accidentally contains +floating-point operations, it is likely to suffer a link-time +or run-time failure. +.IP "\fB\-msingle\-float\fR" 4 +.IX Item "-msingle-float" +Assume that the floating-point coprocessor only supports single-precision +operations. +.IP "\fB\-mdouble\-float\fR" 4 +.IX Item "-mdouble-float" +Assume that the floating-point coprocessor supports double-precision +operations. This is the default. +.IP "\fB\-mabs=2008\fR" 4 +.IX Item "-mabs=2008" +.PD 0 +.IP "\fB\-mabs=legacy\fR" 4 +.IX Item "-mabs=legacy" +.PD +These options control the treatment of the special not-a-number (NaN) +\&\s-1IEEE 754\s0 floating-point data with the \f(CW\*(C`abs.\f(CIfmt\f(CW\*(C'\fR and +\&\f(CW\*(C`neg.\f(CIfmt\f(CW\*(C'\fR machine instructions. +.Sp +By default or when the \fB\-mabs=legacy\fR is used the legacy +treatment is selected. In this case these instructions are considered +arithmetic and avoided where correct operation is required and the +input operand might be a NaN. A longer sequence of instructions that +manipulate the sign bit of floating-point datum manually is used +instead unless the \fB\-ffinite\-math\-only\fR option has also been +specified. +.Sp +The \fB\-mabs=2008\fR option selects the \s-1IEEE 754\-2008\s0 treatment. In +this case these instructions are considered non-arithmetic and therefore +operating correctly in all cases, including in particular where the +input operand is a NaN. These instructions are therefore always used +for the respective operations. +.IP "\fB\-mnan=2008\fR" 4 +.IX Item "-mnan=2008" +.PD 0 +.IP "\fB\-mnan=legacy\fR" 4 +.IX Item "-mnan=legacy" +.PD +These options control the encoding of the special not-a-number (NaN) +\&\s-1IEEE 754\s0 floating-point data. +.Sp +The \fB\-mnan=legacy\fR option selects the legacy encoding. In this +case quiet NaNs (qNaNs) are denoted by the first bit of their trailing +significand field being 0, whereas signalling NaNs (sNaNs) are denoted +by the first bit of their trailing significand field being 1. +.Sp +The \fB\-mnan=2008\fR option selects the \s-1IEEE 754\-2008\s0 encoding. In +this case qNaNs are denoted by the first bit of their trailing +significand field being 1, whereas sNaNs are denoted by the first bit of +their trailing significand field being 0. +.Sp +The default is \fB\-mnan=legacy\fR unless \s-1GCC\s0 has been configured with +\&\fB\-\-with\-nan=2008\fR. +.IP "\fB\-mllsc\fR" 4 +.IX Item "-mllsc" +.PD 0 +.IP "\fB\-mno\-llsc\fR" 4 +.IX Item "-mno-llsc" +.PD +Use (do not use) \fBll\fR, \fBsc\fR, and \fBsync\fR instructions to +implement atomic memory built-in functions. When neither option is +specified, \s-1GCC\s0 uses the instructions if the target architecture +supports them. +.Sp +\&\fB\-mllsc\fR is useful if the runtime environment can emulate the +instructions and \fB\-mno\-llsc\fR can be useful when compiling for +nonstandard ISAs. You can make either option the default by +configuring \s-1GCC\s0 with \fB\-\-with\-llsc\fR and \fB\-\-without\-llsc\fR +respectively. \fB\-\-with\-llsc\fR is the default for some +configurations; see the installation documentation for details. +.IP "\fB\-mdsp\fR" 4 +.IX Item "-mdsp" +.PD 0 +.IP "\fB\-mno\-dsp\fR" 4 +.IX Item "-mno-dsp" +.PD +Use (do not use) revision 1 of the \s-1MIPS DSP ASE. + \s0 This option defines the +preprocessor macro \fB_\|_mips_dsp\fR. It also defines +\&\fB_\|_mips_dsp_rev\fR to 1. +.IP "\fB\-mdspr2\fR" 4 +.IX Item "-mdspr2" +.PD 0 +.IP "\fB\-mno\-dspr2\fR" 4 +.IX Item "-mno-dspr2" +.PD +Use (do not use) revision 2 of the \s-1MIPS DSP ASE. + \s0 This option defines the +preprocessor macros \fB_\|_mips_dsp\fR and \fB_\|_mips_dspr2\fR. +It also defines \fB_\|_mips_dsp_rev\fR to 2. +.IP "\fB\-msmartmips\fR" 4 +.IX Item "-msmartmips" +.PD 0 +.IP "\fB\-mno\-smartmips\fR" 4 +.IX Item "-mno-smartmips" +.PD +Use (do not use) the \s-1MIPS\s0 SmartMIPS \s-1ASE.\s0 +.IP "\fB\-mpaired\-single\fR" 4 +.IX Item "-mpaired-single" +.PD 0 +.IP "\fB\-mno\-paired\-single\fR" 4 +.IX Item "-mno-paired-single" +.PD +Use (do not use) paired-single floating-point instructions. + This option requires +hardware floating-point support to be enabled. +.IP "\fB\-mdmx\fR" 4 +.IX Item "-mdmx" +.PD 0 +.IP "\fB\-mno\-mdmx\fR" 4 +.IX Item "-mno-mdmx" +.PD +Use (do not use) \s-1MIPS\s0 Digital Media Extension instructions. +This option can only be used when generating 64\-bit code and requires +hardware floating-point support to be enabled. +.IP "\fB\-mips3d\fR" 4 +.IX Item "-mips3d" +.PD 0 +.IP "\fB\-mno\-mips3d\fR" 4 +.IX Item "-mno-mips3d" +.PD +Use (do not use) the \s-1MIPS\-3D ASE. \s0 +The option \fB\-mips3d\fR implies \fB\-mpaired\-single\fR. +.IP "\fB\-mmicromips\fR" 4 +.IX Item "-mmicromips" +.PD 0 +.IP "\fB\-mno\-micromips\fR" 4 +.IX Item "-mno-micromips" +.PD +Generate (do not generate) microMIPS code. +.Sp +MicroMIPS code generation can also be controlled on a per-function basis +by means of \f(CW\*(C`micromips\*(C'\fR and \f(CW\*(C`nomicromips\*(C'\fR attributes. +.IP "\fB\-mmt\fR" 4 +.IX Item "-mmt" +.PD 0 +.IP "\fB\-mno\-mt\fR" 4 +.IX Item "-mno-mt" +.PD +Use (do not use) \s-1MT\s0 Multithreading instructions. +.IP "\fB\-mmcu\fR" 4 +.IX Item "-mmcu" +.PD 0 +.IP "\fB\-mno\-mcu\fR" 4 +.IX Item "-mno-mcu" +.PD +Use (do not use) the \s-1MIPS MCU ASE\s0 instructions. +.IP "\fB\-meva\fR" 4 +.IX Item "-meva" +.PD 0 +.IP "\fB\-mno\-eva\fR" 4 +.IX Item "-mno-eva" +.PD +Use (do not use) the \s-1MIPS\s0 Enhanced Virtual Addressing instructions. +.IP "\fB\-mvirt\fR" 4 +.IX Item "-mvirt" +.PD 0 +.IP "\fB\-mno\-virt\fR" 4 +.IX Item "-mno-virt" +.PD +Use (do not use) the \s-1MIPS\s0 Virtualization Application Specific instructions. +.IP "\fB\-mlong64\fR" 4 +.IX Item "-mlong64" +Force \f(CW\*(C`long\*(C'\fR types to be 64 bits wide. See \fB\-mlong32\fR for +an explanation of the default and the way that the pointer size is +determined. +.IP "\fB\-mlong32\fR" 4 +.IX Item "-mlong32" +Force \f(CW\*(C`long\*(C'\fR, \f(CW\*(C`int\*(C'\fR, and pointer types to be 32 bits wide. +.Sp +The default size of \f(CW\*(C`int\*(C'\fRs, \f(CW\*(C`long\*(C'\fRs and pointers depends on +the \s-1ABI. \s0 All the supported ABIs use 32\-bit \f(CW\*(C`int\*(C'\fRs. The n64 \s-1ABI\s0 +uses 64\-bit \f(CW\*(C`long\*(C'\fRs, as does the 64\-bit \s-1EABI\s0; the others use +32\-bit \f(CW\*(C`long\*(C'\fRs. Pointers are the same size as \f(CW\*(C`long\*(C'\fRs, +or the same size as integer registers, whichever is smaller. +.IP "\fB\-msym32\fR" 4 +.IX Item "-msym32" +.PD 0 +.IP "\fB\-mno\-sym32\fR" 4 +.IX Item "-mno-sym32" +.PD +Assume (do not assume) that all symbols have 32\-bit values, regardless +of the selected \s-1ABI. \s0 This option is useful in combination with +\&\fB\-mabi=64\fR and \fB\-mno\-abicalls\fR because it allows \s-1GCC\s0 +to generate shorter and faster references to symbolic addresses. +.IP "\fB\-G\fR \fInum\fR" 4 +.IX Item "-G num" +Put definitions of externally-visible data in a small data section +if that data is no bigger than \fInum\fR bytes. \s-1GCC\s0 can then generate +more efficient accesses to the data; see \fB\-mgpopt\fR for details. +.Sp +The default \fB\-G\fR option depends on the configuration. +.IP "\fB\-mlocal\-sdata\fR" 4 +.IX Item "-mlocal-sdata" +.PD 0 +.IP "\fB\-mno\-local\-sdata\fR" 4 +.IX Item "-mno-local-sdata" +.PD +Extend (do not extend) the \fB\-G\fR behavior to local data too, +such as to static variables in C. \fB\-mlocal\-sdata\fR is the +default for all configurations. +.Sp +If the linker complains that an application is using too much small data, +you might want to try rebuilding the less performance-critical parts with +\&\fB\-mno\-local\-sdata\fR. You might also want to build large +libraries with \fB\-mno\-local\-sdata\fR, so that the libraries leave +more room for the main program. +.IP "\fB\-mextern\-sdata\fR" 4 +.IX Item "-mextern-sdata" +.PD 0 +.IP "\fB\-mno\-extern\-sdata\fR" 4 +.IX Item "-mno-extern-sdata" +.PD +Assume (do not assume) that externally-defined data is in +a small data section if the size of that data is within the \fB\-G\fR limit. +\&\fB\-mextern\-sdata\fR is the default for all configurations. +.Sp +If you compile a module \fIMod\fR with \fB\-mextern\-sdata\fR \fB\-G\fR +\&\fInum\fR \fB\-mgpopt\fR, and \fIMod\fR references a variable \fIVar\fR +that is no bigger than \fInum\fR bytes, you must make sure that \fIVar\fR +is placed in a small data section. If \fIVar\fR is defined by another +module, you must either compile that module with a high-enough +\&\fB\-G\fR setting or attach a \f(CW\*(C`section\*(C'\fR attribute to \fIVar\fR's +definition. If \fIVar\fR is common, you must link the application +with a high-enough \fB\-G\fR setting. +.Sp +The easiest way of satisfying these restrictions is to compile +and link every module with the same \fB\-G\fR option. However, +you may wish to build a library that supports several different +small data limits. You can do this by compiling the library with +the highest supported \fB\-G\fR setting and additionally using +\&\fB\-mno\-extern\-sdata\fR to stop the library from making assumptions +about externally-defined data. +.IP "\fB\-mgpopt\fR" 4 +.IX Item "-mgpopt" +.PD 0 +.IP "\fB\-mno\-gpopt\fR" 4 +.IX Item "-mno-gpopt" +.PD +Use (do not use) GP-relative accesses for symbols that are known to be +in a small data section; see \fB\-G\fR, \fB\-mlocal\-sdata\fR and +\&\fB\-mextern\-sdata\fR. \fB\-mgpopt\fR is the default for all +configurations. +.Sp +\&\fB\-mno\-gpopt\fR is useful for cases where the \f(CW$gp\fR register +might not hold the value of \f(CW\*(C`_gp\*(C'\fR. For example, if the code is +part of a library that might be used in a boot monitor, programs that +call boot monitor routines pass an unknown value in \f(CW$gp\fR. +(In such situations, the boot monitor itself is usually compiled +with \fB\-G0\fR.) +.Sp +\&\fB\-mno\-gpopt\fR implies \fB\-mno\-local\-sdata\fR and +\&\fB\-mno\-extern\-sdata\fR. +.IP "\fB\-membedded\-data\fR" 4 +.IX Item "-membedded-data" +.PD 0 +.IP "\fB\-mno\-embedded\-data\fR" 4 +.IX Item "-mno-embedded-data" +.PD +Allocate variables to the read-only data section first if possible, then +next in the small data section if possible, otherwise in data. This gives +slightly slower code than the default, but reduces the amount of \s-1RAM\s0 required +when executing, and thus may be preferred for some embedded systems. +.IP "\fB\-muninit\-const\-in\-rodata\fR" 4 +.IX Item "-muninit-const-in-rodata" +.PD 0 +.IP "\fB\-mno\-uninit\-const\-in\-rodata\fR" 4 +.IX Item "-mno-uninit-const-in-rodata" +.PD +Put uninitialized \f(CW\*(C`const\*(C'\fR variables in the read-only data section. +This option is only meaningful in conjunction with \fB\-membedded\-data\fR. +.IP "\fB\-mcode\-readable=\fR\fIsetting\fR" 4 +.IX Item "-mcode-readable=setting" +Specify whether \s-1GCC\s0 may generate code that reads from executable sections. +There are three possible settings: +.RS 4 +.IP "\fB\-mcode\-readable=yes\fR" 4 +.IX Item "-mcode-readable=yes" +Instructions may freely access executable sections. This is the +default setting. +.IP "\fB\-mcode\-readable=pcrel\fR" 4 +.IX Item "-mcode-readable=pcrel" +\&\s-1MIPS16\s0 PC-relative load instructions can access executable sections, +but other instructions must not do so. This option is useful on 4KSc +and 4KSd processors when the code TLBs have the Read Inhibit bit set. +It is also useful on processors that can be configured to have a dual +instruction/data \s-1SRAM\s0 interface and that, like the M4K, automatically +redirect PC-relative loads to the instruction \s-1RAM.\s0 +.IP "\fB\-mcode\-readable=no\fR" 4 +.IX Item "-mcode-readable=no" +Instructions must not access executable sections. This option can be +useful on targets that are configured to have a dual instruction/data +\&\s-1SRAM\s0 interface but that (unlike the M4K) do not automatically redirect +PC-relative loads to the instruction \s-1RAM.\s0 +.RE +.RS 4 +.RE +.IP "\fB\-msplit\-addresses\fR" 4 +.IX Item "-msplit-addresses" +.PD 0 +.IP "\fB\-mno\-split\-addresses\fR" 4 +.IX Item "-mno-split-addresses" +.PD +Enable (disable) use of the \f(CW\*(C`%hi()\*(C'\fR and \f(CW\*(C`%lo()\*(C'\fR assembler +relocation operators. This option has been superseded by +\&\fB\-mexplicit\-relocs\fR but is retained for backwards compatibility. +.IP "\fB\-mexplicit\-relocs\fR" 4 +.IX Item "-mexplicit-relocs" +.PD 0 +.IP "\fB\-mno\-explicit\-relocs\fR" 4 +.IX Item "-mno-explicit-relocs" +.PD +Use (do not use) assembler relocation operators when dealing with symbolic +addresses. The alternative, selected by \fB\-mno\-explicit\-relocs\fR, +is to use assembler macros instead. +.Sp +\&\fB\-mexplicit\-relocs\fR is the default if \s-1GCC\s0 was configured +to use an assembler that supports relocation operators. +.IP "\fB\-mcheck\-zero\-division\fR" 4 +.IX Item "-mcheck-zero-division" +.PD 0 +.IP "\fB\-mno\-check\-zero\-division\fR" 4 +.IX Item "-mno-check-zero-division" +.PD +Trap (do not trap) on integer division by zero. +.Sp +The default is \fB\-mcheck\-zero\-division\fR. +.IP "\fB\-mdivide\-traps\fR" 4 +.IX Item "-mdivide-traps" +.PD 0 +.IP "\fB\-mdivide\-breaks\fR" 4 +.IX Item "-mdivide-breaks" +.PD +\&\s-1MIPS\s0 systems check for division by zero by generating either a +conditional trap or a break instruction. Using traps results in +smaller code, but is only supported on \s-1MIPS II\s0 and later. Also, some +versions of the Linux kernel have a bug that prevents trap from +generating the proper signal (\f(CW\*(C`SIGFPE\*(C'\fR). Use \fB\-mdivide\-traps\fR to +allow conditional traps on architectures that support them and +\&\fB\-mdivide\-breaks\fR to force the use of breaks. +.Sp +The default is usually \fB\-mdivide\-traps\fR, but this can be +overridden at configure time using \fB\-\-with\-divide=breaks\fR. +Divide-by-zero checks can be completely disabled using +\&\fB\-mno\-check\-zero\-division\fR. +.IP "\fB\-mmemcpy\fR" 4 +.IX Item "-mmemcpy" +.PD 0 +.IP "\fB\-mno\-memcpy\fR" 4 +.IX Item "-mno-memcpy" +.PD +Force (do not force) the use of \f(CW\*(C`memcpy()\*(C'\fR for non-trivial block +moves. The default is \fB\-mno\-memcpy\fR, which allows \s-1GCC\s0 to inline +most constant-sized copies. +.IP "\fB\-mlong\-calls\fR" 4 +.IX Item "-mlong-calls" +.PD 0 +.IP "\fB\-mno\-long\-calls\fR" 4 +.IX Item "-mno-long-calls" +.PD +Disable (do not disable) use of the \f(CW\*(C`jal\*(C'\fR instruction. Calling +functions using \f(CW\*(C`jal\*(C'\fR is more efficient but requires the caller +and callee to be in the same 256 megabyte segment. +.Sp +This option has no effect on abicalls code. The default is +\&\fB\-mno\-long\-calls\fR. +.IP "\fB\-mmad\fR" 4 +.IX Item "-mmad" +.PD 0 +.IP "\fB\-mno\-mad\fR" 4 +.IX Item "-mno-mad" +.PD +Enable (disable) use of the \f(CW\*(C`mad\*(C'\fR, \f(CW\*(C`madu\*(C'\fR and \f(CW\*(C`mul\*(C'\fR +instructions, as provided by the R4650 \s-1ISA.\s0 +.IP "\fB\-mimadd\fR" 4 +.IX Item "-mimadd" +.PD 0 +.IP "\fB\-mno\-imadd\fR" 4 +.IX Item "-mno-imadd" +.PD +Enable (disable) use of the \f(CW\*(C`madd\*(C'\fR and \f(CW\*(C`msub\*(C'\fR integer +instructions. The default is \fB\-mimadd\fR on architectures +that support \f(CW\*(C`madd\*(C'\fR and \f(CW\*(C`msub\*(C'\fR except for the 74k +architecture where it was found to generate slower code. +.IP "\fB\-mfused\-madd\fR" 4 +.IX Item "-mfused-madd" +.PD 0 +.IP "\fB\-mno\-fused\-madd\fR" 4 +.IX Item "-mno-fused-madd" +.PD +Enable (disable) use of the floating-point multiply-accumulate +instructions, when they are available. The default is +\&\fB\-mfused\-madd\fR. +.Sp +On the R8000 \s-1CPU\s0 when multiply-accumulate instructions are used, +the intermediate product is calculated to infinite precision +and is not subject to the \s-1FCSR\s0 Flush to Zero bit. This may be +undesirable in some circumstances. On other processors the result +is numerically identical to the equivalent computation using +separate multiply, add, subtract and negate instructions. +.IP "\fB\-nocpp\fR" 4 +.IX Item "-nocpp" +Tell the \s-1MIPS\s0 assembler to not run its preprocessor over user +assembler files (with a \fB.s\fR suffix) when assembling them. +.IP "\fB\-mfix\-24k\fR" 4 +.IX Item "-mfix-24k" +.PD 0 +.IP "\fB\-mno\-fix\-24k\fR" 4 +.IX Item "-mno-fix-24k" +.PD +Work around the 24K E48 (lost data on stores during refill) errata. +The workarounds are implemented by the assembler rather than by \s-1GCC.\s0 +.IP "\fB\-mfix\-r4000\fR" 4 +.IX Item "-mfix-r4000" +.PD 0 +.IP "\fB\-mno\-fix\-r4000\fR" 4 +.IX Item "-mno-fix-r4000" +.PD +Work around certain R4000 \s-1CPU\s0 errata: +.RS 4 +.IP "\-" 4 +A double-word or a variable shift may give an incorrect result if executed +immediately after starting an integer division. +.IP "\-" 4 +A double-word or a variable shift may give an incorrect result if executed +while an integer multiplication is in progress. +.IP "\-" 4 +An integer division may give an incorrect result if started in a delay slot +of a taken branch or a jump. +.RE +.RS 4 +.RE +.IP "\fB\-mfix\-r4400\fR" 4 +.IX Item "-mfix-r4400" +.PD 0 +.IP "\fB\-mno\-fix\-r4400\fR" 4 +.IX Item "-mno-fix-r4400" +.PD +Work around certain R4400 \s-1CPU\s0 errata: +.RS 4 +.IP "\-" 4 +A double-word or a variable shift may give an incorrect result if executed +immediately after starting an integer division. +.RE +.RS 4 +.RE +.IP "\fB\-mfix\-r10000\fR" 4 +.IX Item "-mfix-r10000" +.PD 0 +.IP "\fB\-mno\-fix\-r10000\fR" 4 +.IX Item "-mno-fix-r10000" +.PD +Work around certain R10000 errata: +.RS 4 +.IP "\-" 4 +\&\f(CW\*(C`ll\*(C'\fR/\f(CW\*(C`sc\*(C'\fR sequences may not behave atomically on revisions +prior to 3.0. They may deadlock on revisions 2.6 and earlier. +.RE +.RS 4 +.Sp +This option can only be used if the target architecture supports +branch-likely instructions. \fB\-mfix\-r10000\fR is the default when +\&\fB\-march=r10000\fR is used; \fB\-mno\-fix\-r10000\fR is the default +otherwise. +.RE +.IP "\fB\-mfix\-rm7000\fR" 4 +.IX Item "-mfix-rm7000" +.PD 0 +.IP "\fB\-mno\-fix\-rm7000\fR" 4 +.IX Item "-mno-fix-rm7000" +.PD +Work around the \s-1RM7000 \s0\f(CW\*(C`dmult\*(C'\fR/\f(CW\*(C`dmultu\*(C'\fR errata. The +workarounds are implemented by the assembler rather than by \s-1GCC.\s0 +.IP "\fB\-mfix\-vr4120\fR" 4 +.IX Item "-mfix-vr4120" +.PD 0 +.IP "\fB\-mno\-fix\-vr4120\fR" 4 +.IX Item "-mno-fix-vr4120" +.PD +Work around certain \s-1VR4120\s0 errata: +.RS 4 +.IP "\-" 4 +\&\f(CW\*(C`dmultu\*(C'\fR does not always produce the correct result. +.IP "\-" 4 +\&\f(CW\*(C`div\*(C'\fR and \f(CW\*(C`ddiv\*(C'\fR do not always produce the correct result if one +of the operands is negative. +.RE +.RS 4 +.Sp +The workarounds for the division errata rely on special functions in +\&\fIlibgcc.a\fR. At present, these functions are only provided by +the \f(CW\*(C`mips64vr*\-elf\*(C'\fR configurations. +.Sp +Other \s-1VR4120\s0 errata require a \s-1NOP\s0 to be inserted between certain pairs of +instructions. These errata are handled by the assembler, not by \s-1GCC\s0 itself. +.RE +.IP "\fB\-mfix\-vr4130\fR" 4 +.IX Item "-mfix-vr4130" +Work around the \s-1VR4130 \s0\f(CW\*(C`mflo\*(C'\fR/\f(CW\*(C`mfhi\*(C'\fR errata. The +workarounds are implemented by the assembler rather than by \s-1GCC,\s0 +although \s-1GCC\s0 avoids using \f(CW\*(C`mflo\*(C'\fR and \f(CW\*(C`mfhi\*(C'\fR if the +\&\s-1VR4130 \s0\f(CW\*(C`macc\*(C'\fR, \f(CW\*(C`macchi\*(C'\fR, \f(CW\*(C`dmacc\*(C'\fR and \f(CW\*(C`dmacchi\*(C'\fR +instructions are available instead. +.IP "\fB\-mfix\-sb1\fR" 4 +.IX Item "-mfix-sb1" +.PD 0 +.IP "\fB\-mno\-fix\-sb1\fR" 4 +.IX Item "-mno-fix-sb1" +.PD +Work around certain \s-1SB\-1 CPU\s0 core errata. +(This flag currently works around the \s-1SB\-1\s0 revision 2 +\&\*(L"F1\*(R" and \*(L"F2\*(R" floating-point errata.) +.IP "\fB\-mr10k\-cache\-barrier=\fR\fIsetting\fR" 4 +.IX Item "-mr10k-cache-barrier=setting" +Specify whether \s-1GCC\s0 should insert cache barriers to avoid the +side-effects of speculation on R10K processors. +.Sp +In common with many processors, the R10K tries to predict the outcome +of a conditional branch and speculatively executes instructions from +the \*(L"taken\*(R" branch. It later aborts these instructions if the +predicted outcome is wrong. However, on the R10K, even aborted +instructions can have side effects. +.Sp +This problem only affects kernel stores and, depending on the system, +kernel loads. As an example, a speculatively-executed store may load +the target memory into cache and mark the cache line as dirty, even if +the store itself is later aborted. If a \s-1DMA\s0 operation writes to the +same area of memory before the \*(L"dirty\*(R" line is flushed, the cached +data overwrites the DMA-ed data. See the R10K processor manual +for a full description, including other potential problems. +.Sp +One workaround is to insert cache barrier instructions before every memory +access that might be speculatively executed and that might have side +effects even if aborted. \fB\-mr10k\-cache\-barrier=\fR\fIsetting\fR +controls \s-1GCC\s0's implementation of this workaround. It assumes that +aborted accesses to any byte in the following regions does not have +side effects: +.RS 4 +.IP "1." 4 +the memory occupied by the current function's stack frame; +.IP "2." 4 +the memory occupied by an incoming stack argument; +.IP "3." 4 +the memory occupied by an object with a link-time-constant address. +.RE +.RS 4 +.Sp +It is the kernel's responsibility to ensure that speculative +accesses to these regions are indeed safe. +.Sp +If the input program contains a function declaration such as: +.Sp +.Vb 1 +\& void foo (void); +.Ve +.Sp +then the implementation of \f(CW\*(C`foo\*(C'\fR must allow \f(CW\*(C`j foo\*(C'\fR and +\&\f(CW\*(C`jal foo\*(C'\fR to be executed speculatively. \s-1GCC\s0 honors this +restriction for functions it compiles itself. It expects non-GCC +functions (such as hand-written assembly code) to do the same. +.Sp +The option has three forms: +.IP "\fB\-mr10k\-cache\-barrier=load\-store\fR" 4 +.IX Item "-mr10k-cache-barrier=load-store" +Insert a cache barrier before a load or store that might be +speculatively executed and that might have side effects even +if aborted. +.IP "\fB\-mr10k\-cache\-barrier=store\fR" 4 +.IX Item "-mr10k-cache-barrier=store" +Insert a cache barrier before a store that might be speculatively +executed and that might have side effects even if aborted. +.IP "\fB\-mr10k\-cache\-barrier=none\fR" 4 +.IX Item "-mr10k-cache-barrier=none" +Disable the insertion of cache barriers. This is the default setting. +.RE +.RS 4 +.RE +.IP "\fB\-mflush\-func=\fR\fIfunc\fR" 4 +.IX Item "-mflush-func=func" +.PD 0 +.IP "\fB\-mno\-flush\-func\fR" 4 +.IX Item "-mno-flush-func" +.PD +Specifies the function to call to flush the I and D caches, or to not +call any such function. If called, the function must take the same +arguments as the common \f(CW\*(C`_flush_func()\*(C'\fR, that is, the address of the +memory range for which the cache is being flushed, the size of the +memory range, and the number 3 (to flush both caches). The default +depends on the target \s-1GCC\s0 was configured for, but commonly is either +\&\fB_flush_func\fR or \fB_\|_cpu_flush\fR. +.IP "\fBmbranch\-cost=\fR\fInum\fR" 4 +.IX Item "mbranch-cost=num" +Set the cost of branches to roughly \fInum\fR \*(L"simple\*(R" instructions. +This cost is only a heuristic and is not guaranteed to produce +consistent results across releases. A zero cost redundantly selects +the default, which is based on the \fB\-mtune\fR setting. +.IP "\fB\-mbranch\-likely\fR" 4 +.IX Item "-mbranch-likely" +.PD 0 +.IP "\fB\-mno\-branch\-likely\fR" 4 +.IX Item "-mno-branch-likely" +.PD +Enable or disable use of Branch Likely instructions, regardless of the +default for the selected architecture. By default, Branch Likely +instructions may be generated if they are supported by the selected +architecture. An exception is for the \s-1MIPS32\s0 and \s-1MIPS64\s0 architectures +and processors that implement those architectures; for those, Branch +Likely instructions are not be generated by default because the \s-1MIPS32\s0 +and \s-1MIPS64\s0 architectures specifically deprecate their use. +.IP "\fB\-mfp\-exceptions\fR" 4 +.IX Item "-mfp-exceptions" +.PD 0 +.IP "\fB\-mno\-fp\-exceptions\fR" 4 +.IX Item "-mno-fp-exceptions" +.PD +Specifies whether \s-1FP\s0 exceptions are enabled. This affects how +\&\s-1FP\s0 instructions are scheduled for some processors. +The default is that \s-1FP\s0 exceptions are +enabled. +.Sp +For instance, on the \s-1SB\-1,\s0 if \s-1FP\s0 exceptions are disabled, and we are emitting +64\-bit code, then we can use both \s-1FP\s0 pipes. Otherwise, we can only use one +\&\s-1FP\s0 pipe. +.IP "\fB\-mvr4130\-align\fR" 4 +.IX Item "-mvr4130-align" +.PD 0 +.IP "\fB\-mno\-vr4130\-align\fR" 4 +.IX Item "-mno-vr4130-align" +.PD +The \s-1VR4130\s0 pipeline is two-way superscalar, but can only issue two +instructions together if the first one is 8\-byte aligned. When this +option is enabled, \s-1GCC\s0 aligns pairs of instructions that it +thinks should execute in parallel. +.Sp +This option only has an effect when optimizing for the \s-1VR4130.\s0 +It normally makes code faster, but at the expense of making it bigger. +It is enabled by default at optimization level \fB\-O3\fR. +.IP "\fB\-msynci\fR" 4 +.IX Item "-msynci" +.PD 0 +.IP "\fB\-mno\-synci\fR" 4 +.IX Item "-mno-synci" +.PD +Enable (disable) generation of \f(CW\*(C`synci\*(C'\fR instructions on +architectures that support it. The \f(CW\*(C`synci\*(C'\fR instructions (if +enabled) are generated when \f(CW\*(C`_\|_builtin_\|_\|_clear_cache()\*(C'\fR is +compiled. +.Sp +This option defaults to \f(CW\*(C`\-mno\-synci\*(C'\fR, but the default can be +overridden by configuring with \f(CW\*(C`\-\-with\-synci\*(C'\fR. +.Sp +When compiling code for single processor systems, it is generally safe +to use \f(CW\*(C`synci\*(C'\fR. However, on many multi-core (\s-1SMP\s0) systems, it +does not invalidate the instruction caches on all cores and may lead +to undefined behavior. +.IP "\fB\-mrelax\-pic\-calls\fR" 4 +.IX Item "-mrelax-pic-calls" +.PD 0 +.IP "\fB\-mno\-relax\-pic\-calls\fR" 4 +.IX Item "-mno-relax-pic-calls" +.PD +Try to turn \s-1PIC\s0 calls that are normally dispatched via register +\&\f(CW$25\fR into direct calls. This is only possible if the linker can +resolve the destination at link-time and if the destination is within +range for a direct call. +.Sp +\&\fB\-mrelax\-pic\-calls\fR is the default if \s-1GCC\s0 was configured to use +an assembler and a linker that support the \f(CW\*(C`.reloc\*(C'\fR assembly +directive and \f(CW\*(C`\-mexplicit\-relocs\*(C'\fR is in effect. With +\&\f(CW\*(C`\-mno\-explicit\-relocs\*(C'\fR, this optimization can be performed by the +assembler and the linker alone without help from the compiler. +.IP "\fB\-mmcount\-ra\-address\fR" 4 +.IX Item "-mmcount-ra-address" +.PD 0 +.IP "\fB\-mno\-mcount\-ra\-address\fR" 4 +.IX Item "-mno-mcount-ra-address" +.PD +Emit (do not emit) code that allows \f(CW\*(C`_mcount\*(C'\fR to modify the +calling function's return address. When enabled, this option extends +the usual \f(CW\*(C`_mcount\*(C'\fR interface with a new \fIra-address\fR +parameter, which has type \f(CW\*(C`intptr_t *\*(C'\fR and is passed in register +\&\f(CW$12\fR. \f(CW\*(C`_mcount\*(C'\fR can then modify the return address by +doing both of the following: +.RS 4 +.IP "\(bu" 4 +Returning the new address in register \f(CW$31\fR. +.IP "\(bu" 4 +Storing the new address in \f(CW\*(C`*\f(CIra\-address\f(CW\*(C'\fR, +if \fIra-address\fR is nonnull. +.RE +.RS 4 +.Sp +The default is \fB\-mno\-mcount\-ra\-address\fR. +.RE +.PP +\fI\s-1MMIX\s0 Options\fR +.IX Subsection "MMIX Options" +.PP +These options are defined for the \s-1MMIX:\s0 +.IP "\fB\-mlibfuncs\fR" 4 +.IX Item "-mlibfuncs" +.PD 0 +.IP "\fB\-mno\-libfuncs\fR" 4 +.IX Item "-mno-libfuncs" +.PD +Specify that intrinsic library functions are being compiled, passing all +values in registers, no matter the size. +.IP "\fB\-mepsilon\fR" 4 +.IX Item "-mepsilon" +.PD 0 +.IP "\fB\-mno\-epsilon\fR" 4 +.IX Item "-mno-epsilon" +.PD +Generate floating-point comparison instructions that compare with respect +to the \f(CW\*(C`rE\*(C'\fR epsilon register. +.IP "\fB\-mabi=mmixware\fR" 4 +.IX Item "-mabi=mmixware" +.PD 0 +.IP "\fB\-mabi=gnu\fR" 4 +.IX Item "-mabi=gnu" +.PD +Generate code that passes function parameters and return values that (in +the called function) are seen as registers \f(CW$0\fR and up, as opposed to +the \s-1GNU ABI\s0 which uses global registers \f(CW$231\fR and up. +.IP "\fB\-mzero\-extend\fR" 4 +.IX Item "-mzero-extend" +.PD 0 +.IP "\fB\-mno\-zero\-extend\fR" 4 +.IX Item "-mno-zero-extend" +.PD +When reading data from memory in sizes shorter than 64 bits, use (do not +use) zero-extending load instructions by default, rather than +sign-extending ones. +.IP "\fB\-mknuthdiv\fR" 4 +.IX Item "-mknuthdiv" +.PD 0 +.IP "\fB\-mno\-knuthdiv\fR" 4 +.IX Item "-mno-knuthdiv" +.PD +Make the result of a division yielding a remainder have the same sign as +the divisor. With the default, \fB\-mno\-knuthdiv\fR, the sign of the +remainder follows the sign of the dividend. Both methods are +arithmetically valid, the latter being almost exclusively used. +.IP "\fB\-mtoplevel\-symbols\fR" 4 +.IX Item "-mtoplevel-symbols" +.PD 0 +.IP "\fB\-mno\-toplevel\-symbols\fR" 4 +.IX Item "-mno-toplevel-symbols" +.PD +Prepend (do not prepend) a \fB:\fR to all global symbols, so the assembly +code can be used with the \f(CW\*(C`PREFIX\*(C'\fR assembly directive. +.IP "\fB\-melf\fR" 4 +.IX Item "-melf" +Generate an executable in the \s-1ELF\s0 format, rather than the default +\&\fBmmo\fR format used by the \fBmmix\fR simulator. +.IP "\fB\-mbranch\-predict\fR" 4 +.IX Item "-mbranch-predict" +.PD 0 +.IP "\fB\-mno\-branch\-predict\fR" 4 +.IX Item "-mno-branch-predict" +.PD +Use (do not use) the probable-branch instructions, when static branch +prediction indicates a probable branch. +.IP "\fB\-mbase\-addresses\fR" 4 +.IX Item "-mbase-addresses" +.PD 0 +.IP "\fB\-mno\-base\-addresses\fR" 4 +.IX Item "-mno-base-addresses" +.PD +Generate (do not generate) code that uses \fIbase addresses\fR. Using a +base address automatically generates a request (handled by the assembler +and the linker) for a constant to be set up in a global register. The +register is used for one or more base address requests within the range 0 +to 255 from the value held in the register. The generally leads to short +and fast code, but the number of different data items that can be +addressed is limited. This means that a program that uses lots of static +data may require \fB\-mno\-base\-addresses\fR. +.IP "\fB\-msingle\-exit\fR" 4 +.IX Item "-msingle-exit" +.PD 0 +.IP "\fB\-mno\-single\-exit\fR" 4 +.IX Item "-mno-single-exit" +.PD +Force (do not force) generated code to have a single exit point in each +function. +.PP +\fI\s-1MN10300\s0 Options\fR +.IX Subsection "MN10300 Options" +.PP +These \fB\-m\fR options are defined for Matsushita \s-1MN10300\s0 architectures: +.IP "\fB\-mmult\-bug\fR" 4 +.IX Item "-mmult-bug" +Generate code to avoid bugs in the multiply instructions for the \s-1MN10300\s0 +processors. This is the default. +.IP "\fB\-mno\-mult\-bug\fR" 4 +.IX Item "-mno-mult-bug" +Do not generate code to avoid bugs in the multiply instructions for the +\&\s-1MN10300\s0 processors. +.IP "\fB\-mam33\fR" 4 +.IX Item "-mam33" +Generate code using features specific to the \s-1AM33\s0 processor. +.IP "\fB\-mno\-am33\fR" 4 +.IX Item "-mno-am33" +Do not generate code using features specific to the \s-1AM33\s0 processor. This +is the default. +.IP "\fB\-mam33\-2\fR" 4 +.IX Item "-mam33-2" +Generate code using features specific to the \s-1AM33/2.0\s0 processor. +.IP "\fB\-mam34\fR" 4 +.IX Item "-mam34" +Generate code using features specific to the \s-1AM34\s0 processor. +.IP "\fB\-mtune=\fR\fIcpu-type\fR" 4 +.IX Item "-mtune=cpu-type" +Use the timing characteristics of the indicated \s-1CPU\s0 type when +scheduling instructions. This does not change the targeted processor +type. The \s-1CPU\s0 type must be one of \fBmn10300\fR, \fBam33\fR, +\&\fBam33\-2\fR or \fBam34\fR. +.IP "\fB\-mreturn\-pointer\-on\-d0\fR" 4 +.IX Item "-mreturn-pointer-on-d0" +When generating a function that returns a pointer, return the pointer +in both \f(CW\*(C`a0\*(C'\fR and \f(CW\*(C`d0\*(C'\fR. Otherwise, the pointer is returned +only in \f(CW\*(C`a0\*(C'\fR, and attempts to call such functions without a prototype +result in errors. Note that this option is on by default; use +\&\fB\-mno\-return\-pointer\-on\-d0\fR to disable it. +.IP "\fB\-mno\-crt0\fR" 4 +.IX Item "-mno-crt0" +Do not link in the C run-time initialization object file. +.IP "\fB\-mrelax\fR" 4 +.IX Item "-mrelax" +Indicate to the linker that it should perform a relaxation optimization pass +to shorten branches, calls and absolute memory addresses. This option only +has an effect when used on the command line for the final link step. +.Sp +This option makes symbolic debugging impossible. +.IP "\fB\-mliw\fR" 4 +.IX Item "-mliw" +Allow the compiler to generate \fILong Instruction Word\fR +instructions if the target is the \fB\s-1AM33\s0\fR or later. This is the +default. This option defines the preprocessor macro \fB_\|_LIW_\|_\fR. +.IP "\fB\-mnoliw\fR" 4 +.IX Item "-mnoliw" +Do not allow the compiler to generate \fILong Instruction Word\fR +instructions. This option defines the preprocessor macro +\&\fB_\|_NO_LIW_\|_\fR. +.IP "\fB\-msetlb\fR" 4 +.IX Item "-msetlb" +Allow the compiler to generate the \fI\s-1SETLB\s0\fR and \fILcc\fR +instructions if the target is the \fB\s-1AM33\s0\fR or later. This is the +default. This option defines the preprocessor macro \fB_\|_SETLB_\|_\fR. +.IP "\fB\-mnosetlb\fR" 4 +.IX Item "-mnosetlb" +Do not allow the compiler to generate \fI\s-1SETLB\s0\fR or \fILcc\fR +instructions. This option defines the preprocessor macro +\&\fB_\|_NO_SETLB_\|_\fR. +.PP +\fIMoxie Options\fR +.IX Subsection "Moxie Options" +.IP "\fB\-meb\fR" 4 +.IX Item "-meb" +Generate big-endian code. This is the default for \fBmoxie\-*\-*\fR +configurations. +.IP "\fB\-mel\fR" 4 +.IX Item "-mel" +Generate little-endian code. +.IP "\fB\-mno\-crt0\fR" 4 +.IX Item "-mno-crt0" +Do not link in the C run-time initialization object file. +.PP +\fI\s-1MSP430\s0 Options\fR +.IX Subsection "MSP430 Options" +.PP +These options are defined for the \s-1MSP430:\s0 +.IP "\fB\-masm\-hex\fR" 4 +.IX Item "-masm-hex" +Force assembly output to always use hex constants. Normally such +constants are signed decimals, but this option is available for +testsuite and/or aesthetic purposes. +.IP "\fB\-mmcu=\fR" 4 +.IX Item "-mmcu=" +Select the \s-1MCU\s0 to target. This is used to create a C preprocessor +symbol based upon the \s-1MCU\s0 name, converted to upper case and pre\- and +post\- fixed with \f(CW\*(C`_\|_\*(C'\fR. This in turn will be used by the +\&\f(CW\*(C`msp430.h\*(C'\fR header file to select an \s-1MCU\s0 specific supplimentary +header file. +.Sp +The option also sets the \s-1ISA\s0 to use. If the \s-1MCU\s0 name is one that is +known to only support the 430 \s-1ISA\s0 then that is selected, otherwise the +430X \s-1ISA\s0 is selected. A generic \s-1MCU\s0 name of \f(CW\*(C`msp430\*(C'\fR can also be +used to select the 430 \s-1ISA. \s0 Similarly the generic \f(CW\*(C`msp430x\*(C'\fR \s-1MCU\s0 +name will select the 430X \s-1ISA.\s0 +.Sp +In addition an \s-1MCU\s0 specific linker script will be added to the linker +command line. The script's name is the name of the \s-1MCU\s0 with +\&\f(CW\*(C`.ld\*(C'\fR appended. Thus specifying \fB\-mmcu=xxx\fR on the gcc +command line will define the C preprocessor symbol \f(CW\*(C`_\|_XXX_\|_\*(C'\fR and +cause the linker to search for a script called \fIxxx.ld\fR. +.Sp +This option is also passed on to the assembler. +.IP "\fB\-mcpu=\fR" 4 +.IX Item "-mcpu=" +Specifies the \s-1ISA\s0 to use. Accepted values are \f(CW\*(C`msp430\*(C'\fR, +\&\f(CW\*(C`msp430x\*(C'\fR and \f(CW\*(C`msp430xv2\*(C'\fR. This option is deprecated. The +\&\fB\-mmcu=\fR option should be used to select the \s-1ISA.\s0 +.IP "\fB\-msim\fR" 4 +.IX Item "-msim" +Link to the simulator runtime libraries and linker script. Overrides +any scripts that would be selected by the \fB\-mmcu=\fR option. +.IP "\fB\-mlarge\fR" 4 +.IX Item "-mlarge" +Use large-model addressing (20\-bit pointers, 32\-bit \f(CW\*(C`size_t\*(C'\fR). +.IP "\fB\-msmall\fR" 4 +.IX Item "-msmall" +Use small-model addressing (16\-bit pointers, 16\-bit \f(CW\*(C`size_t\*(C'\fR). +.IP "\fB\-mrelax\fR" 4 +.IX Item "-mrelax" +This option is passed to the assembler and linker, and allows the +linker to perform certain optimizations that cannot be done until +the final link. +.PP +\fI\s-1NDS32\s0 Options\fR +.IX Subsection "NDS32 Options" +.PP +These options are defined for \s-1NDS32\s0 implementations: +.IP "\fB\-mbig\-endian\fR" 4 +.IX Item "-mbig-endian" +Generate code in big-endian mode. +.IP "\fB\-mlittle\-endian\fR" 4 +.IX Item "-mlittle-endian" +Generate code in little-endian mode. +.IP "\fB\-mreduced\-regs\fR" 4 +.IX Item "-mreduced-regs" +Use reduced-set registers for register allocation. +.IP "\fB\-mfull\-regs\fR" 4 +.IX Item "-mfull-regs" +Use full-set registers for register allocation. +.IP "\fB\-mcmov\fR" 4 +.IX Item "-mcmov" +Generate conditional move instructions. +.IP "\fB\-mno\-cmov\fR" 4 +.IX Item "-mno-cmov" +Do not generate conditional move instructions. +.IP "\fB\-mperf\-ext\fR" 4 +.IX Item "-mperf-ext" +Generate performance extension instructions. +.IP "\fB\-mno\-perf\-ext\fR" 4 +.IX Item "-mno-perf-ext" +Do not generate performance extension instructions. +.IP "\fB\-mv3push\fR" 4 +.IX Item "-mv3push" +Generate v3 push25/pop25 instructions. +.IP "\fB\-mno\-v3push\fR" 4 +.IX Item "-mno-v3push" +Do not generate v3 push25/pop25 instructions. +.IP "\fB\-m16\-bit\fR" 4 +.IX Item "-m16-bit" +Generate 16\-bit instructions. +.IP "\fB\-mno\-16\-bit\fR" 4 +.IX Item "-mno-16-bit" +Do not generate 16\-bit instructions. +.IP "\fB\-mgp\-direct\fR" 4 +.IX Item "-mgp-direct" +Generate \s-1GP\s0 base instructions directly. +.IP "\fB\-mno\-gp\-direct\fR" 4 +.IX Item "-mno-gp-direct" +Do no generate \s-1GP\s0 base instructions directly. +.IP "\fB\-misr\-vector\-size=\fR\fInum\fR" 4 +.IX Item "-misr-vector-size=num" +Specify the size of each interrupt vector, which must be 4 or 16. +.IP "\fB\-mcache\-block\-size=\fR\fInum\fR" 4 +.IX Item "-mcache-block-size=num" +Specify the size of each cache block, +which must be a power of 2 between 4 and 512. +.IP "\fB\-march=\fR\fIarch\fR" 4 +.IX Item "-march=arch" +Specify the name of the target architecture. +.IP "\fB\-mforce\-fp\-as\-gp\fR" 4 +.IX Item "-mforce-fp-as-gp" +Prevent \f(CW$fp\fR being allocated during register allocation so that compiler +is able to force performing fp-as-gp optimization. +.IP "\fB\-mforbid\-fp\-as\-gp\fR" 4 +.IX Item "-mforbid-fp-as-gp" +Forbid using \f(CW$fp\fR to access static and global variables. +This option strictly forbids fp-as-gp optimization +regardless of \fB\-mforce\-fp\-as\-gp\fR. +.IP "\fB\-mex9\fR" 4 +.IX Item "-mex9" +Use special directives to guide linker doing ex9 optimization. +.IP "\fB\-mctor\-dtor\fR" 4 +.IX Item "-mctor-dtor" +Enable constructor/destructor feature. +.IP "\fB\-mrelax\fR" 4 +.IX Item "-mrelax" +Guide linker to relax instructions. +.PP +\fINios \s-1II\s0 Options\fR +.IX Subsection "Nios II Options" +.PP +These are the options defined for the Altera Nios \s-1II\s0 processor. +.IP "\fB\-G\fR \fInum\fR" 4 +.IX Item "-G num" +Put global and static objects less than or equal to \fInum\fR bytes +into the small data or \s-1BSS\s0 sections instead of the normal data or \s-1BSS\s0 +sections. The default value of \fInum\fR is 8. +.IP "\fB\-mgpopt\fR" 4 +.IX Item "-mgpopt" +.PD 0 +.IP "\fB\-mno\-gpopt\fR" 4 +.IX Item "-mno-gpopt" +.PD +Generate (do not generate) GP-relative accesses for objects in the +small data or \s-1BSS\s0 sections. The default is \fB\-mgpopt\fR except +when \fB\-fpic\fR or \fB\-fPIC\fR is specified to generate +position-independent code. Note that the Nios \s-1II ABI\s0 does not permit +GP-relative accesses from shared libraries. +.Sp +You may need to specify \fB\-mno\-gpopt\fR explicitly when building +programs that include large amounts of small data, including large +\&\s-1GOT\s0 data sections. In this case, the 16\-bit offset for GP-relative +addressing may not be large enough to allow access to the entire +small data section. +.IP "\fB\-mel\fR" 4 +.IX Item "-mel" +.PD 0 +.IP "\fB\-meb\fR" 4 +.IX Item "-meb" +.PD +Generate little-endian (default) or big-endian (experimental) code, +respectively. +.IP "\fB\-mbypass\-cache\fR" 4 +.IX Item "-mbypass-cache" +.PD 0 +.IP "\fB\-mno\-bypass\-cache\fR" 4 +.IX Item "-mno-bypass-cache" +.PD +Force all load and store instructions to always bypass cache by +using I/O variants of the instructions. The default is not to +bypass the cache. +.IP "\fB\-mno\-cache\-volatile\fR" 4 +.IX Item "-mno-cache-volatile" +.PD 0 +.IP "\fB\-mcache\-volatile\fR" 4 +.IX Item "-mcache-volatile" +.PD +Volatile memory access bypass the cache using the I/O variants of +the load and store instructions. The default is not to bypass the cache. +.IP "\fB\-mno\-fast\-sw\-div\fR" 4 +.IX Item "-mno-fast-sw-div" +.PD 0 +.IP "\fB\-mfast\-sw\-div\fR" 4 +.IX Item "-mfast-sw-div" +.PD +Do not use table-based fast divide for small numbers. The default +is to use the fast divide at \fB\-O3\fR and above. +.IP "\fB\-mno\-hw\-mul\fR" 4 +.IX Item "-mno-hw-mul" +.PD 0 +.IP "\fB\-mhw\-mul\fR" 4 +.IX Item "-mhw-mul" +.IP "\fB\-mno\-hw\-mulx\fR" 4 +.IX Item "-mno-hw-mulx" +.IP "\fB\-mhw\-mulx\fR" 4 +.IX Item "-mhw-mulx" +.IP "\fB\-mno\-hw\-div\fR" 4 +.IX Item "-mno-hw-div" +.IP "\fB\-mhw\-div\fR" 4 +.IX Item "-mhw-div" +.PD +Enable or disable emitting \f(CW\*(C`mul\*(C'\fR, \f(CW\*(C`mulx\*(C'\fR and \f(CW\*(C`div\*(C'\fR family of +instructions by the compiler. The default is to emit \f(CW\*(C`mul\*(C'\fR +and not emit \f(CW\*(C`div\*(C'\fR and \f(CW\*(C`mulx\*(C'\fR. +.IP "\fB\-mcustom\-\fR\fIinsn\fR\fB=\fR\fIN\fR" 4 +.IX Item "-mcustom-insn=N" +.PD 0 +.IP "\fB\-mno\-custom\-\fR\fIinsn\fR" 4 +.IX Item "-mno-custom-insn" +.PD +Each \fB\-mcustom\-\fR\fIinsn\fR\fB=\fR\fIN\fR option enables use of a +custom instruction with encoding \fIN\fR when generating code that uses +\&\fIinsn\fR. For example, \f(CW\*(C`\-mcustom\-fadds=253\*(C'\fR generates custom +instruction 253 for single-precision floating-point add operations instead +of the default behavior of using a library call. +.Sp +The following values of \fIinsn\fR are supported. Except as otherwise +noted, floating-point operations are expected to be implemented with +normal \s-1IEEE 754\s0 semantics and correspond directly to the C operators or the +equivalent \s-1GCC\s0 built-in functions. +.Sp +Single-precision floating point: +.RS 4 +.IP "\fBfadds\fR, \fBfsubs\fR, \fBfdivs\fR, \fBfmuls\fR" 4 +.IX Item "fadds, fsubs, fdivs, fmuls" +Binary arithmetic operations. +.IP "\fBfnegs\fR" 4 +.IX Item "fnegs" +Unary negation. +.IP "\fBfabss\fR" 4 +.IX Item "fabss" +Unary absolute value. +.IP "\fBfcmpeqs\fR, \fBfcmpges\fR, \fBfcmpgts\fR, \fBfcmples\fR, \fBfcmplts\fR, \fBfcmpnes\fR" 4 +.IX Item "fcmpeqs, fcmpges, fcmpgts, fcmples, fcmplts, fcmpnes" +Comparison operations. +.IP "\fBfmins\fR, \fBfmaxs\fR" 4 +.IX Item "fmins, fmaxs" +Floating-point minimum and maximum. These instructions are only +generated if \fB\-ffinite\-math\-only\fR is specified. +.IP "\fBfsqrts\fR" 4 +.IX Item "fsqrts" +Unary square root operation. +.IP "\fBfcoss\fR, \fBfsins\fR, \fBftans\fR, \fBfatans\fR, \fBfexps\fR, \fBflogs\fR" 4 +.IX Item "fcoss, fsins, ftans, fatans, fexps, flogs" +Floating-point trigonometric and exponential functions. These instructions +are only generated if \fB\-funsafe\-math\-optimizations\fR is also specified. +.RE +.RS 4 +.Sp +Double-precision floating point: +.IP "\fBfaddd\fR, \fBfsubd\fR, \fBfdivd\fR, \fBfmuld\fR" 4 +.IX Item "faddd, fsubd, fdivd, fmuld" +Binary arithmetic operations. +.IP "\fBfnegd\fR" 4 +.IX Item "fnegd" +Unary negation. +.IP "\fBfabsd\fR" 4 +.IX Item "fabsd" +Unary absolute value. +.IP "\fBfcmpeqd\fR, \fBfcmpged\fR, \fBfcmpgtd\fR, \fBfcmpled\fR, \fBfcmpltd\fR, \fBfcmpned\fR" 4 +.IX Item "fcmpeqd, fcmpged, fcmpgtd, fcmpled, fcmpltd, fcmpned" +Comparison operations. +.IP "\fBfmind\fR, \fBfmaxd\fR" 4 +.IX Item "fmind, fmaxd" +Double-precision minimum and maximum. These instructions are only +generated if \fB\-ffinite\-math\-only\fR is specified. +.IP "\fBfsqrtd\fR" 4 +.IX Item "fsqrtd" +Unary square root operation. +.IP "\fBfcosd\fR, \fBfsind\fR, \fBftand\fR, \fBfatand\fR, \fBfexpd\fR, \fBflogd\fR" 4 +.IX Item "fcosd, fsind, ftand, fatand, fexpd, flogd" +Double-precision trigonometric and exponential functions. These instructions +are only generated if \fB\-funsafe\-math\-optimizations\fR is also specified. +.RE +.RS 4 +.Sp +Conversions: +.IP "\fBfextsd\fR" 4 +.IX Item "fextsd" +Conversion from single precision to double precision. +.IP "\fBftruncds\fR" 4 +.IX Item "ftruncds" +Conversion from double precision to single precision. +.IP "\fBfixsi\fR, \fBfixsu\fR, \fBfixdi\fR, \fBfixdu\fR" 4 +.IX Item "fixsi, fixsu, fixdi, fixdu" +Conversion from floating point to signed or unsigned integer types, with +truncation towards zero. +.IP "\fBfloatis\fR, \fBfloatus\fR, \fBfloatid\fR, \fBfloatud\fR" 4 +.IX Item "floatis, floatus, floatid, floatud" +Conversion from signed or unsigned integer types to floating-point types. +.RE +.RS 4 +.Sp +In addition, all of the following transfer instructions for internal +registers X and Y must be provided to use any of the double-precision +floating-point instructions. Custom instructions taking two +double-precision source operands expect the first operand in the +64\-bit register X. The other operand (or only operand of a unary +operation) is given to the custom arithmetic instruction with the +least significant half in source register \fIsrc1\fR and the most +significant half in \fIsrc2\fR. A custom instruction that returns a +double-precision result returns the most significant 32 bits in the +destination register and the other half in 32\-bit register Y. +\&\s-1GCC\s0 automatically generates the necessary code sequences to write +register X and/or read register Y when double-precision floating-point +instructions are used. +.IP "\fBfwrx\fR" 4 +.IX Item "fwrx" +Write \fIsrc1\fR into the least significant half of X and \fIsrc2\fR into +the most significant half of X. +.IP "\fBfwry\fR" 4 +.IX Item "fwry" +Write \fIsrc1\fR into Y. +.IP "\fBfrdxhi\fR, \fBfrdxlo\fR" 4 +.IX Item "frdxhi, frdxlo" +Read the most or least (respectively) significant half of X and store it in +\&\fIdest\fR. +.IP "\fBfrdy\fR" 4 +.IX Item "frdy" +Read the value of Y and store it into \fIdest\fR. +.RE +.RS 4 +.Sp +Note that you can gain more local control over generation of Nios \s-1II\s0 custom +instructions by using the \f(CW\*(C`target("custom\-\f(CIinsn\f(CW=\f(CIN\f(CW")\*(C'\fR +and \f(CW\*(C`target("no\-custom\-\f(CIinsn\f(CW")\*(C'\fR function attributes +or pragmas. +.RE +.IP "\fB\-mcustom\-fpu\-cfg=\fR\fIname\fR" 4 +.IX Item "-mcustom-fpu-cfg=name" +This option enables a predefined, named set of custom instruction encodings +(see \fB\-mcustom\-\fR\fIinsn\fR above). +Currently, the following sets are defined: +.Sp +\&\fB\-mcustom\-fpu\-cfg=60\-1\fR is equivalent to: +\&\fB\-mcustom\-fmuls=252 +\&\-mcustom\-fadds=253 +\&\-mcustom\-fsubs=254 +\&\-fsingle\-precision\-constant\fR +.Sp +\&\fB\-mcustom\-fpu\-cfg=60\-2\fR is equivalent to: +\&\fB\-mcustom\-fmuls=252 +\&\-mcustom\-fadds=253 +\&\-mcustom\-fsubs=254 +\&\-mcustom\-fdivs=255 +\&\-fsingle\-precision\-constant\fR +.Sp +\&\fB\-mcustom\-fpu\-cfg=72\-3\fR is equivalent to: +\&\fB\-mcustom\-floatus=243 +\&\-mcustom\-fixsi=244 +\&\-mcustom\-floatis=245 +\&\-mcustom\-fcmpgts=246 +\&\-mcustom\-fcmples=249 +\&\-mcustom\-fcmpeqs=250 +\&\-mcustom\-fcmpnes=251 +\&\-mcustom\-fmuls=252 +\&\-mcustom\-fadds=253 +\&\-mcustom\-fsubs=254 +\&\-mcustom\-fdivs=255 +\&\-fsingle\-precision\-constant\fR +.Sp +Custom instruction assignments given by individual +\&\fB\-mcustom\-\fR\fIinsn\fR\fB=\fR options override those given by +\&\fB\-mcustom\-fpu\-cfg=\fR, regardless of the +order of the options on the command line. +.Sp +Note that you can gain more local control over selection of a \s-1FPU\s0 +configuration by using the \f(CW\*(C`target("custom\-fpu\-cfg=\f(CIname\f(CW")\*(C'\fR +function attribute +or pragma. +.PP +These additional \fB\-m\fR options are available for the Altera Nios \s-1II +ELF \s0(bare-metal) target: +.IP "\fB\-mhal\fR" 4 +.IX Item "-mhal" +Link with \s-1HAL BSP. \s0 This suppresses linking with the GCC-provided C runtime +startup and termination code, and is typically used in conjunction with +\&\fB\-msys\-crt0=\fR to specify the location of the alternate startup code +provided by the \s-1HAL BSP.\s0 +.IP "\fB\-msmallc\fR" 4 +.IX Item "-msmallc" +Link with a limited version of the C library, \fB\-lsmallc\fR, rather than +Newlib. +.IP "\fB\-msys\-crt0=\fR\fIstartfile\fR" 4 +.IX Item "-msys-crt0=startfile" +\&\fIstartfile\fR is the file name of the startfile (crt0) to use +when linking. This option is only useful in conjunction with \fB\-mhal\fR. +.IP "\fB\-msys\-lib=\fR\fIsystemlib\fR" 4 +.IX Item "-msys-lib=systemlib" +\&\fIsystemlib\fR is the library name of the library that provides +low-level system calls required by the C library, +e.g. \f(CW\*(C`read\*(C'\fR and \f(CW\*(C`write\*(C'\fR. +This option is typically used to link with a library provided by a \s-1HAL BSP.\s0 +.PP +\fI\s-1PDP\-11\s0 Options\fR +.IX Subsection "PDP-11 Options" +.PP +These options are defined for the \s-1PDP\-11:\s0 +.IP "\fB\-mfpu\fR" 4 +.IX Item "-mfpu" +Use hardware \s-1FPP\s0 floating point. This is the default. (\s-1FIS\s0 floating +point on the \s-1PDP\-11/40\s0 is not supported.) +.IP "\fB\-msoft\-float\fR" 4 +.IX Item "-msoft-float" +Do not use hardware floating point. +.IP "\fB\-mac0\fR" 4 +.IX Item "-mac0" +Return floating-point results in ac0 (fr0 in Unix assembler syntax). +.IP "\fB\-mno\-ac0\fR" 4 +.IX Item "-mno-ac0" +Return floating-point results in memory. This is the default. +.IP "\fB\-m40\fR" 4 +.IX Item "-m40" +Generate code for a \s-1PDP\-11/40.\s0 +.IP "\fB\-m45\fR" 4 +.IX Item "-m45" +Generate code for a \s-1PDP\-11/45. \s0 This is the default. +.IP "\fB\-m10\fR" 4 +.IX Item "-m10" +Generate code for a \s-1PDP\-11/10.\s0 +.IP "\fB\-mbcopy\-builtin\fR" 4 +.IX Item "-mbcopy-builtin" +Use inline \f(CW\*(C`movmemhi\*(C'\fR patterns for copying memory. This is the +default. +.IP "\fB\-mbcopy\fR" 4 +.IX Item "-mbcopy" +Do not use inline \f(CW\*(C`movmemhi\*(C'\fR patterns for copying memory. +.IP "\fB\-mint16\fR" 4 +.IX Item "-mint16" +.PD 0 +.IP "\fB\-mno\-int32\fR" 4 +.IX Item "-mno-int32" +.PD +Use 16\-bit \f(CW\*(C`int\*(C'\fR. This is the default. +.IP "\fB\-mint32\fR" 4 +.IX Item "-mint32" +.PD 0 +.IP "\fB\-mno\-int16\fR" 4 +.IX Item "-mno-int16" +.PD +Use 32\-bit \f(CW\*(C`int\*(C'\fR. +.IP "\fB\-mfloat64\fR" 4 +.IX Item "-mfloat64" +.PD 0 +.IP "\fB\-mno\-float32\fR" 4 +.IX Item "-mno-float32" +.PD +Use 64\-bit \f(CW\*(C`float\*(C'\fR. This is the default. +.IP "\fB\-mfloat32\fR" 4 +.IX Item "-mfloat32" +.PD 0 +.IP "\fB\-mno\-float64\fR" 4 +.IX Item "-mno-float64" +.PD +Use 32\-bit \f(CW\*(C`float\*(C'\fR. +.IP "\fB\-mabshi\fR" 4 +.IX Item "-mabshi" +Use \f(CW\*(C`abshi2\*(C'\fR pattern. This is the default. +.IP "\fB\-mno\-abshi\fR" 4 +.IX Item "-mno-abshi" +Do not use \f(CW\*(C`abshi2\*(C'\fR pattern. +.IP "\fB\-mbranch\-expensive\fR" 4 +.IX Item "-mbranch-expensive" +Pretend that branches are expensive. This is for experimenting with +code generation only. +.IP "\fB\-mbranch\-cheap\fR" 4 +.IX Item "-mbranch-cheap" +Do not pretend that branches are expensive. This is the default. +.IP "\fB\-munix\-asm\fR" 4 +.IX Item "-munix-asm" +Use Unix assembler syntax. This is the default when configured for +\&\fBpdp11\-*\-bsd\fR. +.IP "\fB\-mdec\-asm\fR" 4 +.IX Item "-mdec-asm" +Use \s-1DEC\s0 assembler syntax. This is the default when configured for any +\&\s-1PDP\-11\s0 target other than \fBpdp11\-*\-bsd\fR. +.PP +\fIpicoChip Options\fR +.IX Subsection "picoChip Options" +.PP +These \fB\-m\fR options are defined for picoChip implementations: +.IP "\fB\-mae=\fR\fIae_type\fR" 4 +.IX Item "-mae=ae_type" +Set the instruction set, register set, and instruction scheduling +parameters for array element type \fIae_type\fR. Supported values +for \fIae_type\fR are \fB\s-1ANY\s0\fR, \fB\s-1MUL\s0\fR, and \fB\s-1MAC\s0\fR. +.Sp +\&\fB\-mae=ANY\fR selects a completely generic \s-1AE\s0 type. Code +generated with this option runs on any of the other \s-1AE\s0 types. The +code is not as efficient as it would be if compiled for a specific +\&\s-1AE\s0 type, and some types of operation (e.g., multiplication) do not +work properly on all types of \s-1AE.\s0 +.Sp +\&\fB\-mae=MUL\fR selects a \s-1MUL AE\s0 type. This is the most useful \s-1AE\s0 type +for compiled code, and is the default. +.Sp +\&\fB\-mae=MAC\fR selects a DSP-style \s-1MAC AE. \s0 Code compiled with this +option may suffer from poor performance of byte (char) manipulation, +since the \s-1DSP AE\s0 does not provide hardware support for byte load/stores. +.IP "\fB\-msymbol\-as\-address\fR" 4 +.IX Item "-msymbol-as-address" +Enable the compiler to directly use a symbol name as an address in a +load/store instruction, without first loading it into a +register. Typically, the use of this option generates larger +programs, which run faster than when the option isn't used. However, the +results vary from program to program, so it is left as a user option, +rather than being permanently enabled. +.IP "\fB\-mno\-inefficient\-warnings\fR" 4 +.IX Item "-mno-inefficient-warnings" +Disables warnings about the generation of inefficient code. These +warnings can be generated, for example, when compiling code that +performs byte-level memory operations on the \s-1MAC AE\s0 type. The \s-1MAC AE\s0 has +no hardware support for byte-level memory operations, so all byte +load/stores must be synthesized from word load/store operations. This is +inefficient and a warning is generated to indicate +that you should rewrite the code to avoid byte operations, or to target +an \s-1AE\s0 type that has the necessary hardware support. This option disables +these warnings. +.PP +\fIPowerPC Options\fR +.IX Subsection "PowerPC Options" +.PP +These are listed under +.PP +\fI\s-1RL78\s0 Options\fR +.IX Subsection "RL78 Options" +.IP "\fB\-msim\fR" 4 +.IX Item "-msim" +Links in additional target libraries to support operation within a +simulator. +.IP "\fB\-mmul=none\fR" 4 +.IX Item "-mmul=none" +.PD 0 +.IP "\fB\-mmul=g13\fR" 4 +.IX Item "-mmul=g13" +.IP "\fB\-mmul=rl78\fR" 4 +.IX Item "-mmul=rl78" +.PD +Specifies the type of hardware multiplication support to be used. The +default is \f(CW\*(C`none\*(C'\fR, which uses software multiplication functions. +The \f(CW\*(C`g13\*(C'\fR option is for the hardware multiply/divide peripheral +only on the \s-1RL78/G13\s0 targets. The \f(CW\*(C`rl78\*(C'\fR option is for the +standard hardware multiplication defined in the \s-1RL78\s0 software manual. +.PP +\fI\s-1IBM RS/6000\s0 and PowerPC Options\fR +.IX Subsection "IBM RS/6000 and PowerPC Options" +.PP +These \fB\-m\fR options are defined for the \s-1IBM RS/6000\s0 and PowerPC: +.IP "\fB\-mpowerpc\-gpopt\fR" 4 +.IX Item "-mpowerpc-gpopt" +.PD 0 +.IP "\fB\-mno\-powerpc\-gpopt\fR" 4 +.IX Item "-mno-powerpc-gpopt" +.IP "\fB\-mpowerpc\-gfxopt\fR" 4 +.IX Item "-mpowerpc-gfxopt" +.IP "\fB\-mno\-powerpc\-gfxopt\fR" 4 +.IX Item "-mno-powerpc-gfxopt" +.IP "\fB\-mpowerpc64\fR" 4 +.IX Item "-mpowerpc64" +.IP "\fB\-mno\-powerpc64\fR" 4 +.IX Item "-mno-powerpc64" +.IP "\fB\-mmfcrf\fR" 4 +.IX Item "-mmfcrf" +.IP "\fB\-mno\-mfcrf\fR" 4 +.IX Item "-mno-mfcrf" +.IP "\fB\-mpopcntb\fR" 4 +.IX Item "-mpopcntb" +.IP "\fB\-mno\-popcntb\fR" 4 +.IX Item "-mno-popcntb" +.IP "\fB\-mpopcntd\fR" 4 +.IX Item "-mpopcntd" +.IP "\fB\-mno\-popcntd\fR" 4 +.IX Item "-mno-popcntd" +.IP "\fB\-mfprnd\fR" 4 +.IX Item "-mfprnd" +.IP "\fB\-mno\-fprnd\fR" 4 +.IX Item "-mno-fprnd" +.IP "\fB\-mcmpb\fR" 4 +.IX Item "-mcmpb" +.IP "\fB\-mno\-cmpb\fR" 4 +.IX Item "-mno-cmpb" +.IP "\fB\-mmfpgpr\fR" 4 +.IX Item "-mmfpgpr" +.IP "\fB\-mno\-mfpgpr\fR" 4 +.IX Item "-mno-mfpgpr" +.IP "\fB\-mhard\-dfp\fR" 4 +.IX Item "-mhard-dfp" +.IP "\fB\-mno\-hard\-dfp\fR" 4 +.IX Item "-mno-hard-dfp" +.PD +You use these options to specify which instructions are available on the +processor you are using. The default value of these options is +determined when configuring \s-1GCC. \s0 Specifying the +\&\fB\-mcpu=\fR\fIcpu_type\fR overrides the specification of these +options. We recommend you use the \fB\-mcpu=\fR\fIcpu_type\fR option +rather than the options listed above. +.Sp +Specifying \fB\-mpowerpc\-gpopt\fR allows +\&\s-1GCC\s0 to use the optional PowerPC architecture instructions in the +General Purpose group, including floating-point square root. Specifying +\&\fB\-mpowerpc\-gfxopt\fR allows \s-1GCC\s0 to +use the optional PowerPC architecture instructions in the Graphics +group, including floating-point select. +.Sp +The \fB\-mmfcrf\fR option allows \s-1GCC\s0 to generate the move from +condition register field instruction implemented on the \s-1POWER4\s0 +processor and other processors that support the PowerPC V2.01 +architecture. +The \fB\-mpopcntb\fR option allows \s-1GCC\s0 to generate the popcount and +double-precision \s-1FP\s0 reciprocal estimate instruction implemented on the +\&\s-1POWER5\s0 processor and other processors that support the PowerPC V2.02 +architecture. +The \fB\-mpopcntd\fR option allows \s-1GCC\s0 to generate the popcount +instruction implemented on the \s-1POWER7\s0 processor and other processors +that support the PowerPC V2.06 architecture. +The \fB\-mfprnd\fR option allows \s-1GCC\s0 to generate the \s-1FP\s0 round to +integer instructions implemented on the \s-1POWER5+\s0 processor and other +processors that support the PowerPC V2.03 architecture. +The \fB\-mcmpb\fR option allows \s-1GCC\s0 to generate the compare bytes +instruction implemented on the \s-1POWER6\s0 processor and other processors +that support the PowerPC V2.05 architecture. +The \fB\-mmfpgpr\fR option allows \s-1GCC\s0 to generate the \s-1FP\s0 move to/from +general-purpose register instructions implemented on the \s-1POWER6X\s0 +processor and other processors that support the extended PowerPC V2.05 +architecture. +The \fB\-mhard\-dfp\fR option allows \s-1GCC\s0 to generate the decimal +floating-point instructions implemented on some \s-1POWER\s0 processors. +.Sp +The \fB\-mpowerpc64\fR option allows \s-1GCC\s0 to generate the additional +64\-bit instructions that are found in the full PowerPC64 architecture +and to treat GPRs as 64\-bit, doubleword quantities. \s-1GCC\s0 defaults to +\&\fB\-mno\-powerpc64\fR. +.IP "\fB\-mcpu=\fR\fIcpu_type\fR" 4 +.IX Item "-mcpu=cpu_type" +Set architecture type, register usage, and +instruction scheduling parameters for machine type \fIcpu_type\fR. +Supported values for \fIcpu_type\fR are \fB401\fR, \fB403\fR, +\&\fB405\fR, \fB405fp\fR, \fB440\fR, \fB440fp\fR, \fB464\fR, \fB464fp\fR, +\&\fB476\fR, \fB476fp\fR, \fB505\fR, \fB601\fR, \fB602\fR, \fB603\fR, +\&\fB603e\fR, \fB604\fR, \fB604e\fR, \fB620\fR, \fB630\fR, \fB740\fR, +\&\fB7400\fR, \fB7450\fR, \fB750\fR, \fB801\fR, \fB821\fR, \fB823\fR, +\&\fB860\fR, \fB970\fR, \fB8540\fR, \fBa2\fR, \fBe300c2\fR, +\&\fBe300c3\fR, \fBe500mc\fR, \fBe500mc64\fR, \fBe5500\fR, +\&\fBe6500\fR, \fBec603e\fR, \fBG3\fR, \fBG4\fR, \fBG5\fR, +\&\fBtitan\fR, \fBpower3\fR, \fBpower4\fR, \fBpower5\fR, \fBpower5+\fR, +\&\fBpower6\fR, \fBpower6x\fR, \fBpower7\fR, \fBpower8\fR, \fBpowerpc\fR, +\&\fBpowerpc64\fR, and \fBrs64\fR. +.Sp +\&\fB\-mcpu=powerpc\fR, and \fB\-mcpu=powerpc64\fR specify pure 32\-bit +PowerPC and 64\-bit PowerPC architecture machine +types, with an appropriate, generic processor model assumed for +scheduling purposes. +.Sp +The other options specify a specific processor. Code generated under +those options runs best on that processor, and may not run at all on +others. +.Sp +The \fB\-mcpu\fR options automatically enable or disable the +following options: +.Sp +\&\fB\-maltivec \-mfprnd \-mhard\-float \-mmfcrf \-mmultiple +\&\-mpopcntb \-mpopcntd \-mpowerpc64 +\&\-mpowerpc\-gpopt \-mpowerpc\-gfxopt \-msingle\-float \-mdouble\-float +\&\-msimple\-fpu \-mstring \-mmulhw \-mdlmzb \-mmfpgpr \-mvsx +\&\-mcrypto \-mdirect\-move \-mpower8\-fusion \-mpower8\-vector +\&\-mquad\-memory \-mquad\-memory\-atomic\fR +.Sp +The particular options set for any particular \s-1CPU\s0 varies between +compiler versions, depending on what setting seems to produce optimal +code for that \s-1CPU\s0; it doesn't necessarily reflect the actual hardware's +capabilities. If you wish to set an individual option to a particular +value, you may specify it after the \fB\-mcpu\fR option, like +\&\fB\-mcpu=970 \-mno\-altivec\fR. +.Sp +On \s-1AIX,\s0 the \fB\-maltivec\fR and \fB\-mpowerpc64\fR options are +not enabled or disabled by the \fB\-mcpu\fR option at present because +\&\s-1AIX\s0 does not have full support for these options. You may still +enable or disable them individually if you're sure it'll work in your +environment. +.IP "\fB\-mtune=\fR\fIcpu_type\fR" 4 +.IX Item "-mtune=cpu_type" +Set the instruction scheduling parameters for machine type +\&\fIcpu_type\fR, but do not set the architecture type or register usage, +as \fB\-mcpu=\fR\fIcpu_type\fR does. The same +values for \fIcpu_type\fR are used for \fB\-mtune\fR as for +\&\fB\-mcpu\fR. If both are specified, the code generated uses the +architecture and registers set by \fB\-mcpu\fR, but the +scheduling parameters set by \fB\-mtune\fR. +.IP "\fB\-mcmodel=small\fR" 4 +.IX Item "-mcmodel=small" +Generate PowerPC64 code for the small model: The \s-1TOC\s0 is limited to +64k. +.IP "\fB\-mcmodel=medium\fR" 4 +.IX Item "-mcmodel=medium" +Generate PowerPC64 code for the medium model: The \s-1TOC\s0 and other static +data may be up to a total of 4G in size. +.IP "\fB\-mcmodel=large\fR" 4 +.IX Item "-mcmodel=large" +Generate PowerPC64 code for the large model: The \s-1TOC\s0 may be up to 4G +in size. Other data and code is only limited by the 64\-bit address +space. +.IP "\fB\-maltivec\fR" 4 +.IX Item "-maltivec" +.PD 0 +.IP "\fB\-mno\-altivec\fR" 4 +.IX Item "-mno-altivec" +.PD +Generate code that uses (does not use) AltiVec instructions, and also +enable the use of built-in functions that allow more direct access to +the AltiVec instruction set. You may also need to set +\&\fB\-mabi=altivec\fR to adjust the current \s-1ABI\s0 with AltiVec \s-1ABI\s0 +enhancements. +.Sp +When \fB\-maltivec\fR is used, rather than \fB\-maltivec=le\fR or +\&\fB\-maltivec=be\fR, the element order for Altivec intrinsics such +as \f(CW\*(C`vec_splat\*(C'\fR, \f(CW\*(C`vec_extract\*(C'\fR, and \f(CW\*(C`vec_insert\*(C'\fR will +match array element order corresponding to the endianness of the +target. That is, element zero identifies the leftmost element in a +vector register when targeting a big-endian platform, and identifies +the rightmost element in a vector register when targeting a +little-endian platform. +.IP "\fB\-maltivec=be\fR" 4 +.IX Item "-maltivec=be" +Generate Altivec instructions using big-endian element order, +regardless of whether the target is big\- or little-endian. This is +the default when targeting a big-endian platform. +.Sp +The element order is used to interpret element numbers in Altivec +intrinsics such as \f(CW\*(C`vec_splat\*(C'\fR, \f(CW\*(C`vec_extract\*(C'\fR, and +\&\f(CW\*(C`vec_insert\*(C'\fR. By default, these will match array element order +corresponding to the endianness for the target. +.IP "\fB\-maltivec=le\fR" 4 +.IX Item "-maltivec=le" +Generate Altivec instructions using little-endian element order, +regardless of whether the target is big\- or little-endian. This is +the default when targeting a little-endian platform. This option is +currently ignored when targeting a big-endian platform. +.Sp +The element order is used to interpret element numbers in Altivec +intrinsics such as \f(CW\*(C`vec_splat\*(C'\fR, \f(CW\*(C`vec_extract\*(C'\fR, and +\&\f(CW\*(C`vec_insert\*(C'\fR. By default, these will match array element order +corresponding to the endianness for the target. +.IP "\fB\-mvrsave\fR" 4 +.IX Item "-mvrsave" +.PD 0 +.IP "\fB\-mno\-vrsave\fR" 4 +.IX Item "-mno-vrsave" +.PD +Generate \s-1VRSAVE\s0 instructions when generating AltiVec code. +.IP "\fB\-mgen\-cell\-microcode\fR" 4 +.IX Item "-mgen-cell-microcode" +Generate Cell microcode instructions. +.IP "\fB\-mwarn\-cell\-microcode\fR" 4 +.IX Item "-mwarn-cell-microcode" +Warn when a Cell microcode instruction is emitted. An example +of a Cell microcode instruction is a variable shift. +.IP "\fB\-msecure\-plt\fR" 4 +.IX Item "-msecure-plt" +Generate code that allows \fBld\fR and \fBld.so\fR +to build executables and shared +libraries with non-executable \f(CW\*(C`.plt\*(C'\fR and \f(CW\*(C`.got\*(C'\fR sections. +This is a PowerPC +32\-bit \s-1SYSV ABI\s0 option. +.IP "\fB\-mbss\-plt\fR" 4 +.IX Item "-mbss-plt" +Generate code that uses a \s-1BSS \s0\f(CW\*(C`.plt\*(C'\fR section that \fBld.so\fR +fills in, and +requires \f(CW\*(C`.plt\*(C'\fR and \f(CW\*(C`.got\*(C'\fR +sections that are both writable and executable. +This is a PowerPC 32\-bit \s-1SYSV ABI\s0 option. +.IP "\fB\-misel\fR" 4 +.IX Item "-misel" +.PD 0 +.IP "\fB\-mno\-isel\fR" 4 +.IX Item "-mno-isel" +.PD +This switch enables or disables the generation of \s-1ISEL\s0 instructions. +.IP "\fB\-misel=\fR\fIyes/no\fR" 4 +.IX Item "-misel=yes/no" +This switch has been deprecated. Use \fB\-misel\fR and +\&\fB\-mno\-isel\fR instead. +.IP "\fB\-mspe\fR" 4 +.IX Item "-mspe" +.PD 0 +.IP "\fB\-mno\-spe\fR" 4 +.IX Item "-mno-spe" +.PD +This switch enables or disables the generation of \s-1SPE\s0 simd +instructions. +.IP "\fB\-mpaired\fR" 4 +.IX Item "-mpaired" +.PD 0 +.IP "\fB\-mno\-paired\fR" 4 +.IX Item "-mno-paired" +.PD +This switch enables or disables the generation of \s-1PAIRED\s0 simd +instructions. +.IP "\fB\-mspe=\fR\fIyes/no\fR" 4 +.IX Item "-mspe=yes/no" +This option has been deprecated. Use \fB\-mspe\fR and +\&\fB\-mno\-spe\fR instead. +.IP "\fB\-mvsx\fR" 4 +.IX Item "-mvsx" +.PD 0 +.IP "\fB\-mno\-vsx\fR" 4 +.IX Item "-mno-vsx" +.PD +Generate code that uses (does not use) vector/scalar (\s-1VSX\s0) +instructions, and also enable the use of built-in functions that allow +more direct access to the \s-1VSX\s0 instruction set. +.IP "\fB\-mcrypto\fR" 4 +.IX Item "-mcrypto" +.PD 0 +.IP "\fB\-mno\-crypto\fR" 4 +.IX Item "-mno-crypto" +.PD +Enable the use (disable) of the built-in functions that allow direct +access to the cryptographic instructions that were added in version +2.07 of the PowerPC \s-1ISA.\s0 +.IP "\fB\-mdirect\-move\fR" 4 +.IX Item "-mdirect-move" +.PD 0 +.IP "\fB\-mno\-direct\-move\fR" 4 +.IX Item "-mno-direct-move" +.PD +Generate code that uses (does not use) the instructions to move data +between the general purpose registers and the vector/scalar (\s-1VSX\s0) +registers that were added in version 2.07 of the PowerPC \s-1ISA.\s0 +.IP "\fB\-mpower8\-fusion\fR" 4 +.IX Item "-mpower8-fusion" +.PD 0 +.IP "\fB\-mno\-power8\-fusion\fR" 4 +.IX Item "-mno-power8-fusion" +.PD +Generate code that keeps (does not keeps) some integer operations +adjacent so that the instructions can be fused together on power8 and +later processors. +.IP "\fB\-mpower8\-vector\fR" 4 +.IX Item "-mpower8-vector" +.PD 0 +.IP "\fB\-mno\-power8\-vector\fR" 4 +.IX Item "-mno-power8-vector" +.PD +Generate code that uses (does not use) the vector and scalar +instructions that were added in version 2.07 of the PowerPC \s-1ISA. \s0 Also +enable the use of built-in functions that allow more direct access to +the vector instructions. +.IP "\fB\-mquad\-memory\fR" 4 +.IX Item "-mquad-memory" +.PD 0 +.IP "\fB\-mno\-quad\-memory\fR" 4 +.IX Item "-mno-quad-memory" +.PD +Generate code that uses (does not use) the non-atomic quad word memory +instructions. The \fB\-mquad\-memory\fR option requires use of +64\-bit mode. +.IP "\fB\-mquad\-memory\-atomic\fR" 4 +.IX Item "-mquad-memory-atomic" +.PD 0 +.IP "\fB\-mno\-quad\-memory\-atomic\fR" 4 +.IX Item "-mno-quad-memory-atomic" +.PD +Generate code that uses (does not use) the atomic quad word memory +instructions. The \fB\-mquad\-memory\-atomic\fR option requires use of +64\-bit mode. +.IP "\fB\-mfloat\-gprs=\fR\fIyes/single/double/no\fR" 4 +.IX Item "-mfloat-gprs=yes/single/double/no" +.PD 0 +.IP "\fB\-mfloat\-gprs\fR" 4 +.IX Item "-mfloat-gprs" +.PD +This switch enables or disables the generation of floating-point +operations on the general-purpose registers for architectures that +support it. +.Sp +The argument \fIyes\fR or \fIsingle\fR enables the use of +single-precision floating-point operations. +.Sp +The argument \fIdouble\fR enables the use of single and +double-precision floating-point operations. +.Sp +The argument \fIno\fR disables floating-point operations on the +general-purpose registers. +.Sp +This option is currently only available on the MPC854x. +.IP "\fB\-m32\fR" 4 +.IX Item "-m32" +.PD 0 +.IP "\fB\-m64\fR" 4 +.IX Item "-m64" +.PD +Generate code for 32\-bit or 64\-bit environments of Darwin and \s-1SVR4\s0 +targets (including GNU/Linux). The 32\-bit environment sets int, long +and pointer to 32 bits and generates code that runs on any PowerPC +variant. The 64\-bit environment sets int to 32 bits and long and +pointer to 64 bits, and generates code for PowerPC64, as for +\&\fB\-mpowerpc64\fR. +.IP "\fB\-mfull\-toc\fR" 4 +.IX Item "-mfull-toc" +.PD 0 +.IP "\fB\-mno\-fp\-in\-toc\fR" 4 +.IX Item "-mno-fp-in-toc" +.IP "\fB\-mno\-sum\-in\-toc\fR" 4 +.IX Item "-mno-sum-in-toc" +.IP "\fB\-mminimal\-toc\fR" 4 +.IX Item "-mminimal-toc" +.PD +Modify generation of the \s-1TOC \s0(Table Of Contents), which is created for +every executable file. The \fB\-mfull\-toc\fR option is selected by +default. In that case, \s-1GCC\s0 allocates at least one \s-1TOC\s0 entry for +each unique non-automatic variable reference in your program. \s-1GCC\s0 +also places floating-point constants in the \s-1TOC. \s0 However, only +16,384 entries are available in the \s-1TOC.\s0 +.Sp +If you receive a linker error message that saying you have overflowed +the available \s-1TOC\s0 space, you can reduce the amount of \s-1TOC\s0 space used +with the \fB\-mno\-fp\-in\-toc\fR and \fB\-mno\-sum\-in\-toc\fR options. +\&\fB\-mno\-fp\-in\-toc\fR prevents \s-1GCC\s0 from putting floating-point +constants in the \s-1TOC\s0 and \fB\-mno\-sum\-in\-toc\fR forces \s-1GCC\s0 to +generate code to calculate the sum of an address and a constant at +run time instead of putting that sum into the \s-1TOC. \s0 You may specify one +or both of these options. Each causes \s-1GCC\s0 to produce very slightly +slower and larger code at the expense of conserving \s-1TOC\s0 space. +.Sp +If you still run out of space in the \s-1TOC\s0 even when you specify both of +these options, specify \fB\-mminimal\-toc\fR instead. This option causes +\&\s-1GCC\s0 to make only one \s-1TOC\s0 entry for every file. When you specify this +option, \s-1GCC\s0 produces code that is slower and larger but which +uses extremely little \s-1TOC\s0 space. You may wish to use this option +only on files that contain less frequently-executed code. +.IP "\fB\-maix64\fR" 4 +.IX Item "-maix64" +.PD 0 +.IP "\fB\-maix32\fR" 4 +.IX Item "-maix32" +.PD +Enable 64\-bit \s-1AIX ABI\s0 and calling convention: 64\-bit pointers, 64\-bit +\&\f(CW\*(C`long\*(C'\fR type, and the infrastructure needed to support them. +Specifying \fB\-maix64\fR implies \fB\-mpowerpc64\fR, +while \fB\-maix32\fR disables the 64\-bit \s-1ABI\s0 and +implies \fB\-mno\-powerpc64\fR. \s-1GCC\s0 defaults to \fB\-maix32\fR. +.IP "\fB\-mxl\-compat\fR" 4 +.IX Item "-mxl-compat" +.PD 0 +.IP "\fB\-mno\-xl\-compat\fR" 4 +.IX Item "-mno-xl-compat" +.PD +Produce code that conforms more closely to \s-1IBM XL\s0 compiler semantics +when using AIX-compatible \s-1ABI. \s0 Pass floating-point arguments to +prototyped functions beyond the register save area (\s-1RSA\s0) on the stack +in addition to argument FPRs. Do not assume that most significant +double in 128\-bit long double value is properly rounded when comparing +values and converting to double. Use \s-1XL\s0 symbol names for long double +support routines. +.Sp +The \s-1AIX\s0 calling convention was extended but not initially documented to +handle an obscure K&R C case of calling a function that takes the +address of its arguments with fewer arguments than declared. \s-1IBM XL\s0 +compilers access floating-point arguments that do not fit in the +\&\s-1RSA\s0 from the stack when a subroutine is compiled without +optimization. Because always storing floating-point arguments on the +stack is inefficient and rarely needed, this option is not enabled by +default and only is necessary when calling subroutines compiled by \s-1IBM +XL\s0 compilers without optimization. +.IP "\fB\-mpe\fR" 4 +.IX Item "-mpe" +Support \fI\s-1IBM RS/6000 SP\s0\fR \fIParallel Environment\fR (\s-1PE\s0). Link an +application written to use message passing with special startup code to +enable the application to run. The system must have \s-1PE\s0 installed in the +standard location (\fI/usr/lpp/ppe.poe/\fR), or the \fIspecs\fR file +must be overridden with the \fB\-specs=\fR option to specify the +appropriate directory location. The Parallel Environment does not +support threads, so the \fB\-mpe\fR option and the \fB\-pthread\fR +option are incompatible. +.IP "\fB\-malign\-natural\fR" 4 +.IX Item "-malign-natural" +.PD 0 +.IP "\fB\-malign\-power\fR" 4 +.IX Item "-malign-power" +.PD +On \s-1AIX,\s0 32\-bit Darwin, and 64\-bit PowerPC GNU/Linux, the option +\&\fB\-malign\-natural\fR overrides the ABI-defined alignment of larger +types, such as floating-point doubles, on their natural size-based boundary. +The option \fB\-malign\-power\fR instructs \s-1GCC\s0 to follow the ABI-specified +alignment rules. \s-1GCC\s0 defaults to the standard alignment defined in the \s-1ABI.\s0 +.Sp +On 64\-bit Darwin, natural alignment is the default, and \fB\-malign\-power\fR +is not supported. +.IP "\fB\-msoft\-float\fR" 4 +.IX Item "-msoft-float" +.PD 0 +.IP "\fB\-mhard\-float\fR" 4 +.IX Item "-mhard-float" +.PD +Generate code that does not use (uses) the floating-point register set. +Software floating-point emulation is provided if you use the +\&\fB\-msoft\-float\fR option, and pass the option to \s-1GCC\s0 when linking. +.IP "\fB\-msingle\-float\fR" 4 +.IX Item "-msingle-float" +.PD 0 +.IP "\fB\-mdouble\-float\fR" 4 +.IX Item "-mdouble-float" +.PD +Generate code for single\- or double-precision floating-point operations. +\&\fB\-mdouble\-float\fR implies \fB\-msingle\-float\fR. +.IP "\fB\-msimple\-fpu\fR" 4 +.IX Item "-msimple-fpu" +Do not generate \f(CW\*(C`sqrt\*(C'\fR and \f(CW\*(C`div\*(C'\fR instructions for hardware +floating-point unit. +.IP "\fB\-mfpu=\fR\fIname\fR" 4 +.IX Item "-mfpu=name" +Specify type of floating-point unit. Valid values for \fIname\fR are +\&\fBsp_lite\fR (equivalent to \fB\-msingle\-float \-msimple\-fpu\fR), +\&\fBdp_lite\fR (equivalent to \fB\-mdouble\-float \-msimple\-fpu\fR), +\&\fBsp_full\fR (equivalent to \fB\-msingle\-float\fR), +and \fBdp_full\fR (equivalent to \fB\-mdouble\-float\fR). +.IP "\fB\-mxilinx\-fpu\fR" 4 +.IX Item "-mxilinx-fpu" +Perform optimizations for the floating-point unit on Xilinx \s-1PPC 405/440.\s0 +.IP "\fB\-mmultiple\fR" 4 +.IX Item "-mmultiple" +.PD 0 +.IP "\fB\-mno\-multiple\fR" 4 +.IX Item "-mno-multiple" +.PD +Generate code that uses (does not use) the load multiple word +instructions and the store multiple word instructions. These +instructions are generated by default on \s-1POWER\s0 systems, and not +generated on PowerPC systems. Do not use \fB\-mmultiple\fR on little-endian +PowerPC systems, since those instructions do not work when the +processor is in little-endian mode. The exceptions are \s-1PPC740\s0 and +\&\s-1PPC750\s0 which permit these instructions in little-endian mode. +.IP "\fB\-mstring\fR" 4 +.IX Item "-mstring" +.PD 0 +.IP "\fB\-mno\-string\fR" 4 +.IX Item "-mno-string" +.PD +Generate code that uses (does not use) the load string instructions +and the store string word instructions to save multiple registers and +do small block moves. These instructions are generated by default on +\&\s-1POWER\s0 systems, and not generated on PowerPC systems. Do not use +\&\fB\-mstring\fR on little-endian PowerPC systems, since those +instructions do not work when the processor is in little-endian mode. +The exceptions are \s-1PPC740\s0 and \s-1PPC750\s0 which permit these instructions +in little-endian mode. +.IP "\fB\-mupdate\fR" 4 +.IX Item "-mupdate" +.PD 0 +.IP "\fB\-mno\-update\fR" 4 +.IX Item "-mno-update" +.PD +Generate code that uses (does not use) the load or store instructions +that update the base register to the address of the calculated memory +location. These instructions are generated by default. If you use +\&\fB\-mno\-update\fR, there is a small window between the time that the +stack pointer is updated and the address of the previous frame is +stored, which means code that walks the stack frame across interrupts or +signals may get corrupted data. +.IP "\fB\-mavoid\-indexed\-addresses\fR" 4 +.IX Item "-mavoid-indexed-addresses" +.PD 0 +.IP "\fB\-mno\-avoid\-indexed\-addresses\fR" 4 +.IX Item "-mno-avoid-indexed-addresses" +.PD +Generate code that tries to avoid (not avoid) the use of indexed load +or store instructions. These instructions can incur a performance +penalty on Power6 processors in certain situations, such as when +stepping through large arrays that cross a 16M boundary. This option +is enabled by default when targeting Power6 and disabled otherwise. +.IP "\fB\-mfused\-madd\fR" 4 +.IX Item "-mfused-madd" +.PD 0 +.IP "\fB\-mno\-fused\-madd\fR" 4 +.IX Item "-mno-fused-madd" +.PD +Generate code that uses (does not use) the floating-point multiply and +accumulate instructions. These instructions are generated by default +if hardware floating point is used. The machine-dependent +\&\fB\-mfused\-madd\fR option is now mapped to the machine-independent +\&\fB\-ffp\-contract=fast\fR option, and \fB\-mno\-fused\-madd\fR is +mapped to \fB\-ffp\-contract=off\fR. +.IP "\fB\-mmulhw\fR" 4 +.IX Item "-mmulhw" +.PD 0 +.IP "\fB\-mno\-mulhw\fR" 4 +.IX Item "-mno-mulhw" +.PD +Generate code that uses (does not use) the half-word multiply and +multiply-accumulate instructions on the \s-1IBM 405, 440, 464\s0 and 476 processors. +These instructions are generated by default when targeting those +processors. +.IP "\fB\-mdlmzb\fR" 4 +.IX Item "-mdlmzb" +.PD 0 +.IP "\fB\-mno\-dlmzb\fR" 4 +.IX Item "-mno-dlmzb" +.PD +Generate code that uses (does not use) the string-search \fBdlmzb\fR +instruction on the \s-1IBM 405, 440, 464\s0 and 476 processors. This instruction is +generated by default when targeting those processors. +.IP "\fB\-mno\-bit\-align\fR" 4 +.IX Item "-mno-bit-align" +.PD 0 +.IP "\fB\-mbit\-align\fR" 4 +.IX Item "-mbit-align" +.PD +On System V.4 and embedded PowerPC systems do not (do) force structures +and unions that contain bit-fields to be aligned to the base type of the +bit-field. +.Sp +For example, by default a structure containing nothing but 8 +\&\f(CW\*(C`unsigned\*(C'\fR bit-fields of length 1 is aligned to a 4\-byte +boundary and has a size of 4 bytes. By using \fB\-mno\-bit\-align\fR, +the structure is aligned to a 1\-byte boundary and is 1 byte in +size. +.IP "\fB\-mno\-strict\-align\fR" 4 +.IX Item "-mno-strict-align" +.PD 0 +.IP "\fB\-mstrict\-align\fR" 4 +.IX Item "-mstrict-align" +.PD +On System V.4 and embedded PowerPC systems do not (do) assume that +unaligned memory references are handled by the system. +.IP "\fB\-mrelocatable\fR" 4 +.IX Item "-mrelocatable" +.PD 0 +.IP "\fB\-mno\-relocatable\fR" 4 +.IX Item "-mno-relocatable" +.PD +Generate code that allows (does not allow) a static executable to be +relocated to a different address at run time. A simple embedded +PowerPC system loader should relocate the entire contents of +\&\f(CW\*(C`.got2\*(C'\fR and 4\-byte locations listed in the \f(CW\*(C`.fixup\*(C'\fR section, +a table of 32\-bit addresses generated by this option. For this to +work, all objects linked together must be compiled with +\&\fB\-mrelocatable\fR or \fB\-mrelocatable\-lib\fR. +\&\fB\-mrelocatable\fR code aligns the stack to an 8\-byte boundary. +.IP "\fB\-mrelocatable\-lib\fR" 4 +.IX Item "-mrelocatable-lib" +.PD 0 +.IP "\fB\-mno\-relocatable\-lib\fR" 4 +.IX Item "-mno-relocatable-lib" +.PD +Like \fB\-mrelocatable\fR, \fB\-mrelocatable\-lib\fR generates a +\&\f(CW\*(C`.fixup\*(C'\fR section to allow static executables to be relocated at +run time, but \fB\-mrelocatable\-lib\fR does not use the smaller stack +alignment of \fB\-mrelocatable\fR. Objects compiled with +\&\fB\-mrelocatable\-lib\fR may be linked with objects compiled with +any combination of the \fB\-mrelocatable\fR options. +.IP "\fB\-mno\-toc\fR" 4 +.IX Item "-mno-toc" +.PD 0 +.IP "\fB\-mtoc\fR" 4 +.IX Item "-mtoc" +.PD +On System V.4 and embedded PowerPC systems do not (do) assume that +register 2 contains a pointer to a global area pointing to the addresses +used in the program. +.IP "\fB\-mlittle\fR" 4 +.IX Item "-mlittle" +.PD 0 +.IP "\fB\-mlittle\-endian\fR" 4 +.IX Item "-mlittle-endian" +.PD +On System V.4 and embedded PowerPC systems compile code for the +processor in little-endian mode. The \fB\-mlittle\-endian\fR option is +the same as \fB\-mlittle\fR. +.IP "\fB\-mbig\fR" 4 +.IX Item "-mbig" +.PD 0 +.IP "\fB\-mbig\-endian\fR" 4 +.IX Item "-mbig-endian" +.PD +On System V.4 and embedded PowerPC systems compile code for the +processor in big-endian mode. The \fB\-mbig\-endian\fR option is +the same as \fB\-mbig\fR. +.IP "\fB\-mdynamic\-no\-pic\fR" 4 +.IX Item "-mdynamic-no-pic" +On Darwin and Mac \s-1OS X\s0 systems, compile code so that it is not +relocatable, but that its external references are relocatable. The +resulting code is suitable for applications, but not shared +libraries. +.IP "\fB\-msingle\-pic\-base\fR" 4 +.IX Item "-msingle-pic-base" +Treat the register used for \s-1PIC\s0 addressing as read-only, rather than +loading it in the prologue for each function. The runtime system is +responsible for initializing this register with an appropriate value +before execution begins. +.IP "\fB\-mprioritize\-restricted\-insns=\fR\fIpriority\fR" 4 +.IX Item "-mprioritize-restricted-insns=priority" +This option controls the priority that is assigned to +dispatch-slot restricted instructions during the second scheduling +pass. The argument \fIpriority\fR takes the value \fB0\fR, \fB1\fR, +or \fB2\fR to assign no, highest, or second-highest (respectively) +priority to dispatch-slot restricted +instructions. +.IP "\fB\-msched\-costly\-dep=\fR\fIdependence_type\fR" 4 +.IX Item "-msched-costly-dep=dependence_type" +This option controls which dependences are considered costly +by the target during instruction scheduling. The argument +\&\fIdependence_type\fR takes one of the following values: +.RS 4 +.IP "\fBno\fR" 4 +.IX Item "no" +No dependence is costly. +.IP "\fBall\fR" 4 +.IX Item "all" +All dependences are costly. +.IP "\fBtrue_store_to_load\fR" 4 +.IX Item "true_store_to_load" +A true dependence from store to load is costly. +.IP "\fBstore_to_load\fR" 4 +.IX Item "store_to_load" +Any dependence from store to load is costly. +.IP "\fInumber\fR" 4 +.IX Item "number" +Any dependence for which the latency is greater than or equal to +\&\fInumber\fR is costly. +.RE +.RS 4 +.RE +.IP "\fB\-minsert\-sched\-nops=\fR\fIscheme\fR" 4 +.IX Item "-minsert-sched-nops=scheme" +This option controls which \s-1NOP\s0 insertion scheme is used during +the second scheduling pass. The argument \fIscheme\fR takes one of the +following values: +.RS 4 +.IP "\fBno\fR" 4 +.IX Item "no" +Don't insert NOPs. +.IP "\fBpad\fR" 4 +.IX Item "pad" +Pad with NOPs any dispatch group that has vacant issue slots, +according to the scheduler's grouping. +.IP "\fBregroup_exact\fR" 4 +.IX Item "regroup_exact" +Insert NOPs to force costly dependent insns into +separate groups. Insert exactly as many NOPs as needed to force an insn +to a new group, according to the estimated processor grouping. +.IP "\fInumber\fR" 4 +.IX Item "number" +Insert NOPs to force costly dependent insns into +separate groups. Insert \fInumber\fR NOPs to force an insn to a new group. +.RE +.RS 4 +.RE +.IP "\fB\-mcall\-sysv\fR" 4 +.IX Item "-mcall-sysv" +On System V.4 and embedded PowerPC systems compile code using calling +conventions that adhere to the March 1995 draft of the System V +Application Binary Interface, PowerPC processor supplement. This is the +default unless you configured \s-1GCC\s0 using \fBpowerpc\-*\-eabiaix\fR. +.IP "\fB\-mcall\-sysv\-eabi\fR" 4 +.IX Item "-mcall-sysv-eabi" +.PD 0 +.IP "\fB\-mcall\-eabi\fR" 4 +.IX Item "-mcall-eabi" +.PD +Specify both \fB\-mcall\-sysv\fR and \fB\-meabi\fR options. +.IP "\fB\-mcall\-sysv\-noeabi\fR" 4 +.IX Item "-mcall-sysv-noeabi" +Specify both \fB\-mcall\-sysv\fR and \fB\-mno\-eabi\fR options. +.IP "\fB\-mcall\-aixdesc\fR" 4 +.IX Item "-mcall-aixdesc" +On System V.4 and embedded PowerPC systems compile code for the \s-1AIX\s0 +operating system. +.IP "\fB\-mcall\-linux\fR" 4 +.IX Item "-mcall-linux" +On System V.4 and embedded PowerPC systems compile code for the +Linux-based \s-1GNU\s0 system. +.IP "\fB\-mcall\-freebsd\fR" 4 +.IX Item "-mcall-freebsd" +On System V.4 and embedded PowerPC systems compile code for the +FreeBSD operating system. +.IP "\fB\-mcall\-netbsd\fR" 4 +.IX Item "-mcall-netbsd" +On System V.4 and embedded PowerPC systems compile code for the +NetBSD operating system. +.IP "\fB\-mcall\-openbsd\fR" 4 +.IX Item "-mcall-openbsd" +On System V.4 and embedded PowerPC systems compile code for the +OpenBSD operating system. +.IP "\fB\-maix\-struct\-return\fR" 4 +.IX Item "-maix-struct-return" +Return all structures in memory (as specified by the \s-1AIX ABI\s0). +.IP "\fB\-msvr4\-struct\-return\fR" 4 +.IX Item "-msvr4-struct-return" +Return structures smaller than 8 bytes in registers (as specified by the +\&\s-1SVR4 ABI\s0). +.IP "\fB\-mabi=\fR\fIabi-type\fR" 4 +.IX Item "-mabi=abi-type" +Extend the current \s-1ABI\s0 with a particular extension, or remove such extension. +Valid values are \fIaltivec\fR, \fIno-altivec\fR, \fIspe\fR, +\&\fIno-spe\fR, \fIibmlongdouble\fR, \fIieeelongdouble\fR, +\&\fIelfv1\fR, \fIelfv2\fR. +.IP "\fB\-mabi=spe\fR" 4 +.IX Item "-mabi=spe" +Extend the current \s-1ABI\s0 with \s-1SPE ABI\s0 extensions. This does not change +the default \s-1ABI,\s0 instead it adds the \s-1SPE ABI\s0 extensions to the current +\&\s-1ABI.\s0 +.IP "\fB\-mabi=no\-spe\fR" 4 +.IX Item "-mabi=no-spe" +Disable Book-E \s-1SPE ABI\s0 extensions for the current \s-1ABI.\s0 +.IP "\fB\-mabi=ibmlongdouble\fR" 4 +.IX Item "-mabi=ibmlongdouble" +Change the current \s-1ABI\s0 to use \s-1IBM\s0 extended-precision long double. +This is a PowerPC 32\-bit \s-1SYSV ABI\s0 option. +.IP "\fB\-mabi=ieeelongdouble\fR" 4 +.IX Item "-mabi=ieeelongdouble" +Change the current \s-1ABI\s0 to use \s-1IEEE\s0 extended-precision long double. +This is a PowerPC 32\-bit Linux \s-1ABI\s0 option. +.IP "\fB\-mabi=elfv1\fR" 4 +.IX Item "-mabi=elfv1" +Change the current \s-1ABI\s0 to use the ELFv1 \s-1ABI.\s0 +This is the default \s-1ABI\s0 for big-endian PowerPC 64\-bit Linux. +Overriding the default \s-1ABI\s0 requires special system support and is +likely to fail in spectacular ways. +.IP "\fB\-mabi=elfv2\fR" 4 +.IX Item "-mabi=elfv2" +Change the current \s-1ABI\s0 to use the ELFv2 \s-1ABI.\s0 +This is the default \s-1ABI\s0 for little-endian PowerPC 64\-bit Linux. +Overriding the default \s-1ABI\s0 requires special system support and is +likely to fail in spectacular ways. +.IP "\fB\-mprototype\fR" 4 +.IX Item "-mprototype" +.PD 0 +.IP "\fB\-mno\-prototype\fR" 4 +.IX Item "-mno-prototype" +.PD +On System V.4 and embedded PowerPC systems assume that all calls to +variable argument functions are properly prototyped. Otherwise, the +compiler must insert an instruction before every non-prototyped call to +set or clear bit 6 of the condition code register (\fI\s-1CR\s0\fR) to +indicate whether floating-point values are passed in the floating-point +registers in case the function takes variable arguments. With +\&\fB\-mprototype\fR, only calls to prototyped variable argument functions +set or clear the bit. +.IP "\fB\-msim\fR" 4 +.IX Item "-msim" +On embedded PowerPC systems, assume that the startup module is called +\&\fIsim\-crt0.o\fR and that the standard C libraries are \fIlibsim.a\fR and +\&\fIlibc.a\fR. This is the default for \fBpowerpc\-*\-eabisim\fR +configurations. +.IP "\fB\-mmvme\fR" 4 +.IX Item "-mmvme" +On embedded PowerPC systems, assume that the startup module is called +\&\fIcrt0.o\fR and the standard C libraries are \fIlibmvme.a\fR and +\&\fIlibc.a\fR. +.IP "\fB\-mads\fR" 4 +.IX Item "-mads" +On embedded PowerPC systems, assume that the startup module is called +\&\fIcrt0.o\fR and the standard C libraries are \fIlibads.a\fR and +\&\fIlibc.a\fR. +.IP "\fB\-myellowknife\fR" 4 +.IX Item "-myellowknife" +On embedded PowerPC systems, assume that the startup module is called +\&\fIcrt0.o\fR and the standard C libraries are \fIlibyk.a\fR and +\&\fIlibc.a\fR. +.IP "\fB\-mvxworks\fR" 4 +.IX Item "-mvxworks" +On System V.4 and embedded PowerPC systems, specify that you are +compiling for a VxWorks system. +.IP "\fB\-memb\fR" 4 +.IX Item "-memb" +On embedded PowerPC systems, set the \fI\s-1PPC_EMB\s0\fR bit in the \s-1ELF\s0 flags +header to indicate that \fBeabi\fR extended relocations are used. +.IP "\fB\-meabi\fR" 4 +.IX Item "-meabi" +.PD 0 +.IP "\fB\-mno\-eabi\fR" 4 +.IX Item "-mno-eabi" +.PD +On System V.4 and embedded PowerPC systems do (do not) adhere to the +Embedded Applications Binary Interface (\s-1EABI\s0), which is a set of +modifications to the System V.4 specifications. Selecting \fB\-meabi\fR +means that the stack is aligned to an 8\-byte boundary, a function +\&\f(CW\*(C`_\|_eabi\*(C'\fR is called from \f(CW\*(C`main\*(C'\fR to set up the \s-1EABI\s0 +environment, and the \fB\-msdata\fR option can use both \f(CW\*(C`r2\*(C'\fR and +\&\f(CW\*(C`r13\*(C'\fR to point to two separate small data areas. Selecting +\&\fB\-mno\-eabi\fR means that the stack is aligned to a 16\-byte boundary, +no \s-1EABI\s0 initialization function is called from \f(CW\*(C`main\*(C'\fR, and the +\&\fB\-msdata\fR option only uses \f(CW\*(C`r13\*(C'\fR to point to a single +small data area. The \fB\-meabi\fR option is on by default if you +configured \s-1GCC\s0 using one of the \fBpowerpc*\-*\-eabi*\fR options. +.IP "\fB\-msdata=eabi\fR" 4 +.IX Item "-msdata=eabi" +On System V.4 and embedded PowerPC systems, put small initialized +\&\f(CW\*(C`const\*(C'\fR global and static data in the \fB.sdata2\fR section, which +is pointed to by register \f(CW\*(C`r2\*(C'\fR. Put small initialized +non\-\f(CW\*(C`const\*(C'\fR global and static data in the \fB.sdata\fR section, +which is pointed to by register \f(CW\*(C`r13\*(C'\fR. Put small uninitialized +global and static data in the \fB.sbss\fR section, which is adjacent to +the \fB.sdata\fR section. The \fB\-msdata=eabi\fR option is +incompatible with the \fB\-mrelocatable\fR option. The +\&\fB\-msdata=eabi\fR option also sets the \fB\-memb\fR option. +.IP "\fB\-msdata=sysv\fR" 4 +.IX Item "-msdata=sysv" +On System V.4 and embedded PowerPC systems, put small global and static +data in the \fB.sdata\fR section, which is pointed to by register +\&\f(CW\*(C`r13\*(C'\fR. Put small uninitialized global and static data in the +\&\fB.sbss\fR section, which is adjacent to the \fB.sdata\fR section. +The \fB\-msdata=sysv\fR option is incompatible with the +\&\fB\-mrelocatable\fR option. +.IP "\fB\-msdata=default\fR" 4 +.IX Item "-msdata=default" +.PD 0 +.IP "\fB\-msdata\fR" 4 +.IX Item "-msdata" +.PD +On System V.4 and embedded PowerPC systems, if \fB\-meabi\fR is used, +compile code the same as \fB\-msdata=eabi\fR, otherwise compile code the +same as \fB\-msdata=sysv\fR. +.IP "\fB\-msdata=data\fR" 4 +.IX Item "-msdata=data" +On System V.4 and embedded PowerPC systems, put small global +data in the \fB.sdata\fR section. Put small uninitialized global +data in the \fB.sbss\fR section. Do not use register \f(CW\*(C`r13\*(C'\fR +to address small data however. This is the default behavior unless +other \fB\-msdata\fR options are used. +.IP "\fB\-msdata=none\fR" 4 +.IX Item "-msdata=none" +.PD 0 +.IP "\fB\-mno\-sdata\fR" 4 +.IX Item "-mno-sdata" +.PD +On embedded PowerPC systems, put all initialized global and static data +in the \fB.data\fR section, and all uninitialized data in the +\&\fB.bss\fR section. +.IP "\fB\-mblock\-move\-inline\-limit=\fR\fInum\fR" 4 +.IX Item "-mblock-move-inline-limit=num" +Inline all block moves (such as calls to \f(CW\*(C`memcpy\*(C'\fR or structure +copies) less than or equal to \fInum\fR bytes. The minimum value for +\&\fInum\fR is 32 bytes on 32\-bit targets and 64 bytes on 64\-bit +targets. The default value is target-specific. +.IP "\fB\-G\fR \fInum\fR" 4 +.IX Item "-G num" +On embedded PowerPC systems, put global and static items less than or +equal to \fInum\fR bytes into the small data or \s-1BSS\s0 sections instead of +the normal data or \s-1BSS\s0 section. By default, \fInum\fR is 8. The +\&\fB\-G\fR \fInum\fR switch is also passed to the linker. +All modules should be compiled with the same \fB\-G\fR \fInum\fR value. +.IP "\fB\-mregnames\fR" 4 +.IX Item "-mregnames" +.PD 0 +.IP "\fB\-mno\-regnames\fR" 4 +.IX Item "-mno-regnames" +.PD +On System V.4 and embedded PowerPC systems do (do not) emit register +names in the assembly language output using symbolic forms. +.IP "\fB\-mlongcall\fR" 4 +.IX Item "-mlongcall" +.PD 0 +.IP "\fB\-mno\-longcall\fR" 4 +.IX Item "-mno-longcall" +.PD +By default assume that all calls are far away so that a longer and more +expensive calling sequence is required. This is required for calls +farther than 32 megabytes (33,554,432 bytes) from the current location. +A short call is generated if the compiler knows +the call cannot be that far away. This setting can be overridden by +the \f(CW\*(C`shortcall\*(C'\fR function attribute, or by \f(CW\*(C`#pragma +longcall(0)\*(C'\fR. +.Sp +Some linkers are capable of detecting out-of-range calls and generating +glue code on the fly. On these systems, long calls are unnecessary and +generate slower code. As of this writing, the \s-1AIX\s0 linker can do this, +as can the \s-1GNU\s0 linker for PowerPC/64. It is planned to add this feature +to the \s-1GNU\s0 linker for 32\-bit PowerPC systems as well. +.Sp +On Darwin/PPC systems, \f(CW\*(C`#pragma longcall\*(C'\fR generates \f(CW\*(C`jbsr +callee, L42\*(C'\fR, plus a \fIbranch island\fR (glue code). The two target +addresses represent the callee and the branch island. The +Darwin/PPC linker prefers the first address and generates a \f(CW\*(C`bl +callee\*(C'\fR if the \s-1PPC \s0\f(CW\*(C`bl\*(C'\fR instruction reaches the callee directly; +otherwise, the linker generates \f(CW\*(C`bl L42\*(C'\fR to call the branch +island. The branch island is appended to the body of the +calling function; it computes the full 32\-bit address of the callee +and jumps to it. +.Sp +On Mach-O (Darwin) systems, this option directs the compiler emit to +the glue for every direct call, and the Darwin linker decides whether +to use or discard it. +.Sp +In the future, \s-1GCC\s0 may ignore all longcall specifications +when the linker is known to generate glue. +.IP "\fB\-mtls\-markers\fR" 4 +.IX Item "-mtls-markers" +.PD 0 +.IP "\fB\-mno\-tls\-markers\fR" 4 +.IX Item "-mno-tls-markers" +.PD +Mark (do not mark) calls to \f(CW\*(C`_\|_tls_get_addr\*(C'\fR with a relocation +specifying the function argument. The relocation allows the linker to +reliably associate function call with argument setup instructions for +\&\s-1TLS\s0 optimization, which in turn allows \s-1GCC\s0 to better schedule the +sequence. +.IP "\fB\-pthread\fR" 4 +.IX Item "-pthread" +Adds support for multithreading with the \fIpthreads\fR library. +This option sets flags for both the preprocessor and linker. +.IP "\fB\-mrecip\fR" 4 +.IX Item "-mrecip" +.PD 0 +.IP "\fB\-mno\-recip\fR" 4 +.IX Item "-mno-recip" +.PD +This option enables use of the reciprocal estimate and +reciprocal square root estimate instructions with additional +Newton-Raphson steps to increase precision instead of doing a divide or +square root and divide for floating-point arguments. You should use +the \fB\-ffast\-math\fR option when using \fB\-mrecip\fR (or at +least \fB\-funsafe\-math\-optimizations\fR, +\&\fB\-finite\-math\-only\fR, \fB\-freciprocal\-math\fR and +\&\fB\-fno\-trapping\-math\fR). Note that while the throughput of the +sequence is generally higher than the throughput of the non-reciprocal +instruction, the precision of the sequence can be decreased by up to 2 +ulp (i.e. the inverse of 1.0 equals 0.99999994) for reciprocal square +roots. +.IP "\fB\-mrecip=\fR\fIopt\fR" 4 +.IX Item "-mrecip=opt" +This option controls which reciprocal estimate instructions +may be used. \fIopt\fR is a comma-separated list of options, which may +be preceded by a \f(CW\*(C`!\*(C'\fR to invert the option: +\&\f(CW\*(C`all\*(C'\fR: enable all estimate instructions, +\&\f(CW\*(C`default\*(C'\fR: enable the default instructions, equivalent to \fB\-mrecip\fR, +\&\f(CW\*(C`none\*(C'\fR: disable all estimate instructions, equivalent to \fB\-mno\-recip\fR; +\&\f(CW\*(C`div\*(C'\fR: enable the reciprocal approximation instructions for both single and double precision; +\&\f(CW\*(C`divf\*(C'\fR: enable the single-precision reciprocal approximation instructions; +\&\f(CW\*(C`divd\*(C'\fR: enable the double-precision reciprocal approximation instructions; +\&\f(CW\*(C`rsqrt\*(C'\fR: enable the reciprocal square root approximation instructions for both single and double precision; +\&\f(CW\*(C`rsqrtf\*(C'\fR: enable the single-precision reciprocal square root approximation instructions; +\&\f(CW\*(C`rsqrtd\*(C'\fR: enable the double-precision reciprocal square root approximation instructions; +.Sp +So, for example, \fB\-mrecip=all,!rsqrtd\fR enables +all of the reciprocal estimate instructions, except for the +\&\f(CW\*(C`FRSQRTE\*(C'\fR, \f(CW\*(C`XSRSQRTEDP\*(C'\fR, and \f(CW\*(C`XVRSQRTEDP\*(C'\fR instructions +which handle the double-precision reciprocal square root calculations. +.IP "\fB\-mrecip\-precision\fR" 4 +.IX Item "-mrecip-precision" +.PD 0 +.IP "\fB\-mno\-recip\-precision\fR" 4 +.IX Item "-mno-recip-precision" +.PD +Assume (do not assume) that the reciprocal estimate instructions +provide higher-precision estimates than is mandated by the PowerPC +\&\s-1ABI. \s0 Selecting \fB\-mcpu=power6\fR, \fB\-mcpu=power7\fR or +\&\fB\-mcpu=power8\fR automatically selects \fB\-mrecip\-precision\fR. +The double-precision square root estimate instructions are not generated by +default on low-precision machines, since they do not provide an +estimate that converges after three steps. +.IP "\fB\-mveclibabi=\fR\fItype\fR" 4 +.IX Item "-mveclibabi=type" +Specifies the \s-1ABI\s0 type to use for vectorizing intrinsics using an +external library. The only type supported at present is \f(CW\*(C`mass\*(C'\fR, +which specifies to use \s-1IBM\s0's Mathematical Acceleration Subsystem +(\s-1MASS\s0) libraries for vectorizing intrinsics using external libraries. +\&\s-1GCC\s0 currently emits calls to \f(CW\*(C`acosd2\*(C'\fR, \f(CW\*(C`acosf4\*(C'\fR, +\&\f(CW\*(C`acoshd2\*(C'\fR, \f(CW\*(C`acoshf4\*(C'\fR, \f(CW\*(C`asind2\*(C'\fR, \f(CW\*(C`asinf4\*(C'\fR, +\&\f(CW\*(C`asinhd2\*(C'\fR, \f(CW\*(C`asinhf4\*(C'\fR, \f(CW\*(C`atan2d2\*(C'\fR, \f(CW\*(C`atan2f4\*(C'\fR, +\&\f(CW\*(C`atand2\*(C'\fR, \f(CW\*(C`atanf4\*(C'\fR, \f(CW\*(C`atanhd2\*(C'\fR, \f(CW\*(C`atanhf4\*(C'\fR, +\&\f(CW\*(C`cbrtd2\*(C'\fR, \f(CW\*(C`cbrtf4\*(C'\fR, \f(CW\*(C`cosd2\*(C'\fR, \f(CW\*(C`cosf4\*(C'\fR, +\&\f(CW\*(C`coshd2\*(C'\fR, \f(CW\*(C`coshf4\*(C'\fR, \f(CW\*(C`erfcd2\*(C'\fR, \f(CW\*(C`erfcf4\*(C'\fR, +\&\f(CW\*(C`erfd2\*(C'\fR, \f(CW\*(C`erff4\*(C'\fR, \f(CW\*(C`exp2d2\*(C'\fR, \f(CW\*(C`exp2f4\*(C'\fR, +\&\f(CW\*(C`expd2\*(C'\fR, \f(CW\*(C`expf4\*(C'\fR, \f(CW\*(C`expm1d2\*(C'\fR, \f(CW\*(C`expm1f4\*(C'\fR, +\&\f(CW\*(C`hypotd2\*(C'\fR, \f(CW\*(C`hypotf4\*(C'\fR, \f(CW\*(C`lgammad2\*(C'\fR, \f(CW\*(C`lgammaf4\*(C'\fR, +\&\f(CW\*(C`log10d2\*(C'\fR, \f(CW\*(C`log10f4\*(C'\fR, \f(CW\*(C`log1pd2\*(C'\fR, \f(CW\*(C`log1pf4\*(C'\fR, +\&\f(CW\*(C`log2d2\*(C'\fR, \f(CW\*(C`log2f4\*(C'\fR, \f(CW\*(C`logd2\*(C'\fR, \f(CW\*(C`logf4\*(C'\fR, +\&\f(CW\*(C`powd2\*(C'\fR, \f(CW\*(C`powf4\*(C'\fR, \f(CW\*(C`sind2\*(C'\fR, \f(CW\*(C`sinf4\*(C'\fR, \f(CW\*(C`sinhd2\*(C'\fR, +\&\f(CW\*(C`sinhf4\*(C'\fR, \f(CW\*(C`sqrtd2\*(C'\fR, \f(CW\*(C`sqrtf4\*(C'\fR, \f(CW\*(C`tand2\*(C'\fR, +\&\f(CW\*(C`tanf4\*(C'\fR, \f(CW\*(C`tanhd2\*(C'\fR, and \f(CW\*(C`tanhf4\*(C'\fR when generating code +for power7. Both \fB\-ftree\-vectorize\fR and +\&\fB\-funsafe\-math\-optimizations\fR must also be enabled. The \s-1MASS\s0 +libraries must be specified at link time. +.IP "\fB\-mfriz\fR" 4 +.IX Item "-mfriz" +.PD 0 +.IP "\fB\-mno\-friz\fR" 4 +.IX Item "-mno-friz" +.PD +Generate (do not generate) the \f(CW\*(C`friz\*(C'\fR instruction when the +\&\fB\-funsafe\-math\-optimizations\fR option is used to optimize +rounding of floating-point values to 64\-bit integer and back to floating +point. The \f(CW\*(C`friz\*(C'\fR instruction does not return the same value if +the floating-point number is too large to fit in an integer. +.IP "\fB\-mpointers\-to\-nested\-functions\fR" 4 +.IX Item "-mpointers-to-nested-functions" +.PD 0 +.IP "\fB\-mno\-pointers\-to\-nested\-functions\fR" 4 +.IX Item "-mno-pointers-to-nested-functions" +.PD +Generate (do not generate) code to load up the static chain register +(\fIr11\fR) when calling through a pointer on \s-1AIX\s0 and 64\-bit Linux +systems where a function pointer points to a 3\-word descriptor giving +the function address, \s-1TOC\s0 value to be loaded in register \fIr2\fR, and +static chain value to be loaded in register \fIr11\fR. The +\&\fB\-mpointers\-to\-nested\-functions\fR is on by default. You cannot +call through pointers to nested functions or pointers +to functions compiled in other languages that use the static chain if +you use the \fB\-mno\-pointers\-to\-nested\-functions\fR. +.IP "\fB\-msave\-toc\-indirect\fR" 4 +.IX Item "-msave-toc-indirect" +.PD 0 +.IP "\fB\-mno\-save\-toc\-indirect\fR" 4 +.IX Item "-mno-save-toc-indirect" +.PD +Generate (do not generate) code to save the \s-1TOC\s0 value in the reserved +stack location in the function prologue if the function calls through +a pointer on \s-1AIX\s0 and 64\-bit Linux systems. If the \s-1TOC\s0 value is not +saved in the prologue, it is saved just before the call through the +pointer. The \fB\-mno\-save\-toc\-indirect\fR option is the default. +.IP "\fB\-mcompat\-align\-parm\fR" 4 +.IX Item "-mcompat-align-parm" +.PD 0 +.IP "\fB\-mno\-compat\-align\-parm\fR" 4 +.IX Item "-mno-compat-align-parm" +.PD +Generate (do not generate) code to pass structure parameters with a +maximum alignment of 64 bits, for compatibility with older versions +of \s-1GCC.\s0 +.Sp +Older versions of \s-1GCC \s0(prior to 4.9.0) incorrectly did not align a +structure parameter on a 128\-bit boundary when that structure contained +a member requiring 128\-bit alignment. This is corrected in more +recent versions of \s-1GCC. \s0 This option may be used to generate code +that is compatible with functions compiled with older versions of +\&\s-1GCC.\s0 +.Sp +The \fB\-mno\-compat\-align\-parm\fR option is the default. +.PP +\fI\s-1RX\s0 Options\fR +.IX Subsection "RX Options" +.PP +These command-line options are defined for \s-1RX\s0 targets: +.IP "\fB\-m64bit\-doubles\fR" 4 +.IX Item "-m64bit-doubles" +.PD 0 +.IP "\fB\-m32bit\-doubles\fR" 4 +.IX Item "-m32bit-doubles" +.PD +Make the \f(CW\*(C`double\*(C'\fR data type be 64 bits (\fB\-m64bit\-doubles\fR) +or 32 bits (\fB\-m32bit\-doubles\fR) in size. The default is +\&\fB\-m32bit\-doubles\fR. \fINote\fR \s-1RX\s0 floating-point hardware only +works on 32\-bit values, which is why the default is +\&\fB\-m32bit\-doubles\fR. +.IP "\fB\-fpu\fR" 4 +.IX Item "-fpu" +.PD 0 +.IP "\fB\-nofpu\fR" 4 +.IX Item "-nofpu" +.PD +Enables (\fB\-fpu\fR) or disables (\fB\-nofpu\fR) the use of \s-1RX\s0 +floating-point hardware. The default is enabled for the \fI\s-1RX600\s0\fR +series and disabled for the \fI\s-1RX200\s0\fR series. +.Sp +Floating-point instructions are only generated for 32\-bit floating-point +values, however, so the \s-1FPU\s0 hardware is not used for doubles if the +\&\fB\-m64bit\-doubles\fR option is used. +.Sp +\&\fINote\fR If the \fB\-fpu\fR option is enabled then +\&\fB\-funsafe\-math\-optimizations\fR is also enabled automatically. +This is because the \s-1RX FPU\s0 instructions are themselves unsafe. +.IP "\fB\-mcpu=\fR\fIname\fR" 4 +.IX Item "-mcpu=name" +Selects the type of \s-1RX CPU\s0 to be targeted. Currently three types are +supported, the generic \fI\s-1RX600\s0\fR and \fI\s-1RX200\s0\fR series hardware and +the specific \fI\s-1RX610\s0\fR \s-1CPU. \s0 The default is \fI\s-1RX600\s0\fR. +.Sp +The only difference between \fI\s-1RX600\s0\fR and \fI\s-1RX610\s0\fR is that the +\&\fI\s-1RX610\s0\fR does not support the \f(CW\*(C`MVTIPL\*(C'\fR instruction. +.Sp +The \fI\s-1RX200\s0\fR series does not have a hardware floating-point unit +and so \fB\-nofpu\fR is enabled by default when this type is +selected. +.IP "\fB\-mbig\-endian\-data\fR" 4 +.IX Item "-mbig-endian-data" +.PD 0 +.IP "\fB\-mlittle\-endian\-data\fR" 4 +.IX Item "-mlittle-endian-data" +.PD +Store data (but not code) in the big-endian format. The default is +\&\fB\-mlittle\-endian\-data\fR, i.e. to store data in the little-endian +format. +.IP "\fB\-msmall\-data\-limit=\fR\fIN\fR" 4 +.IX Item "-msmall-data-limit=N" +Specifies the maximum size in bytes of global and static variables +which can be placed into the small data area. Using the small data +area can lead to smaller and faster code, but the size of area is +limited and it is up to the programmer to ensure that the area does +not overflow. Also when the small data area is used one of the \s-1RX\s0's +registers (usually \f(CW\*(C`r13\*(C'\fR) is reserved for use pointing to this +area, so it is no longer available for use by the compiler. This +could result in slower and/or larger code if variables are pushed onto +the stack instead of being held in this register. +.Sp +Note, common variables (variables that have not been initialized) and +constants are not placed into the small data area as they are assigned +to other sections in the output executable. +.Sp +The default value is zero, which disables this feature. Note, this +feature is not enabled by default with higher optimization levels +(\fB\-O2\fR etc) because of the potentially detrimental effects of +reserving a register. It is up to the programmer to experiment and +discover whether this feature is of benefit to their program. See the +description of the \fB\-mpid\fR option for a description of how the +actual register to hold the small data area pointer is chosen. +.IP "\fB\-msim\fR" 4 +.IX Item "-msim" +.PD 0 +.IP "\fB\-mno\-sim\fR" 4 +.IX Item "-mno-sim" +.PD +Use the simulator runtime. The default is to use the libgloss +board-specific runtime. +.IP "\fB\-mas100\-syntax\fR" 4 +.IX Item "-mas100-syntax" +.PD 0 +.IP "\fB\-mno\-as100\-syntax\fR" 4 +.IX Item "-mno-as100-syntax" +.PD +When generating assembler output use a syntax that is compatible with +Renesas's \s-1AS100\s0 assembler. This syntax can also be handled by the \s-1GAS\s0 +assembler, but it has some restrictions so it is not generated by default. +.IP "\fB\-mmax\-constant\-size=\fR\fIN\fR" 4 +.IX Item "-mmax-constant-size=N" +Specifies the maximum size, in bytes, of a constant that can be used as +an operand in a \s-1RX\s0 instruction. Although the \s-1RX\s0 instruction set does +allow constants of up to 4 bytes in length to be used in instructions, +a longer value equates to a longer instruction. Thus in some +circumstances it can be beneficial to restrict the size of constants +that are used in instructions. Constants that are too big are instead +placed into a constant pool and referenced via register indirection. +.Sp +The value \fIN\fR can be between 0 and 4. A value of 0 (the default) +or 4 means that constants of any size are allowed. +.IP "\fB\-mrelax\fR" 4 +.IX Item "-mrelax" +Enable linker relaxation. Linker relaxation is a process whereby the +linker attempts to reduce the size of a program by finding shorter +versions of various instructions. Disabled by default. +.IP "\fB\-mint\-register=\fR\fIN\fR" 4 +.IX Item "-mint-register=N" +Specify the number of registers to reserve for fast interrupt handler +functions. The value \fIN\fR can be between 0 and 4. A value of 1 +means that register \f(CW\*(C`r13\*(C'\fR is reserved for the exclusive use +of fast interrupt handlers. A value of 2 reserves \f(CW\*(C`r13\*(C'\fR and +\&\f(CW\*(C`r12\*(C'\fR. A value of 3 reserves \f(CW\*(C`r13\*(C'\fR, \f(CW\*(C`r12\*(C'\fR and +\&\f(CW\*(C`r11\*(C'\fR, and a value of 4 reserves \f(CW\*(C`r13\*(C'\fR through \f(CW\*(C`r10\*(C'\fR. +A value of 0, the default, does not reserve any registers. +.IP "\fB\-msave\-acc\-in\-interrupts\fR" 4 +.IX Item "-msave-acc-in-interrupts" +Specifies that interrupt handler functions should preserve the +accumulator register. This is only necessary if normal code might use +the accumulator register, for example because it performs 64\-bit +multiplications. The default is to ignore the accumulator as this +makes the interrupt handlers faster. +.IP "\fB\-mpid\fR" 4 +.IX Item "-mpid" +.PD 0 +.IP "\fB\-mno\-pid\fR" 4 +.IX Item "-mno-pid" +.PD +Enables the generation of position independent data. When enabled any +access to constant data is done via an offset from a base address +held in a register. This allows the location of constant data to be +determined at run time without requiring the executable to be +relocated, which is a benefit to embedded applications with tight +memory constraints. Data that can be modified is not affected by this +option. +.Sp +Note, using this feature reserves a register, usually \f(CW\*(C`r13\*(C'\fR, for +the constant data base address. This can result in slower and/or +larger code, especially in complicated functions. +.Sp +The actual register chosen to hold the constant data base address +depends upon whether the \fB\-msmall\-data\-limit\fR and/or the +\&\fB\-mint\-register\fR command-line options are enabled. Starting +with register \f(CW\*(C`r13\*(C'\fR and proceeding downwards, registers are +allocated first to satisfy the requirements of \fB\-mint\-register\fR, +then \fB\-mpid\fR and finally \fB\-msmall\-data\-limit\fR. Thus it +is possible for the small data area register to be \f(CW\*(C`r8\*(C'\fR if both +\&\fB\-mint\-register=4\fR and \fB\-mpid\fR are specified on the +command line. +.Sp +By default this feature is not enabled. The default can be restored +via the \fB\-mno\-pid\fR command-line option. +.IP "\fB\-mno\-warn\-multiple\-fast\-interrupts\fR" 4 +.IX Item "-mno-warn-multiple-fast-interrupts" +.PD 0 +.IP "\fB\-mwarn\-multiple\-fast\-interrupts\fR" 4 +.IX Item "-mwarn-multiple-fast-interrupts" +.PD +Prevents \s-1GCC\s0 from issuing a warning message if it finds more than one +fast interrupt handler when it is compiling a file. The default is to +issue a warning for each extra fast interrupt handler found, as the \s-1RX\s0 +only supports one such interrupt. +.PP +\&\fINote:\fR The generic \s-1GCC\s0 command-line option \fB\-ffixed\-\fR\fIreg\fR +has special significance to the \s-1RX\s0 port when used with the +\&\f(CW\*(C`interrupt\*(C'\fR function attribute. This attribute indicates a +function intended to process fast interrupts. \s-1GCC\s0 ensures +that it only uses the registers \f(CW\*(C`r10\*(C'\fR, \f(CW\*(C`r11\*(C'\fR, \f(CW\*(C`r12\*(C'\fR +and/or \f(CW\*(C`r13\*(C'\fR and only provided that the normal use of the +corresponding registers have been restricted via the +\&\fB\-ffixed\-\fR\fIreg\fR or \fB\-mint\-register\fR command-line +options. +.PP +\fIS/390 and zSeries Options\fR +.IX Subsection "S/390 and zSeries Options" +.PP +These are the \fB\-m\fR options defined for the S/390 and zSeries architecture. +.IP "\fB\-mhard\-float\fR" 4 +.IX Item "-mhard-float" +.PD 0 +.IP "\fB\-msoft\-float\fR" 4 +.IX Item "-msoft-float" +.PD +Use (do not use) the hardware floating-point instructions and registers +for floating-point operations. When \fB\-msoft\-float\fR is specified, +functions in \fIlibgcc.a\fR are used to perform floating-point +operations. When \fB\-mhard\-float\fR is specified, the compiler +generates \s-1IEEE\s0 floating-point instructions. This is the default. +.IP "\fB\-mhard\-dfp\fR" 4 +.IX Item "-mhard-dfp" +.PD 0 +.IP "\fB\-mno\-hard\-dfp\fR" 4 +.IX Item "-mno-hard-dfp" +.PD +Use (do not use) the hardware decimal-floating-point instructions for +decimal-floating-point operations. When \fB\-mno\-hard\-dfp\fR is +specified, functions in \fIlibgcc.a\fR are used to perform +decimal-floating-point operations. When \fB\-mhard\-dfp\fR is +specified, the compiler generates decimal-floating-point hardware +instructions. This is the default for \fB\-march=z9\-ec\fR or higher. +.IP "\fB\-mlong\-double\-64\fR" 4 +.IX Item "-mlong-double-64" +.PD 0 +.IP "\fB\-mlong\-double\-128\fR" 4 +.IX Item "-mlong-double-128" +.PD +These switches control the size of \f(CW\*(C`long double\*(C'\fR type. A size +of 64 bits makes the \f(CW\*(C`long double\*(C'\fR type equivalent to the \f(CW\*(C`double\*(C'\fR +type. This is the default. +.IP "\fB\-mbackchain\fR" 4 +.IX Item "-mbackchain" +.PD 0 +.IP "\fB\-mno\-backchain\fR" 4 +.IX Item "-mno-backchain" +.PD +Store (do not store) the address of the caller's frame as backchain pointer +into the callee's stack frame. +A backchain may be needed to allow debugging using tools that do not understand +\&\s-1DWARF 2\s0 call frame information. +When \fB\-mno\-packed\-stack\fR is in effect, the backchain pointer is stored +at the bottom of the stack frame; when \fB\-mpacked\-stack\fR is in effect, +the backchain is placed into the topmost word of the 96/160 byte register +save area. +.Sp +In general, code compiled with \fB\-mbackchain\fR is call-compatible with +code compiled with \fB\-mmo\-backchain\fR; however, use of the backchain +for debugging purposes usually requires that the whole binary is built with +\&\fB\-mbackchain\fR. Note that the combination of \fB\-mbackchain\fR, +\&\fB\-mpacked\-stack\fR and \fB\-mhard\-float\fR is not supported. In order +to build a linux kernel use \fB\-msoft\-float\fR. +.Sp +The default is to not maintain the backchain. +.IP "\fB\-mpacked\-stack\fR" 4 +.IX Item "-mpacked-stack" +.PD 0 +.IP "\fB\-mno\-packed\-stack\fR" 4 +.IX Item "-mno-packed-stack" +.PD +Use (do not use) the packed stack layout. When \fB\-mno\-packed\-stack\fR is +specified, the compiler uses the all fields of the 96/160 byte register save +area only for their default purpose; unused fields still take up stack space. +When \fB\-mpacked\-stack\fR is specified, register save slots are densely +packed at the top of the register save area; unused space is reused for other +purposes, allowing for more efficient use of the available stack space. +However, when \fB\-mbackchain\fR is also in effect, the topmost word of +the save area is always used to store the backchain, and the return address +register is always saved two words below the backchain. +.Sp +As long as the stack frame backchain is not used, code generated with +\&\fB\-mpacked\-stack\fR is call-compatible with code generated with +\&\fB\-mno\-packed\-stack\fR. Note that some non-FSF releases of \s-1GCC 2.95\s0 for +S/390 or zSeries generated code that uses the stack frame backchain at run +time, not just for debugging purposes. Such code is not call-compatible +with code compiled with \fB\-mpacked\-stack\fR. Also, note that the +combination of \fB\-mbackchain\fR, +\&\fB\-mpacked\-stack\fR and \fB\-mhard\-float\fR is not supported. In order +to build a linux kernel use \fB\-msoft\-float\fR. +.Sp +The default is to not use the packed stack layout. +.IP "\fB\-msmall\-exec\fR" 4 +.IX Item "-msmall-exec" +.PD 0 +.IP "\fB\-mno\-small\-exec\fR" 4 +.IX Item "-mno-small-exec" +.PD +Generate (or do not generate) code using the \f(CW\*(C`bras\*(C'\fR instruction +to do subroutine calls. +This only works reliably if the total executable size does not +exceed 64k. The default is to use the \f(CW\*(C`basr\*(C'\fR instruction instead, +which does not have this limitation. +.IP "\fB\-m64\fR" 4 +.IX Item "-m64" +.PD 0 +.IP "\fB\-m31\fR" 4 +.IX Item "-m31" +.PD +When \fB\-m31\fR is specified, generate code compliant to the +GNU/Linux for S/390 \s-1ABI. \s0 When \fB\-m64\fR is specified, generate +code compliant to the GNU/Linux for zSeries \s-1ABI. \s0 This allows \s-1GCC\s0 in +particular to generate 64\-bit instructions. For the \fBs390\fR +targets, the default is \fB\-m31\fR, while the \fBs390x\fR +targets default to \fB\-m64\fR. +.IP "\fB\-mzarch\fR" 4 +.IX Item "-mzarch" +.PD 0 +.IP "\fB\-mesa\fR" 4 +.IX Item "-mesa" +.PD +When \fB\-mzarch\fR is specified, generate code using the +instructions available on z/Architecture. +When \fB\-mesa\fR is specified, generate code using the +instructions available on \s-1ESA/390. \s0 Note that \fB\-mesa\fR is +not possible with \fB\-m64\fR. +When generating code compliant to the GNU/Linux for S/390 \s-1ABI,\s0 +the default is \fB\-mesa\fR. When generating code compliant +to the GNU/Linux for zSeries \s-1ABI,\s0 the default is \fB\-mzarch\fR. +.IP "\fB\-mmvcle\fR" 4 +.IX Item "-mmvcle" +.PD 0 +.IP "\fB\-mno\-mvcle\fR" 4 +.IX Item "-mno-mvcle" +.PD +Generate (or do not generate) code using the \f(CW\*(C`mvcle\*(C'\fR instruction +to perform block moves. When \fB\-mno\-mvcle\fR is specified, +use a \f(CW\*(C`mvc\*(C'\fR loop instead. This is the default unless optimizing for +size. +.IP "\fB\-mdebug\fR" 4 +.IX Item "-mdebug" +.PD 0 +.IP "\fB\-mno\-debug\fR" 4 +.IX Item "-mno-debug" +.PD +Print (or do not print) additional debug information when compiling. +The default is to not print debug information. +.IP "\fB\-march=\fR\fIcpu-type\fR" 4 +.IX Item "-march=cpu-type" +Generate code that runs on \fIcpu-type\fR, which is the name of a system +representing a certain processor type. Possible values for +\&\fIcpu-type\fR are \fBg5\fR, \fBg6\fR, \fBz900\fR, \fBz990\fR, +\&\fBz9\-109\fR, \fBz9\-ec\fR and \fBz10\fR. +When generating code using the instructions available on z/Architecture, +the default is \fB\-march=z900\fR. Otherwise, the default is +\&\fB\-march=g5\fR. +.IP "\fB\-mtune=\fR\fIcpu-type\fR" 4 +.IX Item "-mtune=cpu-type" +Tune to \fIcpu-type\fR everything applicable about the generated code, +except for the \s-1ABI\s0 and the set of available instructions. +The list of \fIcpu-type\fR values is the same as for \fB\-march\fR. +The default is the value used for \fB\-march\fR. +.IP "\fB\-mtpf\-trace\fR" 4 +.IX Item "-mtpf-trace" +.PD 0 +.IP "\fB\-mno\-tpf\-trace\fR" 4 +.IX Item "-mno-tpf-trace" +.PD +Generate code that adds (does not add) in \s-1TPF OS\s0 specific branches to trace +routines in the operating system. This option is off by default, even +when compiling for the \s-1TPF OS.\s0 +.IP "\fB\-mfused\-madd\fR" 4 +.IX Item "-mfused-madd" +.PD 0 +.IP "\fB\-mno\-fused\-madd\fR" 4 +.IX Item "-mno-fused-madd" +.PD +Generate code that uses (does not use) the floating-point multiply and +accumulate instructions. These instructions are generated by default if +hardware floating point is used. +.IP "\fB\-mwarn\-framesize=\fR\fIframesize\fR" 4 +.IX Item "-mwarn-framesize=framesize" +Emit a warning if the current function exceeds the given frame size. Because +this is a compile-time check it doesn't need to be a real problem when the program +runs. It is intended to identify functions that most probably cause +a stack overflow. It is useful to be used in an environment with limited stack +size e.g. the linux kernel. +.IP "\fB\-mwarn\-dynamicstack\fR" 4 +.IX Item "-mwarn-dynamicstack" +Emit a warning if the function calls \f(CW\*(C`alloca\*(C'\fR or uses dynamically-sized +arrays. This is generally a bad idea with a limited stack size. +.IP "\fB\-mstack\-guard=\fR\fIstack-guard\fR" 4 +.IX Item "-mstack-guard=stack-guard" +.PD 0 +.IP "\fB\-mstack\-size=\fR\fIstack-size\fR" 4 +.IX Item "-mstack-size=stack-size" +.PD +If these options are provided the S/390 back end emits additional instructions in +the function prologue that trigger a trap if the stack size is \fIstack-guard\fR +bytes above the \fIstack-size\fR (remember that the stack on S/390 grows downward). +If the \fIstack-guard\fR option is omitted the smallest power of 2 larger than +the frame size of the compiled function is chosen. +These options are intended to be used to help debugging stack overflow problems. +The additionally emitted code causes only little overhead and hence can also be +used in production-like systems without greater performance degradation. The given +values have to be exact powers of 2 and \fIstack-size\fR has to be greater than +\&\fIstack-guard\fR without exceeding 64k. +In order to be efficient the extra code makes the assumption that the stack starts +at an address aligned to the value given by \fIstack-size\fR. +The \fIstack-guard\fR option can only be used in conjunction with \fIstack-size\fR. +.IP "\fB\-mhotpatch[=\fR\fIhalfwords\fR\fB]\fR" 4 +.IX Item "-mhotpatch[=halfwords]" +.PD 0 +.IP "\fB\-mno\-hotpatch\fR" 4 +.IX Item "-mno-hotpatch" +.PD +If the hotpatch option is enabled, a \*(L"hot-patching\*(R" function +prologue is generated for all functions in the compilation unit. +The funtion label is prepended with the given number of two-byte +Nop instructions (\fIhalfwords\fR, maximum 1000000) or 12 Nop +instructions if no argument is present. Functions with a +hot-patching prologue are never inlined automatically, and a +hot-patching prologue is never generated for functions functions +that are explicitly inline. +.Sp +This option can be overridden for individual functions with the +\&\f(CW\*(C`hotpatch\*(C'\fR attribute. +.PP +\fIScore Options\fR +.IX Subsection "Score Options" +.PP +These options are defined for Score implementations: +.IP "\fB\-meb\fR" 4 +.IX Item "-meb" +Compile code for big-endian mode. This is the default. +.IP "\fB\-mel\fR" 4 +.IX Item "-mel" +Compile code for little-endian mode. +.IP "\fB\-mnhwloop\fR" 4 +.IX Item "-mnhwloop" +Disable generation of \f(CW\*(C`bcnz\*(C'\fR instructions. +.IP "\fB\-muls\fR" 4 +.IX Item "-muls" +Enable generation of unaligned load and store instructions. +.IP "\fB\-mmac\fR" 4 +.IX Item "-mmac" +Enable the use of multiply-accumulate instructions. Disabled by default. +.IP "\fB\-mscore5\fR" 4 +.IX Item "-mscore5" +Specify the \s-1SCORE5\s0 as the target architecture. +.IP "\fB\-mscore5u\fR" 4 +.IX Item "-mscore5u" +Specify the \s-1SCORE5U\s0 of the target architecture. +.IP "\fB\-mscore7\fR" 4 +.IX Item "-mscore7" +Specify the \s-1SCORE7\s0 as the target architecture. This is the default. +.IP "\fB\-mscore7d\fR" 4 +.IX Item "-mscore7d" +Specify the \s-1SCORE7D\s0 as the target architecture. +.PP +\fI\s-1SH\s0 Options\fR +.IX Subsection "SH Options" +.PP +These \fB\-m\fR options are defined for the \s-1SH\s0 implementations: +.IP "\fB\-m1\fR" 4 +.IX Item "-m1" +Generate code for the \s-1SH1.\s0 +.IP "\fB\-m2\fR" 4 +.IX Item "-m2" +Generate code for the \s-1SH2.\s0 +.IP "\fB\-m2e\fR" 4 +.IX Item "-m2e" +Generate code for the SH2e. +.IP "\fB\-m2a\-nofpu\fR" 4 +.IX Item "-m2a-nofpu" +Generate code for the SH2a without \s-1FPU,\s0 or for a SH2a\-FPU in such a way +that the floating-point unit is not used. +.IP "\fB\-m2a\-single\-only\fR" 4 +.IX Item "-m2a-single-only" +Generate code for the SH2a\-FPU, in such a way that no double-precision +floating-point operations are used. +.IP "\fB\-m2a\-single\fR" 4 +.IX Item "-m2a-single" +Generate code for the SH2a\-FPU assuming the floating-point unit is in +single-precision mode by default. +.IP "\fB\-m2a\fR" 4 +.IX Item "-m2a" +Generate code for the SH2a\-FPU assuming the floating-point unit is in +double-precision mode by default. +.IP "\fB\-m3\fR" 4 +.IX Item "-m3" +Generate code for the \s-1SH3.\s0 +.IP "\fB\-m3e\fR" 4 +.IX Item "-m3e" +Generate code for the SH3e. +.IP "\fB\-m4\-nofpu\fR" 4 +.IX Item "-m4-nofpu" +Generate code for the \s-1SH4\s0 without a floating-point unit. +.IP "\fB\-m4\-single\-only\fR" 4 +.IX Item "-m4-single-only" +Generate code for the \s-1SH4\s0 with a floating-point unit that only +supports single-precision arithmetic. +.IP "\fB\-m4\-single\fR" 4 +.IX Item "-m4-single" +Generate code for the \s-1SH4\s0 assuming the floating-point unit is in +single-precision mode by default. +.IP "\fB\-m4\fR" 4 +.IX Item "-m4" +Generate code for the \s-1SH4.\s0 +.IP "\fB\-m4a\-nofpu\fR" 4 +.IX Item "-m4a-nofpu" +Generate code for the SH4al\-dsp, or for a SH4a in such a way that the +floating-point unit is not used. +.IP "\fB\-m4a\-single\-only\fR" 4 +.IX Item "-m4a-single-only" +Generate code for the SH4a, in such a way that no double-precision +floating-point operations are used. +.IP "\fB\-m4a\-single\fR" 4 +.IX Item "-m4a-single" +Generate code for the SH4a assuming the floating-point unit is in +single-precision mode by default. +.IP "\fB\-m4a\fR" 4 +.IX Item "-m4a" +Generate code for the SH4a. +.IP "\fB\-m4al\fR" 4 +.IX Item "-m4al" +Same as \fB\-m4a\-nofpu\fR, except that it implicitly passes +\&\fB\-dsp\fR to the assembler. \s-1GCC\s0 doesn't generate any \s-1DSP\s0 +instructions at the moment. +.IP "\fB\-mb\fR" 4 +.IX Item "-mb" +Compile code for the processor in big-endian mode. +.IP "\fB\-ml\fR" 4 +.IX Item "-ml" +Compile code for the processor in little-endian mode. +.IP "\fB\-mdalign\fR" 4 +.IX Item "-mdalign" +Align doubles at 64\-bit boundaries. Note that this changes the calling +conventions, and thus some functions from the standard C library do +not work unless you recompile it first with \fB\-mdalign\fR. +.IP "\fB\-mrelax\fR" 4 +.IX Item "-mrelax" +Shorten some address references at link time, when possible; uses the +linker option \fB\-relax\fR. +.IP "\fB\-mbigtable\fR" 4 +.IX Item "-mbigtable" +Use 32\-bit offsets in \f(CW\*(C`switch\*(C'\fR tables. The default is to use +16\-bit offsets. +.IP "\fB\-mbitops\fR" 4 +.IX Item "-mbitops" +Enable the use of bit manipulation instructions on \s-1SH2A.\s0 +.IP "\fB\-mfmovd\fR" 4 +.IX Item "-mfmovd" +Enable the use of the instruction \f(CW\*(C`fmovd\*(C'\fR. Check \fB\-mdalign\fR for +alignment constraints. +.IP "\fB\-mhitachi\fR" 4 +.IX Item "-mhitachi" +Comply with the calling conventions defined by Renesas. +.IP "\fB\-mrenesas\fR" 4 +.IX Item "-mrenesas" +Comply with the calling conventions defined by Renesas. +.IP "\fB\-mno\-renesas\fR" 4 +.IX Item "-mno-renesas" +Comply with the calling conventions defined for \s-1GCC\s0 before the Renesas +conventions were available. This option is the default for all +targets of the \s-1SH\s0 toolchain. +.IP "\fB\-mnomacsave\fR" 4 +.IX Item "-mnomacsave" +Mark the \f(CW\*(C`MAC\*(C'\fR register as call-clobbered, even if +\&\fB\-mhitachi\fR is given. +.IP "\fB\-mieee\fR" 4 +.IX Item "-mieee" +.PD 0 +.IP "\fB\-mno\-ieee\fR" 4 +.IX Item "-mno-ieee" +.PD +Control the \s-1IEEE\s0 compliance of floating-point comparisons, which affects the +handling of cases where the result of a comparison is unordered. By default +\&\fB\-mieee\fR is implicitly enabled. If \fB\-ffinite\-math\-only\fR is +enabled \fB\-mno\-ieee\fR is implicitly set, which results in faster +floating-point greater-equal and less-equal comparisons. The implcit settings +can be overridden by specifying either \fB\-mieee\fR or \fB\-mno\-ieee\fR. +.IP "\fB\-minline\-ic_invalidate\fR" 4 +.IX Item "-minline-ic_invalidate" +Inline code to invalidate instruction cache entries after setting up +nested function trampolines. +This option has no effect if \fB\-musermode\fR is in effect and the selected +code generation option (e.g. \fB\-m4\fR) does not allow the use of the \f(CW\*(C`icbi\*(C'\fR +instruction. +If the selected code generation option does not allow the use of the \f(CW\*(C`icbi\*(C'\fR +instruction, and \fB\-musermode\fR is not in effect, the inlined code +manipulates the instruction cache address array directly with an associative +write. This not only requires privileged mode at run time, but it also +fails if the cache line had been mapped via the \s-1TLB\s0 and has become unmapped. +.IP "\fB\-misize\fR" 4 +.IX Item "-misize" +Dump instruction size and location in the assembly code. +.IP "\fB\-mpadstruct\fR" 4 +.IX Item "-mpadstruct" +This option is deprecated. It pads structures to multiple of 4 bytes, +which is incompatible with the \s-1SH ABI.\s0 +.IP "\fB\-matomic\-model=\fR\fImodel\fR" 4 +.IX Item "-matomic-model=model" +Sets the model of atomic operations and additional parameters as a comma +separated list. For details on the atomic built-in functions see +\&\fB_\|_atomic Builtins\fR. The following models and parameters are supported: +.RS 4 +.IP "\fBnone\fR" 4 +.IX Item "none" +Disable compiler generated atomic sequences and emit library calls for atomic +operations. This is the default if the target is not \f(CW\*(C`sh\-*\-linux*\*(C'\fR. +.IP "\fBsoft-gusa\fR" 4 +.IX Item "soft-gusa" +Generate GNU/Linux compatible gUSA software atomic sequences for the atomic +built-in functions. The generated atomic sequences require additional support +from the interrupt/exception handling code of the system and are only suitable +for SH3* and SH4* single-core systems. This option is enabled by default when +the target is \f(CW\*(C`sh\-*\-linux*\*(C'\fR and SH3* or SH4*. When the target is \s-1SH4A,\s0 +this option will also partially utilize the hardware atomic instructions +\&\f(CW\*(C`movli.l\*(C'\fR and \f(CW\*(C`movco.l\*(C'\fR to create more efficient code, unless +\&\fBstrict\fR is specified. +.IP "\fBsoft-tcb\fR" 4 +.IX Item "soft-tcb" +Generate software atomic sequences that use a variable in the thread control +block. This is a variation of the gUSA sequences which can also be used on +SH1* and SH2* targets. The generated atomic sequences require additional +support from the interrupt/exception handling code of the system and are only +suitable for single-core systems. When using this model, the \fBgbr\-offset=\fR +parameter has to be specified as well. +.IP "\fBsoft-imask\fR" 4 +.IX Item "soft-imask" +Generate software atomic sequences that temporarily disable interrupts by +setting \f(CW\*(C`SR.IMASK = 1111\*(C'\fR. This model works only when the program runs +in privileged mode and is only suitable for single-core systems. Additional +support from the interrupt/exception handling code of the system is not +required. This model is enabled by default when the target is +\&\f(CW\*(C`sh\-*\-linux*\*(C'\fR and SH1* or SH2*. +.IP "\fBhard-llcs\fR" 4 +.IX Item "hard-llcs" +Generate hardware atomic sequences using the \f(CW\*(C`movli.l\*(C'\fR and \f(CW\*(C`movco.l\*(C'\fR +instructions only. This is only available on \s-1SH4A\s0 and is suitable for +multi-core systems. Since the hardware instructions support only 32 bit atomic +variables access to 8 or 16 bit variables is emulated with 32 bit accesses. +Code compiled with this option will also be compatible with other software +atomic model interrupt/exception handling systems if executed on an \s-1SH4A\s0 +system. Additional support from the interrupt/exception handling code of the +system is not required for this model. +.IP "\fBgbr\-offset=\fR" 4 +.IX Item "gbr-offset=" +This parameter specifies the offset in bytes of the variable in the thread +control block structure that should be used by the generated atomic sequences +when the \fBsoft-tcb\fR model has been selected. For other models this +parameter is ignored. The specified value must be an integer multiple of four +and in the range 0\-1020. +.IP "\fBstrict\fR" 4 +.IX Item "strict" +This parameter prevents mixed usage of multiple atomic models, even though they +would be compatible, and will make the compiler generate atomic sequences of the +specified model only. +.RE +.RS 4 +.RE +.IP "\fB\-mtas\fR" 4 +.IX Item "-mtas" +Generate the \f(CW\*(C`tas.b\*(C'\fR opcode for \f(CW\*(C`_\|_atomic_test_and_set\*(C'\fR. +Notice that depending on the particular hardware and software configuration +this can degrade overall performance due to the operand cache line flushes +that are implied by the \f(CW\*(C`tas.b\*(C'\fR instruction. On multi-core \s-1SH4A\s0 +processors the \f(CW\*(C`tas.b\*(C'\fR instruction must be used with caution since it +can result in data corruption for certain cache configurations. +.IP "\fB\-mspace\fR" 4 +.IX Item "-mspace" +Optimize for space instead of speed. Implied by \fB\-Os\fR. +.IP "\fB\-mprefergot\fR" 4 +.IX Item "-mprefergot" +When generating position-independent code, emit function calls using +the Global Offset Table instead of the Procedure Linkage Table. +.IP "\fB\-musermode\fR" 4 +.IX Item "-musermode" +Don't generate privileged mode only code. This option +implies \fB\-mno\-inline\-ic_invalidate\fR +if the inlined code would not work in user mode. +This is the default when the target is \f(CW\*(C`sh\-*\-linux*\*(C'\fR. +.IP "\fB\-multcost=\fR\fInumber\fR" 4 +.IX Item "-multcost=number" +Set the cost to assume for a multiply insn. +.IP "\fB\-mdiv=\fR\fIstrategy\fR" 4 +.IX Item "-mdiv=strategy" +Set the division strategy to be used for integer division operations. +For SHmedia \fIstrategy\fR can be one of: +.RS 4 +.IP "\fBfp\fR" 4 +.IX Item "fp" +Performs the operation in floating point. This has a very high latency, +but needs only a few instructions, so it might be a good choice if +your code has enough easily-exploitable \s-1ILP\s0 to allow the compiler to +schedule the floating-point instructions together with other instructions. +Division by zero causes a floating-point exception. +.IP "\fBinv\fR" 4 +.IX Item "inv" +Uses integer operations to calculate the inverse of the divisor, +and then multiplies the dividend with the inverse. This strategy allows +\&\s-1CSE\s0 and hoisting of the inverse calculation. Division by zero calculates +an unspecified result, but does not trap. +.IP "\fBinv:minlat\fR" 4 +.IX Item "inv:minlat" +A variant of \fBinv\fR where, if no \s-1CSE\s0 or hoisting opportunities +have been found, or if the entire operation has been hoisted to the same +place, the last stages of the inverse calculation are intertwined with the +final multiply to reduce the overall latency, at the expense of using a few +more instructions, and thus offering fewer scheduling opportunities with +other code. +.IP "\fBcall\fR" 4 +.IX Item "call" +Calls a library function that usually implements the \fBinv:minlat\fR +strategy. +This gives high code density for \f(CW\*(C`m5\-*media\-nofpu\*(C'\fR compilations. +.IP "\fBcall2\fR" 4 +.IX Item "call2" +Uses a different entry point of the same library function, where it +assumes that a pointer to a lookup table has already been set up, which +exposes the pointer load to \s-1CSE\s0 and code hoisting optimizations. +.IP "\fBinv:call\fR" 4 +.IX Item "inv:call" +.PD 0 +.IP "\fBinv:call2\fR" 4 +.IX Item "inv:call2" +.IP "\fBinv:fp\fR" 4 +.IX Item "inv:fp" +.PD +Use the \fBinv\fR algorithm for initial +code generation, but if the code stays unoptimized, revert to the \fBcall\fR, +\&\fBcall2\fR, or \fBfp\fR strategies, respectively. Note that the +potentially-trapping side effect of division by zero is carried by a +separate instruction, so it is possible that all the integer instructions +are hoisted out, but the marker for the side effect stays where it is. +A recombination to floating-point operations or a call is not possible +in that case. +.IP "\fBinv20u\fR" 4 +.IX Item "inv20u" +.PD 0 +.IP "\fBinv20l\fR" 4 +.IX Item "inv20l" +.PD +Variants of the \fBinv:minlat\fR strategy. In the case +that the inverse calculation is not separated from the multiply, they speed +up division where the dividend fits into 20 bits (plus sign where applicable) +by inserting a test to skip a number of operations in this case; this test +slows down the case of larger dividends. \fBinv20u\fR assumes the case of a such +a small dividend to be unlikely, and \fBinv20l\fR assumes it to be likely. +.RE +.RS 4 +.Sp +For targets other than SHmedia \fIstrategy\fR can be one of: +.IP "\fBcall\-div1\fR" 4 +.IX Item "call-div1" +Calls a library function that uses the single-step division instruction +\&\f(CW\*(C`div1\*(C'\fR to perform the operation. Division by zero calculates an +unspecified result and does not trap. This is the default except for \s-1SH4, +SH2A\s0 and SHcompact. +.IP "\fBcall-fp\fR" 4 +.IX Item "call-fp" +Calls a library function that performs the operation in double precision +floating point. Division by zero causes a floating-point exception. This is +the default for SHcompact with \s-1FPU. \s0 Specifying this for targets that do not +have a double precision \s-1FPU\s0 will default to \f(CW\*(C`call\-div1\*(C'\fR. +.IP "\fBcall-table\fR" 4 +.IX Item "call-table" +Calls a library function that uses a lookup table for small divisors and +the \f(CW\*(C`div1\*(C'\fR instruction with case distinction for larger divisors. Division +by zero calculates an unspecified result and does not trap. This is the default +for \s-1SH4. \s0 Specifying this for targets that do not have dynamic shift +instructions will default to \f(CW\*(C`call\-div1\*(C'\fR. +.RE +.RS 4 +.Sp +When a division strategy has not been specified the default strategy will be +selected based on the current target. For \s-1SH2A\s0 the default strategy is to +use the \f(CW\*(C`divs\*(C'\fR and \f(CW\*(C`divu\*(C'\fR instructions instead of library function +calls. +.RE +.IP "\fB\-maccumulate\-outgoing\-args\fR" 4 +.IX Item "-maccumulate-outgoing-args" +Reserve space once for outgoing arguments in the function prologue rather +than around each call. Generally beneficial for performance and size. Also +needed for unwinding to avoid changing the stack frame around conditional code. +.IP "\fB\-mdivsi3_libfunc=\fR\fIname\fR" 4 +.IX Item "-mdivsi3_libfunc=name" +Set the name of the library function used for 32\-bit signed division to +\&\fIname\fR. +This only affects the name used in the \fBcall\fR and \fBinv:call\fR +division strategies, and the compiler still expects the same +sets of input/output/clobbered registers as if this option were not present. +.IP "\fB\-mfixed\-range=\fR\fIregister-range\fR" 4 +.IX Item "-mfixed-range=register-range" +Generate code treating the given register range as fixed registers. +A fixed register is one that the register allocator can not use. This is +useful when compiling kernel code. A register range is specified as +two registers separated by a dash. Multiple register ranges can be +specified separated by a comma. +.IP "\fB\-mindexed\-addressing\fR" 4 +.IX Item "-mindexed-addressing" +Enable the use of the indexed addressing mode for SHmedia32/SHcompact. +This is only safe if the hardware and/or \s-1OS\s0 implement 32\-bit wrap-around +semantics for the indexed addressing mode. The architecture allows the +implementation of processors with 64\-bit \s-1MMU,\s0 which the \s-1OS\s0 could use to +get 32\-bit addressing, but since no current hardware implementation supports +this or any other way to make the indexed addressing mode safe to use in +the 32\-bit \s-1ABI,\s0 the default is \fB\-mno\-indexed\-addressing\fR. +.IP "\fB\-mgettrcost=\fR\fInumber\fR" 4 +.IX Item "-mgettrcost=number" +Set the cost assumed for the \f(CW\*(C`gettr\*(C'\fR instruction to \fInumber\fR. +The default is 2 if \fB\-mpt\-fixed\fR is in effect, 100 otherwise. +.IP "\fB\-mpt\-fixed\fR" 4 +.IX Item "-mpt-fixed" +Assume \f(CW\*(C`pt*\*(C'\fR instructions won't trap. This generally generates +better-scheduled code, but is unsafe on current hardware. +The current architecture +definition says that \f(CW\*(C`ptabs\*(C'\fR and \f(CW\*(C`ptrel\*(C'\fR trap when the target +anded with 3 is 3. +This has the unintentional effect of making it unsafe to schedule these +instructions before a branch, or hoist them out of a loop. For example, +\&\f(CW\*(C`_\|_do_global_ctors\*(C'\fR, a part of \fIlibgcc\fR +that runs constructors at program +startup, calls functions in a list which is delimited by \-1. With the +\&\fB\-mpt\-fixed\fR option, the \f(CW\*(C`ptabs\*(C'\fR is done before testing against \-1. +That means that all the constructors run a bit more quickly, but when +the loop comes to the end of the list, the program crashes because \f(CW\*(C`ptabs\*(C'\fR +loads \-1 into a target register. +.Sp +Since this option is unsafe for any +hardware implementing the current architecture specification, the default +is \fB\-mno\-pt\-fixed\fR. Unless specified explicitly with +\&\fB\-mgettrcost\fR, \fB\-mno\-pt\-fixed\fR also implies \fB\-mgettrcost=100\fR; +this deters register allocation from using target registers for storing +ordinary integers. +.IP "\fB\-minvalid\-symbols\fR" 4 +.IX Item "-minvalid-symbols" +Assume symbols might be invalid. Ordinary function symbols generated by +the compiler are always valid to load with +\&\f(CW\*(C`movi\*(C'\fR/\f(CW\*(C`shori\*(C'\fR/\f(CW\*(C`ptabs\*(C'\fR or +\&\f(CW\*(C`movi\*(C'\fR/\f(CW\*(C`shori\*(C'\fR/\f(CW\*(C`ptrel\*(C'\fR, +but with assembler and/or linker tricks it is possible +to generate symbols that cause \f(CW\*(C`ptabs\*(C'\fR or \f(CW\*(C`ptrel\*(C'\fR to trap. +This option is only meaningful when \fB\-mno\-pt\-fixed\fR is in effect. +It prevents cross-basic-block \s-1CSE,\s0 hoisting and most scheduling +of symbol loads. The default is \fB\-mno\-invalid\-symbols\fR. +.IP "\fB\-mbranch\-cost=\fR\fInum\fR" 4 +.IX Item "-mbranch-cost=num" +Assume \fInum\fR to be the cost for a branch instruction. Higher numbers +make the compiler try to generate more branch-free code if possible. +If not specified the value is selected depending on the processor type that +is being compiled for. +.IP "\fB\-mzdcbranch\fR" 4 +.IX Item "-mzdcbranch" +.PD 0 +.IP "\fB\-mno\-zdcbranch\fR" 4 +.IX Item "-mno-zdcbranch" +.PD +Assume (do not assume) that zero displacement conditional branch instructions +\&\f(CW\*(C`bt\*(C'\fR and \f(CW\*(C`bf\*(C'\fR are fast. If \fB\-mzdcbranch\fR is specified, the +compiler will try to prefer zero displacement branch code sequences. This is +enabled by default when generating code for \s-1SH4\s0 and \s-1SH4A. \s0 It can be explicitly +disabled by specifying \fB\-mno\-zdcbranch\fR. +.IP "\fB\-mfused\-madd\fR" 4 +.IX Item "-mfused-madd" +.PD 0 +.IP "\fB\-mno\-fused\-madd\fR" 4 +.IX Item "-mno-fused-madd" +.PD +Generate code that uses (does not use) the floating-point multiply and +accumulate instructions. These instructions are generated by default +if hardware floating point is used. The machine-dependent +\&\fB\-mfused\-madd\fR option is now mapped to the machine-independent +\&\fB\-ffp\-contract=fast\fR option, and \fB\-mno\-fused\-madd\fR is +mapped to \fB\-ffp\-contract=off\fR. +.IP "\fB\-mfsca\fR" 4 +.IX Item "-mfsca" +.PD 0 +.IP "\fB\-mno\-fsca\fR" 4 +.IX Item "-mno-fsca" +.PD +Allow or disallow the compiler to emit the \f(CW\*(C`fsca\*(C'\fR instruction for sine +and cosine approximations. The option \f(CW\*(C`\-mfsca\*(C'\fR must be used in +combination with \f(CW\*(C`\-funsafe\-math\-optimizations\*(C'\fR. It is enabled by default +when generating code for \s-1SH4A. \s0 Using \f(CW\*(C`\-mno\-fsca\*(C'\fR disables sine and cosine +approximations even if \f(CW\*(C`\-funsafe\-math\-optimizations\*(C'\fR is in effect. +.IP "\fB\-mfsrra\fR" 4 +.IX Item "-mfsrra" +.PD 0 +.IP "\fB\-mno\-fsrra\fR" 4 +.IX Item "-mno-fsrra" +.PD +Allow or disallow the compiler to emit the \f(CW\*(C`fsrra\*(C'\fR instruction for +reciprocal square root approximations. The option \f(CW\*(C`\-mfsrra\*(C'\fR must be used +in combination with \f(CW\*(C`\-funsafe\-math\-optimizations\*(C'\fR and +\&\f(CW\*(C`\-ffinite\-math\-only\*(C'\fR. It is enabled by default when generating code for +\&\s-1SH4A. \s0 Using \f(CW\*(C`\-mno\-fsrra\*(C'\fR disables reciprocal square root approximations +even if \f(CW\*(C`\-funsafe\-math\-optimizations\*(C'\fR and \f(CW\*(C`\-ffinite\-math\-only\*(C'\fR are +in effect. +.IP "\fB\-mpretend\-cmove\fR" 4 +.IX Item "-mpretend-cmove" +Prefer zero-displacement conditional branches for conditional move instruction +patterns. This can result in faster code on the \s-1SH4\s0 processor. +.PP +\fISolaris 2 Options\fR +.IX Subsection "Solaris 2 Options" +.PP +These \fB\-m\fR options are supported on Solaris 2: +.IP "\fB\-mimpure\-text\fR" 4 +.IX Item "-mimpure-text" +\&\fB\-mimpure\-text\fR, used in addition to \fB\-shared\fR, tells +the compiler to not pass \fB\-z text\fR to the linker when linking a +shared object. Using this option, you can link position-dependent +code into a shared object. +.Sp +\&\fB\-mimpure\-text\fR suppresses the \*(L"relocations remain against +allocatable but non-writable sections\*(R" linker error message. +However, the necessary relocations trigger copy-on-write, and the +shared object is not actually shared across processes. Instead of +using \fB\-mimpure\-text\fR, you should compile all source code with +\&\fB\-fpic\fR or \fB\-fPIC\fR. +.PP +These switches are supported in addition to the above on Solaris 2: +.IP "\fB\-pthreads\fR" 4 +.IX Item "-pthreads" +Add support for multithreading using the \s-1POSIX\s0 threads library. This +option sets flags for both the preprocessor and linker. This option does +not affect the thread safety of object code produced by the compiler or +that of libraries supplied with it. +.IP "\fB\-pthread\fR" 4 +.IX Item "-pthread" +This is a synonym for \fB\-pthreads\fR. +.PP +\fI\s-1SPARC\s0 Options\fR +.IX Subsection "SPARC Options" +.PP +These \fB\-m\fR options are supported on the \s-1SPARC:\s0 +.IP "\fB\-mno\-app\-regs\fR" 4 +.IX Item "-mno-app-regs" +.PD 0 +.IP "\fB\-mapp\-regs\fR" 4 +.IX Item "-mapp-regs" +.PD +Specify \fB\-mapp\-regs\fR to generate output using the global registers +2 through 4, which the \s-1SPARC SVR4 ABI\s0 reserves for applications. Like the +global register 1, each global register 2 through 4 is then treated as an +allocable register that is clobbered by function calls. This is the default. +.Sp +To be fully \s-1SVR4\s0 ABI-compliant at the cost of some performance loss, +specify \fB\-mno\-app\-regs\fR. You should compile libraries and system +software with this option. +.IP "\fB\-mflat\fR" 4 +.IX Item "-mflat" +.PD 0 +.IP "\fB\-mno\-flat\fR" 4 +.IX Item "-mno-flat" +.PD +With \fB\-mflat\fR, the compiler does not generate save/restore instructions +and uses a \*(L"flat\*(R" or single register window model. This model is compatible +with the regular register window model. The local registers and the input +registers (0\-\-5) are still treated as \*(L"call-saved\*(R" registers and are +saved on the stack as needed. +.Sp +With \fB\-mno\-flat\fR (the default), the compiler generates save/restore +instructions (except for leaf functions). This is the normal operating mode. +.IP "\fB\-mfpu\fR" 4 +.IX Item "-mfpu" +.PD 0 +.IP "\fB\-mhard\-float\fR" 4 +.IX Item "-mhard-float" +.PD +Generate output containing floating-point instructions. This is the +default. +.IP "\fB\-mno\-fpu\fR" 4 +.IX Item "-mno-fpu" +.PD 0 +.IP "\fB\-msoft\-float\fR" 4 +.IX Item "-msoft-float" +.PD +Generate output containing library calls for floating point. +\&\fBWarning:\fR the requisite libraries are not available for all \s-1SPARC\s0 +targets. Normally the facilities of the machine's usual C compiler are +used, but this cannot be done directly in cross-compilation. You must make +your own arrangements to provide suitable library functions for +cross-compilation. The embedded targets \fBsparc\-*\-aout\fR and +\&\fBsparclite\-*\-*\fR do provide software floating-point support. +.Sp +\&\fB\-msoft\-float\fR changes the calling convention in the output file; +therefore, it is only useful if you compile \fIall\fR of a program with +this option. In particular, you need to compile \fIlibgcc.a\fR, the +library that comes with \s-1GCC,\s0 with \fB\-msoft\-float\fR in order for +this to work. +.IP "\fB\-mhard\-quad\-float\fR" 4 +.IX Item "-mhard-quad-float" +Generate output containing quad-word (long double) floating-point +instructions. +.IP "\fB\-msoft\-quad\-float\fR" 4 +.IX Item "-msoft-quad-float" +Generate output containing library calls for quad-word (long double) +floating-point instructions. The functions called are those specified +in the \s-1SPARC ABI. \s0 This is the default. +.Sp +As of this writing, there are no \s-1SPARC\s0 implementations that have hardware +support for the quad-word floating-point instructions. They all invoke +a trap handler for one of these instructions, and then the trap handler +emulates the effect of the instruction. Because of the trap handler overhead, +this is much slower than calling the \s-1ABI\s0 library routines. Thus the +\&\fB\-msoft\-quad\-float\fR option is the default. +.IP "\fB\-mno\-unaligned\-doubles\fR" 4 +.IX Item "-mno-unaligned-doubles" +.PD 0 +.IP "\fB\-munaligned\-doubles\fR" 4 +.IX Item "-munaligned-doubles" +.PD +Assume that doubles have 8\-byte alignment. This is the default. +.Sp +With \fB\-munaligned\-doubles\fR, \s-1GCC\s0 assumes that doubles have 8\-byte +alignment only if they are contained in another type, or if they have an +absolute address. Otherwise, it assumes they have 4\-byte alignment. +Specifying this option avoids some rare compatibility problems with code +generated by other compilers. It is not the default because it results +in a performance loss, especially for floating-point code. +.IP "\fB\-mno\-faster\-structs\fR" 4 +.IX Item "-mno-faster-structs" +.PD 0 +.IP "\fB\-mfaster\-structs\fR" 4 +.IX Item "-mfaster-structs" +.PD +With \fB\-mfaster\-structs\fR, the compiler assumes that structures +should have 8\-byte alignment. This enables the use of pairs of +\&\f(CW\*(C`ldd\*(C'\fR and \f(CW\*(C`std\*(C'\fR instructions for copies in structure +assignment, in place of twice as many \f(CW\*(C`ld\*(C'\fR and \f(CW\*(C`st\*(C'\fR pairs. +However, the use of this changed alignment directly violates the \s-1SPARC +ABI. \s0 Thus, it's intended only for use on targets where the developer +acknowledges that their resulting code is not directly in line with +the rules of the \s-1ABI.\s0 +.IP "\fB\-mcpu=\fR\fIcpu_type\fR" 4 +.IX Item "-mcpu=cpu_type" +Set the instruction set, register set, and instruction scheduling parameters +for machine type \fIcpu_type\fR. Supported values for \fIcpu_type\fR are +\&\fBv7\fR, \fBcypress\fR, \fBv8\fR, \fBsupersparc\fR, \fBhypersparc\fR, +\&\fBleon\fR, \fBleon3\fR, \fBsparclite\fR, \fBf930\fR, \fBf934\fR, +\&\fBsparclite86x\fR, \fBsparclet\fR, \fBtsc701\fR, \fBv9\fR, +\&\fBultrasparc\fR, \fBultrasparc3\fR, \fBniagara\fR, \fBniagara2\fR, +\&\fBniagara3\fR and \fBniagara4\fR. +.Sp +Native Solaris and GNU/Linux toolchains also support the value \fBnative\fR, +which selects the best architecture option for the host processor. +\&\fB\-mcpu=native\fR has no effect if \s-1GCC\s0 does not recognize +the processor. +.Sp +Default instruction scheduling parameters are used for values that select +an architecture and not an implementation. These are \fBv7\fR, \fBv8\fR, +\&\fBsparclite\fR, \fBsparclet\fR, \fBv9\fR. +.Sp +Here is a list of each supported architecture and their supported +implementations. +.RS 4 +.IP "v7" 4 +.IX Item "v7" +cypress +.IP "v8" 4 +.IX Item "v8" +supersparc, hypersparc, leon, leon3 +.IP "sparclite" 4 +.IX Item "sparclite" +f930, f934, sparclite86x +.IP "sparclet" 4 +.IX Item "sparclet" +tsc701 +.IP "v9" 4 +.IX Item "v9" +ultrasparc, ultrasparc3, niagara, niagara2, niagara3, niagara4 +.RE +.RS 4 +.Sp +By default (unless configured otherwise), \s-1GCC\s0 generates code for the V7 +variant of the \s-1SPARC\s0 architecture. With \fB\-mcpu=cypress\fR, the compiler +additionally optimizes it for the Cypress \s-1CY7C602\s0 chip, as used in the +SPARCStation/SPARCServer 3xx series. This is also appropriate for the older +SPARCStation 1, 2, \s-1IPX\s0 etc. +.Sp +With \fB\-mcpu=v8\fR, \s-1GCC\s0 generates code for the V8 variant of the \s-1SPARC\s0 +architecture. The only difference from V7 code is that the compiler emits +the integer multiply and integer divide instructions which exist in \s-1SPARC\-V8\s0 +but not in \s-1SPARC\-V7. \s0 With \fB\-mcpu=supersparc\fR, the compiler additionally +optimizes it for the SuperSPARC chip, as used in the SPARCStation 10, 1000 and +2000 series. +.Sp +With \fB\-mcpu=sparclite\fR, \s-1GCC\s0 generates code for the SPARClite variant of +the \s-1SPARC\s0 architecture. This adds the integer multiply, integer divide step +and scan (\f(CW\*(C`ffs\*(C'\fR) instructions which exist in SPARClite but not in \s-1SPARC\-V7.\s0 +With \fB\-mcpu=f930\fR, the compiler additionally optimizes it for the +Fujitsu \s-1MB86930\s0 chip, which is the original SPARClite, with no \s-1FPU. \s0 With +\&\fB\-mcpu=f934\fR, the compiler additionally optimizes it for the Fujitsu +\&\s-1MB86934\s0 chip, which is the more recent SPARClite with \s-1FPU.\s0 +.Sp +With \fB\-mcpu=sparclet\fR, \s-1GCC\s0 generates code for the SPARClet variant of +the \s-1SPARC\s0 architecture. This adds the integer multiply, multiply/accumulate, +integer divide step and scan (\f(CW\*(C`ffs\*(C'\fR) instructions which exist in SPARClet +but not in \s-1SPARC\-V7. \s0 With \fB\-mcpu=tsc701\fR, the compiler additionally +optimizes it for the \s-1TEMIC\s0 SPARClet chip. +.Sp +With \fB\-mcpu=v9\fR, \s-1GCC\s0 generates code for the V9 variant of the \s-1SPARC\s0 +architecture. This adds 64\-bit integer and floating-point move instructions, +3 additional floating-point condition code registers and conditional move +instructions. With \fB\-mcpu=ultrasparc\fR, the compiler additionally +optimizes it for the Sun UltraSPARC I/II/IIi chips. With +\&\fB\-mcpu=ultrasparc3\fR, the compiler additionally optimizes it for the +Sun UltraSPARC III/III+/IIIi/IIIi+/IV/IV+ chips. With +\&\fB\-mcpu=niagara\fR, the compiler additionally optimizes it for +Sun UltraSPARC T1 chips. With \fB\-mcpu=niagara2\fR, the compiler +additionally optimizes it for Sun UltraSPARC T2 chips. With +\&\fB\-mcpu=niagara3\fR, the compiler additionally optimizes it for Sun +UltraSPARC T3 chips. With \fB\-mcpu=niagara4\fR, the compiler +additionally optimizes it for Sun UltraSPARC T4 chips. +.RE +.IP "\fB\-mtune=\fR\fIcpu_type\fR" 4 +.IX Item "-mtune=cpu_type" +Set the instruction scheduling parameters for machine type +\&\fIcpu_type\fR, but do not set the instruction set or register set that the +option \fB\-mcpu=\fR\fIcpu_type\fR does. +.Sp +The same values for \fB\-mcpu=\fR\fIcpu_type\fR can be used for +\&\fB\-mtune=\fR\fIcpu_type\fR, but the only useful values are those +that select a particular \s-1CPU\s0 implementation. Those are \fBcypress\fR, +\&\fBsupersparc\fR, \fBhypersparc\fR, \fBleon\fR, \fBleon3\fR, \fBf930\fR, +\&\fBf934\fR, \fBsparclite86x\fR, \fBtsc701\fR, \fBultrasparc\fR, +\&\fBultrasparc3\fR, \fBniagara\fR, \fBniagara2\fR, \fBniagara3\fR and +\&\fBniagara4\fR. With native Solaris and GNU/Linux toolchains, \fBnative\fR +can also be used. +.IP "\fB\-mv8plus\fR" 4 +.IX Item "-mv8plus" +.PD 0 +.IP "\fB\-mno\-v8plus\fR" 4 +.IX Item "-mno-v8plus" +.PD +With \fB\-mv8plus\fR, \s-1GCC\s0 generates code for the \s-1SPARC\-V8+ ABI. \s0 The +difference from the V8 \s-1ABI\s0 is that the global and out registers are +considered 64 bits wide. This is enabled by default on Solaris in 32\-bit +mode for all \s-1SPARC\-V9\s0 processors. +.IP "\fB\-mvis\fR" 4 +.IX Item "-mvis" +.PD 0 +.IP "\fB\-mno\-vis\fR" 4 +.IX Item "-mno-vis" +.PD +With \fB\-mvis\fR, \s-1GCC\s0 generates code that takes advantage of the UltraSPARC +Visual Instruction Set extensions. The default is \fB\-mno\-vis\fR. +.IP "\fB\-mvis2\fR" 4 +.IX Item "-mvis2" +.PD 0 +.IP "\fB\-mno\-vis2\fR" 4 +.IX Item "-mno-vis2" +.PD +With \fB\-mvis2\fR, \s-1GCC\s0 generates code that takes advantage of +version 2.0 of the UltraSPARC Visual Instruction Set extensions. The +default is \fB\-mvis2\fR when targeting a cpu that supports such +instructions, such as UltraSPARC-III and later. Setting \fB\-mvis2\fR +also sets \fB\-mvis\fR. +.IP "\fB\-mvis3\fR" 4 +.IX Item "-mvis3" +.PD 0 +.IP "\fB\-mno\-vis3\fR" 4 +.IX Item "-mno-vis3" +.PD +With \fB\-mvis3\fR, \s-1GCC\s0 generates code that takes advantage of +version 3.0 of the UltraSPARC Visual Instruction Set extensions. The +default is \fB\-mvis3\fR when targeting a cpu that supports such +instructions, such as niagara\-3 and later. Setting \fB\-mvis3\fR +also sets \fB\-mvis2\fR and \fB\-mvis\fR. +.IP "\fB\-mcbcond\fR" 4 +.IX Item "-mcbcond" +.PD 0 +.IP "\fB\-mno\-cbcond\fR" 4 +.IX Item "-mno-cbcond" +.PD +With \fB\-mcbcond\fR, \s-1GCC\s0 generates code that takes advantage of +compare-and-branch instructions, as defined in the Sparc Architecture 2011. +The default is \fB\-mcbcond\fR when targeting a cpu that supports such +instructions, such as niagara\-4 and later. +.IP "\fB\-mpopc\fR" 4 +.IX Item "-mpopc" +.PD 0 +.IP "\fB\-mno\-popc\fR" 4 +.IX Item "-mno-popc" +.PD +With \fB\-mpopc\fR, \s-1GCC\s0 generates code that takes advantage of the UltraSPARC +population count instruction. The default is \fB\-mpopc\fR +when targeting a cpu that supports such instructions, such as Niagara\-2 and +later. +.IP "\fB\-mfmaf\fR" 4 +.IX Item "-mfmaf" +.PD 0 +.IP "\fB\-mno\-fmaf\fR" 4 +.IX Item "-mno-fmaf" +.PD +With \fB\-mfmaf\fR, \s-1GCC\s0 generates code that takes advantage of the UltraSPARC +Fused Multiply-Add Floating-point extensions. The default is \fB\-mfmaf\fR +when targeting a cpu that supports such instructions, such as Niagara\-3 and +later. +.IP "\fB\-mfix\-at697f\fR" 4 +.IX Item "-mfix-at697f" +Enable the documented workaround for the single erratum of the Atmel \s-1AT697F\s0 +processor (which corresponds to erratum #13 of the \s-1AT697E\s0 processor). +.IP "\fB\-mfix\-ut699\fR" 4 +.IX Item "-mfix-ut699" +Enable the documented workarounds for the floating-point errata and the data +cache nullify errata of the \s-1UT699\s0 processor. +.PP +These \fB\-m\fR options are supported in addition to the above +on \s-1SPARC\-V9\s0 processors in 64\-bit environments: +.IP "\fB\-m32\fR" 4 +.IX Item "-m32" +.PD 0 +.IP "\fB\-m64\fR" 4 +.IX Item "-m64" +.PD +Generate code for a 32\-bit or 64\-bit environment. +The 32\-bit environment sets int, long and pointer to 32 bits. +The 64\-bit environment sets int to 32 bits and long and pointer +to 64 bits. +.IP "\fB\-mcmodel=\fR\fIwhich\fR" 4 +.IX Item "-mcmodel=which" +Set the code model to one of +.RS 4 +.IP "\fBmedlow\fR" 4 +.IX Item "medlow" +The Medium/Low code model: 64\-bit addresses, programs +must be linked in the low 32 bits of memory. Programs can be statically +or dynamically linked. +.IP "\fBmedmid\fR" 4 +.IX Item "medmid" +The Medium/Middle code model: 64\-bit addresses, programs +must be linked in the low 44 bits of memory, the text and data segments must +be less than 2GB in size and the data segment must be located within 2GB of +the text segment. +.IP "\fBmedany\fR" 4 +.IX Item "medany" +The Medium/Anywhere code model: 64\-bit addresses, programs +may be linked anywhere in memory, the text and data segments must be less +than 2GB in size and the data segment must be located within 2GB of the +text segment. +.IP "\fBembmedany\fR" 4 +.IX Item "embmedany" +The Medium/Anywhere code model for embedded systems: +64\-bit addresses, the text and data segments must be less than 2GB in +size, both starting anywhere in memory (determined at link time). The +global register \f(CW%g4\fR points to the base of the data segment. Programs +are statically linked and \s-1PIC\s0 is not supported. +.RE +.RS 4 +.RE +.IP "\fB\-mmemory\-model=\fR\fImem-model\fR" 4 +.IX Item "-mmemory-model=mem-model" +Set the memory model in force on the processor to one of +.RS 4 +.IP "\fBdefault\fR" 4 +.IX Item "default" +The default memory model for the processor and operating system. +.IP "\fBrmo\fR" 4 +.IX Item "rmo" +Relaxed Memory Order +.IP "\fBpso\fR" 4 +.IX Item "pso" +Partial Store Order +.IP "\fBtso\fR" 4 +.IX Item "tso" +Total Store Order +.IP "\fBsc\fR" 4 +.IX Item "sc" +Sequential Consistency +.RE +.RS 4 +.Sp +These memory models are formally defined in Appendix D of the Sparc V9 +architecture manual, as set in the processor's \f(CW\*(C`PSTATE.MM\*(C'\fR field. +.RE +.IP "\fB\-mstack\-bias\fR" 4 +.IX Item "-mstack-bias" +.PD 0 +.IP "\fB\-mno\-stack\-bias\fR" 4 +.IX Item "-mno-stack-bias" +.PD +With \fB\-mstack\-bias\fR, \s-1GCC\s0 assumes that the stack pointer, and +frame pointer if present, are offset by \-2047 which must be added back +when making stack frame references. This is the default in 64\-bit mode. +Otherwise, assume no such offset is present. +.PP +\fI\s-1SPU\s0 Options\fR +.IX Subsection "SPU Options" +.PP +These \fB\-m\fR options are supported on the \s-1SPU:\s0 +.IP "\fB\-mwarn\-reloc\fR" 4 +.IX Item "-mwarn-reloc" +.PD 0 +.IP "\fB\-merror\-reloc\fR" 4 +.IX Item "-merror-reloc" +.PD +The loader for \s-1SPU\s0 does not handle dynamic relocations. By default, \s-1GCC\s0 +gives an error when it generates code that requires a dynamic +relocation. \fB\-mno\-error\-reloc\fR disables the error, +\&\fB\-mwarn\-reloc\fR generates a warning instead. +.IP "\fB\-msafe\-dma\fR" 4 +.IX Item "-msafe-dma" +.PD 0 +.IP "\fB\-munsafe\-dma\fR" 4 +.IX Item "-munsafe-dma" +.PD +Instructions that initiate or test completion of \s-1DMA\s0 must not be +reordered with respect to loads and stores of the memory that is being +accessed. +With \fB\-munsafe\-dma\fR you must use the \f(CW\*(C`volatile\*(C'\fR keyword to protect +memory accesses, but that can lead to inefficient code in places where the +memory is known to not change. Rather than mark the memory as volatile, +you can use \fB\-msafe\-dma\fR to tell the compiler to treat +the \s-1DMA\s0 instructions as potentially affecting all memory. +.IP "\fB\-mbranch\-hints\fR" 4 +.IX Item "-mbranch-hints" +By default, \s-1GCC\s0 generates a branch hint instruction to avoid +pipeline stalls for always-taken or probably-taken branches. A hint +is not generated closer than 8 instructions away from its branch. +There is little reason to disable them, except for debugging purposes, +or to make an object a little bit smaller. +.IP "\fB\-msmall\-mem\fR" 4 +.IX Item "-msmall-mem" +.PD 0 +.IP "\fB\-mlarge\-mem\fR" 4 +.IX Item "-mlarge-mem" +.PD +By default, \s-1GCC\s0 generates code assuming that addresses are never larger +than 18 bits. With \fB\-mlarge\-mem\fR code is generated that assumes +a full 32\-bit address. +.IP "\fB\-mstdmain\fR" 4 +.IX Item "-mstdmain" +By default, \s-1GCC\s0 links against startup code that assumes the SPU-style +main function interface (which has an unconventional parameter list). +With \fB\-mstdmain\fR, \s-1GCC\s0 links your program against startup +code that assumes a C99\-style interface to \f(CW\*(C`main\*(C'\fR, including a +local copy of \f(CW\*(C`argv\*(C'\fR strings. +.IP "\fB\-mfixed\-range=\fR\fIregister-range\fR" 4 +.IX Item "-mfixed-range=register-range" +Generate code treating the given register range as fixed registers. +A fixed register is one that the register allocator cannot use. This is +useful when compiling kernel code. A register range is specified as +two registers separated by a dash. Multiple register ranges can be +specified separated by a comma. +.IP "\fB\-mea32\fR" 4 +.IX Item "-mea32" +.PD 0 +.IP "\fB\-mea64\fR" 4 +.IX Item "-mea64" +.PD +Compile code assuming that pointers to the \s-1PPU\s0 address space accessed +via the \f(CW\*(C`_\|_ea\*(C'\fR named address space qualifier are either 32 or 64 +bits wide. The default is 32 bits. As this is an ABI-changing option, +all object code in an executable must be compiled with the same setting. +.IP "\fB\-maddress\-space\-conversion\fR" 4 +.IX Item "-maddress-space-conversion" +.PD 0 +.IP "\fB\-mno\-address\-space\-conversion\fR" 4 +.IX Item "-mno-address-space-conversion" +.PD +Allow/disallow treating the \f(CW\*(C`_\|_ea\*(C'\fR address space as superset +of the generic address space. This enables explicit type casts +between \f(CW\*(C`_\|_ea\*(C'\fR and generic pointer as well as implicit +conversions of generic pointers to \f(CW\*(C`_\|_ea\*(C'\fR pointers. The +default is to allow address space pointer conversions. +.IP "\fB\-mcache\-size=\fR\fIcache-size\fR" 4 +.IX Item "-mcache-size=cache-size" +This option controls the version of libgcc that the compiler links to an +executable and selects a software-managed cache for accessing variables +in the \f(CW\*(C`_\|_ea\*(C'\fR address space with a particular cache size. Possible +options for \fIcache-size\fR are \fB8\fR, \fB16\fR, \fB32\fR, \fB64\fR +and \fB128\fR. The default cache size is 64KB. +.IP "\fB\-matomic\-updates\fR" 4 +.IX Item "-matomic-updates" +.PD 0 +.IP "\fB\-mno\-atomic\-updates\fR" 4 +.IX Item "-mno-atomic-updates" +.PD +This option controls the version of libgcc that the compiler links to an +executable and selects whether atomic updates to the software-managed +cache of PPU-side variables are used. If you use atomic updates, changes +to a \s-1PPU\s0 variable from \s-1SPU\s0 code using the \f(CW\*(C`_\|_ea\*(C'\fR named address space +qualifier do not interfere with changes to other \s-1PPU\s0 variables residing +in the same cache line from \s-1PPU\s0 code. If you do not use atomic updates, +such interference may occur; however, writing back cache lines is +more efficient. The default behavior is to use atomic updates. +.IP "\fB\-mdual\-nops\fR" 4 +.IX Item "-mdual-nops" +.PD 0 +.IP "\fB\-mdual\-nops=\fR\fIn\fR" 4 +.IX Item "-mdual-nops=n" +.PD +By default, \s-1GCC\s0 inserts nops to increase dual issue when it expects +it to increase performance. \fIn\fR can be a value from 0 to 10. A +smaller \fIn\fR inserts fewer nops. 10 is the default, 0 is the +same as \fB\-mno\-dual\-nops\fR. Disabled with \fB\-Os\fR. +.IP "\fB\-mhint\-max\-nops=\fR\fIn\fR" 4 +.IX Item "-mhint-max-nops=n" +Maximum number of nops to insert for a branch hint. A branch hint must +be at least 8 instructions away from the branch it is affecting. \s-1GCC\s0 +inserts up to \fIn\fR nops to enforce this, otherwise it does not +generate the branch hint. +.IP "\fB\-mhint\-max\-distance=\fR\fIn\fR" 4 +.IX Item "-mhint-max-distance=n" +The encoding of the branch hint instruction limits the hint to be within +256 instructions of the branch it is affecting. By default, \s-1GCC\s0 makes +sure it is within 125. +.IP "\fB\-msafe\-hints\fR" 4 +.IX Item "-msafe-hints" +Work around a hardware bug that causes the \s-1SPU\s0 to stall indefinitely. +By default, \s-1GCC\s0 inserts the \f(CW\*(C`hbrp\*(C'\fR instruction to make sure +this stall won't happen. +.PP +\fIOptions for System V\fR +.IX Subsection "Options for System V" +.PP +These additional options are available on System V Release 4 for +compatibility with other compilers on those systems: +.IP "\fB\-G\fR" 4 +.IX Item "-G" +Create a shared object. +It is recommended that \fB\-symbolic\fR or \fB\-shared\fR be used instead. +.IP "\fB\-Qy\fR" 4 +.IX Item "-Qy" +Identify the versions of each tool used by the compiler, in a +\&\f(CW\*(C`.ident\*(C'\fR assembler directive in the output. +.IP "\fB\-Qn\fR" 4 +.IX Item "-Qn" +Refrain from adding \f(CW\*(C`.ident\*(C'\fR directives to the output file (this is +the default). +.IP "\fB\-YP,\fR\fIdirs\fR" 4 +.IX Item "-YP,dirs" +Search the directories \fIdirs\fR, and no others, for libraries +specified with \fB\-l\fR. +.IP "\fB\-Ym,\fR\fIdir\fR" 4 +.IX Item "-Ym,dir" +Look in the directory \fIdir\fR to find the M4 preprocessor. +The assembler uses this option. +.PP +\fITILE-Gx Options\fR +.IX Subsection "TILE-Gx Options" +.PP +These \fB\-m\fR options are supported on the TILE-Gx: +.IP "\fB\-mcmodel=small\fR" 4 +.IX Item "-mcmodel=small" +Generate code for the small model. The distance for direct calls is +limited to 500M in either direction. PC-relative addresses are 32 +bits. Absolute addresses support the full address range. +.IP "\fB\-mcmodel=large\fR" 4 +.IX Item "-mcmodel=large" +Generate code for the large model. There is no limitation on call +distance, pc-relative addresses, or absolute addresses. +.IP "\fB\-mcpu=\fR\fIname\fR" 4 +.IX Item "-mcpu=name" +Selects the type of \s-1CPU\s0 to be targeted. Currently the only supported +type is \fBtilegx\fR. +.IP "\fB\-m32\fR" 4 +.IX Item "-m32" +.PD 0 +.IP "\fB\-m64\fR" 4 +.IX Item "-m64" +.PD +Generate code for a 32\-bit or 64\-bit environment. The 32\-bit +environment sets int, long, and pointer to 32 bits. The 64\-bit +environment sets int to 32 bits and long and pointer to 64 bits. +.IP "\fB\-mbig\-endian\fR" 4 +.IX Item "-mbig-endian" +.PD 0 +.IP "\fB\-mlittle\-endian\fR" 4 +.IX Item "-mlittle-endian" +.PD +Generate code in big/little endian mode, respectively. +.PP +\fITILEPro Options\fR +.IX Subsection "TILEPro Options" +.PP +These \fB\-m\fR options are supported on the TILEPro: +.IP "\fB\-mcpu=\fR\fIname\fR" 4 +.IX Item "-mcpu=name" +Selects the type of \s-1CPU\s0 to be targeted. Currently the only supported +type is \fBtilepro\fR. +.IP "\fB\-m32\fR" 4 +.IX Item "-m32" +Generate code for a 32\-bit environment, which sets int, long, and +pointer to 32 bits. This is the only supported behavior so the flag +is essentially ignored. +.PP +\fIV850 Options\fR +.IX Subsection "V850 Options" +.PP +These \fB\-m\fR options are defined for V850 implementations: +.IP "\fB\-mlong\-calls\fR" 4 +.IX Item "-mlong-calls" +.PD 0 +.IP "\fB\-mno\-long\-calls\fR" 4 +.IX Item "-mno-long-calls" +.PD +Treat all calls as being far away (near). If calls are assumed to be +far away, the compiler always loads the function's address into a +register, and calls indirect through the pointer. +.IP "\fB\-mno\-ep\fR" 4 +.IX Item "-mno-ep" +.PD 0 +.IP "\fB\-mep\fR" 4 +.IX Item "-mep" +.PD +Do not optimize (do optimize) basic blocks that use the same index +pointer 4 or more times to copy pointer into the \f(CW\*(C`ep\*(C'\fR register, and +use the shorter \f(CW\*(C`sld\*(C'\fR and \f(CW\*(C`sst\*(C'\fR instructions. The \fB\-mep\fR +option is on by default if you optimize. +.IP "\fB\-mno\-prolog\-function\fR" 4 +.IX Item "-mno-prolog-function" +.PD 0 +.IP "\fB\-mprolog\-function\fR" 4 +.IX Item "-mprolog-function" +.PD +Do not use (do use) external functions to save and restore registers +at the prologue and epilogue of a function. The external functions +are slower, but use less code space if more than one function saves +the same number of registers. The \fB\-mprolog\-function\fR option +is on by default if you optimize. +.IP "\fB\-mspace\fR" 4 +.IX Item "-mspace" +Try to make the code as small as possible. At present, this just turns +on the \fB\-mep\fR and \fB\-mprolog\-function\fR options. +.IP "\fB\-mtda=\fR\fIn\fR" 4 +.IX Item "-mtda=n" +Put static or global variables whose size is \fIn\fR bytes or less into +the tiny data area that register \f(CW\*(C`ep\*(C'\fR points to. The tiny data +area can hold up to 256 bytes in total (128 bytes for byte references). +.IP "\fB\-msda=\fR\fIn\fR" 4 +.IX Item "-msda=n" +Put static or global variables whose size is \fIn\fR bytes or less into +the small data area that register \f(CW\*(C`gp\*(C'\fR points to. The small data +area can hold up to 64 kilobytes. +.IP "\fB\-mzda=\fR\fIn\fR" 4 +.IX Item "-mzda=n" +Put static or global variables whose size is \fIn\fR bytes or less into +the first 32 kilobytes of memory. +.IP "\fB\-mv850\fR" 4 +.IX Item "-mv850" +Specify that the target processor is the V850. +.IP "\fB\-mv850e3v5\fR" 4 +.IX Item "-mv850e3v5" +Specify that the target processor is the V850E3V5. The preprocessor +constant \fB_\|_v850e3v5_\|_\fR is defined if this option is used. +.IP "\fB\-mv850e2v4\fR" 4 +.IX Item "-mv850e2v4" +Specify that the target processor is the V850E3V5. This is an alias for +the \fB\-mv850e3v5\fR option. +.IP "\fB\-mv850e2v3\fR" 4 +.IX Item "-mv850e2v3" +Specify that the target processor is the V850E2V3. The preprocessor +constant \fB_\|_v850e2v3_\|_\fR is defined if this option is used. +.IP "\fB\-mv850e2\fR" 4 +.IX Item "-mv850e2" +Specify that the target processor is the V850E2. The preprocessor +constant \fB_\|_v850e2_\|_\fR is defined if this option is used. +.IP "\fB\-mv850e1\fR" 4 +.IX Item "-mv850e1" +Specify that the target processor is the V850E1. The preprocessor +constants \fB_\|_v850e1_\|_\fR and \fB_\|_v850e_\|_\fR are defined if +this option is used. +.IP "\fB\-mv850es\fR" 4 +.IX Item "-mv850es" +Specify that the target processor is the V850ES. This is an alias for +the \fB\-mv850e1\fR option. +.IP "\fB\-mv850e\fR" 4 +.IX Item "-mv850e" +Specify that the target processor is the V850E. The preprocessor +constant \fB_\|_v850e_\|_\fR is defined if this option is used. +.Sp +If neither \fB\-mv850\fR nor \fB\-mv850e\fR nor \fB\-mv850e1\fR +nor \fB\-mv850e2\fR nor \fB\-mv850e2v3\fR nor \fB\-mv850e3v5\fR +are defined then a default target processor is chosen and the +relevant \fB_\|_v850*_\|_\fR preprocessor constant is defined. +.Sp +The preprocessor constants \fB_\|_v850\fR and \fB_\|_v851_\|_\fR are always +defined, regardless of which processor variant is the target. +.IP "\fB\-mdisable\-callt\fR" 4 +.IX Item "-mdisable-callt" +.PD 0 +.IP "\fB\-mno\-disable\-callt\fR" 4 +.IX Item "-mno-disable-callt" +.PD +This option suppresses generation of the \f(CW\*(C`CALLT\*(C'\fR instruction for the +v850e, v850e1, v850e2, v850e2v3 and v850e3v5 flavors of the v850 +architecture. +.Sp +This option is enabled by default when the \s-1RH850 ABI\s0 is +in use (see \fB\-mrh850\-abi\fR), and disabled by default when the +\&\s-1GCC ABI\s0 is in use. If \f(CW\*(C`CALLT\*(C'\fR instructions are being generated +then the C preprocessor symbol \f(CW\*(C`_\|_V850_CALLT_\|_\*(C'\fR will be defined. +.IP "\fB\-mrelax\fR" 4 +.IX Item "-mrelax" +.PD 0 +.IP "\fB\-mno\-relax\fR" 4 +.IX Item "-mno-relax" +.PD +Pass on (or do not pass on) the \fB\-mrelax\fR command line option +to the assembler. +.IP "\fB\-mlong\-jumps\fR" 4 +.IX Item "-mlong-jumps" +.PD 0 +.IP "\fB\-mno\-long\-jumps\fR" 4 +.IX Item "-mno-long-jumps" +.PD +Disable (or re-enable) the generation of PC-relative jump instructions. +.IP "\fB\-msoft\-float\fR" 4 +.IX Item "-msoft-float" +.PD 0 +.IP "\fB\-mhard\-float\fR" 4 +.IX Item "-mhard-float" +.PD +Disable (or re-enable) the generation of hardware floating point +instructions. This option is only significant when the target +architecture is \fBV850E2V3\fR or higher. If hardware floating point +instructions are being generated then the C preprocessor symbol +\&\f(CW\*(C`_\|_FPU_OK_\|_\*(C'\fR will be defined, otherwise the symbol +\&\f(CW\*(C`_\|_NO_FPU_\|_\*(C'\fR will be defined. +.IP "\fB\-mloop\fR" 4 +.IX Item "-mloop" +Enables the use of the e3v5 \s-1LOOP\s0 instruction. The use of this +instruction is not enabled by default when the e3v5 architecture is +selected because its use is still experimental. +.IP "\fB\-mrh850\-abi\fR" 4 +.IX Item "-mrh850-abi" +.PD 0 +.IP "\fB\-mghs\fR" 4 +.IX Item "-mghs" +.PD +Enables support for the \s-1RH850\s0 version of the V850 \s-1ABI. \s0 This is the +default. With this version of the \s-1ABI\s0 the following rules apply: +.RS 4 +.IP "\(bu" 4 +Integer sized structures and unions are returned via a memory pointer +rather than a register. +.IP "\(bu" 4 +Large structures and unions (more than 8 bytes in size) are passed by +value. +.IP "\(bu" 4 +Functions are aligned to 16\-bit boundaries. +.IP "\(bu" 4 +The \fB\-m8byte\-align\fR command line option is supported. +.IP "\(bu" 4 +The \fB\-mdisable\-callt\fR command line option is enabled by +default. The \fB\-mno\-disable\-callt\fR command line option is not +supported. +.RE +.RS 4 +.Sp +When this version of the \s-1ABI\s0 is enabled the C preprocessor symbol +\&\f(CW\*(C`_\|_V850_RH850_ABI_\|_\*(C'\fR is defined. +.RE +.IP "\fB\-mgcc\-abi\fR" 4 +.IX Item "-mgcc-abi" +Enables support for the old \s-1GCC\s0 version of the V850 \s-1ABI. \s0 With this +version of the \s-1ABI\s0 the following rules apply: +.RS 4 +.IP "\(bu" 4 +Integer sized structures and unions are returned in register \f(CW\*(C`r10\*(C'\fR. +.IP "\(bu" 4 +Large structures and unions (more than 8 bytes in size) are passed by +reference. +.IP "\(bu" 4 +Functions are aligned to 32\-bit boundaries, unless optimizing for +size. +.IP "\(bu" 4 +The \fB\-m8byte\-align\fR command line option is not supported. +.IP "\(bu" 4 +The \fB\-mdisable\-callt\fR command line option is supported but not +enabled by default. +.RE +.RS 4 +.Sp +When this version of the \s-1ABI\s0 is enabled the C preprocessor symbol +\&\f(CW\*(C`_\|_V850_GCC_ABI_\|_\*(C'\fR is defined. +.RE +.IP "\fB\-m8byte\-align\fR" 4 +.IX Item "-m8byte-align" +.PD 0 +.IP "\fB\-mno\-8byte\-align\fR" 4 +.IX Item "-mno-8byte-align" +.PD +Enables support for \f(CW\*(C`doubles\*(C'\fR and \f(CW\*(C`long long\*(C'\fR types to be +aligned on 8\-byte boundaries. The default is to restrict the +alignment of all objects to at most 4\-bytes. When +\&\fB\-m8byte\-align\fR is in effect the C preprocessor symbol +\&\f(CW\*(C`_\|_V850_8BYTE_ALIGN_\|_\*(C'\fR will be defined. +.IP "\fB\-mbig\-switch\fR" 4 +.IX Item "-mbig-switch" +Generate code suitable for big switch tables. Use this option only if +the assembler/linker complain about out of range branches within a switch +table. +.IP "\fB\-mapp\-regs\fR" 4 +.IX Item "-mapp-regs" +This option causes r2 and r5 to be used in the code generated by +the compiler. This setting is the default. +.IP "\fB\-mno\-app\-regs\fR" 4 +.IX Item "-mno-app-regs" +This option causes r2 and r5 to be treated as fixed registers. +.PP +\fI\s-1VAX\s0 Options\fR +.IX Subsection "VAX Options" +.PP +These \fB\-m\fR options are defined for the \s-1VAX:\s0 +.IP "\fB\-munix\fR" 4 +.IX Item "-munix" +Do not output certain jump instructions (\f(CW\*(C`aobleq\*(C'\fR and so on) +that the Unix assembler for the \s-1VAX\s0 cannot handle across long +ranges. +.IP "\fB\-mgnu\fR" 4 +.IX Item "-mgnu" +Do output those jump instructions, on the assumption that the +\&\s-1GNU\s0 assembler is being used. +.IP "\fB\-mg\fR" 4 +.IX Item "-mg" +Output code for G\-format floating-point numbers instead of D\-format. +.PP +\fI\s-1VMS\s0 Options\fR +.IX Subsection "VMS Options" +.PP +These \fB\-m\fR options are defined for the \s-1VMS\s0 implementations: +.IP "\fB\-mvms\-return\-codes\fR" 4 +.IX Item "-mvms-return-codes" +Return \s-1VMS\s0 condition codes from \f(CW\*(C`main\*(C'\fR. The default is to return POSIX-style +condition (e.g. error) codes. +.IP "\fB\-mdebug\-main=\fR\fIprefix\fR" 4 +.IX Item "-mdebug-main=prefix" +Flag the first routine whose name starts with \fIprefix\fR as the main +routine for the debugger. +.IP "\fB\-mmalloc64\fR" 4 +.IX Item "-mmalloc64" +Default to 64\-bit memory allocation routines. +.IP "\fB\-mpointer\-size=\fR\fIsize\fR" 4 +.IX Item "-mpointer-size=size" +Set the default size of pointers. Possible options for \fIsize\fR are +\&\fB32\fR or \fBshort\fR for 32 bit pointers, \fB64\fR or \fBlong\fR +for 64 bit pointers, and \fBno\fR for supporting only 32 bit pointers. +The later option disables \f(CW\*(C`pragma pointer_size\*(C'\fR. +.PP +\fIVxWorks Options\fR +.IX Subsection "VxWorks Options" +.PP +The options in this section are defined for all VxWorks targets. +Options specific to the target hardware are listed with the other +options for that target. +.IP "\fB\-mrtp\fR" 4 +.IX Item "-mrtp" +\&\s-1GCC\s0 can generate code for both VxWorks kernels and real time processes +(RTPs). This option switches from the former to the latter. It also +defines the preprocessor macro \f(CW\*(C`_\|_RTP_\|_\*(C'\fR. +.IP "\fB\-non\-static\fR" 4 +.IX Item "-non-static" +Link an \s-1RTP\s0 executable against shared libraries rather than static +libraries. The options \fB\-static\fR and \fB\-shared\fR can +also be used for RTPs; \fB\-static\fR +is the default. +.IP "\fB\-Bstatic\fR" 4 +.IX Item "-Bstatic" +.PD 0 +.IP "\fB\-Bdynamic\fR" 4 +.IX Item "-Bdynamic" +.PD +These options are passed down to the linker. They are defined for +compatibility with Diab. +.IP "\fB\-Xbind\-lazy\fR" 4 +.IX Item "-Xbind-lazy" +Enable lazy binding of function calls. This option is equivalent to +\&\fB\-Wl,\-z,now\fR and is defined for compatibility with Diab. +.IP "\fB\-Xbind\-now\fR" 4 +.IX Item "-Xbind-now" +Disable lazy binding of function calls. This option is the default and +is defined for compatibility with Diab. +.PP +\fIx86\-64 Options\fR +.IX Subsection "x86-64 Options" +.PP +These are listed under +.PP +\fIXstormy16 Options\fR +.IX Subsection "Xstormy16 Options" +.PP +These options are defined for Xstormy16: +.IP "\fB\-msim\fR" 4 +.IX Item "-msim" +Choose startup files and linker script suitable for the simulator. +.PP +\fIXtensa Options\fR +.IX Subsection "Xtensa Options" +.PP +These options are supported for Xtensa targets: +.IP "\fB\-mconst16\fR" 4 +.IX Item "-mconst16" +.PD 0 +.IP "\fB\-mno\-const16\fR" 4 +.IX Item "-mno-const16" +.PD +Enable or disable use of \f(CW\*(C`CONST16\*(C'\fR instructions for loading +constant values. The \f(CW\*(C`CONST16\*(C'\fR instruction is currently not a +standard option from Tensilica. When enabled, \f(CW\*(C`CONST16\*(C'\fR +instructions are always used in place of the standard \f(CW\*(C`L32R\*(C'\fR +instructions. The use of \f(CW\*(C`CONST16\*(C'\fR is enabled by default only if +the \f(CW\*(C`L32R\*(C'\fR instruction is not available. +.IP "\fB\-mfused\-madd\fR" 4 +.IX Item "-mfused-madd" +.PD 0 +.IP "\fB\-mno\-fused\-madd\fR" 4 +.IX Item "-mno-fused-madd" +.PD +Enable or disable use of fused multiply/add and multiply/subtract +instructions in the floating-point option. This has no effect if the +floating-point option is not also enabled. Disabling fused multiply/add +and multiply/subtract instructions forces the compiler to use separate +instructions for the multiply and add/subtract operations. This may be +desirable in some cases where strict \s-1IEEE\s0 754\-compliant results are +required: the fused multiply add/subtract instructions do not round the +intermediate result, thereby producing results with \fImore\fR bits of +precision than specified by the \s-1IEEE\s0 standard. Disabling fused multiply +add/subtract instructions also ensures that the program output is not +sensitive to the compiler's ability to combine multiply and add/subtract +operations. +.IP "\fB\-mserialize\-volatile\fR" 4 +.IX Item "-mserialize-volatile" +.PD 0 +.IP "\fB\-mno\-serialize\-volatile\fR" 4 +.IX Item "-mno-serialize-volatile" +.PD +When this option is enabled, \s-1GCC\s0 inserts \f(CW\*(C`MEMW\*(C'\fR instructions before +\&\f(CW\*(C`volatile\*(C'\fR memory references to guarantee sequential consistency. +The default is \fB\-mserialize\-volatile\fR. Use +\&\fB\-mno\-serialize\-volatile\fR to omit the \f(CW\*(C`MEMW\*(C'\fR instructions. +.IP "\fB\-mforce\-no\-pic\fR" 4 +.IX Item "-mforce-no-pic" +For targets, like GNU/Linux, where all user-mode Xtensa code must be +position-independent code (\s-1PIC\s0), this option disables \s-1PIC\s0 for compiling +kernel code. +.IP "\fB\-mtext\-section\-literals\fR" 4 +.IX Item "-mtext-section-literals" +.PD 0 +.IP "\fB\-mno\-text\-section\-literals\fR" 4 +.IX Item "-mno-text-section-literals" +.PD +Control the treatment of literal pools. The default is +\&\fB\-mno\-text\-section\-literals\fR, which places literals in a separate +section in the output file. This allows the literal pool to be placed +in a data \s-1RAM/ROM,\s0 and it also allows the linker to combine literal +pools from separate object files to remove redundant literals and +improve code size. With \fB\-mtext\-section\-literals\fR, the literals +are interspersed in the text section in order to keep them as close as +possible to their references. This may be necessary for large assembly +files. +.IP "\fB\-mtarget\-align\fR" 4 +.IX Item "-mtarget-align" +.PD 0 +.IP "\fB\-mno\-target\-align\fR" 4 +.IX Item "-mno-target-align" +.PD +When this option is enabled, \s-1GCC\s0 instructs the assembler to +automatically align instructions to reduce branch penalties at the +expense of some code density. The assembler attempts to widen density +instructions to align branch targets and the instructions following call +instructions. If there are not enough preceding safe density +instructions to align a target, no widening is performed. The +default is \fB\-mtarget\-align\fR. These options do not affect the +treatment of auto-aligned instructions like \f(CW\*(C`LOOP\*(C'\fR, which the +assembler always aligns, either by widening density instructions or +by inserting \s-1NOP\s0 instructions. +.IP "\fB\-mlongcalls\fR" 4 +.IX Item "-mlongcalls" +.PD 0 +.IP "\fB\-mno\-longcalls\fR" 4 +.IX Item "-mno-longcalls" +.PD +When this option is enabled, \s-1GCC\s0 instructs the assembler to translate +direct calls to indirect calls unless it can determine that the target +of a direct call is in the range allowed by the call instruction. This +translation typically occurs for calls to functions in other source +files. Specifically, the assembler translates a direct \f(CW\*(C`CALL\*(C'\fR +instruction into an \f(CW\*(C`L32R\*(C'\fR followed by a \f(CW\*(C`CALLX\*(C'\fR instruction. +The default is \fB\-mno\-longcalls\fR. This option should be used in +programs where the call target can potentially be out of range. This +option is implemented in the assembler, not the compiler, so the +assembly code generated by \s-1GCC\s0 still shows direct call +instructions\-\-\-look at the disassembled object code to see the actual +instructions. Note that the assembler uses an indirect call for +every cross-file call, not just those that really are out of range. +.PP +\fIzSeries Options\fR +.IX Subsection "zSeries Options" +.PP +These are listed under +.SS "Options for Code Generation Conventions" +.IX Subsection "Options for Code Generation Conventions" +These machine-independent options control the interface conventions +used in code generation. +.PP +Most of them have both positive and negative forms; the negative form +of \fB\-ffoo\fR is \fB\-fno\-foo\fR. In the table below, only +one of the forms is listed\-\-\-the one that is not the default. You +can figure out the other form by either removing \fBno\-\fR or adding +it. +.IP "\fB\-fbounds\-check\fR" 4 +.IX Item "-fbounds-check" +For front ends that support it, generate additional code to check that +indices used to access arrays are within the declared range. This is +currently only supported by the Java and Fortran front ends, where +this option defaults to true and false respectively. +.IP "\fB\-fstack\-reuse=\fR\fIreuse-level\fR" 4 +.IX Item "-fstack-reuse=reuse-level" +This option controls stack space reuse for user declared local/auto variables +and compiler generated temporaries. \fIreuse_level\fR can be \fBall\fR, +\&\fBnamed_vars\fR, or \fBnone\fR. \fBall\fR enables stack reuse for all +local variables and temporaries, \fBnamed_vars\fR enables the reuse only for +user defined local variables with names, and \fBnone\fR disables stack reuse +completely. The default value is \fBall\fR. The option is needed when the +program extends the lifetime of a scoped local variable or a compiler generated +temporary beyond the end point defined by the language. When a lifetime of +a variable ends, and if the variable lives in memory, the optimizing compiler +has the freedom to reuse its stack space with other temporaries or scoped +local variables whose live range does not overlap with it. Legacy code extending +local lifetime will likely to break with the stack reuse optimization. +.Sp +For example, +.Sp +.Vb 3 +\& int *p; +\& { +\& int local1; +\& +\& p = &local1; +\& local1 = 10; +\& .... +\& } +\& { +\& int local2; +\& local2 = 20; +\& ... +\& } +\& +\& if (*p == 10) // out of scope use of local1 +\& { +\& +\& } +.Ve +.Sp +Another example: +.Sp +.Vb 6 +\& struct A +\& { +\& A(int k) : i(k), j(k) { } +\& int i; +\& int j; +\& }; +\& +\& A *ap; +\& +\& void foo(const A& ar) +\& { +\& ap = &ar; +\& } +\& +\& void bar() +\& { +\& foo(A(10)); // temp object\*(Aqs lifetime ends when foo returns +\& +\& { +\& A a(20); +\& .... +\& } +\& ap\->i+= 10; // ap references out of scope temp whose space +\& // is reused with a. What is the value of ap\->i? +\& } +.Ve +.Sp +The lifetime of a compiler generated temporary is well defined by the \*(C+ +standard. When a lifetime of a temporary ends, and if the temporary lives +in memory, the optimizing compiler has the freedom to reuse its stack +space with other temporaries or scoped local variables whose live range +does not overlap with it. However some of the legacy code relies on +the behavior of older compilers in which temporaries' stack space is +not reused, the aggressive stack reuse can lead to runtime errors. This +option is used to control the temporary stack reuse optimization. +.IP "\fB\-ftrapv\fR" 4 +.IX Item "-ftrapv" +This option generates traps for signed overflow on addition, subtraction, +multiplication operations. +.IP "\fB\-fwrapv\fR" 4 +.IX Item "-fwrapv" +This option instructs the compiler to assume that signed arithmetic +overflow of addition, subtraction and multiplication wraps around +using twos-complement representation. This flag enables some optimizations +and disables others. This option is enabled by default for the Java +front end, as required by the Java language specification. +.IP "\fB\-fexceptions\fR" 4 +.IX Item "-fexceptions" +Enable exception handling. Generates extra code needed to propagate +exceptions. For some targets, this implies \s-1GCC\s0 generates frame +unwind information for all functions, which can produce significant data +size overhead, although it does not affect execution. If you do not +specify this option, \s-1GCC\s0 enables it by default for languages like +\&\*(C+ that normally require exception handling, and disables it for +languages like C that do not normally require it. However, you may need +to enable this option when compiling C code that needs to interoperate +properly with exception handlers written in \*(C+. You may also wish to +disable this option if you are compiling older \*(C+ programs that don't +use exception handling. +.IP "\fB\-fnon\-call\-exceptions\fR" 4 +.IX Item "-fnon-call-exceptions" +Generate code that allows trapping instructions to throw exceptions. +Note that this requires platform-specific runtime support that does +not exist everywhere. Moreover, it only allows \fItrapping\fR +instructions to throw exceptions, i.e. memory references or floating-point +instructions. It does not allow exceptions to be thrown from +arbitrary signal handlers such as \f(CW\*(C`SIGALRM\*(C'\fR. +.IP "\fB\-fdelete\-dead\-exceptions\fR" 4 +.IX Item "-fdelete-dead-exceptions" +Consider that instructions that may throw exceptions but don't otherwise +contribute to the execution of the program can be optimized away. +This option is enabled by default for the Ada front end, as permitted by +the Ada language specification. +Optimization passes that cause dead exceptions to be removed are enabled independently at different optimization levels. +.IP "\fB\-funwind\-tables\fR" 4 +.IX Item "-funwind-tables" +Similar to \fB\-fexceptions\fR, except that it just generates any needed +static data, but does not affect the generated code in any other way. +You normally do not need to enable this option; instead, a language processor +that needs this handling enables it on your behalf. +.IP "\fB\-fasynchronous\-unwind\-tables\fR" 4 +.IX Item "-fasynchronous-unwind-tables" +Generate unwind table in \s-1DWARF 2\s0 format, if supported by target machine. The +table is exact at each instruction boundary, so it can be used for stack +unwinding from asynchronous events (such as debugger or garbage collector). +.IP "\fB\-fno\-gnu\-unique\fR" 4 +.IX Item "-fno-gnu-unique" +On systems with recent \s-1GNU\s0 assembler and C library, the \*(C+ compiler +uses the \f(CW\*(C`STB_GNU_UNIQUE\*(C'\fR binding to make sure that definitions +of template static data members and static local variables in inline +functions are unique even in the presence of \f(CW\*(C`RTLD_LOCAL\*(C'\fR; this +is necessary to avoid problems with a library used by two different +\&\f(CW\*(C`RTLD_LOCAL\*(C'\fR plugins depending on a definition in one of them and +therefore disagreeing with the other one about the binding of the +symbol. But this causes \f(CW\*(C`dlclose\*(C'\fR to be ignored for affected +DSOs; if your program relies on reinitialization of a \s-1DSO\s0 via +\&\f(CW\*(C`dlclose\*(C'\fR and \f(CW\*(C`dlopen\*(C'\fR, you can use +\&\fB\-fno\-gnu\-unique\fR. +.IP "\fB\-fpcc\-struct\-return\fR" 4 +.IX Item "-fpcc-struct-return" +Return \*(L"short\*(R" \f(CW\*(C`struct\*(C'\fR and \f(CW\*(C`union\*(C'\fR values in memory like +longer ones, rather than in registers. This convention is less +efficient, but it has the advantage of allowing intercallability between +GCC-compiled files and files compiled with other compilers, particularly +the Portable C Compiler (pcc). +.Sp +The precise convention for returning structures in memory depends +on the target configuration macros. +.Sp +Short structures and unions are those whose size and alignment match +that of some integer type. +.Sp +\&\fBWarning:\fR code compiled with the \fB\-fpcc\-struct\-return\fR +switch is not binary compatible with code compiled with the +\&\fB\-freg\-struct\-return\fR switch. +Use it to conform to a non-default application binary interface. +.IP "\fB\-freg\-struct\-return\fR" 4 +.IX Item "-freg-struct-return" +Return \f(CW\*(C`struct\*(C'\fR and \f(CW\*(C`union\*(C'\fR values in registers when possible. +This is more efficient for small structures than +\&\fB\-fpcc\-struct\-return\fR. +.Sp +If you specify neither \fB\-fpcc\-struct\-return\fR nor +\&\fB\-freg\-struct\-return\fR, \s-1GCC\s0 defaults to whichever convention is +standard for the target. If there is no standard convention, \s-1GCC\s0 +defaults to \fB\-fpcc\-struct\-return\fR, except on targets where \s-1GCC\s0 is +the principal compiler. In those cases, we can choose the standard, and +we chose the more efficient register return alternative. +.Sp +\&\fBWarning:\fR code compiled with the \fB\-freg\-struct\-return\fR +switch is not binary compatible with code compiled with the +\&\fB\-fpcc\-struct\-return\fR switch. +Use it to conform to a non-default application binary interface. +.IP "\fB\-fshort\-enums\fR" 4 +.IX Item "-fshort-enums" +Allocate to an \f(CW\*(C`enum\*(C'\fR type only as many bytes as it needs for the +declared range of possible values. Specifically, the \f(CW\*(C`enum\*(C'\fR type +is equivalent to the smallest integer type that has enough room. +.Sp +\&\fBWarning:\fR the \fB\-fshort\-enums\fR switch causes \s-1GCC\s0 to generate +code that is not binary compatible with code generated without that switch. +Use it to conform to a non-default application binary interface. +.IP "\fB\-fshort\-double\fR" 4 +.IX Item "-fshort-double" +Use the same size for \f(CW\*(C`double\*(C'\fR as for \f(CW\*(C`float\*(C'\fR. +.Sp +\&\fBWarning:\fR the \fB\-fshort\-double\fR switch causes \s-1GCC\s0 to generate +code that is not binary compatible with code generated without that switch. +Use it to conform to a non-default application binary interface. +.IP "\fB\-fshort\-wchar\fR" 4 +.IX Item "-fshort-wchar" +Override the underlying type for \fBwchar_t\fR to be \fBshort +unsigned int\fR instead of the default for the target. This option is +useful for building programs to run under \s-1WINE.\s0 +.Sp +\&\fBWarning:\fR the \fB\-fshort\-wchar\fR switch causes \s-1GCC\s0 to generate +code that is not binary compatible with code generated without that switch. +Use it to conform to a non-default application binary interface. +.IP "\fB\-fno\-common\fR" 4 +.IX Item "-fno-common" +In C code, controls the placement of uninitialized global variables. +Unix C compilers have traditionally permitted multiple definitions of +such variables in different compilation units by placing the variables +in a common block. +This is the behavior specified by \fB\-fcommon\fR, and is the default +for \s-1GCC\s0 on most targets. +On the other hand, this behavior is not required by \s-1ISO C,\s0 and on some +targets may carry a speed or code size penalty on variable references. +The \fB\-fno\-common\fR option specifies that the compiler should place +uninitialized global variables in the data section of the object file, +rather than generating them as common blocks. +This has the effect that if the same variable is declared +(without \f(CW\*(C`extern\*(C'\fR) in two different compilations, +you get a multiple-definition error when you link them. +In this case, you must compile with \fB\-fcommon\fR instead. +Compiling with \fB\-fno\-common\fR is useful on targets for which +it provides better performance, or if you wish to verify that the +program will work on other systems that always treat uninitialized +variable declarations this way. +.IP "\fB\-fno\-ident\fR" 4 +.IX Item "-fno-ident" +Ignore the \fB#ident\fR directive. +.IP "\fB\-finhibit\-size\-directive\fR" 4 +.IX Item "-finhibit-size-directive" +Don't output a \f(CW\*(C`.size\*(C'\fR assembler directive, or anything else that +would cause trouble if the function is split in the middle, and the +two halves are placed at locations far apart in memory. This option is +used when compiling \fIcrtstuff.c\fR; you should not need to use it +for anything else. +.IP "\fB\-fverbose\-asm\fR" 4 +.IX Item "-fverbose-asm" +Put extra commentary information in the generated assembly code to +make it more readable. This option is generally only of use to those +who actually need to read the generated assembly code (perhaps while +debugging the compiler itself). +.Sp +\&\fB\-fno\-verbose\-asm\fR, the default, causes the +extra information to be omitted and is useful when comparing two assembler +files. +.IP "\fB\-frecord\-gcc\-switches\fR" 4 +.IX Item "-frecord-gcc-switches" +This switch causes the command line used to invoke the +compiler to be recorded into the object file that is being created. +This switch is only implemented on some targets and the exact format +of the recording is target and binary file format dependent, but it +usually takes the form of a section containing \s-1ASCII\s0 text. This +switch is related to the \fB\-fverbose\-asm\fR switch, but that +switch only records information in the assembler output file as +comments, so it never reaches the object file. +See also \fB\-grecord\-gcc\-switches\fR for another +way of storing compiler options into the object file. +.IP "\fB\-fpic\fR" 4 +.IX Item "-fpic" +Generate position-independent code (\s-1PIC\s0) suitable for use in a shared +library, if supported for the target machine. Such code accesses all +constant addresses through a global offset table (\s-1GOT\s0). The dynamic +loader resolves the \s-1GOT\s0 entries when the program starts (the dynamic +loader is not part of \s-1GCC\s0; it is part of the operating system). If +the \s-1GOT\s0 size for the linked executable exceeds a machine-specific +maximum size, you get an error message from the linker indicating that +\&\fB\-fpic\fR does not work; in that case, recompile with \fB\-fPIC\fR +instead. (These maximums are 8k on the \s-1SPARC\s0 and 32k +on the m68k and \s-1RS/6000. \s0 The 386 has no such limit.) +.Sp +Position-independent code requires special support, and therefore works +only on certain machines. For the 386, \s-1GCC\s0 supports \s-1PIC\s0 for System V +but not for the Sun 386i. Code generated for the \s-1IBM RS/6000\s0 is always +position-independent. +.Sp +When this flag is set, the macros \f(CW\*(C`_\|_pic_\|_\*(C'\fR and \f(CW\*(C`_\|_PIC_\|_\*(C'\fR +are defined to 1. +.IP "\fB\-fPIC\fR" 4 +.IX Item "-fPIC" +If supported for the target machine, emit position-independent code, +suitable for dynamic linking and avoiding any limit on the size of the +global offset table. This option makes a difference on the m68k, +PowerPC and \s-1SPARC.\s0 +.Sp +Position-independent code requires special support, and therefore works +only on certain machines. +.Sp +When this flag is set, the macros \f(CW\*(C`_\|_pic_\|_\*(C'\fR and \f(CW\*(C`_\|_PIC_\|_\*(C'\fR +are defined to 2. +.IP "\fB\-fpie\fR" 4 +.IX Item "-fpie" +.PD 0 +.IP "\fB\-fPIE\fR" 4 +.IX Item "-fPIE" +.PD +These options are similar to \fB\-fpic\fR and \fB\-fPIC\fR, but +generated position independent code can be only linked into executables. +Usually these options are used when \fB\-pie\fR \s-1GCC\s0 option is +used during linking. +.Sp +\&\fB\-fpie\fR and \fB\-fPIE\fR both define the macros +\&\f(CW\*(C`_\|_pie_\|_\*(C'\fR and \f(CW\*(C`_\|_PIE_\|_\*(C'\fR. The macros have the value 1 +for \fB\-fpie\fR and 2 for \fB\-fPIE\fR. +.IP "\fB\-fno\-jump\-tables\fR" 4 +.IX Item "-fno-jump-tables" +Do not use jump tables for switch statements even where it would be +more efficient than other code generation strategies. This option is +of use in conjunction with \fB\-fpic\fR or \fB\-fPIC\fR for +building code that forms part of a dynamic linker and cannot +reference the address of a jump table. On some targets, jump tables +do not require a \s-1GOT\s0 and this option is not needed. +.IP "\fB\-ffixed\-\fR\fIreg\fR" 4 +.IX Item "-ffixed-reg" +Treat the register named \fIreg\fR as a fixed register; generated code +should never refer to it (except perhaps as a stack pointer, frame +pointer or in some other fixed role). +.Sp +\&\fIreg\fR must be the name of a register. The register names accepted +are machine-specific and are defined in the \f(CW\*(C`REGISTER_NAMES\*(C'\fR +macro in the machine description macro file. +.Sp +This flag does not have a negative form, because it specifies a +three-way choice. +.IP "\fB\-fcall\-used\-\fR\fIreg\fR" 4 +.IX Item "-fcall-used-reg" +Treat the register named \fIreg\fR as an allocable register that is +clobbered by function calls. It may be allocated for temporaries or +variables that do not live across a call. Functions compiled this way +do not save and restore the register \fIreg\fR. +.Sp +It is an error to use this flag with the frame pointer or stack pointer. +Use of this flag for other registers that have fixed pervasive roles in +the machine's execution model produces disastrous results. +.Sp +This flag does not have a negative form, because it specifies a +three-way choice. +.IP "\fB\-fcall\-saved\-\fR\fIreg\fR" 4 +.IX Item "-fcall-saved-reg" +Treat the register named \fIreg\fR as an allocable register saved by +functions. It may be allocated even for temporaries or variables that +live across a call. Functions compiled this way save and restore +the register \fIreg\fR if they use it. +.Sp +It is an error to use this flag with the frame pointer or stack pointer. +Use of this flag for other registers that have fixed pervasive roles in +the machine's execution model produces disastrous results. +.Sp +A different sort of disaster results from the use of this flag for +a register in which function values may be returned. +.Sp +This flag does not have a negative form, because it specifies a +three-way choice. +.IP "\fB\-fpack\-struct[=\fR\fIn\fR\fB]\fR" 4 +.IX Item "-fpack-struct[=n]" +Without a value specified, pack all structure members together without +holes. When a value is specified (which must be a small power of two), pack +structure members according to this value, representing the maximum +alignment (that is, objects with default alignment requirements larger than +this are output potentially unaligned at the next fitting location. +.Sp +\&\fBWarning:\fR the \fB\-fpack\-struct\fR switch causes \s-1GCC\s0 to generate +code that is not binary compatible with code generated without that switch. +Additionally, it makes the code suboptimal. +Use it to conform to a non-default application binary interface. +.IP "\fB\-finstrument\-functions\fR" 4 +.IX Item "-finstrument-functions" +Generate instrumentation calls for entry and exit to functions. Just +after function entry and just before function exit, the following +profiling functions are called with the address of the current +function and its call site. (On some platforms, +\&\f(CW\*(C`_\|_builtin_return_address\*(C'\fR does not work beyond the current +function, so the call site information may not be available to the +profiling functions otherwise.) +.Sp +.Vb 4 +\& void _\|_cyg_profile_func_enter (void *this_fn, +\& void *call_site); +\& void _\|_cyg_profile_func_exit (void *this_fn, +\& void *call_site); +.Ve +.Sp +The first argument is the address of the start of the current function, +which may be looked up exactly in the symbol table. +.Sp +This instrumentation is also done for functions expanded inline in other +functions. The profiling calls indicate where, conceptually, the +inline function is entered and exited. This means that addressable +versions of such functions must be available. If all your uses of a +function are expanded inline, this may mean an additional expansion of +code size. If you use \fBextern inline\fR in your C code, an +addressable version of such functions must be provided. (This is +normally the case anyway, but if you get lucky and the optimizer always +expands the functions inline, you might have gotten away without +providing static copies.) +.Sp +A function may be given the attribute \f(CW\*(C`no_instrument_function\*(C'\fR, in +which case this instrumentation is not done. This can be used, for +example, for the profiling functions listed above, high-priority +interrupt routines, and any functions from which the profiling functions +cannot safely be called (perhaps signal handlers, if the profiling +routines generate output or allocate memory). +.IP "\fB\-finstrument\-functions\-exclude\-file\-list=\fR\fIfile\fR\fB,\fR\fIfile\fR\fB,...\fR" 4 +.IX Item "-finstrument-functions-exclude-file-list=file,file,..." +Set the list of functions that are excluded from instrumentation (see +the description of \f(CW\*(C`\-finstrument\-functions\*(C'\fR). If the file that +contains a function definition matches with one of \fIfile\fR, then +that function is not instrumented. The match is done on substrings: +if the \fIfile\fR parameter is a substring of the file name, it is +considered to be a match. +.Sp +For example: +.Sp +.Vb 1 +\& \-finstrument\-functions\-exclude\-file\-list=/bits/stl,include/sys +.Ve +.Sp +excludes any inline function defined in files whose pathnames +contain \f(CW\*(C`/bits/stl\*(C'\fR or \f(CW\*(C`include/sys\*(C'\fR. +.Sp +If, for some reason, you want to include letter \f(CW\*(Aq,\*(Aq\fR in one of +\&\fIsym\fR, write \f(CW\*(Aq,\*(Aq\fR. For example, +\&\f(CW\*(C`\-finstrument\-functions\-exclude\-file\-list=\*(Aq,,tmp\*(Aq\*(C'\fR +(note the single quote surrounding the option). +.IP "\fB\-finstrument\-functions\-exclude\-function\-list=\fR\fIsym\fR\fB,\fR\fIsym\fR\fB,...\fR" 4 +.IX Item "-finstrument-functions-exclude-function-list=sym,sym,..." +This is similar to \f(CW\*(C`\-finstrument\-functions\-exclude\-file\-list\*(C'\fR, +but this option sets the list of function names to be excluded from +instrumentation. The function name to be matched is its user-visible +name, such as \f(CW\*(C`vector<int> blah(const vector<int> &)\*(C'\fR, not the +internal mangled name (e.g., \f(CW\*(C`_Z4blahRSt6vectorIiSaIiEE\*(C'\fR). The +match is done on substrings: if the \fIsym\fR parameter is a substring +of the function name, it is considered to be a match. For C99 and \*(C+ +extended identifiers, the function name must be given in \s-1UTF\-8,\s0 not +using universal character names. +.IP "\fB\-fstack\-check\fR" 4 +.IX Item "-fstack-check" +Generate code to verify that you do not go beyond the boundary of the +stack. You should specify this flag if you are running in an +environment with multiple threads, but you only rarely need to specify it in +a single-threaded environment since stack overflow is automatically +detected on nearly all systems if there is only one stack. +.Sp +Note that this switch does not actually cause checking to be done; the +operating system or the language runtime must do that. The switch causes +generation of code to ensure that they see the stack being extended. +.Sp +You can additionally specify a string parameter: \f(CW\*(C`no\*(C'\fR means no +checking, \f(CW\*(C`generic\*(C'\fR means force the use of old-style checking, +\&\f(CW\*(C`specific\*(C'\fR means use the best checking method and is equivalent +to bare \fB\-fstack\-check\fR. +.Sp +Old-style checking is a generic mechanism that requires no specific +target support in the compiler but comes with the following drawbacks: +.RS 4 +.IP "1." 4 +Modified allocation strategy for large objects: they are always +allocated dynamically if their size exceeds a fixed threshold. +.IP "2." 4 +Fixed limit on the size of the static frame of functions: when it is +topped by a particular function, stack checking is not reliable and +a warning is issued by the compiler. +.IP "3." 4 +Inefficiency: because of both the modified allocation strategy and the +generic implementation, code performance is hampered. +.RE +.RS 4 +.Sp +Note that old-style stack checking is also the fallback method for +\&\f(CW\*(C`specific\*(C'\fR if no target support has been added in the compiler. +.RE +.IP "\fB\-fstack\-limit\-register=\fR\fIreg\fR" 4 +.IX Item "-fstack-limit-register=reg" +.PD 0 +.IP "\fB\-fstack\-limit\-symbol=\fR\fIsym\fR" 4 +.IX Item "-fstack-limit-symbol=sym" +.IP "\fB\-fno\-stack\-limit\fR" 4 +.IX Item "-fno-stack-limit" +.PD +Generate code to ensure that the stack does not grow beyond a certain value, +either the value of a register or the address of a symbol. If a larger +stack is required, a signal is raised at run time. For most targets, +the signal is raised before the stack overruns the boundary, so +it is possible to catch the signal without taking special precautions. +.Sp +For instance, if the stack starts at absolute address \fB0x80000000\fR +and grows downwards, you can use the flags +\&\fB\-fstack\-limit\-symbol=_\|_stack_limit\fR and +\&\fB\-Wl,\-\-defsym,_\|_stack_limit=0x7ffe0000\fR to enforce a stack limit +of 128KB. Note that this may only work with the \s-1GNU\s0 linker. +.IP "\fB\-fsplit\-stack\fR" 4 +.IX Item "-fsplit-stack" +Generate code to automatically split the stack before it overflows. +The resulting program has a discontiguous stack which can only +overflow if the program is unable to allocate any more memory. This +is most useful when running threaded programs, as it is no longer +necessary to calculate a good stack size to use for each thread. This +is currently only implemented for the i386 and x86_64 back ends running +GNU/Linux. +.Sp +When code compiled with \fB\-fsplit\-stack\fR calls code compiled +without \fB\-fsplit\-stack\fR, there may not be much stack space +available for the latter code to run. If compiling all code, +including library code, with \fB\-fsplit\-stack\fR is not an option, +then the linker can fix up these calls so that the code compiled +without \fB\-fsplit\-stack\fR always has a large stack. Support for +this is implemented in the gold linker in \s-1GNU\s0 binutils release 2.21 +and later. +.IP "\fB\-fleading\-underscore\fR" 4 +.IX Item "-fleading-underscore" +This option and its counterpart, \fB\-fno\-leading\-underscore\fR, forcibly +change the way C symbols are represented in the object file. One use +is to help link with legacy assembly code. +.Sp +\&\fBWarning:\fR the \fB\-fleading\-underscore\fR switch causes \s-1GCC\s0 to +generate code that is not binary compatible with code generated without that +switch. Use it to conform to a non-default application binary interface. +Not all targets provide complete support for this switch. +.IP "\fB\-ftls\-model=\fR\fImodel\fR" 4 +.IX Item "-ftls-model=model" +Alter the thread-local storage model to be used. +The \fImodel\fR argument should be one of \f(CW\*(C`global\-dynamic\*(C'\fR, +\&\f(CW\*(C`local\-dynamic\*(C'\fR, \f(CW\*(C`initial\-exec\*(C'\fR or \f(CW\*(C`local\-exec\*(C'\fR. +Note that the choice is subject to optimization: the compiler may use +a more efficient model for symbols not visible outside of the translation +unit, or if \fB\-fpic\fR is not given on the command line. +.Sp +The default without \fB\-fpic\fR is \f(CW\*(C`initial\-exec\*(C'\fR; with +\&\fB\-fpic\fR the default is \f(CW\*(C`global\-dynamic\*(C'\fR. +.IP "\fB\-fvisibility=\fR\fIdefault|internal|hidden|protected\fR" 4 +.IX Item "-fvisibility=default|internal|hidden|protected" +Set the default \s-1ELF\s0 image symbol visibility to the specified option\-\-\-all +symbols are marked with this unless overridden within the code. +Using this feature can very substantially improve linking and +load times of shared object libraries, produce more optimized +code, provide near-perfect \s-1API\s0 export and prevent symbol clashes. +It is \fBstrongly\fR recommended that you use this in any shared objects +you distribute. +.Sp +Despite the nomenclature, \f(CW\*(C`default\*(C'\fR always means public; i.e., +available to be linked against from outside the shared object. +\&\f(CW\*(C`protected\*(C'\fR and \f(CW\*(C`internal\*(C'\fR are pretty useless in real-world +usage so the only other commonly used option is \f(CW\*(C`hidden\*(C'\fR. +The default if \fB\-fvisibility\fR isn't specified is +\&\f(CW\*(C`default\*(C'\fR, i.e., make every +symbol public\-\-\-this causes the same behavior as previous versions of +\&\s-1GCC.\s0 +.Sp +A good explanation of the benefits offered by ensuring \s-1ELF\s0 +symbols have the correct visibility is given by \*(L"How To Write +Shared Libraries\*(R" by Ulrich Drepper (which can be found at +<\fBhttp://people.redhat.com/~drepper/\fR>)\-\-\-however a superior +solution made possible by this option to marking things hidden when +the default is public is to make the default hidden and mark things +public. This is the norm with DLLs on Windows and with \fB\-fvisibility=hidden\fR +and \f(CW\*(C`_\|_attribute_\|_ ((visibility("default")))\*(C'\fR instead of +\&\f(CW\*(C`_\|_declspec(dllexport)\*(C'\fR you get almost identical semantics with +identical syntax. This is a great boon to those working with +cross-platform projects. +.Sp +For those adding visibility support to existing code, you may find +\&\fB#pragma \s-1GCC\s0 visibility\fR of use. This works by you enclosing +the declarations you wish to set visibility for with (for example) +\&\fB#pragma \s-1GCC\s0 visibility push(hidden)\fR and +\&\fB#pragma \s-1GCC\s0 visibility pop\fR. +Bear in mind that symbol visibility should be viewed \fBas +part of the \s-1API\s0 interface contract\fR and thus all new code should +always specify visibility when it is not the default; i.e., declarations +only for use within the local \s-1DSO\s0 should \fBalways\fR be marked explicitly +as hidden as so to avoid \s-1PLT\s0 indirection overheads\-\-\-making this +abundantly clear also aids readability and self-documentation of the code. +Note that due to \s-1ISO \*(C+\s0 specification requirements, \f(CW\*(C`operator new\*(C'\fR and +\&\f(CW\*(C`operator delete\*(C'\fR must always be of default visibility. +.Sp +Be aware that headers from outside your project, in particular system +headers and headers from any other library you use, may not be +expecting to be compiled with visibility other than the default. You +may need to explicitly say \fB#pragma \s-1GCC\s0 visibility push(default)\fR +before including any such headers. +.Sp +\&\fBextern\fR declarations are not affected by \fB\-fvisibility\fR, so +a lot of code can be recompiled with \fB\-fvisibility=hidden\fR with +no modifications. However, this means that calls to \f(CW\*(C`extern\*(C'\fR +functions with no explicit visibility use the \s-1PLT,\s0 so it is more +effective to use \f(CW\*(C`_\|_attribute ((visibility))\*(C'\fR and/or +\&\f(CW\*(C`#pragma GCC visibility\*(C'\fR to tell the compiler which \f(CW\*(C`extern\*(C'\fR +declarations should be treated as hidden. +.Sp +Note that \fB\-fvisibility\fR does affect \*(C+ vague linkage +entities. This means that, for instance, an exception class that is +be thrown between DSOs must be explicitly marked with default +visibility so that the \fBtype_info\fR nodes are unified between +the DSOs. +.Sp +An overview of these techniques, their benefits and how to use them +is at <\fBhttp://gcc.gnu.org/wiki/Visibility\fR>. +.IP "\fB\-fstrict\-volatile\-bitfields\fR" 4 +.IX Item "-fstrict-volatile-bitfields" +This option should be used if accesses to volatile bit-fields (or other +structure fields, although the compiler usually honors those types +anyway) should use a single access of the width of the +field's type, aligned to a natural alignment if possible. For +example, targets with memory-mapped peripheral registers might require +all such accesses to be 16 bits wide; with this flag you can +declare all peripheral bit-fields as \f(CW\*(C`unsigned short\*(C'\fR (assuming short +is 16 bits on these targets) to force \s-1GCC\s0 to use 16\-bit accesses +instead of, perhaps, a more efficient 32\-bit access. +.Sp +If this option is disabled, the compiler uses the most efficient +instruction. In the previous example, that might be a 32\-bit load +instruction, even though that accesses bytes that do not contain +any portion of the bit-field, or memory-mapped registers unrelated to +the one being updated. +.Sp +In some cases, such as when the \f(CW\*(C`packed\*(C'\fR attribute is applied to a +structure field, it may not be possible to access the field with a single +read or write that is correctly aligned for the target machine. In this +case \s-1GCC\s0 falls back to generating multiple accesses rather than code that +will fault or truncate the result at run time. +.Sp +Note: Due to restrictions of the C/\*(C+11 memory model, write accesses are +not allowed to touch non bit-field members. It is therefore recommended +to define all bits of the field's type as bit-field members. +.Sp +The default value of this option is determined by the application binary +interface for the target processor. +.IP "\fB\-fsync\-libcalls\fR" 4 +.IX Item "-fsync-libcalls" +This option controls whether any out-of-line instance of the \f(CW\*(C`_\|_sync\*(C'\fR +family of functions may be used to implement the \*(C+11 \f(CW\*(C`_\|_atomic\*(C'\fR +family of functions. +.Sp +The default value of this option is enabled, thus the only useful form +of the option is \fB\-fno\-sync\-libcalls\fR. This option is used in +the implementation of the \fIlibatomic\fR runtime library. +.SH "ENVIRONMENT" +.IX Header "ENVIRONMENT" +This section describes several environment variables that affect how \s-1GCC\s0 +operates. Some of them work by specifying directories or prefixes to use +when searching for various kinds of files. Some are used to specify other +aspects of the compilation environment. +.PP +Note that you can also specify places to search using options such as +\&\fB\-B\fR, \fB\-I\fR and \fB\-L\fR. These +take precedence over places specified using environment variables, which +in turn take precedence over those specified by the configuration of \s-1GCC.\s0 +.IP "\fB\s-1LANG\s0\fR" 4 +.IX Item "LANG" +.PD 0 +.IP "\fB\s-1LC_CTYPE\s0\fR" 4 +.IX Item "LC_CTYPE" +.IP "\fB\s-1LC_MESSAGES\s0\fR" 4 +.IX Item "LC_MESSAGES" +.IP "\fB\s-1LC_ALL\s0\fR" 4 +.IX Item "LC_ALL" +.PD +These environment variables control the way that \s-1GCC\s0 uses +localization information which allows \s-1GCC\s0 to work with different +national conventions. \s-1GCC\s0 inspects the locale categories +\&\fB\s-1LC_CTYPE\s0\fR and \fB\s-1LC_MESSAGES\s0\fR if it has been configured to do +so. These locale categories can be set to any value supported by your +installation. A typical value is \fBen_GB.UTF\-8\fR for English in the United +Kingdom encoded in \s-1UTF\-8.\s0 +.Sp +The \fB\s-1LC_CTYPE\s0\fR environment variable specifies character +classification. \s-1GCC\s0 uses it to determine the character boundaries in +a string; this is needed for some multibyte encodings that contain quote +and escape characters that are otherwise interpreted as a string +end or escape. +.Sp +The \fB\s-1LC_MESSAGES\s0\fR environment variable specifies the language to +use in diagnostic messages. +.Sp +If the \fB\s-1LC_ALL\s0\fR environment variable is set, it overrides the value +of \fB\s-1LC_CTYPE\s0\fR and \fB\s-1LC_MESSAGES\s0\fR; otherwise, \fB\s-1LC_CTYPE\s0\fR +and \fB\s-1LC_MESSAGES\s0\fR default to the value of the \fB\s-1LANG\s0\fR +environment variable. If none of these variables are set, \s-1GCC\s0 +defaults to traditional C English behavior. +.IP "\fB\s-1TMPDIR\s0\fR" 4 +.IX Item "TMPDIR" +If \fB\s-1TMPDIR\s0\fR is set, it specifies the directory to use for temporary +files. \s-1GCC\s0 uses temporary files to hold the output of one stage of +compilation which is to be used as input to the next stage: for example, +the output of the preprocessor, which is the input to the compiler +proper. +.IP "\fB\s-1GCC_COMPARE_DEBUG\s0\fR" 4 +.IX Item "GCC_COMPARE_DEBUG" +Setting \fB\s-1GCC_COMPARE_DEBUG\s0\fR is nearly equivalent to passing +\&\fB\-fcompare\-debug\fR to the compiler driver. See the documentation +of this option for more details. +.IP "\fB\s-1GCC_EXEC_PREFIX\s0\fR" 4 +.IX Item "GCC_EXEC_PREFIX" +If \fB\s-1GCC_EXEC_PREFIX\s0\fR is set, it specifies a prefix to use in the +names of the subprograms executed by the compiler. No slash is added +when this prefix is combined with the name of a subprogram, but you can +specify a prefix that ends with a slash if you wish. +.Sp +If \fB\s-1GCC_EXEC_PREFIX\s0\fR is not set, \s-1GCC\s0 attempts to figure out +an appropriate prefix to use based on the pathname it is invoked with. +.Sp +If \s-1GCC\s0 cannot find the subprogram using the specified prefix, it +tries looking in the usual places for the subprogram. +.Sp +The default value of \fB\s-1GCC_EXEC_PREFIX\s0\fR is +\&\fI\fIprefix\fI/lib/gcc/\fR where \fIprefix\fR is the prefix to +the installed compiler. In many cases \fIprefix\fR is the value +of \f(CW\*(C`prefix\*(C'\fR when you ran the \fIconfigure\fR script. +.Sp +Other prefixes specified with \fB\-B\fR take precedence over this prefix. +.Sp +This prefix is also used for finding files such as \fIcrt0.o\fR that are +used for linking. +.Sp +In addition, the prefix is used in an unusual way in finding the +directories to search for header files. For each of the standard +directories whose name normally begins with \fB/usr/local/lib/gcc\fR +(more precisely, with the value of \fB\s-1GCC_INCLUDE_DIR\s0\fR), \s-1GCC\s0 tries +replacing that beginning with the specified prefix to produce an +alternate directory name. Thus, with \fB\-Bfoo/\fR, \s-1GCC\s0 searches +\&\fIfoo/bar\fR just before it searches the standard directory +\&\fI/usr/local/lib/bar\fR. +If a standard directory begins with the configured +\&\fIprefix\fR then the value of \fIprefix\fR is replaced by +\&\fB\s-1GCC_EXEC_PREFIX\s0\fR when looking for header files. +.IP "\fB\s-1COMPILER_PATH\s0\fR" 4 +.IX Item "COMPILER_PATH" +The value of \fB\s-1COMPILER_PATH\s0\fR is a colon-separated list of +directories, much like \fB\s-1PATH\s0\fR. \s-1GCC\s0 tries the directories thus +specified when searching for subprograms, if it can't find the +subprograms using \fB\s-1GCC_EXEC_PREFIX\s0\fR. +.IP "\fB\s-1LIBRARY_PATH\s0\fR" 4 +.IX Item "LIBRARY_PATH" +The value of \fB\s-1LIBRARY_PATH\s0\fR is a colon-separated list of +directories, much like \fB\s-1PATH\s0\fR. When configured as a native compiler, +\&\s-1GCC\s0 tries the directories thus specified when searching for special +linker files, if it can't find them using \fB\s-1GCC_EXEC_PREFIX\s0\fR. Linking +using \s-1GCC\s0 also uses these directories when searching for ordinary +libraries for the \fB\-l\fR option (but directories specified with +\&\fB\-L\fR come first). +.IP "\fB\s-1LANG\s0\fR" 4 +.IX Item "LANG" +This variable is used to pass locale information to the compiler. One way in +which this information is used is to determine the character set to be used +when character literals, string literals and comments are parsed in C and \*(C+. +When the compiler is configured to allow multibyte characters, +the following values for \fB\s-1LANG\s0\fR are recognized: +.RS 4 +.IP "\fBC\-JIS\fR" 4 +.IX Item "C-JIS" +Recognize \s-1JIS\s0 characters. +.IP "\fBC\-SJIS\fR" 4 +.IX Item "C-SJIS" +Recognize \s-1SJIS\s0 characters. +.IP "\fBC\-EUCJP\fR" 4 +.IX Item "C-EUCJP" +Recognize \s-1EUCJP\s0 characters. +.RE +.RS 4 +.Sp +If \fB\s-1LANG\s0\fR is not defined, or if it has some other value, then the +compiler uses \f(CW\*(C`mblen\*(C'\fR and \f(CW\*(C`mbtowc\*(C'\fR as defined by the default locale to +recognize and translate multibyte characters. +.RE +.PP +Some additional environment variables affect the behavior of the +preprocessor. +.IP "\fB\s-1CPATH\s0\fR" 4 +.IX Item "CPATH" +.PD 0 +.IP "\fBC_INCLUDE_PATH\fR" 4 +.IX Item "C_INCLUDE_PATH" +.IP "\fB\s-1CPLUS_INCLUDE_PATH\s0\fR" 4 +.IX Item "CPLUS_INCLUDE_PATH" +.IP "\fB\s-1OBJC_INCLUDE_PATH\s0\fR" 4 +.IX Item "OBJC_INCLUDE_PATH" +.PD +Each variable's value is a list of directories separated by a special +character, much like \fB\s-1PATH\s0\fR, in which to look for header files. +The special character, \f(CW\*(C`PATH_SEPARATOR\*(C'\fR, is target-dependent and +determined at \s-1GCC\s0 build time. For Microsoft Windows-based targets it is a +semicolon, and for almost all other targets it is a colon. +.Sp +\&\fB\s-1CPATH\s0\fR specifies a list of directories to be searched as if +specified with \fB\-I\fR, but after any paths given with \fB\-I\fR +options on the command line. This environment variable is used +regardless of which language is being preprocessed. +.Sp +The remaining environment variables apply only when preprocessing the +particular language indicated. Each specifies a list of directories +to be searched as if specified with \fB\-isystem\fR, but after any +paths given with \fB\-isystem\fR options on the command line. +.Sp +In all these variables, an empty element instructs the compiler to +search its current working directory. Empty elements can appear at the +beginning or end of a path. For instance, if the value of +\&\fB\s-1CPATH\s0\fR is \f(CW\*(C`:/special/include\*(C'\fR, that has the same +effect as \fB\-I.\ \-I/special/include\fR. +.IP "\fB\s-1DEPENDENCIES_OUTPUT\s0\fR" 4 +.IX Item "DEPENDENCIES_OUTPUT" +If this variable is set, its value specifies how to output +dependencies for Make based on the non-system header files processed +by the compiler. System header files are ignored in the dependency +output. +.Sp +The value of \fB\s-1DEPENDENCIES_OUTPUT\s0\fR can be just a file name, in +which case the Make rules are written to that file, guessing the target +name from the source file name. Or the value can have the form +\&\fIfile\fR\fB \fR\fItarget\fR, in which case the rules are written to +file \fIfile\fR using \fItarget\fR as the target name. +.Sp +In other words, this environment variable is equivalent to combining +the options \fB\-MM\fR and \fB\-MF\fR, +with an optional \fB\-MT\fR switch too. +.IP "\fB\s-1SUNPRO_DEPENDENCIES\s0\fR" 4 +.IX Item "SUNPRO_DEPENDENCIES" +This variable is the same as \fB\s-1DEPENDENCIES_OUTPUT\s0\fR (see above), +except that system header files are not ignored, so it implies +\&\fB\-M\fR rather than \fB\-MM\fR. However, the dependence on the +main input file is omitted. +.SH "BUGS" +.IX Header "BUGS" +For instructions on reporting bugs, see +<\fBhttp://gcc.gnu.org/bugs.html\fR>. +.SH "FOOTNOTES" +.IX Header "FOOTNOTES" +.IP "1." 4 +On some systems, \fBgcc \-shared\fR +needs to build supplementary stub code for constructors to work. On +multi-libbed systems, \fBgcc \-shared\fR must select the correct support +libraries to link against. Failing to supply the correct flags may lead +to subtle defects. Supplying them in cases where they are not necessary +is innocuous. +.SH "SEE ALSO" +.IX Header "SEE ALSO" +\&\fIgpl\fR\|(7), \fIgfdl\fR\|(7), \fIfsf\-funding\fR\|(7), +\&\fIcpp\fR\|(1), \fIgcov\fR\|(1), \fIas\fR\|(1), \fIld\fR\|(1), \fIgdb\fR\|(1), \fIadb\fR\|(1), \fIdbx\fR\|(1), \fIsdb\fR\|(1) +and the Info entries for \fIgcc\fR, \fIcpp\fR, \fIas\fR, +\&\fIld\fR, \fIbinutils\fR and \fIgdb\fR. +.SH "AUTHOR" +.IX Header "AUTHOR" +See the Info entry for \fBgcc\fR, or +<\fBhttp://gcc.gnu.org/onlinedocs/gcc/Contributors.html\fR>, +for contributors to \s-1GCC.\s0 +.SH "COPYRIGHT" +.IX Header "COPYRIGHT" +Copyright (c) 1988\-2014 Free Software Foundation, Inc. +.PP +Permission is granted to copy, distribute and/or modify this document +under the terms of the \s-1GNU\s0 Free Documentation License, Version 1.3 or +any later version published by the Free Software Foundation; with the +Invariant Sections being \*(L"\s-1GNU\s0 General Public License\*(R" and \*(L"Funding +Free Software\*(R", the Front-Cover texts being (a) (see below), and with +the Back-Cover Texts being (b) (see below). A copy of the license is +included in the \fIgfdl\fR\|(7) man page. +.PP +(a) The \s-1FSF\s0's Front-Cover Text is: +.PP +.Vb 1 +\& A GNU Manual +.Ve +.PP +(b) The \s-1FSF\s0's Back-Cover Text is: +.PP +.Vb 3 +\& You have freedom to copy and modify this GNU Manual, like GNU +\& software. Copies published by the Free Software Foundation raise +\& funds for GNU development. +.Ve |