/* Generate code to allocate RTL structures. Copyright (C) 1997-2014 Free Software Foundation, Inc. This file is part of GCC. GCC is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 3, or (at your option) any later version. GCC is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with GCC; see the file COPYING3. If not see . */ #include "bconfig.h" #include "system.h" struct rtx_definition { const char *const enumname, *const name, *const format; }; /* rtl.def needs CONST_DOUBLE_FORMAT, but we don't care what CONST_DOUBLE_FORMAT is because we're not going to be generating anything for CONST_DOUBLE anyway. */ #define CONST_DOUBLE_FORMAT "" #define DEF_RTL_EXPR(ENUM, NAME, FORMAT, CLASS) { #ENUM, NAME, FORMAT }, static const struct rtx_definition defs[] = { #include "rtl.def" /* rtl expressions are documented here */ }; #define NUM_RTX_CODE ARRAY_SIZE (defs) static const char *formats[NUM_RTX_CODE]; /* Decode a format letter into a C type string. */ static const char * type_from_format (int c) { switch (c) { case 'i': return "int "; case 'w': return "HOST_WIDE_INT "; case 's': return "const char *"; case 'e': case 'u': return "rtx "; case 'E': return "rtvec "; case 't': return "tree "; case 'B': return "basic_block "; default: gcc_unreachable (); } } /* Decode a format letter into the proper accessor function. */ static const char * accessor_from_format (int c) { switch (c) { case 'i': return "XINT"; case 'w': return "XWINT"; case 's': return "XSTR"; case 'e': case 'u': return "XEXP"; case 'E': return "XVEC"; case 't': return "XTREE"; case 'B': return "XBBDEF"; default: gcc_unreachable (); } } /* Return nonzero if we should ignore FMT, an RTL format, when making the list of formats we write routines to create. */ static int special_format (const char *fmt) { return (strchr (fmt, '*') != 0 || strchr (fmt, 'V') != 0 || strchr (fmt, 'S') != 0 || strchr (fmt, 'n') != 0); } /* Return nonzero if the RTL code given by index IDX is one that we should generate a gen_rtx_raw_FOO macro for, not gen_rtx_FOO (because gen_rtx_FOO is a wrapper in emit-rtl.c). */ static int special_rtx (int idx) { return (strcmp (defs[idx].enumname, "CONST_INT") == 0 || strcmp (defs[idx].enumname, "REG") == 0 || strcmp (defs[idx].enumname, "SUBREG") == 0 || strcmp (defs[idx].enumname, "MEM") == 0 || strcmp (defs[idx].enumname, "PC") == 0 || strcmp (defs[idx].enumname, "CC0") == 0 || strcmp (defs[idx].enumname, "RETURN") == 0 || strcmp (defs[idx].enumname, "SIMPLE_RETURN") == 0 || strcmp (defs[idx].enumname, "CONST_VECTOR") == 0); } /* Return nonzero if the RTL code given by index IDX is one that we should generate no macro for at all (because gen_rtx_FOO is never used or cannot have the obvious interface). */ static int excluded_rtx (int idx) { return ((strcmp (defs[idx].enumname, "CONST_DOUBLE") == 0) || (strcmp (defs[idx].enumname, "CONST_FIXED") == 0)); } /* Place a list of all format specifiers we use into the array FORMAT. */ static void find_formats (void) { unsigned int i; for (i = 0; i < NUM_RTX_CODE; i++) { const char **f; if (special_format (defs[i].format)) continue; for (f = formats; *f; f++) if (! strcmp (*f, defs[i].format)) break; if (*f == 0) *f = defs[i].format; } } /* Generate macros to generate RTL of code IDX using the functions we write. */ static void genmacro (int idx) { const char *p; int i; /* We write a macro that defines gen_rtx_RTLCODE to be an equivalent to gen_rtx_fmt_FORMAT where FORMAT is the RTX_FORMAT of RTLCODE. */ if (excluded_rtx (idx)) /* Don't define a macro for this code. */ return; printf ("#define gen_rtx_%s%s(MODE", special_rtx (idx) ? "raw_" : "", defs[idx].enumname); for (p = defs[idx].format, i = 0; *p != 0; p++) if (*p != '0') printf (", ARG%d", i++); printf (") \\\n gen_rtx_fmt_%s (%s, (MODE)", defs[idx].format, defs[idx].enumname); for (p = defs[idx].format, i = 0; *p != 0; p++) if (*p != '0') printf (", (ARG%d)", i++); puts (")"); } /* Generate the code for the function to generate RTL whose format is FORMAT. */ static void gendef (const char *format) { const char *p; int i, j; /* Start by writing the definition of the function name and the types of the arguments. */ printf ("static inline rtx\ngen_rtx_fmt_%s_stat (RTX_CODE code, enum machine_mode mode", format); for (p = format, i = 0; *p != 0; p++) if (*p != '0') printf (",\n\t%sarg%d", type_from_format (*p), i++); puts (" MEM_STAT_DECL)"); /* Now write out the body of the function itself, which allocates the memory and initializes it. */ puts ("{"); puts (" rtx rt;"); puts (" rt = rtx_alloc_stat (code PASS_MEM_STAT);\n"); puts (" PUT_MODE (rt, mode);"); for (p = format, i = j = 0; *p ; ++p, ++i) if (*p != '0') printf (" %s (rt, %d) = arg%d;\n", accessor_from_format (*p), i, j++); else printf (" X0EXP (rt, %d) = NULL_RTX;\n", i); puts ("\n return rt;\n}\n"); printf ("#define gen_rtx_fmt_%s(c, m", format); for (p = format, i = 0; *p != 0; p++) if (*p != '0') printf (", p%i",i++); printf (")\\\n gen_rtx_fmt_%s_stat (c, m", format); for (p = format, i = 0; *p != 0; p++) if (*p != '0') printf (", p%i",i++); printf (" MEM_STAT_INFO)\n\n"); } /* Generate the documentation header for files we write. */ static void genlegend (void) { puts ("/* Generated automatically by gengenrtl from rtl.def. */\n"); } /* Generate the text of the header file we make, genrtl.h. */ static void genheader (void) { unsigned int i; const char **fmt; puts ("#ifndef GCC_GENRTL_H"); puts ("#define GCC_GENRTL_H\n"); puts ("#include \"statistics.h\"\n"); for (fmt = formats; *fmt; ++fmt) gendef (*fmt); putchar ('\n'); for (i = 0; i < NUM_RTX_CODE; i++) if (! special_format (defs[i].format)) genmacro (i); puts ("\n#endif /* GCC_GENRTL_H */"); } /* This is the main program. */ int main (void) { find_formats (); genlegend (); genheader (); if (ferror (stdout) || fflush (stdout) || fclose (stdout)) return FATAL_EXIT_CODE; return SUCCESS_EXIT_CODE; }