From f378ebf14df0952eae870c9865bab8326aa8f137 Mon Sep 17 00:00:00 2001 From: Dan Albert Date: Wed, 17 Jun 2015 11:09:54 -0700 Subject: Delete old versions of GCC. Change-Id: I710f125d905290e1024cbd67f48299861790c66c --- gcc-4.2.1/gcc/ada/lib-writ.ads | 670 ----------------------------------------- 1 file changed, 670 deletions(-) delete mode 100644 gcc-4.2.1/gcc/ada/lib-writ.ads (limited to 'gcc-4.2.1/gcc/ada/lib-writ.ads') diff --git a/gcc-4.2.1/gcc/ada/lib-writ.ads b/gcc-4.2.1/gcc/ada/lib-writ.ads deleted file mode 100644 index 90737ed12..000000000 --- a/gcc-4.2.1/gcc/ada/lib-writ.ads +++ /dev/null @@ -1,670 +0,0 @@ ------------------------------------------------------------------------------- --- -- --- GNAT COMPILER COMPONENTS -- --- -- --- L I B . W R I T -- --- -- --- S p e c -- --- -- --- Copyright (C) 1992-2005, Free Software Foundation, Inc. -- --- -- --- GNAT is free software; you can redistribute it and/or modify it under -- --- terms of the GNU General Public License as published by the Free Soft- -- --- ware Foundation; either version 2, or (at your option) any later ver- -- --- sion. GNAT is distributed in the hope that it will be useful, but WITH- -- --- OUT 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 distributed with GNAT; see file COPYING. If not, write -- --- to the Free Software Foundation, 51 Franklin Street, Fifth Floor, -- --- Boston, MA 02110-1301, USA. -- --- -- --- GNAT was originally developed by the GNAT team at New York University. -- --- Extensive contributions were provided by Ada Core Technologies Inc. -- --- -- ------------------------------------------------------------------------------- - --- This package contains the routines for writing the library information - -package Lib.Writ is - - ----------------------------------- - -- Format of Library Information -- - ----------------------------------- - - -- This section describes the format of the library information that is - -- associated with object files. The exact method of this association is - -- potentially implementation dependent and is described and implemented - -- in package ali. From the point of view of the description here, all we - -- need to know is that the information is represented as a string of - -- characters that is somehow associated with an object file, and can be - -- retrieved. If no library information exists for a given object file, - -- then we take this as equivalent to the non-existence of the object - -- file, as if source file has not been previously compiled. - - -- The library information is written as a series of lines of the form: - - -- Key_Character parameter parameter ... - - -- The following sections describe the format of these lines in detail - - -------------------------------------- - -- Making Changes to the ALI Format -- - -------------------------------------- - - -- A number of tools use ali.adb to parse ali files. This means - -- that changes to this format can cause old versions of these tools - -- to be incompatible with new versions of the compiler. Any changes - -- to ali file formats must be carefully evaluated to understand any - -- such possible conflicts, and in particular, it is very undesirable - -- to create conflicts between older versions of GPS and newer versions - -- of the compiler. - - -- If the following guidelines are respected, downward compatibility - -- problems (old tools reading new ali files) should be minimized: - - -- The basic key character format must be kept - - -- The V line must be the first line, this is checked by ali.adb - -- even in Ignore_Errors mode, and is used to verify that the file - -- at hand is indeed likely intended to be an ali file. - - -- The P line must be present, though may be modified in contents - -- according to remaining guidelines. Again, ali.adb assumes the - -- P line is present even in Ignore_Errors mode. - - -- New modifiers can generally be added (in particular adding new - -- two letter modifiers to the P or U lines is always safe) - - -- Adding entirely new lines (with a new key letter) to the ali - -- file is always safe, at any point (other than before the V - -- line), since suchy lines will be ignored. - - -- Following the guidelines in this section should ensure that this - -- problem is minimized and that old tools will be able to deal - -- successfully with new ali formats. Note that this does not apply - -- to the compiler itself, which always requires consistency between - -- the ali files and the binder. That is because one of the main - -- functions of the binder is to ensure consistency of the partition, - -- and this can be compromised if the ali files are inconsistent. - - ------------------ - -- Header Lines -- - ------------------ - - -- The initial header lines in the file give information about the - -- compilation environment, and identify other special information - -- such as main program parameters. - - -- ---------------- - -- -- V Version -- - -- ---------------- - - -- V "xxxxxxxxxxxxxxxx" - -- - -- This line indicates the library output version, as defined in - -- Gnatvsn. It ensures that separate object modules of a program are - -- consistent. It has to be changed if anything changes which would - -- affect successful binding of separately compiled modules. - -- Examples of such changes are modifications in the format of the - -- library info described in this package, or modifications to - -- calling sequences, or to the way that data is represented. - - -- Note: the V line absolutely must be the first line, and no change - -- to the ALI format should change this, since even in Ignore_Errors - -- mode, Scan_ALI insists on finding a V line. - - -- --------------------- - -- -- M Main Program -- - -- --------------------- - - -- M type [priority] [T=time-slice] W=? - - -- This line appears only if the main unit for this file is - -- suitable for use as a main program. The parameters are: - - -- type - - -- P for a parameterless procedure - -- F for a function returning a value of integral type - -- (used for writing a main program returning an exit status) - - -- priority - - -- Present only if there was a valid pragma Priority in the - -- corresponding unit to set the main task priority. It is - -- an unsigned decimal integer. - - -- T=time-slice - - -- Present only if there was a valid pragma Time_Slice in the - -- corresponding unit. It is an unsigned decimal integer in - -- the range 0 .. 10**9 giving the time slice value in units - -- of milliseconds. The actual significance of this parameter - -- is target dependent. - - -- W=? - - -- This parameter indicates the wide character encoding - -- method used when compiling the main program file. The ? - -- character is the single character used in the -gnatW? - -- switch. This is used to provide the default wide-character - -- encoding for Wide_Text_IO files. - - -- ----------------- - -- -- A Argument -- - -- ----------------- - - -- A argument - - -- One of these lines appears for each of the arguments present - -- in the call to the gnat1 program. This can be used if it is - -- necessary to reconstruct this call (e.g. for fix and continue) - - -- ------------------- - -- -- P Parameters -- - -- ------------------- - - -- P <> - - -- Indicates various information that applies to the compilation - -- of the corresponding source unit. Parameters is a sequence of - -- zero or more two letter codes that indicate configuration - -- pragmas and other parameters that apply: - -- - -- The arguments are as follows: - -- - -- CE Compilation errors. If this is present it means that the - -- ali file resulted from a compilation with the -gnatQ - -- switch set, and illegalities were detected. The ali - -- file contents may not be completely reliable, but the - -- format will be correct and complete. Note that NO is - -- always present if CE is present. - -- - -- DB Detect_Blocking pragma is in effect for all units in - -- this file. - -- - -- FD Configuration pragmas apply to all the units in this - -- file specifying a possibly non-standard floating point - -- format (VAX float with Long_Float using D_Float) - -- - -- FG Configuration pragmas apply to all the units in this - -- file specifying a possibly non-standard floating point - -- format (VAX float with Long_Float using G_Float) - -- - -- FI Configuration pragmas apply to all the units in this - -- file specifying a possibly non-standard floating point - -- format (IEEE Float) - -- - -- Lx A valid Locking_Policy pragma applies to all the units - -- in this file, where x is the first character (upper case) - -- of the policy name (e.g. 'C' for Ceiling_Locking) - -- - -- NO No object. This flag indicates that the units in this - -- file were not compiled to produce an object. This can - -- occur as a result of the use of -gnatc, or if no object - -- can be produced (e.g. when a package spec is compiled - -- instead of the body, or a subunit on its own). - -- - -- NR No_Run_Time. Indicates that a pragma No_Run_Time applies - -- to all units in the file. - -- - -- NS Normalize_Scalars pragma in effect for all units in - -- this file - -- - -- Qx A valid Queueing_Policy pragma applies to all the units - -- in this file, where x is the first character (upper case) - -- of the policy name (e.g. 'P' for Priority_Queueing). - -- - -- SL Indicates that the unit is an Interface to a Standalone - -- Library. Note that this indication is never given by the - -- compiler, but is added by the Project Manager in gnatmake - -- when an Interface ALI file is copied to the library - -- directory. - - -- SS This unit references System.Secondary_Stack (that is, - -- the unit makes use of the secondary stack facilities). - -- - -- Tx A valid Task_Dispatching_Policy pragma applies to all - -- the units in this file, where x is the first character - -- (upper case) of the corresponding policy name (e.g. 'F' - -- for FIFO_Within_Priorities). - -- - -- UA Unreserve_All_Interrupts pragma was processed in one or - -- more units in this file - -- - -- ZX Units in this file use zero-cost exceptions and have - -- generated exception tables. If ZX is not present, the - -- longjmp/setjmp exception scheme is in use. - -- - -- Note that language defined units never output policy (Lx,Tx,Qx) - -- parameters. Language defined units must correctly handle all - -- possible cases. These values are checked for consistency by the - -- binder and then copied to the generated binder output file. - - -- Note: The P line must be present. Even in Ignore_Errors mode, - -- Scan_ALI insists on finding a P line. So if changes are made to - -- the ALI format, they should not include removing the P line! - - -- --------------------- - -- -- R Restrictions -- - -- --------------------- - - -- The first R line records the status of restrictions generated by pragma - -- Restrictions encountered, as well as information on what the compiler - -- has been able to determine with respect to restrictions violations. - -- The format is: - - -- R <> <> - - -- The first parameter is a string of characters that records - -- information regarding restrictions that do not take parameter - -- not take parameter values. It is a string of characters, one - -- character for each value (in order) in All_Boolean_Restrictions. - -- There are three possible settings for each restriction: - - -- r Restricted. Unit was compiled under control of a pragma - -- Restrictions for the corresponding restriction. In - -- this case the unit certainly does not violate the - -- Restriction, since this would have been detected by - -- the compiler. - - -- n Not used. The unit was not compiled under control of a - -- pragma Restrictions for the corresponding restriction, - -- and does not make any use of the referenced feature. - - -- v Violated. The unit was not compiled under control of a - -- pragma Restrictions for the corresponding restriction, - -- and it does indeed use the referenced feature. - - -- This information is used in the binder to check consistency, - -- i.e. to detect cases where one unit has "r" and another unit - -- has "v", which is not permitted, since these restrictions - -- are partition-wide. - - -- The second parameter, which immediately follows the first (with - -- no separating space) gives restriction information for identifiers - -- for which a parameter is given. - - -- The parameter is a string of entries, one for each value in - -- Restrict.All_Parameter_Restrictions. Each entry has two - -- components in sequence, the first indicating whether or not - -- there is a restriction, and the second indicating whether - -- or not the compiler detected violations. In the boolean case - -- it is not necessary to separate these, since if a restriction - -- is set, and violated, that is an error. But in the parameter - -- case, this is not true. For example, we can have a unit with - -- a pragma Restrictions (Max_Tasks => 4), where the compiler - -- can detect that there are exactly three tasks declared. Both - -- of these pieces of information must be passed to the binder. - -- The parameter of 4 is important in case the total number of - -- tasks in the partition is greater than 4. The parameter of - -- 3 is important in case some other unit has a restrictions - -- pragma with Max_Tasks=>2. - - -- The component for the presence of restriction has one of two - -- possible forms: - - -- n No pragma for this restriction is present in the - -- set of units for this ali file. - - -- rN At least one pragma for this restriction is present - -- in the set of units for this ali file. The value N - -- is the minimum parameter value encountered in any - -- such pragma. N is in the range of Integer (a value - -- larger than N'Last causes the pragma to be ignored). - - -- The component for the violation detection has one of three - -- possible forms: - - -- n No violations were detected by the compiler - - -- vN A violation was detected. N is either the maximum or total - -- count of violations (depending on the checking type) in - -- all the units represented by the ali file). Note that - -- this setting is only allowed for restrictions that are - -- in Checked_[Max|Sum]_Parameter_Restrictions. The value - -- here is known to be exact by the compiler and is in the - -- range of Natural. - - -- vN+ A violation was detected. The compiler cannot determine - -- the exact count of violations, but it is at least N. - - -- There are no spaces within the parameter string, so the entry - -- described above in the header of this section for Max_Tasks would - -- appear as the string r4v3. - - -- Note: The restrictions line is required to be present. Even in - -- Ignore_Errors mode, Scan_ALI expects to find an R line and will - -- signal a fatal error if it is missing. This means that future - -- changes to the ALI file format must retain the R line. - - -- Subsequent R lines are present only if pragma Restriction No_Dependence - -- is used. There is one such line for each such pragma appearing in the - -- extended main unit. The format is - - -- R unit_name - - -- Here the unit name is in all lower case. The components of the unit - -- name are separated by periods. The names themselves are in encoded - -- form, as documented in Namet. - - -- ------------------------ - -- -- I Interrupt States -- - -- ------------------------ - - -- I interrupt-number interrupt-state line-number - - -- This line records information from an Interrupt_State pragma. - -- There is one line for each separate pragma, and if no such - -- pragmas are used, then no I lines are present. - - -- The interrupt-number is an unsigned positive integer giving - -- the value of the interrupt as defined in Ada.Interrupts.Names. - - -- The interrupt-state is one of r/s/u for Runtime/System/User - - -- The line number is an unsigned decimal integer giving the - -- line number of the corresponding Interrupt_State pragma. - -- This is used in consistency messages. - - ---------------------------- - -- Compilation Unit Lines -- - ---------------------------- - - -- Following these header lines, a set of information lines appears for - -- each compilation unit that appears in the corresponding object file. - -- In particular, when a package body or subprogram body is compiled, - -- there will be two sets of information, one for the spec and one for - -- the body. with the entry for the body appearing first. This is the - -- only case in which a single ALI file contains more than one unit (in - -- particular note that subunits do *not* count as compilation units for - -- this purpose, and generate no library information, since they are - -- inlined). - - -- -------------------- - -- -- U Unit Header -- - -- -------------------- - - -- The lines for each compilation unit have the following form - - -- U unit-name source-name version <> - -- - -- This line identifies the unit to which this section of the - -- library information file applies. The first three parameters are - -- the unit name in internal format, as described in package Uname, - -- and the name of the source file containing the unit. - -- - -- Version is the version given as eight hexadecimal characters - -- with upper case letters. This value is the exclusive or of the - -- source checksums of the unit and all its semantically dependent - -- units. - -- - -- The <> are a series of two letter codes indicating - -- information about the unit: - -- - -- DE Dynamic Elaboration. This unit was compiled with the - -- dynamic elaboration model, as set by either the -gnatE - -- switch or pragma Elaboration_Checks (Dynamic). - -- - -- EB Unit has pragma Elaborate_Body - -- - -- EE Elaboration entity is present which must be set true when - -- the unit is elaborated. The name of the elaboration entity - -- is formed from the unit name in the usual way. If EE is - -- present, then this boolean must be set True as part of the - -- elaboration processing routine generated by the binder. - -- Note that EE can be set even if NE is set. This happens - -- when the boolean is needed solely for checking for the - -- case of access before elaboration. - -- - -- GE Unit is a generic declaration, or corresponding body - -- - -- IL Unit source uses a style with identifiers in all lower - -- IU case (IL) or all upper case (IU). If the standard mixed- - -- case usage is detected, or the compiler cannot determine - -- the style, then no I parameter will appear. - -- - -- IS Initialize_Scalars pragma applies to this unit - -- - -- KM Unit source uses a style with keywords in mixed case - -- KU (KM) or all upper case (KU). If the standard lower-case - -- usage is detected, or the compiler cannot determine the - -- style, then no K parameter will appear. - -- - -- NE Unit has no elaboration routine. All subprogram bodies - -- and specs are in this category. Package bodies and specs - -- may or may not have NE set, depending on whether or not - -- elaboration code is required. Set if N_Compilation_Unit - -- node has flag Has_No_Elaboration_Code set. - -- - -- PK Unit is package, rather than a subprogram - -- - -- PU Unit has pragma Pure - -- - -- PR Unit has pragma Preelaborate - -- - -- RA Unit declares a Remote Access to Class-Wide (RACW) type - -- - -- RC Unit has pragma Remote_Call_Interface - -- - -- RT Unit has pragma Remote_Types - -- - -- SP Unit has pragma Shared_Passive. - -- - -- SU Unit is a subprogram, rather than a package - -- - -- The attributes may appear in any order, separated by spaces. - - -- --------------------- - -- -- W Withed Units -- - -- --------------------- - - -- Following each U line, is a series of lines of the form - - -- W unit-name [source-name lib-name] [E] [EA] [ED] [AD] - -- - -- One of these lines is present for each unit that is mentioned in - -- an explicit with clause by the current unit. The first parameter - -- is the unit name in internal format. The second parameter is the - -- file name of the file that must be compiled to compile this unit. - -- It is usually the file for the body, except for packages - -- which have no body; for units that need a body, if the source file - -- for the body cannot be found, the file name of the spec is used - -- instead. The third parameter is the file name of the library - -- information file that contains the results of compiling this unit. - -- The optional modifiers are used as follows: - -- - -- E pragma Elaborate applies to this unit - -- - -- EA pragma Elaborate_All applies to this unit - -- - -- ED Elaborate_Desirable set for this unit, which means - -- that there is no Elaborate, but the analysis suggests - -- that Program_Error may be raised if the Elaborate - -- conditions cannot be satisfied. The binder will attempt - -- to treat ED as E if it can. - -- - -- AD Elaborate_All_Desirable set for this unit, which means - -- that there is no Elaborate_All, but the analysis suggests - -- that Program_Error may be raised if the Elaborate_All - -- conditions cannot be satisfied. The binder will attempt - -- to treat AD as EA if it can. - -- - -- The parameter source-name and lib-name are omitted for the case - -- of a generic unit compiled with earlier versions of GNAT which - -- did not generate object or ali files for generics. - - -- ----------------------- - -- -- L Linker_Options -- - -- ----------------------- - - -- Following the W lines (if any, or the U line if not), are an - -- optional series of lines that indicates the usage of the pragma - -- Linker_Options in the associated unit. For each appearence of a - -- pragma Linker_Options (or Link_With) in the unit, a line is - -- present with the form: - - -- L "string" - - -- where string is the string from the unit line enclosed in quotes. - -- Within the quotes the following can occur: - - -- c graphic characters in range 20-7E other than " or { - -- "" indicating a single " character - -- {hh} indicating a character whose code is hex hh (0-9,A-F) - -- {00} [ASCII.NUL] is used as a separator character - -- to separate multiple arguments of a single - -- Linker_Options pragma. - - -- For further details, see Stringt.Write_String_Table_Entry. Note - -- that wide characters in the form {hhhh} cannot be produced, since - -- pragma Linker_Option accepts only String, not Wide_String. - - -- The L lines are required to appear in the same order as the - -- corresponding Linker_Options (or Link_With) pragmas appear in - -- the source file, so that this order is preserved by the binder - -- in constructing the set of linker arguments. - - --------------------- - -- Reference Lines -- - --------------------- - - -- The reference lines contain information about references from - -- any of the units in the compilation (including, body version - -- and version attributes, linker options pragmas and source - -- dependencies. - - -- ------------------------------------ - -- -- E External Version References -- - -- ------------------------------------ - - -- One of these lines is present for each use of 'Body_Version or - -- 'Version in any of the units of the compilation. These are used - -- by the linker to determine which version symbols must be output. - -- The format is simply: - - -- E name - - -- where name is the external name, i.e. the unit name with either - -- a S or a B for spec or body version referenced (Body_Version - -- always references the body, Version references the Spec, except - -- in the case of a reference to a subprogram with no separate spec). - -- Upper half and wide character codes are encoded using the same - -- method as in Namet (Uhh for upper half, Whhhh for wide character, - -- where hh are hex digits). - - -- --------------------- - -- -- D Dependencies -- - -- --------------------- - - -- The dependency lines indicate the source files on which the compiled - -- units depend. This is used by the binder for consistency checking. - -- These lines are also referenced by the cross-reference information. - - -- D source-name time-stamp checksum [subunit-name] line:file-name - - -- The time-stamp field contains the time stamp of the - -- corresponding source file. See types.ads for details on - -- time stamp representation. - - -- The checksum is an 8-hex digit representation of the source - -- file checksum, with letters given in lower case. - - -- The subunit name is present only if the dependency line is for - -- a subunit. It contains the fully qualified name of the subunit - -- in all lower case letters. - - -- The line:file-name entry is present only if a Source_Reference - -- pragma appeared in the source file identified by source-name. - -- In this case, it gives the information from this pragma. Note - -- that this allows cross-reference information to be related back - -- to the original file. Note: the reason the line number comes - -- first is that a leading digit immediately identifies this as - -- a Source_Reference entry, rather than a subunit-name. - - -- A line number of zero for line: in this entry indicates that - -- there is more than one source reference pragma. In this case, - -- the line numbers in the cross-reference are correct, and refer - -- to the original line number, but there is no information that - -- allows a reader of the ALI file to determine the exact mapping - -- of physical line numbers back to the original source. - - -- Files with a zero checksum and a non-zero time stamp are in general - -- files on which the compilation depends but which are not Ada files - -- with further dependencies. This includes preprocessor data files - -- and preprocessor definition files. - - -- Note: blank lines are ignored when the library information is - -- read, and separate sections of the file are separated by blank - -- lines to ease readability. Blanks between fields are also - -- ignored. - - -- For entries corresponding to files that were not present (and - -- thus resulted in error messages), or for files that are not - -- part of the dependency set, both the time stamp and checksum - -- are set to all zero characters. These dummy entries are ignored - -- by the binder in dependency checking, but must be present for - -- proper interpretation of the cross-reference data. - - -------------------------- - -- Cross-Reference Data -- - -------------------------- - - -- The cross-reference data follows the dependency lines. See - -- the spec of Lib.Xref for details on the format of this data. - - ---------------------- - -- Global_Variables -- - ---------------------- - - -- The table structure defined here stores one entry for each - -- Interrupt_State pragma encountered either in the main source or - -- in an ancillary with'ed source. Since interrupt state values - -- have to be consistent across all units in a partition, we may - -- as well detect inconsistencies at compile time when we can. - - type Interrupt_State_Entry is record - Interrupt_Number : Pos; - -- Interrupt number value - - Interrupt_State : Character; - -- Set to r/s/u for Runtime/System/User - - Pragma_Loc : Source_Ptr; - -- Location of pragma setting this value in place - end record; - - package Interrupt_States is new Table.Table ( - Table_Component_Type => Interrupt_State_Entry, - Table_Index_Type => Nat, - Table_Low_Bound => 1, - Table_Initial => 30, - Table_Increment => 200, - Table_Name => "Name_Interrupt_States"); - - ----------------- - -- Subprograms -- - ----------------- - - procedure Ensure_System_Dependency; - -- This procedure ensures that a dependency is created on system.ads. - -- Even if there is no semantic dependency, Targparm has read the - -- file to acquire target parameters, so we need a source dependency. - - procedure Write_ALI (Object : Boolean); - -- This procedure writes the library information for the current main unit - -- The Object parameter is true if an object file is created, and false - -- otherwise. - -- - -- Note: in the case where we are not generating code (-gnatc mode), this - -- routine only writes an ALI file if it cannot find an existing up to - -- date ALI file. If it *can* find an existing up to date ALI file, then - -- it reads this file and sets the Lib.Compilation_Arguments table from - -- the A lines in this file. - - procedure Add_Preprocessing_Dependency (S : Source_File_Index); - -- Indicate that there is a dependency to be added on a preprocessing - -- data file or on a preprocessing definition file. - -end Lib.Writ; -- cgit v1.2.3