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|
------------------------------------------------------------------------------
-- --
-- GNAT COMPILER COMPONENTS --
-- --
-- S I N P U T . L --
-- --
-- B o d y --
-- --
-- Copyright (C) 1992-2024, 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 3, 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 COPYING3. If not, go to --
-- http://www.gnu.org/licenses for a complete copy of the license. --
-- --
-- GNAT was originally developed by the GNAT team at New York University. --
-- Extensive contributions were provided by Ada Core Technologies Inc. --
-- --
------------------------------------------------------------------------------
with Alloc;
with Atree; use Atree;
with Debug; use Debug;
with Einfo; use Einfo;
with Einfo.Entities; use Einfo.Entities;
with Einfo.Utils; use Einfo.Utils;
with Errout; use Errout;
with Fname; use Fname;
with Lib; use Lib;
with Opt; use Opt;
with Osint; use Osint;
with Output; use Output;
with Prep; use Prep;
with Prepcomp; use Prepcomp;
with Scans; use Scans;
with Scn; use Scn;
with Sem_Aux; use Sem_Aux;
with Sem_Util; use Sem_Util;
with Sinfo; use Sinfo;
with Sinfo.Nodes; use Sinfo.Nodes;
with Snames; use Snames;
with System; use System;
with System.OS_Lib; use System.OS_Lib;
package body Sinput.L is
Prep_Buffer : Text_Buffer_Ptr := null;
-- A buffer to temporarily stored the result of preprocessing a source.
-- It is only allocated if there is at least one source to preprocess.
Prep_Buffer_Last : Text_Ptr := 0;
-- Index of the last significant character in Prep_Buffer
Initial_Size_Of_Prep_Buffer : constant := 10_000;
-- Size of Prep_Buffer when it is first allocated
-- When a file is to be preprocessed and the options to list symbols
-- has been selected (switch -s), Prep.List_Symbols is called with a
-- "foreword", a single line indicating what source the symbols apply to.
-- The following two constant String are the start and the end of this
-- foreword.
Foreword_Start : constant String :=
"Preprocessing Symbols for source """;
Foreword_End : constant String := """";
-----------------
-- Subprograms --
-----------------
procedure Put_Char_In_Prep_Buffer (C : Character);
-- Add one character in Prep_Buffer, extending Prep_Buffer if need be.
-- Used to initialize the preprocessor.
procedure New_EOL_In_Prep_Buffer;
-- Add an LF to Prep_Buffer (used to initialize the preprocessor)
function Load_File
(N : File_Name_Type;
T : Osint.File_Type) return Source_File_Index;
-- Load a source file, a configuration pragmas file or a definition file
-- Coding also allows preprocessing file, but not a library file ???
-------------------------------
-- Adjust_Instantiation_Sloc --
-------------------------------
procedure Adjust_Instantiation_Sloc
(N : Node_Id;
Factor : Sloc_Adjustment)
is
Loc : constant Source_Ptr := Sloc (N);
begin
-- We only do the adjustment if the value is between the appropriate low
-- and high values. It is not clear that this should ever not be the
-- case, but in practice there seem to be some nodes that get copied
-- twice, and this is a defence against that happening.
if Loc in Factor.Lo .. Factor.Hi then
Set_Sloc (N, Loc + Factor.Adjust);
end if;
end Adjust_Instantiation_Sloc;
--------------------------------
-- Complete_Source_File_Entry --
--------------------------------
procedure Complete_Source_File_Entry is
CSF : constant Source_File_Index := Current_Source_File;
begin
Trim_Lines_Table (CSF);
Source_File.Table (CSF).Source_Checksum := Checksum;
end Complete_Source_File_Entry;
---------------------------------
-- Create_Instantiation_Source --
---------------------------------
procedure Create_Instantiation_Source
(Inst_Node : Entity_Id;
Template_Id : Entity_Id;
Factor : out Sloc_Adjustment;
Inlined_Body : Boolean := False;
Inherited_Pragma : Boolean := False)
is
Dnod : constant Node_Id := Declaration_Node (Template_Id);
Xold : Source_File_Index;
Xnew : Source_File_Index;
begin
Xold := Get_Source_File_Index (Sloc (Template_Id));
Factor.Lo := Source_File.Table (Xold).Source_First;
Factor.Hi := Source_File.Table (Xold).Source_Last;
Source_File.Append (Source_File.Table (Xold));
Xnew := Source_File.Last;
if Debug_Flag_L then
Write_Eol;
Write_Str ("*** Create_Instantiation_Source: created source ");
Write_Int (Int (Xnew));
Write_Line ("");
end if;
declare
Sold : Source_File_Record renames Source_File.Table (Xold);
Snew : Source_File_Record renames Source_File.Table (Xnew);
Inst_Spec : Node_Id;
begin
Snew.Index := Xnew;
Snew.Inlined_Body := Inlined_Body;
Snew.Inherited_Pragma := Inherited_Pragma;
Snew.Template := Xold;
-- For a genuine generic instantiation, assign new instance id. For
-- inlined bodies or inherited pragmas, we retain that of the
-- template, but we save the call location.
if Inlined_Body or Inherited_Pragma then
Snew.Inlined_Call := Sloc (Inst_Node);
else
-- If the spec has been instantiated already, and we are now
-- creating the instance source for the corresponding body now,
-- retrieve the instance id that was assigned to the spec, which
-- corresponds to the same instantiation sloc.
Inst_Spec := Instance_Spec (Inst_Node);
if Present (Inst_Spec) then
declare
Inst_Spec_Ent : Entity_Id;
-- Instance spec entity
Inst_Spec_Sloc : Source_Ptr;
-- Virtual sloc of the spec instance source
Inst_Spec_Inst_Id : Instance_Id;
-- Instance id assigned to the instance spec
begin
Inst_Spec_Ent := Defining_Entity (Inst_Spec);
-- For a subprogram instantiation, we want the subprogram
-- instance, not the wrapper package.
if Present (Related_Instance (Inst_Spec_Ent)) then
Inst_Spec_Ent := Related_Instance (Inst_Spec_Ent);
end if;
-- The specification of the instance entity has a virtual
-- sloc within the instance sloc range.
-- ??? But the Unit_Declaration_Node has the sloc of the
-- instantiation, which is somewhat of an oddity.
Inst_Spec_Sloc :=
Sloc
(Specification (Unit_Declaration_Node (Inst_Spec_Ent)));
Inst_Spec_Inst_Id :=
Source_File.Table
(Get_Source_File_Index (Inst_Spec_Sloc)).Instance;
pragma Assert
(Sloc (Inst_Node) = Instances.Table (Inst_Spec_Inst_Id));
Snew.Instance := Inst_Spec_Inst_Id;
end;
else
Instances.Append (Sloc (Inst_Node));
Snew.Instance := Instances.Last;
end if;
end if;
-- Now compute the new values of Source_First and Source_Last and
-- adjust the source file pointer to have the correct bounds for the
-- new range of values.
-- Source_First must be greater than the last Source_Last value and
-- also must be a multiple of Source_Align.
Snew.Source_First :=
((Source_File.Table (Xnew - 1).Source_Last + Source_Align) /
Source_Align) * Source_Align;
Factor.Adjust := Snew.Source_First - Factor.Lo;
Snew.Source_Last := Factor.Hi + Factor.Adjust;
Set_Source_File_Index_Table (Xnew);
Snew.Sloc_Adjust := Sold.Sloc_Adjust - Factor.Adjust;
-- Modify the Dope of the instance Source_Text to use the
-- above-computed bounds.
declare
Dope : constant Dope_Ptr :=
new Dope_Rec'(Snew.Source_First, Snew.Source_Last);
begin
Snew.Source_Text := Sold.Source_Text;
Set_Dope (Snew.Source_Text'Address, Dope);
pragma Assert (Snew.Source_Text'First = Snew.Source_First);
pragma Assert (Snew.Source_Text'Last = Snew.Source_Last);
end;
if Debug_Flag_L then
Write_Str (" for ");
if Nkind (Dnod) in N_Proper_Body
and then Was_Originally_Stub (Dnod)
then
Write_Str ("subunit ");
elsif Ekind (Template_Id) = E_Generic_Package then
if Nkind (Dnod) = N_Package_Body then
Write_Str ("body of package ");
else
Write_Str ("spec of package ");
end if;
elsif Ekind (Template_Id) = E_Function then
Write_Str ("body of function ");
elsif Ekind (Template_Id) = E_Procedure then
Write_Str ("body of procedure ");
elsif Ekind (Template_Id) = E_Generic_Function then
Write_Str ("spec of function ");
elsif Ekind (Template_Id) = E_Generic_Procedure then
Write_Str ("spec of procedure ");
elsif Ekind (Template_Id) = E_Package_Body then
Write_Str ("body of package ");
else pragma Assert (Ekind (Template_Id) = E_Subprogram_Body);
if Nkind (Dnod) = N_Procedure_Specification then
Write_Str ("body of procedure ");
else
Write_Str ("body of function ");
end if;
end if;
Write_Name (Chars (Template_Id));
Write_Eol;
Write_Str (" copying from file name = ");
Write_Name (File_Name (Xold));
Write_Eol;
Write_Str (" old source index = ");
Write_Int (Int (Xold));
Write_Eol;
Write_Str (" old lo = ");
Write_Int (Int (Factor.Lo));
Write_Eol;
Write_Str (" old hi = ");
Write_Int (Int (Factor.Hi));
Write_Eol;
Write_Str (" new lo = ");
Write_Int (Int (Snew.Source_First));
Write_Eol;
Write_Str (" new hi = ");
Write_Int (Int (Snew.Source_Last));
Write_Eol;
Write_Str (" adjustment factor = ");
Write_Int (Int (Factor.Adjust));
Write_Eol;
Write_Str (" instantiation location: ");
Write_Location (Sloc (Inst_Node));
Write_Eol;
end if;
end;
end Create_Instantiation_Source;
----------------------
-- Load_Config_File --
----------------------
function Load_Config_File
(N : File_Name_Type) return Source_File_Index
is
begin
return Load_File (N, Osint.Config);
end Load_Config_File;
--------------------------
-- Load_Definition_File --
--------------------------
function Load_Definition_File
(N : File_Name_Type) return Source_File_Index
is
begin
return Load_File (N, Osint.Definition);
end Load_Definition_File;
---------------
-- Load_File --
---------------
function Load_File
(N : File_Name_Type;
T : Osint.File_Type) return Source_File_Index
is
FD : File_Descriptor;
Hi : Source_Ptr;
Lo : Source_Ptr;
Src : Source_Buffer_Ptr;
X : Source_File_Index;
Preprocessing_Needed : Boolean := False;
begin
-- If already there, don't need to reload file. An exception occurs
-- in multiple unit per file mode. It would be nice in this case to
-- share the same source file for each unit, but this leads to many
-- difficulties with assumptions (e.g. in the body of lib), that a
-- unit can be found by locating its source file index. Since we do
-- not expect much use of this mode, it's no big deal to waste a bit
-- of space and time by reading and storing the source multiple times.
if Multiple_Unit_Index = 0 then
for J in 1 .. Source_File.Last loop
if Source_File.Table (J).File_Name = N then
return J;
end if;
end loop;
end if;
-- Here we must build a new entry in the file table
-- But first, we must check if a source needs to be preprocessed,
-- because we may have to load and parse a definition file, and we want
-- to do that before we load the source, so that the buffer of the
-- source will be the last created, and we will be able to replace it
-- and modify Hi without stepping on another buffer.
if T = Osint.Source and then not Is_Internal_File_Name (N) then
Prepare_To_Preprocess
(Source => N, Preprocessing_Needed => Preprocessing_Needed);
end if;
Source_File.Increment_Last;
X := Source_File.Last;
if Debug_Flag_L then
Write_Eol;
Write_Str ("Sinput.L.Load_File: created source ");
Write_Int (Int (X));
Write_Str (" for ");
Write_Str (Get_Name_String (N));
end if;
-- Compute starting index, respecting alignment requirement
if X = Source_File.First then
Lo := First_Source_Ptr;
else
Lo := ((Source_File.Table (X - 1).Source_Last + Source_Align) /
Source_Align) * Source_Align;
end if;
Osint.Read_Source_File (N, Lo, Hi, Src, FD, T);
if Null_Source_Buffer_Ptr (Src) then
Source_File.Decrement_Last;
if FD = Osint.Null_FD then
return No_Source_File;
else
return No_Access_To_Source_File;
end if;
else
if Debug_Flag_L then
Write_Eol;
Write_Str ("*** Build source file table entry, Index = ");
Write_Int (Int (X));
Write_Str (", file name = ");
Write_Name (N);
Write_Eol;
Write_Str (" lo = ");
Write_Int (Int (Lo));
Write_Eol;
Write_Str (" hi = ");
Write_Int (Int (Hi));
Write_Eol;
Write_Str (" first 10 chars -->");
declare
procedure Wchar (C : Character);
-- Writes character or ? for control character
-----------
-- Wchar --
-----------
procedure Wchar (C : Character) is
begin
if C < ' '
or else C in ASCII.DEL .. Character'Val (16#9F#)
then
Write_Char ('?');
else
Write_Char (C);
end if;
end Wchar;
begin
for J in Lo .. Lo + 9 loop
Wchar (Src (J));
end loop;
Write_Str ("<--");
Write_Eol;
Write_Str (" last 10 chars -->");
for J in Hi - 10 .. Hi - 1 loop
Wchar (Src (J));
end loop;
Write_Str ("<--");
Write_Eol;
if Src (Hi) /= EOF then
Write_Str (" error: no EOF at end");
Write_Eol;
end if;
end;
end if;
declare
S : Source_File_Record renames Source_File.Table (X);
File_Type : Type_Of_File;
begin
case T is
when Osint.Source =>
File_Type := Sinput.Src;
when Osint.Library =>
raise Program_Error;
when Osint.Config =>
File_Type := Sinput.Config;
when Osint.Definition =>
File_Type := Def;
when Osint.Preprocessing_Data =>
File_Type := Preproc;
end case;
S := (Debug_Source_Name => N,
File_Name => N,
File_Type => File_Type,
First_Mapped_Line => No_Line_Number,
Full_Debug_Name => Osint.Full_Source_Name,
Full_File_Name => Osint.Full_Source_Name,
Full_Ref_Name => Osint.Full_Source_Name,
Instance => No_Instance_Id,
Identifier_Casing => Unknown,
Inlined_Call => No_Location,
Inlined_Body => False,
Inherited_Pragma => False,
Keyword_Casing => Unknown,
Last_Source_Line => 1,
License => Unknown,
Lines_Table => null,
Lines_Table_Max => 1,
Logical_Lines_Table => null,
Num_SRef_Pragmas => 0,
Reference_Name => N,
Sloc_Adjust => 0,
Source_Checksum => 0,
Source_First => Lo,
Source_Last => Hi,
Source_Text => Src,
Template => No_Source_File,
Unit => No_Unit,
Time_Stamp => Osint.Current_Source_File_Stamp,
Index => X);
Alloc_Line_Tables (S, Opt.Table_Factor * Alloc.Lines_Initial);
S.Lines_Table (1) := Lo;
end;
-- Preprocess the source if it needs to be preprocessed
if Preprocessing_Needed then
-- Temporarily set the Source_File_Index_Table entries for the
-- source, to avoid crash when reporting an error.
Set_Source_File_Index_Table (X);
if Opt.List_Preprocessing_Symbols then
declare
Foreword : constant String :=
Foreword_Start & Get_Name_String (N) & Foreword_End;
begin
Prep.List_Symbols (Foreword);
end;
end if;
declare
T : constant Nat := Total_Errors_Detected;
-- Used to check if there were errors during preprocessing
Save_Style_Check : Boolean;
-- Saved state of the Style_Check flag (which needs to be
-- temporarily set to False during preprocessing, see below).
Modified : Boolean;
begin
-- If this is the first time we preprocess a source, allocate
-- the preprocessing buffer.
if Prep_Buffer = null then
Prep_Buffer :=
new Text_Buffer (1 .. Initial_Size_Of_Prep_Buffer);
end if;
-- Make sure the preprocessing buffer is empty
Prep_Buffer_Last := 0;
-- Initialize the preprocessor hooks
Prep.Setup_Hooks
(Error_Msg => Errout.Error_Msg'Access,
Scan => Scn.Scanner.Scan'Access,
Set_Ignore_Errors => Errout.Set_Ignore_Errors'Access,
Put_Char => Put_Char_In_Prep_Buffer'Access,
New_EOL => New_EOL_In_Prep_Buffer'Access);
-- Initialize scanner and set its behavior for preprocessing,
-- then preprocess. Also disable style checks, since some of
-- them are done in the scanner (specifically, those dealing
-- with line length and line termination), and cannot be done
-- during preprocessing (because the source file index table
-- has not been set yet).
Scn.Scanner.Initialize_Scanner (X);
Scn.Scanner.Set_Special_Character ('#');
Scn.Scanner.Set_Special_Character ('$');
Scn.Scanner.Set_End_Of_Line_As_Token (True);
Save_Style_Check := Opt.Style_Check;
Opt.Style_Check := False;
-- The actual preprocessing step
Preprocess (Modified);
-- Reset the scanner to its standard behavior, and restore the
-- Style_Checks flag.
Scn.Scanner.Reset_Special_Characters;
Scn.Scanner.Set_End_Of_Line_As_Token (False);
Opt.Style_Check := Save_Style_Check;
-- If there were errors during preprocessing, record an error
-- at the start of the file, and do not change the source
-- buffer.
if T /= Total_Errors_Detected then
Errout.Error_Msg
("file could not be successfully preprocessed", Lo);
return No_Source_File;
else
-- Output the result of the preprocessing, if requested and
-- the source has been modified by the preprocessing. Only
-- do that for the main unit (spec, body and subunits).
if Generate_Processed_File
and then Modified
and then
((Compiler_State = Parsing
and then Parsing_Main_Extended_Source)
or else
(Compiler_State = Analyzing
and then Analysing_Subunit_Of_Main))
then
declare
FD : File_Descriptor;
NB : Integer;
Status : Boolean;
Prep_Filename : constant String :=
Get_Name_String (N) & Prep_Suffix;
begin
Delete_File (Prep_Filename, Status);
FD := Create_New_File (Prep_Filename, Text);
Status := FD /= Invalid_FD;
if Status then
NB :=
Write
(FD,
Prep_Buffer (1)'Address,
Integer (Prep_Buffer_Last));
Status := NB = Integer (Prep_Buffer_Last);
end if;
if Status then
Close (FD, Status);
end if;
if not Status then
Errout.Error_Msg
("??could not write processed file """ &
Name_Buffer (1 .. Name_Len) & '"',
Lo);
end if;
end;
end if;
-- Set the new value of Hi
Hi := Lo + Source_Ptr (Prep_Buffer_Last);
-- Create the new source buffer
declare
Var_Ptr : constant Source_Buffer_Ptr_Var :=
new Source_Buffer (Lo .. Hi);
-- Allocate source buffer, allowing extra character at
-- end for EOF.
begin
Var_Ptr (Lo .. Hi - 1) :=
Prep_Buffer (1 .. Prep_Buffer_Last);
Var_Ptr (Hi) := EOF;
Src := Var_Ptr.all'Access;
end;
-- Record in the table the new source buffer and the
-- new value of Hi.
Source_File.Table (X).Source_Text := Src;
Source_File.Table (X).Source_Last := Hi;
-- Reset Last_Line to 1, because the lines do not
-- have necessarily the same starts and lengths.
Source_File.Table (X).Last_Source_Line := 1;
end if;
end;
end if;
Set_Source_File_Index_Table (X);
return X;
end if;
end Load_File;
----------------------------------
-- Load_Preprocessing_Data_File --
----------------------------------
function Load_Preprocessing_Data_File
(N : File_Name_Type) return Source_File_Index
is
begin
return Load_File (N, Osint.Preprocessing_Data);
end Load_Preprocessing_Data_File;
----------------------
-- Load_Source_File --
----------------------
function Load_Source_File
(N : File_Name_Type) return Source_File_Index
is
begin
return Load_File (N, Osint.Source);
end Load_Source_File;
----------------------------
-- New_EOL_In_Prep_Buffer --
----------------------------
procedure New_EOL_In_Prep_Buffer is
begin
Put_Char_In_Prep_Buffer (ASCII.LF);
end New_EOL_In_Prep_Buffer;
-----------------------------
-- Put_Char_In_Prep_Buffer --
-----------------------------
procedure Put_Char_In_Prep_Buffer (C : Character) is
begin
-- If preprocessing buffer is not large enough, double it
if Prep_Buffer_Last = Prep_Buffer'Last then
declare
New_Prep_Buffer : constant Text_Buffer_Ptr :=
new Text_Buffer (1 .. 2 * Prep_Buffer_Last);
begin
New_Prep_Buffer (Prep_Buffer'Range) := Prep_Buffer.all;
Free (Prep_Buffer);
Prep_Buffer := New_Prep_Buffer;
end;
end if;
Prep_Buffer_Last := Prep_Buffer_Last + 1;
Prep_Buffer (Prep_Buffer_Last) := C;
end Put_Char_In_Prep_Buffer;
-------------------------
-- Source_File_Is_Body --
-------------------------
function Source_File_Is_Body (X : Source_File_Index) return Boolean is
Pcount : Natural;
begin
Initialize_Scanner (No_Unit, X);
-- Loop to look for subprogram or package body
loop
case Token is
-- PRAGMA, WITH, USE (which can appear before a body)
when Tok_Pragma
| Tok_Use
| Tok_With
=>
-- We just want to skip any of these, do it by skipping to a
-- semicolon, but check for EOF, in case we have bad syntax.
loop
if Token = Tok_Semicolon then
Scan;
exit;
elsif Token = Tok_EOF then
return False;
else
Scan;
end if;
end loop;
-- PACKAGE
when Tok_Package =>
Scan; -- Past PACKAGE
-- We have a body if and only if BODY follows
return Token = Tok_Body;
-- FUNCTION or PROCEDURE
when Tok_Function
| Tok_Procedure
=>
Pcount := 0;
-- Loop through tokens following PROCEDURE or FUNCTION
loop
Scan;
case Token is
-- For parens, count paren level (note that paren level
-- can get greater than 1 if we have default parameters).
when Tok_Left_Paren =>
Pcount := Pcount + 1;
when Tok_Right_Paren =>
Pcount := Pcount - 1;
-- EOF means something weird, probably no body
when Tok_EOF =>
return False;
-- BEGIN or IS or END definitely means body is present
when Tok_Begin
| Tok_End
| Tok_Is
=>
return True;
-- Semicolon means no body present if at outside any
-- parens. If within parens, ignore, since it could be
-- a parameter separator.
when Tok_Semicolon =>
if Pcount = 0 then
return False;
end if;
-- Skip anything else
when others =>
null;
end case;
end loop;
-- Anything else in main scan means we don't have a body
when others =>
return False;
end case;
end loop;
end Source_File_Is_Body;
----------------------------
-- Source_File_Is_No_Body --
----------------------------
function Source_File_Is_No_Body (X : Source_File_Index) return Boolean is
begin
Initialize_Scanner (No_Unit, X);
if Token /= Tok_Pragma then
return False;
end if;
Scan; -- past pragma
if Token /= Tok_Identifier
or else Chars (Token_Node) /= Name_No_Body
then
return False;
end if;
Scan; -- past No_Body
if Token /= Tok_Semicolon then
return False;
end if;
Scan; -- past semicolon
return Token = Tok_EOF;
end Source_File_Is_No_Body;
end Sinput.L;
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