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------------------------------------------------------------------------------
-- --
-- GNAT COMPILER COMPONENTS --
-- --
-- L I B . W R I T --
-- --
-- B o d y --
-- --
-- $Revision$
-- --
-- Copyright (C) 1992-2001 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, 59 Temple Place - Suite 330, Boston, --
-- MA 02111-1307, USA. --
-- --
-- GNAT was originally developed by the GNAT team at New York University. --
-- It is now maintained by Ada Core Technologies Inc (http://www.gnat.com). --
-- --
------------------------------------------------------------------------------
with ALI; use ALI;
with Atree; use Atree;
with Casing; use Casing;
with Einfo; use Einfo;
with Errout; use Errout;
with Fname; use Fname;
with Fname.UF; use Fname.UF;
with Lib.Util; use Lib.Util;
with Lib.Xref; use Lib.Xref;
with Namet; use Namet;
with Nlists; use Nlists;
with Gnatvsn; use Gnatvsn;
with Opt; use Opt;
with Osint; use Osint;
with Par;
with Restrict; use Restrict;
with Scn; use Scn;
with Sinfo; use Sinfo;
with Sinput; use Sinput;
with Stringt; use Stringt;
with Targparm; use Targparm;
with Uname; use Uname;
with System.WCh_Con; use System.WCh_Con;
package body Lib.Writ is
------------------------------
-- Ensure_System_Dependency --
------------------------------
procedure Ensure_System_Dependency is
Discard : List_Id;
System_Uname : Unit_Name_Type;
-- Unit name for system spec if needed for dummy entry
System_Fname : File_Name_Type;
-- File name for system spec if needed for dummy entry
begin
-- Nothing to do if we already compiled System
for Unum in Units.First .. Last_Unit loop
if Units.Table (Unum).Source_Index = System_Source_File_Index then
return;
end if;
end loop;
-- If no entry for system.ads in the units table, then add a entry
-- to the units table for system.ads, which will be referenced when
-- the ali file is generated. We need this because every unit depends
-- on system as a result of Targparm scanning the system.ads file to
-- determine the target dependent parameters for the compilation.
Name_Len := 6;
Name_Buffer (1 .. 6) := "system";
System_Uname := Name_To_Unit_Name (Name_Enter);
System_Fname := File_Name (System_Source_File_Index);
Units.Increment_Last;
Units.Table (Units.Last) := (
Unit_File_Name => System_Fname,
Unit_Name => System_Uname,
Expected_Unit => System_Uname,
Source_Index => System_Source_File_Index,
Cunit => Empty,
Cunit_Entity => Empty,
Dependency_Num => 0,
Dependent_Unit => True,
Dynamic_Elab => False,
Fatal_Error => False,
Generate_Code => False,
Has_RACW => False,
Ident_String => Empty,
Loading => False,
Main_Priority => -1,
Serial_Number => 0,
Version => 0,
Error_Location => No_Location);
-- Parse system.ads so that the checksum is set right
Initialize_Scanner (Units.Last, System_Source_File_Index);
Discard := Par (Configuration_Pragmas => False);
end Ensure_System_Dependency;
---------------
-- Write_ALI --
---------------
procedure Write_ALI (Object : Boolean) is
----------------
-- Local Data --
----------------
Last_Unit : constant Unit_Number_Type := Units.Last;
-- Record unit number of last unit. We capture this in case we
-- have to add a dummy entry to the unit table for package System.
With_Flags : array (Units.First .. Last_Unit) of Boolean;
-- Array of flags to show which units are with'ed
Elab_Flags : array (Units.First .. Last_Unit) of Boolean;
-- Array of flags to show which units have pragma Elaborate set
Elab_All_Flags : array (Units.First .. Last_Unit) of Boolean;
-- Array of flags to show which units have pragma Elaborate All set
Elab_Des_Flags : array (Units.First .. Last_Unit) of Boolean;
-- Array of flags to show which units have Elaborate_All_Desirable set
Sdep_Table : Unit_Ref_Table (1 .. Pos (Last_Unit - Units.First + 2));
-- Sorted table of source dependencies. One extra entry in case we
-- have to add a dummy entry for System.
Num_Sdep : Nat := 0;
-- Number of active entries in Sdep_Table
-----------------------
-- Local Subprograms --
-----------------------
procedure Collect_Withs (Cunit : Node_Id);
-- Collect with lines for entries in the context clause of the
-- given compilation unit, Cunit.
procedure Update_Tables_From_ALI_File;
-- Given an up to date ALI file (see Up_To_Date_ALI_file_Exists
-- function), update tables from the ALI information, including
-- specifically the Compilation_Switches table.
function Up_To_Date_ALI_File_Exists return Boolean;
-- If there exists an ALI file that is up to date, then this function
-- initializes the tables in the ALI spec to contain information on
-- this file (using Scan_ALI) and returns True. If no file exists,
-- or the file is not up to date, then False is returned.
procedure Write_Unit_Information (Unit_Num : Unit_Number_Type);
-- Write out the library information for one unit for which code is
-- generated (includes unit line and with lines).
procedure Write_With_Lines;
-- Write out with lines collected by calls to Collect_Withs
-------------------
-- Collect_Withs --
-------------------
procedure Collect_Withs (Cunit : Node_Id) is
Item : Node_Id;
Unum : Unit_Number_Type;
begin
Item := First (Context_Items (Cunit));
while Present (Item) loop
if Nkind (Item) = N_With_Clause then
Unum := Get_Cunit_Unit_Number (Library_Unit (Item));
With_Flags (Unum) := True;
if Elaborate_Present (Item) then
Elab_Flags (Unum) := True;
end if;
if Elaborate_All_Present (Item) then
Elab_All_Flags (Unum) := True;
end if;
if Elaborate_All_Desirable (Cunit_Entity (Unum)) then
Elab_Des_Flags (Unum) := True;
end if;
end if;
Next (Item);
end loop;
end Collect_Withs;
--------------------------------
-- Up_To_Date_ALI_File_Exists --
--------------------------------
function Up_To_Date_ALI_File_Exists return Boolean is
Name : File_Name_Type;
Text : Text_Buffer_Ptr;
Id : Sdep_Id;
Sind : Source_File_Index;
begin
Opt.Check_Object_Consistency := True;
Read_Library_Info (Name, Text);
-- Return if we could not find an ALI file
if Text = null then
return False;
end if;
-- Return if ALI file has bad format
Initialize_ALI;
if Scan_ALI (Name, Text, False, Err => True) = No_ALI_Id then
return False;
end if;
-- If we have an OK ALI file, check if it is up to date
-- Note that we assume that the ALI read has all the entries
-- we have in our table, plus some additional ones (that can
-- come from expansion).
Id := First_Sdep_Entry;
for J in 1 .. Num_Sdep loop
Sind := Units.Table (Sdep_Table (J)).Source_Index;
while Sdep.Table (Id).Sfile /= File_Name (Sind) loop
if Id = Sdep.Last then
return False;
else
Id := Id + 1;
end if;
end loop;
if Sdep.Table (Id).Stamp /= Time_Stamp (Sind) then
return False;
end if;
end loop;
return True;
end Up_To_Date_ALI_File_Exists;
---------------------------------
-- Update_Tables_From_ALI_File --
---------------------------------
procedure Update_Tables_From_ALI_File is
begin
-- Build Compilation_Switches table
Compilation_Switches.Init;
for J in First_Arg_Entry .. Args.Last loop
Compilation_Switches.Increment_Last;
Compilation_Switches.Table (Compilation_Switches.Last) :=
Args.Table (J);
end loop;
end Update_Tables_From_ALI_File;
----------------------------
-- Write_Unit_Information --
----------------------------
procedure Write_Unit_Information (Unit_Num : Unit_Number_Type) is
Unode : constant Node_Id := Cunit (Unit_Num);
Ukind : constant Node_Kind := Nkind (Unit (Unode));
Uent : constant Entity_Id := Cunit_Entity (Unit_Num);
Pnode : Node_Id;
begin
Write_Info_Initiate ('U');
Write_Info_Char (' ');
Write_Info_Name (Unit_Name (Unit_Num));
Write_Info_Tab (25);
Write_Info_Name (Unit_File_Name (Unit_Num));
Write_Info_Tab (49);
Write_Info_Str (Version_Get (Unit_Num));
if Dynamic_Elab (Unit_Num) then
Write_Info_Str (" DE");
end if;
-- We set the Elaborate_Body indication if either an explicit pragma
-- was present, or if this is an instantiation. RM 12.3(20) requires
-- that the body be immediately elaborated after the spec. We would
-- normally do that anyway, but the EB we generate here ensures that
-- this gets done even when we use the -p gnatbind switch.
if Has_Pragma_Elaborate_Body (Uent)
or else (Ukind = N_Package_Declaration
and then Is_Generic_Instance (Uent)
and then Present (Corresponding_Body (Unit (Unode))))
then
Write_Info_Str (" EB");
end if;
-- Now see if we should tell the binder that an elaboration entity
-- is present, which must be reset to true during elaboration. We
-- generate the indication if the following condition is met:
-- If this is a spec ...
if (Is_Subprogram (Uent)
or else
Ekind (Uent) = E_Package
or else
Is_Generic_Unit (Uent))
-- and an elaboration entity was declared ...
and then Present (Elaboration_Entity (Uent))
-- and either the elaboration flag is required ...
and then
(Elaboration_Entity_Required (Uent)
-- or this unit has elaboration code ...
or else not Has_No_Elaboration_Code (Unode)
-- or this unit has a separate body and this
-- body has elaboration code.
or else
(Ekind (Uent) = E_Package
and then Present (Body_Entity (Uent))
and then
not Has_No_Elaboration_Code
(Parent
(Declaration_Node
(Body_Entity (Uent))))))
then
Write_Info_Str (" EE");
end if;
if Has_No_Elaboration_Code (Unode) then
Write_Info_Str (" NE");
end if;
if Is_Preelaborated (Uent) then
Write_Info_Str (" PR");
end if;
if Is_Pure (Uent) then
Write_Info_Str (" PU");
end if;
if Has_RACW (Unit_Num) then
Write_Info_Str (" RA");
end if;
if Is_Remote_Call_Interface (Uent) then
Write_Info_Str (" RC");
end if;
if Is_Remote_Types (Uent) then
Write_Info_Str (" RT");
end if;
if Is_Shared_Passive (Uent) then
Write_Info_Str (" SP");
end if;
if Ukind = N_Subprogram_Declaration
or else Ukind = N_Subprogram_Body
then
Write_Info_Str (" SU");
elsif Ukind = N_Package_Declaration
or else
Ukind = N_Package_Body
then
-- If this is a wrapper package for a subprogram instantiation,
-- the user view is the subprogram. Note that in this case the
-- ali file contains both the spec and body of the instance.
if Is_Wrapper_Package (Uent) then
Write_Info_Str (" SU");
else
Write_Info_Str (" PK");
end if;
elsif Ukind = N_Generic_Package_Declaration then
Write_Info_Str (" PK");
end if;
if Ukind in N_Generic_Declaration
or else
(Present (Library_Unit (Unode))
and then
Nkind (Unit (Library_Unit (Unode))) in N_Generic_Declaration)
then
Write_Info_Str (" GE");
end if;
if not Is_Internal_File_Name (Unit_File_Name (Unit_Num), True) then
case Identifier_Casing (Source_Index (Unit_Num)) is
when All_Lower_Case => Write_Info_Str (" IL");
when All_Upper_Case => Write_Info_Str (" IU");
when others => null;
end case;
case Keyword_Casing (Source_Index (Unit_Num)) is
when Mixed_Case => Write_Info_Str (" KM");
when All_Upper_Case => Write_Info_Str (" KU");
when others => null;
end case;
end if;
if Initialize_Scalars then
Write_Info_Str (" IS");
end if;
Write_Info_EOL;
-- Generate with lines, first those that are directly with'ed
for J in With_Flags'Range loop
With_Flags (J) := False;
Elab_Flags (J) := False;
Elab_All_Flags (J) := False;
Elab_Des_Flags (J) := False;
end loop;
Collect_Withs (Unode);
-- For a body, we must also check for any subunits which belong to
-- it and which have context clauses of their own, since these
-- with'ed units are part of its own elaboration dependencies.
if Nkind (Unit (Unode)) in N_Unit_Body then
for S in Units.First .. Last_Unit loop
-- We are only interested in subunits
if Nkind (Unit (Cunit (S))) = N_Subunit then
Pnode := Library_Unit (Cunit (S));
-- In gnatc mode, the errors in the subunits will not
-- have been recorded, but the analysis of the subunit
-- may have failed. There is no information to add to
-- ALI file in this case.
if No (Pnode) then
exit;
end if;
-- Find ultimate parent of the subunit
while Nkind (Unit (Pnode)) = N_Subunit loop
Pnode := Library_Unit (Pnode);
end loop;
-- See if it belongs to current unit, and if so, include
-- its with_clauses.
if Pnode = Unode then
Collect_Withs (Cunit (S));
end if;
end if;
end loop;
end if;
Write_With_Lines;
end Write_Unit_Information;
----------------------
-- Write_With_Lines --
----------------------
procedure Write_With_Lines is
With_Table : Unit_Ref_Table (1 .. Pos (Last_Unit - Units.First + 1));
Num_Withs : Int := 0;
Unum : Unit_Number_Type;
Cunit : Node_Id;
Cunite : Entity_Id;
Uname : Unit_Name_Type;
Fname : File_Name_Type;
Pname : constant Unit_Name_Type :=
Get_Parent_Spec_Name (Unit_Name (Main_Unit));
Body_Fname : File_Name_Type;
begin
-- Loop to build the with table. A with on the main unit itself
-- is ignored (AARM 10.2(14a)). Such a with-clause can occur if
-- the main unit is a subprogram with no spec, and a subunit of
-- it unecessarily withs the parent.
for J in Units.First + 1 .. Last_Unit loop
-- Add element to with table if it is with'ed or if it is the
-- parent spec of the main unit (case of main unit is a child
-- unit). The latter with is not needed for semantic purposes,
-- but is required by the binder for elaboration purposes.
if (With_Flags (J) or else Unit_Name (J) = Pname)
and then Units.Table (J).Dependent_Unit
then
Num_Withs := Num_Withs + 1;
With_Table (Num_Withs) := J;
end if;
end loop;
-- Sort and output the table
Sort (With_Table (1 .. Num_Withs));
for J in 1 .. Num_Withs loop
Unum := With_Table (J);
Cunit := Units.Table (Unum).Cunit;
Cunite := Units.Table (Unum).Cunit_Entity;
Uname := Units.Table (Unum).Unit_Name;
Fname := Units.Table (Unum).Unit_File_Name;
Write_Info_Initiate ('W');
Write_Info_Char (' ');
Write_Info_Name (Uname);
-- Now we need to figure out the names of the files that contain
-- the with'ed unit. These will usually be the files for the body,
-- except in the case of a package that has no body.
if (Nkind (Unit (Cunit)) not in N_Generic_Declaration
and then
Nkind (Unit (Cunit)) not in N_Generic_Renaming_Declaration)
or else Generic_Separately_Compiled (Cunite)
then
Write_Info_Tab (25);
if Is_Spec_Name (Uname) then
Body_Fname :=
Get_File_Name (Get_Body_Name (Uname), Subunit => False);
else
Body_Fname := Get_File_Name (Uname, Subunit => False);
end if;
-- A package is considered to have a body if it requires
-- a body or if a body is present in Ada 83 mode.
if Body_Required (Cunit)
or else (Ada_83
and then Full_Source_Name (Body_Fname) /= No_File)
then
Write_Info_Name (Body_Fname);
Write_Info_Tab (49);
Write_Info_Name (Lib_File_Name (Body_Fname));
else
Write_Info_Name (Fname);
Write_Info_Tab (49);
Write_Info_Name (Lib_File_Name (Fname));
end if;
if Elab_Flags (Unum) then
Write_Info_Str (" E");
end if;
if Elab_All_Flags (Unum) then
Write_Info_Str (" EA");
end if;
if Elab_Des_Flags (Unum) then
Write_Info_Str (" ED");
end if;
end if;
Write_Info_EOL;
end loop;
end Write_With_Lines;
-- Start of processing for Writ_ALI
begin
-- Build sorted source dependency table. We do this right away,
-- because it is referenced by Up_To_Date_ALI_File_Exists.
for Unum in Units.First .. Last_Unit loop
Num_Sdep := Num_Sdep + 1;
Sdep_Table (Num_Sdep) := Unum;
end loop;
-- Sort the table so that the D lines are in order
Lib.Sort (Sdep_Table (1 .. Num_Sdep));
-- If we are not generating code, and there is an up to date
-- ali file accessible, read it, and acquire the compilation
-- arguments from this file.
if Operating_Mode /= Generate_Code then
if Up_To_Date_ALI_File_Exists then
Update_Tables_From_ALI_File;
return;
end if;
end if;
-- Otherwise acquire compilation arguments and prepare to write
-- out a new ali file.
Create_Output_Library_Info;
-- Output version line
Write_Info_Initiate ('V');
Write_Info_Str (" """);
Write_Info_Str (Library_Version);
Write_Info_Char ('"');
Write_Info_EOL;
-- Output main program line if this is acceptable main program
declare
U : Node_Id := Unit (Units.Table (Main_Unit).Cunit);
S : Node_Id;
procedure M_Parameters;
-- Output parameters for main program line
procedure M_Parameters is
begin
if Main_Priority (Main_Unit) /= Default_Main_Priority then
Write_Info_Char (' ');
Write_Info_Nat (Main_Priority (Main_Unit));
end if;
if Opt.Time_Slice_Set then
Write_Info_Str (" T=");
Write_Info_Nat (Opt.Time_Slice_Value);
end if;
Write_Info_Str (" W=");
Write_Info_Char
(WC_Encoding_Letters (Wide_Character_Encoding_Method));
Write_Info_EOL;
end M_Parameters;
begin
if Nkind (U) = N_Subprogram_Body
or else (Nkind (U) = N_Package_Body
and then
(Nkind (Original_Node (U)) = N_Function_Instantiation
or else
Nkind (Original_Node (U)) =
N_Procedure_Instantiation))
then
-- If the unit is a subprogram instance, the entity for the
-- subprogram is the alias of the visible entity, which is the
-- related instance of the wrapper package. We retrieve the
-- subprogram declaration of the desired entity.
if Nkind (U) = N_Package_Body then
U := Parent (Parent (
Alias (Related_Instance (Defining_Unit_Name
(Specification (Unit (Library_Unit (Parent (U)))))))));
end if;
S := Specification (U);
if not Present (Parameter_Specifications (S)) then
if Nkind (S) = N_Procedure_Specification then
Write_Info_Initiate ('M');
Write_Info_Str (" P");
M_Parameters;
else
declare
Nam : Node_Id := Defining_Unit_Name (S);
begin
-- If it is a child unit, get its simple name.
if Nkind (Nam) = N_Defining_Program_Unit_Name then
Nam := Defining_Identifier (Nam);
end if;
if Is_Integer_Type (Etype (Nam)) then
Write_Info_Initiate ('M');
Write_Info_Str (" F");
M_Parameters;
end if;
end;
end if;
end if;
end if;
end;
-- Write command argmument ('A') lines
for A in 1 .. Compilation_Switches.Last loop
Write_Info_Initiate ('A');
Write_Info_Char (' ');
Write_Info_Str (Compilation_Switches.Table (A).all);
Write_Info_Terminate;
end loop;
-- Output parameters ('P') line
Write_Info_Initiate ('P');
if Compilation_Errors then
Write_Info_Str (" CE");
end if;
if Opt.Float_Format /= ' ' then
Write_Info_Str (" F");
if Opt.Float_Format = 'I' then
Write_Info_Char ('I');
elsif Opt.Float_Format_Long = 'D' then
Write_Info_Char ('D');
else
Write_Info_Char ('G');
end if;
end if;
if Tasking_Used
and then not Is_Predefined_File_Name (Unit_File_Name (Main_Unit))
then
if Locking_Policy /= ' ' then
Write_Info_Str (" L");
Write_Info_Char (Locking_Policy);
end if;
if Queuing_Policy /= ' ' then
Write_Info_Str (" Q");
Write_Info_Char (Queuing_Policy);
end if;
if Task_Dispatching_Policy /= ' ' then
Write_Info_Str (" T");
Write_Info_Char (Task_Dispatching_Policy);
Write_Info_Char (' ');
end if;
end if;
if not Object then
Write_Info_Str (" NO");
end if;
if No_Run_Time then
Write_Info_Str (" NR");
end if;
if Normalize_Scalars then
Write_Info_Str (" NS");
end if;
if Unreserve_All_Interrupts then
Write_Info_Str (" UA");
end if;
if ZCX_By_Default_On_Target then
if Unit_Exception_Table_Present then
Write_Info_Str (" UX");
end if;
Write_Info_Str (" ZX");
end if;
Write_Info_EOL;
-- Output restrictions line
Write_Info_Initiate ('R');
Write_Info_Char (' ');
for J in Partition_Restrictions loop
if Main_Restrictions (J) then
Write_Info_Char ('r');
elsif Violations (J) then
Write_Info_Char ('v');
else
Write_Info_Char ('n');
end if;
end loop;
Write_Info_EOL;
-- Loop through file table to output information for all units for which
-- we have generated code, as marked by the Generate_Code flag.
for Unit in Units.First .. Last_Unit loop
if Units.Table (Unit).Generate_Code
or else Unit = Main_Unit
then
Write_Info_EOL; -- blank line
Write_Unit_Information (Unit);
end if;
end loop;
Write_Info_EOL; -- blank line
-- Output linker option lines
for J in 1 .. Linker_Option_Lines.Last loop
declare
S : constant String_Id := Linker_Option_Lines.Table (J);
C : Character;
begin
Write_Info_Initiate ('L');
Write_Info_Str (" """);
for J in 1 .. String_Length (S) loop
C := Get_Character (Get_String_Char (S, J));
if C in Character'Val (16#20#) .. Character'Val (16#7E#)
and then C /= '{'
then
Write_Info_Char (C);
if C = '"' then
Write_Info_Char (C);
end if;
else
declare
Hex : array (0 .. 15) of Character := "0123456789ABCDEF";
begin
Write_Info_Char ('{');
Write_Info_Char (Hex (Character'Pos (C) / 16));
Write_Info_Char (Hex (Character'Pos (C) mod 16));
Write_Info_Char ('}');
end;
end if;
end loop;
Write_Info_Char ('"');
Write_Info_EOL;
end;
end loop;
-- Output external version reference lines
for J in 1 .. Version_Ref.Last loop
Write_Info_Initiate ('E');
Write_Info_Char (' ');
for K in 1 .. String_Length (Version_Ref.Table (J)) loop
Write_Info_Char_Code (Get_String_Char (Version_Ref.Table (J), K));
end loop;
Write_Info_EOL;
end loop;
-- Prepare to output the source dependency lines
declare
Unum : Unit_Number_Type;
-- Number of unit being output
Sind : Source_File_Index;
-- Index of corresponding source file
begin
for J in 1 .. Num_Sdep loop
Unum := Sdep_Table (J);
Units.Table (Unum).Dependency_Num := J;
Sind := Units.Table (Unum).Source_Index;
Write_Info_Initiate ('D');
Write_Info_Char (' ');
-- Normal case of a dependent unit entry with a source index
if Sind /= No_Source_File
and then Units.Table (Unum).Dependent_Unit
then
Write_Info_Name (File_Name (Sind));
Write_Info_Tab (25);
Write_Info_Str (String (Time_Stamp (Sind)));
Write_Info_Char (' ');
Write_Info_Str (Get_Hex_String (Source_Checksum (Sind)));
-- If subunit, add unit name, omitting the %b at the end
if Present (Cunit (Unum))
and then Nkind (Unit (Cunit (Unum))) = N_Subunit
then
Get_Decoded_Name_String (Unit_Name (Unum));
Write_Info_Char (' ');
Write_Info_Str (Name_Buffer (1 .. Name_Len - 2));
end if;
-- If Source_Reference pragma used output information
if Num_SRef_Pragmas (Sind) > 0 then
Write_Info_Char (' ');
if Num_SRef_Pragmas (Sind) = 1 then
Write_Info_Nat (Int (First_Mapped_Line (Sind)));
else
Write_Info_Nat (0);
end if;
Write_Info_Char (':');
Write_Info_Name (Reference_Name (Sind));
end if;
-- Case where there is no source index (happens for missing files)
-- Also come here for non-dependent units.
else
Write_Info_Name (Unit_File_Name (Unum));
Write_Info_Tab (25);
Write_Info_Str (String (Dummy_Time_Stamp));
Write_Info_Char (' ');
Write_Info_Str (Get_Hex_String (0));
end if;
Write_Info_EOL;
end loop;
end;
Output_References;
Write_Info_Terminate;
Close_Output_Library_Info;
end Write_ALI;
end Lib.Writ;