[testsuite]
[official-gcc.git] / gcc / ada / osint.adb
blob0c23761b6dc50f39e970e18931dbdce16c6f17c1
1 ------------------------------------------------------------------------------
2 -- --
3 -- GNAT COMPILER COMPONENTS --
4 -- --
5 -- O S I N T --
6 -- --
7 -- B o d y --
8 -- --
9 -- Copyright (C) 1992-2018, Free Software Foundation, Inc. --
10 -- --
11 -- GNAT is free software; you can redistribute it and/or modify it under --
12 -- terms of the GNU General Public License as published by the Free Soft- --
13 -- ware Foundation; either version 3, or (at your option) any later ver- --
14 -- sion. GNAT is distributed in the hope that it will be useful, but WITH- --
15 -- OUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY --
16 -- or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License --
17 -- for more details. You should have received a copy of the GNU General --
18 -- Public License distributed with GNAT; see file COPYING3. If not, go to --
19 -- http://www.gnu.org/licenses for a complete copy of the license. --
20 -- --
21 -- GNAT was originally developed by the GNAT team at New York University. --
22 -- Extensive contributions were provided by Ada Core Technologies Inc. --
23 -- --
24 ------------------------------------------------------------------------------
26 with Alloc;
27 with Debug;
28 with Fmap; use Fmap;
29 with Gnatvsn; use Gnatvsn;
30 with Hostparm;
31 with Opt; use Opt;
32 with Output; use Output;
33 with Sdefault; use Sdefault;
34 with Table;
35 with Targparm; use Targparm;
37 with Unchecked_Conversion;
39 pragma Warnings (Off);
40 -- This package is used also by gnatcoll
41 with System.Case_Util; use System.Case_Util;
42 with System.CRTL;
43 pragma Warnings (On);
45 with GNAT.HTable;
47 package body Osint is
49 use type CRTL.size_t;
51 Running_Program : Program_Type := Unspecified;
52 -- comment required here ???
54 Program_Set : Boolean := False;
55 -- comment required here ???
57 Std_Prefix : String_Ptr;
58 -- Standard prefix, computed dynamically the first time Relocate_Path
59 -- is called, and cached for subsequent calls.
61 Empty : aliased String := "";
62 No_Dir : constant String_Ptr := Empty'Access;
63 -- Used in Locate_File as a fake directory when Name is already an
64 -- absolute path.
66 -------------------------------------
67 -- Use of Name_Find and Name_Enter --
68 -------------------------------------
70 -- This package creates a number of source, ALI and object file names
71 -- that are used to locate the actual file and for the purpose of message
72 -- construction. These names need not be accessible by Name_Find, and can
73 -- be therefore created by using routine Name_Enter. The files in question
74 -- are file names with a prefix directory (i.e., the files not in the
75 -- current directory). File names without a prefix directory are entered
76 -- with Name_Find because special values might be attached to the various
77 -- Info fields of the corresponding name table entry.
79 -----------------------
80 -- Local Subprograms --
81 -----------------------
83 function Append_Suffix_To_File_Name
84 (Name : File_Name_Type;
85 Suffix : String) return File_Name_Type;
86 -- Appends Suffix to Name and returns the new name
88 function OS_Time_To_GNAT_Time (T : OS_Time) return Time_Stamp_Type;
89 -- Convert OS format time to GNAT format time stamp. If T is Invalid_Time,
90 -- then returns Empty_Time_Stamp.
92 function Executable_Prefix return String_Ptr;
93 -- Returns the name of the root directory where the executable is stored.
94 -- The executable must be located in a directory called "bin", or under
95 -- root/lib/gcc-lib/..., or under root/libexec/gcc/... For example, if
96 -- executable is stored in directory "/foo/bar/bin", this routine returns
97 -- "/foo/bar/". Return "" if location is not recognized as described above.
99 function Update_Path (Path : String_Ptr) return String_Ptr;
100 -- Update the specified path to replace the prefix with the location where
101 -- GNAT is installed. See the file prefix.c in GCC for details.
103 procedure Locate_File
104 (N : File_Name_Type;
105 T : File_Type;
106 Dir : Natural;
107 Name : String;
108 Found : out File_Name_Type;
109 Attr : access File_Attributes);
110 -- See if the file N whose name is Name exists in directory Dir. Dir is an
111 -- index into the Lib_Search_Directories table if T = Library. Otherwise
112 -- if T = Source, Dir is an index into the Src_Search_Directories table.
113 -- Returns the File_Name_Type of the full file name if file found, or
114 -- No_File if not found.
116 -- On exit, Found is set to the file that was found, and Attr to a cache of
117 -- its attributes (at least those that have been computed so far). Reusing
118 -- the cache will save some system calls.
120 -- Attr is always reset in this call to Unknown_Attributes, even in case of
121 -- failure
123 procedure Find_File
124 (N : File_Name_Type;
125 T : File_Type;
126 Found : out File_Name_Type;
127 Attr : access File_Attributes;
128 Full_Name : Boolean := False);
129 -- A version of Find_File that also returns a cache of the file attributes
130 -- for later reuse
132 procedure Smart_Find_File
133 (N : File_Name_Type;
134 T : File_Type;
135 Found : out File_Name_Type;
136 Attr : out File_Attributes);
137 -- A version of Smart_Find_File that also returns a cache of the file
138 -- attributes for later reuse
140 function C_String_Length (S : Address) return CRTL.size_t;
141 -- Returns length of a C string (zero for a null address)
143 function To_Path_String_Access
144 (Path_Addr : Address;
145 Path_Len : CRTL.size_t) return String_Access;
146 -- Converts a C String to an Ada String. Are we doing this to avoid withing
147 -- Interfaces.C.Strings ???
148 -- Caller must free result.
150 function Include_Dir_Default_Prefix return String_Access;
151 -- Same as exported version, except returns a String_Access
153 ------------------------------
154 -- Other Local Declarations --
155 ------------------------------
157 EOL : constant Character := ASCII.LF;
158 -- End of line character
160 Number_File_Names : Nat := 0;
161 -- Number of file names found on command line and placed in File_Names
163 Look_In_Primary_Directory_For_Current_Main : Boolean := False;
164 -- When this variable is True, Find_File only looks in Primary_Directory
165 -- for the Current_Main file. This variable is always set to True for the
166 -- compiler. It is also True for gnatmake, when the source name given on
167 -- the command line has directory information.
169 Current_Full_Source_Name : File_Name_Type := No_File;
170 Current_Full_Source_Stamp : Time_Stamp_Type := Empty_Time_Stamp;
171 Current_Full_Lib_Name : File_Name_Type := No_File;
172 Current_Full_Lib_Stamp : Time_Stamp_Type := Empty_Time_Stamp;
173 Current_Full_Obj_Name : File_Name_Type := No_File;
174 Current_Full_Obj_Stamp : Time_Stamp_Type := Empty_Time_Stamp;
175 -- Respectively full name (with directory info) and time stamp of the
176 -- latest source, library and object files opened by Read_Source_File and
177 -- Read_Library_Info.
179 package File_Name_Chars is new Table.Table (
180 Table_Component_Type => Character,
181 Table_Index_Type => Int,
182 Table_Low_Bound => 1,
183 Table_Initial => Alloc.File_Name_Chars_Initial,
184 Table_Increment => Alloc.File_Name_Chars_Increment,
185 Table_Name => "File_Name_Chars");
186 -- Table to store text to be printed by Dump_Source_File_Names
188 The_Include_Dir_Default_Prefix : String_Access := null;
189 -- Value returned by Include_Dir_Default_Prefix. We don't initialize it
190 -- here, because that causes an elaboration cycle with Sdefault; we
191 -- initialize it lazily instead.
193 ------------------
194 -- Search Paths --
195 ------------------
197 Primary_Directory : constant := 0;
198 -- This is index in the tables created below for the first directory to
199 -- search in for source or library information files. This is the directory
200 -- containing the latest main input file (a source file for the compiler or
201 -- a library file for the binder).
203 package Src_Search_Directories is new Table.Table (
204 Table_Component_Type => String_Ptr,
205 Table_Index_Type => Integer,
206 Table_Low_Bound => Primary_Directory,
207 Table_Initial => 10,
208 Table_Increment => 100,
209 Table_Name => "Osint.Src_Search_Directories");
210 -- Table of names of directories in which to search for source (Compiler)
211 -- files. This table is filled in the order in which the directories are
212 -- to be searched, and then used in that order.
214 package Lib_Search_Directories is new Table.Table (
215 Table_Component_Type => String_Ptr,
216 Table_Index_Type => Integer,
217 Table_Low_Bound => Primary_Directory,
218 Table_Initial => 10,
219 Table_Increment => 100,
220 Table_Name => "Osint.Lib_Search_Directories");
221 -- Table of names of directories in which to search for library (Binder)
222 -- files. This table is filled in the order in which the directories are
223 -- to be searched and then used in that order. The reason for having two
224 -- distinct tables is that we need them both in gnatmake.
226 ---------------------
227 -- File Hash Table --
228 ---------------------
230 -- The file hash table is provided to free the programmer from any
231 -- efficiency concern when retrieving full file names or time stamps of
232 -- source files. If the programmer calls Source_File_Data (Cache => True)
233 -- he is guaranteed that the price to retrieve the full name (i.e. with
234 -- directory info) or time stamp of the file will be payed only once, the
235 -- first time the full name is actually searched (or the first time the
236 -- time stamp is actually retrieved). This is achieved by employing a hash
237 -- table that stores as a key the File_Name_Type of the file and associates
238 -- to that File_Name_Type the full file name and time stamp of the file.
240 File_Cache_Enabled : Boolean := False;
241 -- Set to true if you want the enable the file data caching mechanism
243 type File_Hash_Num is range 0 .. 1020;
245 function File_Hash (F : File_Name_Type) return File_Hash_Num;
246 -- Compute hash index for use by Simple_HTable
248 type File_Info_Cache is record
249 File : File_Name_Type;
250 Attr : aliased File_Attributes;
251 end record;
253 No_File_Info_Cache : constant File_Info_Cache :=
254 (No_File, Unknown_Attributes);
256 package File_Name_Hash_Table is new GNAT.HTable.Simple_HTable (
257 Header_Num => File_Hash_Num,
258 Element => File_Info_Cache,
259 No_Element => No_File_Info_Cache,
260 Key => File_Name_Type,
261 Hash => File_Hash,
262 Equal => "=");
264 function Smart_Find_File
265 (N : File_Name_Type;
266 T : File_Type) return File_Name_Type;
267 -- Exactly like Find_File except that if File_Cache_Enabled is True this
268 -- routine looks first in the hash table to see if the full name of the
269 -- file is already available.
271 function Smart_File_Stamp
272 (N : File_Name_Type;
273 T : File_Type) return Time_Stamp_Type;
274 -- Takes the same parameter as the routine above (N is a file name without
275 -- any prefix directory information) and behaves like File_Stamp except
276 -- that if File_Cache_Enabled is True this routine looks first in the hash
277 -- table to see if the file stamp of the file is already available.
279 -----------------------------
280 -- Add_Default_Search_Dirs --
281 -----------------------------
283 procedure Add_Default_Search_Dirs is
284 Search_Dir : String_Access;
285 Search_Path : String_Access;
286 Path_File_Name : String_Access;
288 procedure Add_Search_Dir
289 (Search_Dir : String;
290 Additional_Source_Dir : Boolean);
291 procedure Add_Search_Dir
292 (Search_Dir : String_Access;
293 Additional_Source_Dir : Boolean);
294 -- Add a source search dir or a library search dir, depending on the
295 -- value of Additional_Source_Dir.
297 procedure Get_Dirs_From_File (Additional_Source_Dir : Boolean);
298 -- Open a path file and read the directory to search, one per line
300 function Get_Libraries_From_Registry return String_Ptr;
301 -- On Windows systems, get the list of installed standard libraries
302 -- from the registry key:
304 -- HKEY_LOCAL_MACHINE\SOFTWARE\Ada Core Technologies\
305 -- GNAT\Standard Libraries
306 -- Return an empty string on other systems.
308 -- Note that this is an undocumented legacy feature, and that it
309 -- works only when using the default runtime library (i.e. no --RTS=
310 -- command line switch).
312 --------------------
313 -- Add_Search_Dir --
314 --------------------
316 procedure Add_Search_Dir
317 (Search_Dir : String;
318 Additional_Source_Dir : Boolean)
320 begin
321 if Additional_Source_Dir then
322 Add_Src_Search_Dir (Search_Dir);
323 else
324 Add_Lib_Search_Dir (Search_Dir);
325 end if;
326 end Add_Search_Dir;
328 procedure Add_Search_Dir
329 (Search_Dir : String_Access;
330 Additional_Source_Dir : Boolean)
332 begin
333 if Additional_Source_Dir then
334 Add_Src_Search_Dir (Search_Dir.all);
335 else
336 Add_Lib_Search_Dir (Search_Dir.all);
337 end if;
338 end Add_Search_Dir;
340 ------------------------
341 -- Get_Dirs_From_File --
342 ------------------------
344 procedure Get_Dirs_From_File (Additional_Source_Dir : Boolean) is
345 File_FD : File_Descriptor;
346 Buffer : constant String := Path_File_Name.all & ASCII.NUL;
347 Len : Natural;
348 Actual_Len : Natural;
349 S : String_Access;
350 Curr : Natural;
351 First : Natural;
352 Ch : Character;
354 Status : Boolean;
355 pragma Warnings (Off, Status);
356 -- For the call to Close where status is ignored
358 begin
359 File_FD := Open_Read (Buffer'Address, Binary);
361 -- If we cannot open the file, we ignore it, we don't fail
363 if File_FD = Invalid_FD then
364 return;
365 end if;
367 Len := Integer (File_Length (File_FD));
369 S := new String (1 .. Len);
371 -- Read the file. Note that the loop is probably not necessary any
372 -- more since the whole file is read in at once on all targets. But
373 -- it is harmless and might be needed in future.
375 Curr := 1;
376 Actual_Len := Len;
377 while Curr <= Len and then Actual_Len /= 0 loop
378 Actual_Len := Read (File_FD, S (Curr)'Address, Len);
379 Curr := Curr + Actual_Len;
380 end loop;
382 -- We are done with the file, so we close it (ignore any error on
383 -- the close, since we have successfully read the file).
385 Close (File_FD, Status);
387 -- Now, we read line by line
389 First := 1;
390 Curr := 0;
391 while Curr < Len loop
392 Ch := S (Curr + 1);
394 if Ch = ASCII.CR or else Ch = ASCII.LF
395 or else Ch = ASCII.FF or else Ch = ASCII.VT
396 then
397 if First <= Curr then
398 Add_Search_Dir (S (First .. Curr), Additional_Source_Dir);
399 end if;
401 First := Curr + 2;
402 end if;
404 Curr := Curr + 1;
405 end loop;
407 -- Last line is a special case, if the file does not end with
408 -- an end of line mark.
410 if First <= S'Last then
411 Add_Search_Dir (S (First .. S'Last), Additional_Source_Dir);
412 end if;
413 end Get_Dirs_From_File;
415 ---------------------------------
416 -- Get_Libraries_From_Registry --
417 ---------------------------------
419 function Get_Libraries_From_Registry return String_Ptr is
420 function C_Get_Libraries_From_Registry return Address;
421 pragma Import (C, C_Get_Libraries_From_Registry,
422 "__gnat_get_libraries_from_registry");
424 Result_Ptr : Address;
425 Result_Length : CRTL.size_t;
426 Out_String : String_Ptr;
428 begin
429 Result_Ptr := C_Get_Libraries_From_Registry;
430 Result_Length := CRTL.strlen (Result_Ptr);
432 Out_String := new String (1 .. Integer (Result_Length));
433 CRTL.strncpy (Out_String.all'Address, Result_Ptr, Result_Length);
435 CRTL.free (Result_Ptr);
437 return Out_String;
438 end Get_Libraries_From_Registry;
440 -- Start of processing for Add_Default_Search_Dirs
442 begin
443 -- If there was a -gnateO switch, add all object directories from the
444 -- file given in argument to the library search list.
446 if Object_Path_File_Name /= null then
447 Path_File_Name := String_Access (Object_Path_File_Name);
448 pragma Assert (Path_File_Name'Length > 0);
449 Get_Dirs_From_File (Additional_Source_Dir => False);
450 end if;
452 -- After the locations specified on the command line, the next places
453 -- to look for files are the directories specified by the appropriate
454 -- environment variable. Get this value, extract the directory names
455 -- and store in the tables.
457 -- Check for eventual project path file env vars
459 Path_File_Name := Getenv (Project_Include_Path_File);
461 if Path_File_Name'Length > 0 then
462 Get_Dirs_From_File (Additional_Source_Dir => True);
463 end if;
465 Path_File_Name := Getenv (Project_Objects_Path_File);
467 if Path_File_Name'Length > 0 then
468 Get_Dirs_From_File (Additional_Source_Dir => False);
469 end if;
471 -- Put path name in canonical form
473 for Additional_Source_Dir in False .. True loop
474 if Additional_Source_Dir then
475 Search_Path := Getenv (Ada_Include_Path);
477 else
478 Search_Path := Getenv (Ada_Objects_Path);
480 end if;
482 Get_Next_Dir_In_Path_Init (Search_Path);
483 loop
484 Search_Dir := Get_Next_Dir_In_Path (Search_Path);
485 exit when Search_Dir = null;
486 Add_Search_Dir (Search_Dir, Additional_Source_Dir);
487 end loop;
488 end loop;
490 -- For the compiler, if --RTS= was specified, add the runtime
491 -- directories.
493 if RTS_Src_Path_Name /= null and then RTS_Lib_Path_Name /= null then
494 Add_Search_Dirs (RTS_Src_Path_Name, Include);
495 Add_Search_Dirs (RTS_Lib_Path_Name, Objects);
497 else
498 if not Opt.No_Stdinc then
500 -- For WIN32 systems, look for any system libraries defined in
501 -- the registry. These are added to both source and object
502 -- directories.
504 Search_Path := String_Access (Get_Libraries_From_Registry);
506 Get_Next_Dir_In_Path_Init (Search_Path);
507 loop
508 Search_Dir := Get_Next_Dir_In_Path (Search_Path);
509 exit when Search_Dir = null;
510 Add_Search_Dir (Search_Dir, False);
511 Add_Search_Dir (Search_Dir, True);
512 end loop;
514 -- The last place to look are the defaults
516 Search_Path :=
517 Read_Default_Search_Dirs
518 (String_Access (Update_Path (Search_Dir_Prefix)),
519 Include_Search_File,
520 String_Access (Update_Path (Include_Dir_Default_Name)));
522 Get_Next_Dir_In_Path_Init (Search_Path);
523 loop
524 Search_Dir := Get_Next_Dir_In_Path (Search_Path);
525 exit when Search_Dir = null;
526 Add_Search_Dir (Search_Dir, True);
527 end loop;
528 end if;
530 -- Even when -nostdlib is used, we still want to have visibility on
531 -- the run-time object directory, as it is used by gnatbind to find
532 -- the run-time ALI files in "real" ZFP set up.
534 if not Opt.RTS_Switch then
535 Search_Path :=
536 Read_Default_Search_Dirs
537 (String_Access (Update_Path (Search_Dir_Prefix)),
538 Objects_Search_File,
539 String_Access (Update_Path (Object_Dir_Default_Name)));
541 Get_Next_Dir_In_Path_Init (Search_Path);
542 loop
543 Search_Dir := Get_Next_Dir_In_Path (Search_Path);
544 exit when Search_Dir = null;
545 Add_Search_Dir (Search_Dir, False);
546 end loop;
547 end if;
548 end if;
549 end Add_Default_Search_Dirs;
551 --------------
552 -- Add_File --
553 --------------
555 procedure Add_File (File_Name : String; Index : Int := No_Index) is
556 begin
557 Number_File_Names := Number_File_Names + 1;
559 -- As Add_File may be called for mains specified inside a project file,
560 -- File_Names may be too short and needs to be extended.
562 if Number_File_Names > File_Names'Last then
563 File_Names := new File_Name_Array'(File_Names.all & File_Names.all);
564 File_Indexes :=
565 new File_Index_Array'(File_Indexes.all & File_Indexes.all);
566 end if;
568 File_Names (Number_File_Names) := new String'(File_Name);
569 File_Indexes (Number_File_Names) := Index;
570 end Add_File;
572 ------------------------
573 -- Add_Lib_Search_Dir --
574 ------------------------
576 procedure Add_Lib_Search_Dir (Dir : String) is
577 begin
578 if Dir'Length = 0 then
579 Fail ("missing library directory name");
580 end if;
582 declare
583 Norm : String_Ptr := Normalize_Directory_Name (Dir);
585 begin
586 -- Do nothing if the directory is already in the list. This saves
587 -- system calls and avoid unneeded work
589 for D in Lib_Search_Directories.First ..
590 Lib_Search_Directories.Last
591 loop
592 if Lib_Search_Directories.Table (D).all = Norm.all then
593 Free (Norm);
594 return;
595 end if;
596 end loop;
598 Lib_Search_Directories.Increment_Last;
599 Lib_Search_Directories.Table (Lib_Search_Directories.Last) := Norm;
600 end;
601 end Add_Lib_Search_Dir;
603 ---------------------
604 -- Add_Search_Dirs --
605 ---------------------
607 procedure Add_Search_Dirs
608 (Search_Path : String_Ptr;
609 Path_Type : Search_File_Type)
611 Current_Search_Path : String_Access;
613 begin
614 Get_Next_Dir_In_Path_Init (String_Access (Search_Path));
615 loop
616 Current_Search_Path :=
617 Get_Next_Dir_In_Path (String_Access (Search_Path));
618 exit when Current_Search_Path = null;
620 if Path_Type = Include then
621 Add_Src_Search_Dir (Current_Search_Path.all);
622 else
623 Add_Lib_Search_Dir (Current_Search_Path.all);
624 end if;
625 end loop;
626 end Add_Search_Dirs;
628 ------------------------
629 -- Add_Src_Search_Dir --
630 ------------------------
632 procedure Add_Src_Search_Dir (Dir : String) is
633 begin
634 if Dir'Length = 0 then
635 Fail ("missing source directory name");
636 end if;
638 Src_Search_Directories.Increment_Last;
639 Src_Search_Directories.Table (Src_Search_Directories.Last) :=
640 Normalize_Directory_Name (Dir);
641 end Add_Src_Search_Dir;
643 --------------------------------
644 -- Append_Suffix_To_File_Name --
645 --------------------------------
647 function Append_Suffix_To_File_Name
648 (Name : File_Name_Type;
649 Suffix : String) return File_Name_Type
651 begin
652 Get_Name_String (Name);
653 Name_Buffer (Name_Len + 1 .. Name_Len + Suffix'Length) := Suffix;
654 Name_Len := Name_Len + Suffix'Length;
655 return Name_Find;
656 end Append_Suffix_To_File_Name;
658 ---------------------
659 -- C_String_Length --
660 ---------------------
662 function C_String_Length (S : Address) return CRTL.size_t is
663 begin
664 if S = Null_Address then
665 return 0;
666 else
667 return CRTL.strlen (S);
668 end if;
669 end C_String_Length;
671 ------------------------------
672 -- Canonical_Case_File_Name --
673 ------------------------------
675 procedure Canonical_Case_File_Name (S : in out String) is
676 begin
677 if not File_Names_Case_Sensitive then
678 To_Lower (S);
679 end if;
680 end Canonical_Case_File_Name;
682 ---------------------------------
683 -- Canonical_Case_Env_Var_Name --
684 ---------------------------------
686 procedure Canonical_Case_Env_Var_Name (S : in out String) is
687 begin
688 if not Env_Vars_Case_Sensitive then
689 To_Lower (S);
690 end if;
691 end Canonical_Case_Env_Var_Name;
693 ---------------------------
694 -- Create_File_And_Check --
695 ---------------------------
697 procedure Create_File_And_Check
698 (Fdesc : out File_Descriptor;
699 Fmode : Mode)
701 begin
702 Output_File_Name := Name_Enter;
703 Fdesc := Create_File (Name_Buffer'Address, Fmode);
705 if Fdesc = Invalid_FD then
706 Fail ("Cannot create: " & Name_Buffer (1 .. Name_Len));
707 end if;
708 end Create_File_And_Check;
710 -----------------------------------
711 -- Open_File_To_Append_And_Check --
712 -----------------------------------
714 procedure Open_File_To_Append_And_Check
715 (Fdesc : out File_Descriptor;
716 Fmode : Mode)
718 begin
719 Output_File_Name := Name_Enter;
720 Fdesc := Open_Append (Name_Buffer'Address, Fmode);
722 if Fdesc = Invalid_FD then
723 Fail ("Cannot create: " & Name_Buffer (1 .. Name_Len));
724 end if;
725 end Open_File_To_Append_And_Check;
727 ------------------------
728 -- Current_File_Index --
729 ------------------------
731 function Current_File_Index return Int is
732 begin
733 return File_Indexes (Current_File_Name_Index);
734 end Current_File_Index;
736 --------------------------------
737 -- Current_Library_File_Stamp --
738 --------------------------------
740 function Current_Library_File_Stamp return Time_Stamp_Type is
741 begin
742 return Current_Full_Lib_Stamp;
743 end Current_Library_File_Stamp;
745 -------------------------------
746 -- Current_Object_File_Stamp --
747 -------------------------------
749 function Current_Object_File_Stamp return Time_Stamp_Type is
750 begin
751 return Current_Full_Obj_Stamp;
752 end Current_Object_File_Stamp;
754 -------------------------------
755 -- Current_Source_File_Stamp --
756 -------------------------------
758 function Current_Source_File_Stamp return Time_Stamp_Type is
759 begin
760 return Current_Full_Source_Stamp;
761 end Current_Source_File_Stamp;
763 ----------------------------
764 -- Dir_In_Obj_Search_Path --
765 ----------------------------
767 function Dir_In_Obj_Search_Path (Position : Natural) return String_Ptr is
768 begin
769 if Opt.Look_In_Primary_Dir then
770 return
771 Lib_Search_Directories.Table (Primary_Directory + Position - 1);
772 else
773 return Lib_Search_Directories.Table (Primary_Directory + Position);
774 end if;
775 end Dir_In_Obj_Search_Path;
777 ----------------------------
778 -- Dir_In_Src_Search_Path --
779 ----------------------------
781 function Dir_In_Src_Search_Path (Position : Natural) return String_Ptr is
782 begin
783 if Opt.Look_In_Primary_Dir then
784 return
785 Src_Search_Directories.Table (Primary_Directory + Position - 1);
786 else
787 return Src_Search_Directories.Table (Primary_Directory + Position);
788 end if;
789 end Dir_In_Src_Search_Path;
791 ----------------------------
792 -- Dump_Source_File_Names --
793 ----------------------------
795 procedure Dump_Source_File_Names is
796 subtype Rng is Int range File_Name_Chars.First .. File_Name_Chars.Last;
797 begin
798 Write_Str (String (File_Name_Chars.Table (Rng)));
799 end Dump_Source_File_Names;
801 ---------------------
802 -- Executable_Name --
803 ---------------------
805 function Executable_Name
806 (Name : File_Name_Type;
807 Only_If_No_Suffix : Boolean := False) return File_Name_Type
809 Exec_Suffix : String_Access;
810 Add_Suffix : Boolean;
812 begin
813 if Name = No_File then
814 return No_File;
815 end if;
817 if Executable_Extension_On_Target = No_Name then
818 Exec_Suffix := Get_Target_Executable_Suffix;
819 else
820 Get_Name_String (Executable_Extension_On_Target);
821 Exec_Suffix := new String'(Name_Buffer (1 .. Name_Len));
822 end if;
824 if Exec_Suffix'Length /= 0 then
825 Get_Name_String (Name);
827 Add_Suffix := True;
828 if Only_If_No_Suffix then
829 for J in reverse 1 .. Name_Len loop
830 if Name_Buffer (J) = '.' then
831 Add_Suffix := False;
832 exit;
834 elsif Name_Buffer (J) = '/' or else
835 Name_Buffer (J) = Directory_Separator
836 then
837 exit;
838 end if;
839 end loop;
840 end if;
842 if Add_Suffix then
843 declare
844 Buffer : String := Name_Buffer (1 .. Name_Len);
846 begin
847 -- Get the file name in canonical case to accept as is. Names
848 -- end with ".EXE" on Windows.
850 Canonical_Case_File_Name (Buffer);
852 -- If Executable doesn't end with the executable suffix, add it
854 if Buffer'Length <= Exec_Suffix'Length
855 or else
856 Buffer (Buffer'Last - Exec_Suffix'Length + 1 .. Buffer'Last)
857 /= Exec_Suffix.all
858 then
859 Name_Buffer
860 (Name_Len + 1 .. Name_Len + Exec_Suffix'Length) :=
861 Exec_Suffix.all;
862 Name_Len := Name_Len + Exec_Suffix'Length;
863 Free (Exec_Suffix);
864 return Name_Find;
865 end if;
866 end;
867 end if;
868 end if;
870 Free (Exec_Suffix);
871 return Name;
872 end Executable_Name;
874 function Executable_Name
875 (Name : String;
876 Only_If_No_Suffix : Boolean := False) return String
878 Exec_Suffix : String_Access;
879 Add_Suffix : Boolean;
880 Canonical_Name : String := Name;
882 begin
883 if Executable_Extension_On_Target = No_Name then
884 Exec_Suffix := Get_Target_Executable_Suffix;
885 else
886 Get_Name_String (Executable_Extension_On_Target);
887 Exec_Suffix := new String'(Name_Buffer (1 .. Name_Len));
888 end if;
890 if Exec_Suffix'Length = 0 then
891 Free (Exec_Suffix);
892 return Name;
894 else
895 declare
896 Suffix : constant String := Exec_Suffix.all;
898 begin
899 Free (Exec_Suffix);
900 Canonical_Case_File_Name (Canonical_Name);
902 Add_Suffix := True;
903 if Only_If_No_Suffix then
904 for J in reverse Canonical_Name'Range loop
905 if Canonical_Name (J) = '.' then
906 Add_Suffix := False;
907 exit;
909 elsif Canonical_Name (J) = '/' or else
910 Canonical_Name (J) = Directory_Separator
911 then
912 exit;
913 end if;
914 end loop;
915 end if;
917 if Add_Suffix and then
918 (Canonical_Name'Length <= Suffix'Length
919 or else Canonical_Name (Canonical_Name'Last - Suffix'Length + 1
920 .. Canonical_Name'Last) /= Suffix)
921 then
922 declare
923 Result : String (1 .. Name'Length + Suffix'Length);
924 begin
925 Result (1 .. Name'Length) := Name;
926 Result (Name'Length + 1 .. Result'Last) := Suffix;
927 return Result;
928 end;
929 else
930 return Name;
931 end if;
932 end;
933 end if;
934 end Executable_Name;
936 -----------------------
937 -- Executable_Prefix --
938 -----------------------
940 function Executable_Prefix return String_Ptr is
942 function Get_Install_Dir (Exec : String) return String_Ptr;
943 -- S is the executable name preceded by the absolute or relative
944 -- path, e.g. "c:\usr\bin\gcc.exe" or "..\bin\gcc".
946 ---------------------
947 -- Get_Install_Dir --
948 ---------------------
950 function Get_Install_Dir (Exec : String) return String_Ptr is
951 Full_Path : constant String := Normalize_Pathname (Exec);
952 -- Use the full path, so that we find "lib" or "bin", even when
953 -- the tool has been invoked with a relative path, as in
954 -- "./gnatls -v" invoked in the GNAT bin directory.
956 begin
957 for J in reverse Full_Path'Range loop
958 if Is_Directory_Separator (Full_Path (J)) then
959 if J < Full_Path'Last - 5 then
960 if (To_Lower (Full_Path (J + 1)) = 'l'
961 and then To_Lower (Full_Path (J + 2)) = 'i'
962 and then To_Lower (Full_Path (J + 3)) = 'b')
963 or else
964 (To_Lower (Full_Path (J + 1)) = 'b'
965 and then To_Lower (Full_Path (J + 2)) = 'i'
966 and then To_Lower (Full_Path (J + 3)) = 'n')
967 then
968 return new String'(Full_Path (Full_Path'First .. J));
969 end if;
970 end if;
971 end if;
972 end loop;
974 return new String'("");
975 end Get_Install_Dir;
977 -- Start of processing for Executable_Prefix
979 begin
980 if Exec_Name = null then
981 Exec_Name := new String (1 .. Len_Arg (0));
982 Osint.Fill_Arg (Exec_Name (1)'Address, 0);
983 end if;
985 -- First determine if a path prefix was placed in front of the
986 -- executable name.
988 for J in reverse Exec_Name'Range loop
989 if Is_Directory_Separator (Exec_Name (J)) then
990 return Get_Install_Dir (Exec_Name.all);
991 end if;
992 end loop;
994 -- If we come here, the user has typed the executable name with no
995 -- directory prefix.
997 return Get_Install_Dir (Locate_Exec_On_Path (Exec_Name.all).all);
998 end Executable_Prefix;
1000 ------------------
1001 -- Exit_Program --
1002 ------------------
1004 procedure Exit_Program (Exit_Code : Exit_Code_Type) is
1005 begin
1006 -- The program will exit with the following status:
1008 -- 0 if the object file has been generated (with or without warnings)
1009 -- 1 if recompilation was not needed (smart recompilation)
1010 -- 2 if gnat1 has been killed by a signal (detected by GCC)
1011 -- 4 for a fatal error
1012 -- 5 if there were errors
1013 -- 6 if no code has been generated (spec)
1015 -- Note that exit code 3 is not used and must not be used as this is
1016 -- the code returned by a program aborted via C abort() routine on
1017 -- Windows. GCC checks for that case and thinks that the child process
1018 -- has been aborted. This code (exit code 3) used to be the code used
1019 -- for E_No_Code, but E_No_Code was changed to 6 for this reason.
1021 case Exit_Code is
1022 when E_Success => OS_Exit (0);
1023 when E_Warnings => OS_Exit (0);
1024 when E_No_Compile => OS_Exit (1);
1025 when E_Fatal => OS_Exit (4);
1026 when E_Errors => OS_Exit (5);
1027 when E_No_Code => OS_Exit (6);
1028 when E_Abort => OS_Abort;
1029 end case;
1030 end Exit_Program;
1032 ----------
1033 -- Fail --
1034 ----------
1036 procedure Fail (S : String) is
1037 begin
1038 -- We use Output in case there is a special output set up. In this case
1039 -- Set_Standard_Error will have no immediate effect.
1041 Set_Standard_Error;
1042 Osint.Write_Program_Name;
1043 Write_Str (": ");
1044 Write_Str (S);
1045 Write_Eol;
1047 Exit_Program (E_Fatal);
1048 end Fail;
1050 ---------------
1051 -- File_Hash --
1052 ---------------
1054 function File_Hash (F : File_Name_Type) return File_Hash_Num is
1055 begin
1056 return File_Hash_Num (Int (F) rem File_Hash_Num'Range_Length);
1057 end File_Hash;
1059 -----------------
1060 -- File_Length --
1061 -----------------
1063 function File_Length
1064 (Name : C_File_Name;
1065 Attr : access File_Attributes) return Long_Integer
1067 function Internal
1068 (F : Integer;
1069 N : C_File_Name;
1070 A : System.Address) return CRTL.int64;
1071 pragma Import (C, Internal, "__gnat_file_length_attr");
1073 begin
1074 -- The conversion from int64 to Long_Integer is ok here as this
1075 -- routine is only to be used by the compiler and we do not expect
1076 -- a unit to be larger than a 32bit integer.
1078 return Long_Integer (Internal (-1, Name, Attr.all'Address));
1079 end File_Length;
1081 ---------------------
1082 -- File_Time_Stamp --
1083 ---------------------
1085 function File_Time_Stamp
1086 (Name : C_File_Name;
1087 Attr : access File_Attributes) return OS_Time
1089 function Internal (N : C_File_Name; A : System.Address) return OS_Time;
1090 pragma Import (C, Internal, "__gnat_file_time_name_attr");
1091 begin
1092 return Internal (Name, Attr.all'Address);
1093 end File_Time_Stamp;
1095 function File_Time_Stamp
1096 (Name : Path_Name_Type;
1097 Attr : access File_Attributes) return Time_Stamp_Type
1099 begin
1100 if Name = No_Path then
1101 return Empty_Time_Stamp;
1102 end if;
1104 Get_Name_String (Name);
1105 Name_Buffer (Name_Len + 1) := ASCII.NUL;
1106 return OS_Time_To_GNAT_Time
1107 (File_Time_Stamp (Name_Buffer'Address, Attr));
1108 end File_Time_Stamp;
1110 ----------------
1111 -- File_Stamp --
1112 ----------------
1114 function File_Stamp (Name : File_Name_Type) return Time_Stamp_Type is
1115 begin
1116 if Name = No_File then
1117 return Empty_Time_Stamp;
1118 end if;
1120 Get_Name_String (Name);
1122 -- File_Time_Stamp will always return Invalid_Time if the file does
1123 -- not exist, and OS_Time_To_GNAT_Time will convert this value to
1124 -- Empty_Time_Stamp. Therefore we do not need to first test whether
1125 -- the file actually exists, which saves a system call.
1127 return OS_Time_To_GNAT_Time
1128 (File_Time_Stamp (Name_Buffer (1 .. Name_Len)));
1129 end File_Stamp;
1131 function File_Stamp (Name : Path_Name_Type) return Time_Stamp_Type is
1132 begin
1133 return File_Stamp (File_Name_Type (Name));
1134 end File_Stamp;
1136 ---------------
1137 -- Find_File --
1138 ---------------
1140 function Find_File
1141 (N : File_Name_Type;
1142 T : File_Type;
1143 Full_Name : Boolean := False) return File_Name_Type
1145 Attr : aliased File_Attributes;
1146 Found : File_Name_Type;
1147 begin
1148 Find_File (N, T, Found, Attr'Access, Full_Name);
1149 return Found;
1150 end Find_File;
1152 ---------------
1153 -- Find_File --
1154 ---------------
1156 procedure Find_File
1157 (N : File_Name_Type;
1158 T : File_Type;
1159 Found : out File_Name_Type;
1160 Attr : access File_Attributes;
1161 Full_Name : Boolean := False)
1163 begin
1164 Get_Name_String (N);
1166 declare
1167 File_Name : String renames Name_Buffer (1 .. Name_Len);
1168 File : File_Name_Type := No_File;
1169 Last_Dir : Natural;
1171 begin
1172 -- If we are looking for a config file, look only in the current
1173 -- directory, i.e. return input argument unchanged. Also look only in
1174 -- the current directory if we are looking for a .dg file (happens in
1175 -- -gnatD mode).
1177 if T = Config
1178 or else (Debug_Generated_Code
1179 and then Name_Len > 3
1180 and then Name_Buffer (Name_Len - 2 .. Name_Len) = ".dg")
1181 then
1182 Found := N;
1183 Attr.all := Unknown_Attributes;
1185 if T = Config then
1186 if Full_Name then
1187 declare
1188 Full_Path : constant String :=
1189 Normalize_Pathname (Get_Name_String (N));
1190 Full_Size : constant Natural := Full_Path'Length;
1192 begin
1193 Name_Buffer (1 .. Full_Size) := Full_Path;
1194 Name_Len := Full_Size;
1195 Found := Name_Find;
1196 end;
1197 end if;
1199 -- Check that it is a file, not a directory
1201 if not Is_Regular_File (Get_Name_String (Found)) then
1202 Found := No_File;
1203 end if;
1204 end if;
1206 return;
1208 -- If we are trying to find the current main file just look in the
1209 -- directory where the user said it was.
1211 elsif Look_In_Primary_Directory_For_Current_Main
1212 and then Current_Main = N
1213 then
1214 Locate_File (N, T, Primary_Directory, File_Name, Found, Attr);
1215 return;
1217 -- Otherwise do standard search for source file
1219 else
1220 -- Check the mapping of this file name
1222 File := Mapped_Path_Name (N);
1224 -- If the file name is mapped to a path name, return the
1225 -- corresponding path name
1227 if File /= No_File then
1229 -- For locally removed file, Error_Name is returned; then
1230 -- return No_File, indicating the file is not a source.
1232 if File = Error_File_Name then
1233 Found := No_File;
1234 else
1235 Found := File;
1236 end if;
1238 Attr.all := Unknown_Attributes;
1239 return;
1240 end if;
1242 -- First place to look is in the primary directory (i.e. the same
1243 -- directory as the source) unless this has been disabled with -I-
1245 if Opt.Look_In_Primary_Dir then
1246 Locate_File (N, T, Primary_Directory, File_Name, Found, Attr);
1248 if Found /= No_File then
1249 return;
1250 end if;
1251 end if;
1253 -- Finally look in directories specified with switches -I/-aI/-aO
1255 if T = Library then
1256 Last_Dir := Lib_Search_Directories.Last;
1257 else
1258 Last_Dir := Src_Search_Directories.Last;
1259 end if;
1261 for D in Primary_Directory + 1 .. Last_Dir loop
1262 Locate_File (N, T, D, File_Name, Found, Attr);
1264 if Found /= No_File then
1265 return;
1266 end if;
1267 end loop;
1269 Attr.all := Unknown_Attributes;
1270 Found := No_File;
1271 end if;
1272 end;
1273 end Find_File;
1275 -----------------------
1276 -- Find_Program_Name --
1277 -----------------------
1279 procedure Find_Program_Name is
1280 Command_Name : String (1 .. Len_Arg (0));
1281 Cindex1 : Integer := Command_Name'First;
1282 Cindex2 : Integer := Command_Name'Last;
1284 begin
1285 Fill_Arg (Command_Name'Address, 0);
1287 if Command_Name = "" then
1288 Name_Len := 0;
1289 return;
1290 end if;
1292 -- The program name might be specified by a full path name. However,
1293 -- we don't want to print that all out in an error message, so the
1294 -- path might need to be stripped away.
1296 for J in reverse Cindex1 .. Cindex2 loop
1297 if Is_Directory_Separator (Command_Name (J)) then
1298 Cindex1 := J + 1;
1299 exit;
1300 end if;
1301 end loop;
1303 -- Command_Name(Cindex1 .. Cindex2) is now the equivalent of the
1304 -- POSIX command "basename argv[0]"
1306 -- Strip off any executable extension (usually nothing or .exe)
1307 -- but formally reported by autoconf in the variable EXEEXT
1309 if Cindex2 - Cindex1 >= 4 then
1310 if To_Lower (Command_Name (Cindex2 - 3)) = '.'
1311 and then To_Lower (Command_Name (Cindex2 - 2)) = 'e'
1312 and then To_Lower (Command_Name (Cindex2 - 1)) = 'x'
1313 and then To_Lower (Command_Name (Cindex2)) = 'e'
1314 then
1315 Cindex2 := Cindex2 - 4;
1316 end if;
1317 end if;
1319 Name_Len := Cindex2 - Cindex1 + 1;
1320 Name_Buffer (1 .. Name_Len) := Command_Name (Cindex1 .. Cindex2);
1321 end Find_Program_Name;
1323 ------------------------
1324 -- Full_Lib_File_Name --
1325 ------------------------
1327 procedure Full_Lib_File_Name
1328 (N : File_Name_Type;
1329 Lib_File : out File_Name_Type;
1330 Attr : out File_Attributes)
1332 A : aliased File_Attributes;
1333 begin
1334 -- ??? seems we could use Smart_Find_File here
1335 Find_File (N, Library, Lib_File, A'Access);
1336 Attr := A;
1337 end Full_Lib_File_Name;
1339 ------------------------
1340 -- Full_Lib_File_Name --
1341 ------------------------
1343 function Full_Lib_File_Name (N : File_Name_Type) return File_Name_Type is
1344 Attr : File_Attributes;
1345 File : File_Name_Type;
1346 begin
1347 Full_Lib_File_Name (N, File, Attr);
1348 return File;
1349 end Full_Lib_File_Name;
1351 ----------------------------
1352 -- Full_Library_Info_Name --
1353 ----------------------------
1355 function Full_Library_Info_Name return File_Name_Type is
1356 begin
1357 return Current_Full_Lib_Name;
1358 end Full_Library_Info_Name;
1360 ---------------------------
1361 -- Full_Object_File_Name --
1362 ---------------------------
1364 function Full_Object_File_Name return File_Name_Type is
1365 begin
1366 return Current_Full_Obj_Name;
1367 end Full_Object_File_Name;
1369 ----------------------
1370 -- Full_Source_Name --
1371 ----------------------
1373 function Full_Source_Name return File_Name_Type is
1374 begin
1375 return Current_Full_Source_Name;
1376 end Full_Source_Name;
1378 ----------------------
1379 -- Full_Source_Name --
1380 ----------------------
1382 function Full_Source_Name (N : File_Name_Type) return File_Name_Type is
1383 begin
1384 return Smart_Find_File (N, Source);
1385 end Full_Source_Name;
1387 ----------------------
1388 -- Full_Source_Name --
1389 ----------------------
1391 procedure Full_Source_Name
1392 (N : File_Name_Type;
1393 Full_File : out File_Name_Type;
1394 Attr : access File_Attributes) is
1395 begin
1396 Smart_Find_File (N, Source, Full_File, Attr.all);
1397 end Full_Source_Name;
1399 -------------------
1400 -- Get_Directory --
1401 -------------------
1403 function Get_Directory (Name : File_Name_Type) return File_Name_Type is
1404 begin
1405 Get_Name_String (Name);
1407 for J in reverse 1 .. Name_Len loop
1408 if Is_Directory_Separator (Name_Buffer (J)) then
1409 Name_Len := J;
1410 return Name_Find;
1411 end if;
1412 end loop;
1414 Name_Len := Hostparm.Normalized_CWD'Length;
1415 Name_Buffer (1 .. Name_Len) := Hostparm.Normalized_CWD;
1416 return Name_Find;
1417 end Get_Directory;
1419 --------------------------
1420 -- Get_Next_Dir_In_Path --
1421 --------------------------
1423 Search_Path_Pos : Integer;
1424 -- Keeps track of current position in search path. Initialized by the
1425 -- call to Get_Next_Dir_In_Path_Init, updated by Get_Next_Dir_In_Path.
1427 function Get_Next_Dir_In_Path
1428 (Search_Path : String_Access) return String_Access
1430 Lower_Bound : Positive := Search_Path_Pos;
1431 Upper_Bound : Positive;
1433 begin
1434 loop
1435 while Lower_Bound <= Search_Path'Last
1436 and then Search_Path.all (Lower_Bound) = Path_Separator
1437 loop
1438 Lower_Bound := Lower_Bound + 1;
1439 end loop;
1441 exit when Lower_Bound > Search_Path'Last;
1443 Upper_Bound := Lower_Bound;
1444 while Upper_Bound <= Search_Path'Last
1445 and then Search_Path.all (Upper_Bound) /= Path_Separator
1446 loop
1447 Upper_Bound := Upper_Bound + 1;
1448 end loop;
1450 Search_Path_Pos := Upper_Bound;
1451 return new String'(Search_Path.all (Lower_Bound .. Upper_Bound - 1));
1452 end loop;
1454 return null;
1455 end Get_Next_Dir_In_Path;
1457 -------------------------------
1458 -- Get_Next_Dir_In_Path_Init --
1459 -------------------------------
1461 procedure Get_Next_Dir_In_Path_Init (Search_Path : String_Access) is
1462 begin
1463 Search_Path_Pos := Search_Path'First;
1464 end Get_Next_Dir_In_Path_Init;
1466 --------------------------------------
1467 -- Get_Primary_Src_Search_Directory --
1468 --------------------------------------
1470 function Get_Primary_Src_Search_Directory return String_Ptr is
1471 begin
1472 return Src_Search_Directories.Table (Primary_Directory);
1473 end Get_Primary_Src_Search_Directory;
1475 ------------------------
1476 -- Get_RTS_Search_Dir --
1477 ------------------------
1479 function Get_RTS_Search_Dir
1480 (Search_Dir : String;
1481 File_Type : Search_File_Type) return String_Ptr
1483 procedure Get_Current_Dir
1484 (Dir : System.Address;
1485 Length : System.Address);
1486 pragma Import (C, Get_Current_Dir, "__gnat_get_current_dir");
1488 Max_Path : Integer;
1489 pragma Import (C, Max_Path, "__gnat_max_path_len");
1490 -- Maximum length of a path name
1492 Current_Dir : String_Ptr;
1493 Default_Search_Dir : String_Access;
1494 Default_Suffix_Dir : String_Access;
1495 Local_Search_Dir : String_Access;
1496 Norm_Search_Dir : String_Access;
1497 Result_Search_Dir : String_Access;
1498 Search_File : String_Access;
1499 Temp_String : String_Ptr;
1501 begin
1502 -- Add a directory separator at the end of the directory if necessary
1503 -- so that we can directly append a file to the directory
1505 if Search_Dir (Search_Dir'Last) /= Directory_Separator then
1506 Local_Search_Dir :=
1507 new String'(Search_Dir & String'(1 => Directory_Separator));
1508 else
1509 Local_Search_Dir := new String'(Search_Dir);
1510 end if;
1512 if File_Type = Include then
1513 Search_File := Include_Search_File;
1514 Default_Suffix_Dir := new String'("adainclude");
1515 else
1516 Search_File := Objects_Search_File;
1517 Default_Suffix_Dir := new String'("adalib");
1518 end if;
1520 Norm_Search_Dir := Local_Search_Dir;
1522 if Is_Absolute_Path (Norm_Search_Dir.all) then
1524 -- We first verify if there is a directory Include_Search_Dir
1525 -- containing default search directories
1527 Result_Search_Dir :=
1528 Read_Default_Search_Dirs (Norm_Search_Dir, Search_File, null);
1529 Default_Search_Dir :=
1530 new String'(Norm_Search_Dir.all & Default_Suffix_Dir.all);
1531 Free (Norm_Search_Dir);
1533 if Result_Search_Dir /= null then
1534 return String_Ptr (Result_Search_Dir);
1535 elsif Is_Directory (Default_Search_Dir.all) then
1536 return String_Ptr (Default_Search_Dir);
1537 else
1538 return null;
1539 end if;
1541 -- Search in the current directory
1543 else
1544 -- Get the current directory
1546 declare
1547 Buffer : String (1 .. Max_Path + 2);
1548 Path_Len : Natural := Max_Path;
1550 begin
1551 Get_Current_Dir (Buffer'Address, Path_Len'Address);
1553 if Path_Len = 0 then
1554 raise Program_Error;
1555 end if;
1557 if Buffer (Path_Len) /= Directory_Separator then
1558 Path_Len := Path_Len + 1;
1559 Buffer (Path_Len) := Directory_Separator;
1560 end if;
1562 Current_Dir := new String'(Buffer (1 .. Path_Len));
1563 end;
1565 Norm_Search_Dir :=
1566 new String'(Current_Dir.all & Local_Search_Dir.all);
1568 Result_Search_Dir :=
1569 Read_Default_Search_Dirs (Norm_Search_Dir, Search_File, null);
1571 Default_Search_Dir :=
1572 new String'(Norm_Search_Dir.all & Default_Suffix_Dir.all);
1574 Free (Norm_Search_Dir);
1576 if Result_Search_Dir /= null then
1577 return String_Ptr (Result_Search_Dir);
1579 elsif Is_Directory (Default_Search_Dir.all) then
1580 return String_Ptr (Default_Search_Dir);
1582 else
1583 -- Search in Search_Dir_Prefix/Search_Dir
1585 Norm_Search_Dir :=
1586 new String'
1587 (Update_Path (Search_Dir_Prefix).all & Local_Search_Dir.all);
1589 Result_Search_Dir :=
1590 Read_Default_Search_Dirs (Norm_Search_Dir, Search_File, null);
1592 Default_Search_Dir :=
1593 new String'(Norm_Search_Dir.all & Default_Suffix_Dir.all);
1595 Free (Norm_Search_Dir);
1597 if Result_Search_Dir /= null then
1598 return String_Ptr (Result_Search_Dir);
1600 elsif Is_Directory (Default_Search_Dir.all) then
1601 return String_Ptr (Default_Search_Dir);
1603 else
1604 -- We finally search in Search_Dir_Prefix/rts-Search_Dir
1606 Temp_String :=
1607 new String'(Update_Path (Search_Dir_Prefix).all & "rts-");
1609 Norm_Search_Dir :=
1610 new String'(Temp_String.all & Local_Search_Dir.all);
1612 Result_Search_Dir :=
1613 Read_Default_Search_Dirs (Norm_Search_Dir, Search_File, null);
1615 Default_Search_Dir :=
1616 new String'(Norm_Search_Dir.all & Default_Suffix_Dir.all);
1617 Free (Norm_Search_Dir);
1619 if Result_Search_Dir /= null then
1620 return String_Ptr (Result_Search_Dir);
1622 elsif Is_Directory (Default_Search_Dir.all) then
1623 return String_Ptr (Default_Search_Dir);
1625 else
1626 return null;
1627 end if;
1628 end if;
1629 end if;
1630 end if;
1631 end Get_RTS_Search_Dir;
1633 --------------------------------
1634 -- Include_Dir_Default_Prefix --
1635 --------------------------------
1637 function Include_Dir_Default_Prefix return String_Access is
1638 begin
1639 if The_Include_Dir_Default_Prefix = null then
1640 The_Include_Dir_Default_Prefix :=
1641 String_Access (Update_Path (Include_Dir_Default_Name));
1642 end if;
1644 return The_Include_Dir_Default_Prefix;
1645 end Include_Dir_Default_Prefix;
1647 function Include_Dir_Default_Prefix return String is
1648 begin
1649 return Include_Dir_Default_Prefix.all;
1650 end Include_Dir_Default_Prefix;
1652 ----------------
1653 -- Initialize --
1654 ----------------
1656 procedure Initialize is
1657 begin
1658 Number_File_Names := 0;
1659 Current_File_Name_Index := 0;
1661 Src_Search_Directories.Init;
1662 Lib_Search_Directories.Init;
1664 -- Start off by setting all suppress options, to False. The special
1665 -- overflow fields are set to Not_Set (they will be set by -gnatp, or
1666 -- by -gnato, or, if neither of these appear, in Adjust_Global_Switches
1667 -- in Gnat1drv).
1669 Suppress_Options := ((others => False), Not_Set, Not_Set);
1671 -- Reserve the first slot in the search paths table. This is the
1672 -- directory of the main source file or main library file and is filled
1673 -- in by each call to Next_Main_Source/Next_Main_Lib_File with the
1674 -- directory specified for this main source or library file. This is the
1675 -- directory which is searched first by default. This default search is
1676 -- inhibited by the option -I- for both source and library files.
1678 Src_Search_Directories.Set_Last (Primary_Directory);
1679 Src_Search_Directories.Table (Primary_Directory) := new String'("");
1681 Lib_Search_Directories.Set_Last (Primary_Directory);
1682 Lib_Search_Directories.Table (Primary_Directory) := new String'("");
1683 end Initialize;
1685 ------------------
1686 -- Is_Directory --
1687 ------------------
1689 function Is_Directory
1690 (Name : C_File_Name; Attr : access File_Attributes) return Boolean
1692 function Internal (N : C_File_Name; A : System.Address) return Integer;
1693 pragma Import (C, Internal, "__gnat_is_directory_attr");
1694 begin
1695 return Internal (Name, Attr.all'Address) /= 0;
1696 end Is_Directory;
1698 ----------------------------
1699 -- Is_Directory_Separator --
1700 ----------------------------
1702 function Is_Directory_Separator (C : Character) return Boolean is
1703 begin
1704 -- In addition to the default directory_separator allow the '/' to
1705 -- act as separator since this is allowed in MS-DOS and Windows.
1707 return C = Directory_Separator or else C = '/';
1708 end Is_Directory_Separator;
1710 -------------------------
1711 -- Is_Readonly_Library --
1712 -------------------------
1714 function Is_Readonly_Library (File : File_Name_Type) return Boolean is
1715 begin
1716 Get_Name_String (File);
1718 pragma Assert (Name_Buffer (Name_Len - 3 .. Name_Len) = ".ali");
1720 return not Is_Writable_File (Name_Buffer (1 .. Name_Len));
1721 end Is_Readonly_Library;
1723 ------------------------
1724 -- Is_Executable_File --
1725 ------------------------
1727 function Is_Executable_File
1728 (Name : C_File_Name; Attr : access File_Attributes) return Boolean
1730 function Internal (N : C_File_Name; A : System.Address) return Integer;
1731 pragma Import (C, Internal, "__gnat_is_executable_file_attr");
1732 begin
1733 return Internal (Name, Attr.all'Address) /= 0;
1734 end Is_Executable_File;
1736 ----------------------
1737 -- Is_Readable_File --
1738 ----------------------
1740 function Is_Readable_File
1741 (Name : C_File_Name; Attr : access File_Attributes) return Boolean
1743 function Internal (N : C_File_Name; A : System.Address) return Integer;
1744 pragma Import (C, Internal, "__gnat_is_readable_file_attr");
1745 begin
1746 return Internal (Name, Attr.all'Address) /= 0;
1747 end Is_Readable_File;
1749 ---------------------
1750 -- Is_Regular_File --
1751 ---------------------
1753 function Is_Regular_File
1754 (Name : C_File_Name; Attr : access File_Attributes) return Boolean
1756 function Internal (N : C_File_Name; A : System.Address) return Integer;
1757 pragma Import (C, Internal, "__gnat_is_regular_file_attr");
1758 begin
1759 return Internal (Name, Attr.all'Address) /= 0;
1760 end Is_Regular_File;
1762 ----------------------
1763 -- Is_Symbolic_Link --
1764 ----------------------
1766 function Is_Symbolic_Link
1767 (Name : C_File_Name; Attr : access File_Attributes) return Boolean
1769 function Internal (N : C_File_Name; A : System.Address) return Integer;
1770 pragma Import (C, Internal, "__gnat_is_symbolic_link_attr");
1771 begin
1772 return Internal (Name, Attr.all'Address) /= 0;
1773 end Is_Symbolic_Link;
1775 ----------------------
1776 -- Is_Writable_File --
1777 ----------------------
1779 function Is_Writable_File
1780 (Name : C_File_Name; Attr : access File_Attributes) return Boolean
1782 function Internal (N : C_File_Name; A : System.Address) return Integer;
1783 pragma Import (C, Internal, "__gnat_is_writable_file_attr");
1784 begin
1785 return Internal (Name, Attr.all'Address) /= 0;
1786 end Is_Writable_File;
1788 -------------------
1789 -- Lib_File_Name --
1790 -------------------
1792 function Lib_File_Name
1793 (Source_File : File_Name_Type;
1794 Munit_Index : Nat := 0) return File_Name_Type
1796 begin
1797 Get_Name_String (Source_File);
1799 for J in reverse 2 .. Name_Len loop
1800 if Name_Buffer (J) = '.' then
1801 Name_Len := J - 1;
1802 exit;
1803 end if;
1804 end loop;
1806 if Munit_Index /= 0 then
1807 Add_Char_To_Name_Buffer (Multi_Unit_Index_Character);
1808 Add_Nat_To_Name_Buffer (Munit_Index);
1809 end if;
1811 Add_Char_To_Name_Buffer ('.');
1812 Add_Str_To_Name_Buffer (ALI_Suffix.all);
1813 return Name_Find;
1814 end Lib_File_Name;
1816 -----------------
1817 -- Locate_File --
1818 -----------------
1820 procedure Locate_File
1821 (N : File_Name_Type;
1822 T : File_Type;
1823 Dir : Natural;
1824 Name : String;
1825 Found : out File_Name_Type;
1826 Attr : access File_Attributes)
1828 Dir_Name : String_Ptr;
1830 begin
1831 -- If Name is already an absolute path, do not look for a directory
1833 if Is_Absolute_Path (Name) then
1834 Dir_Name := No_Dir;
1836 elsif T = Library then
1837 Dir_Name := Lib_Search_Directories.Table (Dir);
1839 else
1840 pragma Assert (T /= Config);
1841 Dir_Name := Src_Search_Directories.Table (Dir);
1842 end if;
1844 declare
1845 Full_Name : String (1 .. Dir_Name'Length + Name'Length + 1);
1847 begin
1848 Full_Name (1 .. Dir_Name'Length) := Dir_Name.all;
1849 Full_Name (Dir_Name'Length + 1 .. Full_Name'Last - 1) := Name;
1850 Full_Name (Full_Name'Last) := ASCII.NUL;
1852 Attr.all := Unknown_Attributes;
1854 if not Is_Regular_File (Full_Name'Address, Attr) then
1855 Found := No_File;
1857 else
1858 -- If the file is in the current directory then return N itself
1860 if Dir_Name'Length = 0 then
1861 Found := N;
1862 else
1863 Name_Len := Full_Name'Length - 1;
1864 Name_Buffer (1 .. Name_Len) :=
1865 Full_Name (1 .. Full_Name'Last - 1);
1866 Found := Name_Find; -- ??? Was Name_Enter, no obvious reason
1867 end if;
1868 end if;
1869 end;
1870 end Locate_File;
1872 -------------------------------
1873 -- Matching_Full_Source_Name --
1874 -------------------------------
1876 function Matching_Full_Source_Name
1877 (N : File_Name_Type;
1878 T : Time_Stamp_Type) return File_Name_Type
1880 begin
1881 Get_Name_String (N);
1883 declare
1884 File_Name : constant String := Name_Buffer (1 .. Name_Len);
1885 File : File_Name_Type := No_File;
1886 Attr : aliased File_Attributes;
1887 Last_Dir : Natural;
1889 begin
1890 if Opt.Look_In_Primary_Dir then
1891 Locate_File
1892 (N, Source, Primary_Directory, File_Name, File, Attr'Access);
1894 if File /= No_File and then T = File_Stamp (N) then
1895 return File;
1896 end if;
1897 end if;
1899 Last_Dir := Src_Search_Directories.Last;
1901 for D in Primary_Directory + 1 .. Last_Dir loop
1902 Locate_File (N, Source, D, File_Name, File, Attr'Access);
1904 if File /= No_File and then T = File_Stamp (File) then
1905 return File;
1906 end if;
1907 end loop;
1909 return No_File;
1910 end;
1911 end Matching_Full_Source_Name;
1913 ----------------
1914 -- More_Files --
1915 ----------------
1917 function More_Files return Boolean is
1918 begin
1919 return (Current_File_Name_Index < Number_File_Names);
1920 end More_Files;
1922 -------------------------------
1923 -- Nb_Dir_In_Obj_Search_Path --
1924 -------------------------------
1926 function Nb_Dir_In_Obj_Search_Path return Natural is
1927 begin
1928 if Opt.Look_In_Primary_Dir then
1929 return Lib_Search_Directories.Last - Primary_Directory + 1;
1930 else
1931 return Lib_Search_Directories.Last - Primary_Directory;
1932 end if;
1933 end Nb_Dir_In_Obj_Search_Path;
1935 -------------------------------
1936 -- Nb_Dir_In_Src_Search_Path --
1937 -------------------------------
1939 function Nb_Dir_In_Src_Search_Path return Natural is
1940 begin
1941 if Opt.Look_In_Primary_Dir then
1942 return Src_Search_Directories.Last - Primary_Directory + 1;
1943 else
1944 return Src_Search_Directories.Last - Primary_Directory;
1945 end if;
1946 end Nb_Dir_In_Src_Search_Path;
1948 --------------------
1949 -- Next_Main_File --
1950 --------------------
1952 function Next_Main_File return File_Name_Type is
1953 File_Name : String_Ptr;
1954 Dir_Name : String_Ptr;
1955 Fptr : Natural;
1957 begin
1958 pragma Assert (More_Files);
1960 Current_File_Name_Index := Current_File_Name_Index + 1;
1962 -- Get the file and directory name
1964 File_Name := File_Names (Current_File_Name_Index);
1965 Fptr := File_Name'First;
1967 for J in reverse File_Name'Range loop
1968 if File_Name (J) = Directory_Separator
1969 or else File_Name (J) = '/'
1970 then
1971 if J = File_Name'Last then
1972 Fail ("File name missing");
1973 end if;
1975 Fptr := J + 1;
1976 exit;
1977 end if;
1978 end loop;
1980 -- Save name of directory in which main unit resides for use in
1981 -- locating other units
1983 Dir_Name := new String'(File_Name (File_Name'First .. Fptr - 1));
1985 case Running_Program is
1986 when Compiler =>
1987 Src_Search_Directories.Table (Primary_Directory) := Dir_Name;
1988 Look_In_Primary_Directory_For_Current_Main := True;
1990 when Make =>
1991 Src_Search_Directories.Table (Primary_Directory) := Dir_Name;
1993 if Fptr > File_Name'First then
1994 Look_In_Primary_Directory_For_Current_Main := True;
1995 end if;
1997 when Binder
1998 | Gnatls
2000 Dir_Name := Normalize_Directory_Name (Dir_Name.all);
2001 Lib_Search_Directories.Table (Primary_Directory) := Dir_Name;
2003 when Unspecified =>
2004 null;
2005 end case;
2007 Name_Len := File_Name'Last - Fptr + 1;
2008 Name_Buffer (1 .. Name_Len) := File_Name (Fptr .. File_Name'Last);
2009 Canonical_Case_File_Name (Name_Buffer (1 .. Name_Len));
2010 Current_Main := Name_Find;
2012 -- In the gnatmake case, the main file may have not have the
2013 -- extension. Try ".adb" first then ".ads"
2015 if Running_Program = Make then
2016 declare
2017 Orig_Main : constant File_Name_Type := Current_Main;
2019 begin
2020 if Strip_Suffix (Orig_Main) = Orig_Main then
2021 Current_Main :=
2022 Append_Suffix_To_File_Name (Orig_Main, ".adb");
2024 if Full_Source_Name (Current_Main) = No_File then
2025 Current_Main :=
2026 Append_Suffix_To_File_Name (Orig_Main, ".ads");
2028 if Full_Source_Name (Current_Main) = No_File then
2029 Current_Main := Orig_Main;
2030 end if;
2031 end if;
2032 end if;
2033 end;
2034 end if;
2036 return Current_Main;
2037 end Next_Main_File;
2039 ------------------------------
2040 -- Normalize_Directory_Name --
2041 ------------------------------
2043 function Normalize_Directory_Name (Directory : String) return String_Ptr is
2045 function Is_Quoted (Path : String) return Boolean;
2046 pragma Inline (Is_Quoted);
2047 -- Returns true if Path is quoted (either double or single quotes)
2049 ---------------
2050 -- Is_Quoted --
2051 ---------------
2053 function Is_Quoted (Path : String) return Boolean is
2054 First : constant Character := Path (Path'First);
2055 Last : constant Character := Path (Path'Last);
2057 begin
2058 if (First = ''' and then Last = ''')
2059 or else
2060 (First = '"' and then Last = '"')
2061 then
2062 return True;
2063 else
2064 return False;
2065 end if;
2066 end Is_Quoted;
2068 Result : String_Ptr;
2070 -- Start of processing for Normalize_Directory_Name
2072 begin
2073 if Directory'Length = 0 then
2074 Result := new String'(Hostparm.Normalized_CWD);
2076 elsif Is_Directory_Separator (Directory (Directory'Last)) then
2077 Result := new String'(Directory);
2079 elsif Is_Quoted (Directory) then
2081 -- This is a quoted string, it certainly means that the directory
2082 -- contains some spaces for example. We can safely remove the quotes
2083 -- here as the OS_Lib.Normalize_Arguments will be called before any
2084 -- spawn routines. This ensure that quotes will be added when needed.
2086 Result := new String (1 .. Directory'Length - 1);
2087 Result (1 .. Directory'Length - 2) :=
2088 Directory (Directory'First + 1 .. Directory'Last - 1);
2089 Result (Result'Last) := Directory_Separator;
2091 else
2092 Result := new String (1 .. Directory'Length + 1);
2093 Result (1 .. Directory'Length) := Directory;
2094 Result (Directory'Length + 1) := Directory_Separator;
2095 end if;
2097 return Result;
2098 end Normalize_Directory_Name;
2100 ---------------------
2101 -- Number_Of_Files --
2102 ---------------------
2104 function Number_Of_Files return Nat is
2105 begin
2106 return Number_File_Names;
2107 end Number_Of_Files;
2109 -------------------------------
2110 -- Object_Dir_Default_Prefix --
2111 -------------------------------
2113 function Object_Dir_Default_Prefix return String is
2114 Object_Dir : String_Access :=
2115 String_Access (Update_Path (Object_Dir_Default_Name));
2117 begin
2118 if Object_Dir = null then
2119 return "";
2121 else
2122 declare
2123 Result : constant String := Object_Dir.all;
2124 begin
2125 Free (Object_Dir);
2126 return Result;
2127 end;
2128 end if;
2129 end Object_Dir_Default_Prefix;
2131 ----------------------
2132 -- Object_File_Name --
2133 ----------------------
2135 function Object_File_Name (N : File_Name_Type) return File_Name_Type is
2136 begin
2137 if N = No_File then
2138 return No_File;
2139 end if;
2141 Get_Name_String (N);
2142 Name_Len := Name_Len - ALI_Suffix'Length - 1;
2144 for J in Target_Object_Suffix'Range loop
2145 Name_Len := Name_Len + 1;
2146 Name_Buffer (Name_Len) := Target_Object_Suffix (J);
2147 end loop;
2149 return Name_Enter;
2150 end Object_File_Name;
2152 -------------------------------
2153 -- OS_Exit_Through_Exception --
2154 -------------------------------
2156 procedure OS_Exit_Through_Exception (Status : Integer) is
2157 begin
2158 Current_Exit_Status := Status;
2159 raise Types.Terminate_Program;
2160 end OS_Exit_Through_Exception;
2162 --------------------------
2163 -- OS_Time_To_GNAT_Time --
2164 --------------------------
2166 function OS_Time_To_GNAT_Time (T : OS_Time) return Time_Stamp_Type is
2167 GNAT_Time : Time_Stamp_Type;
2169 Y : Year_Type;
2170 Mo : Month_Type;
2171 D : Day_Type;
2172 H : Hour_Type;
2173 Mn : Minute_Type;
2174 S : Second_Type;
2176 begin
2177 if T = Invalid_Time then
2178 return Empty_Time_Stamp;
2179 end if;
2181 GM_Split (T, Y, Mo, D, H, Mn, S);
2182 Make_Time_Stamp
2183 (Year => Nat (Y),
2184 Month => Nat (Mo),
2185 Day => Nat (D),
2186 Hour => Nat (H),
2187 Minutes => Nat (Mn),
2188 Seconds => Nat (S),
2189 TS => GNAT_Time);
2191 return GNAT_Time;
2192 end OS_Time_To_GNAT_Time;
2194 -----------------
2195 -- Prep_Suffix --
2196 -----------------
2198 function Prep_Suffix return String is
2199 begin
2200 return ".prep";
2201 end Prep_Suffix;
2203 ------------------
2204 -- Program_Name --
2205 ------------------
2207 function Program_Name (Nam : String; Prog : String) return String_Access is
2208 End_Of_Prefix : Natural := 0;
2209 Start_Of_Prefix : Positive := 1;
2210 Start_Of_Suffix : Positive;
2212 begin
2213 -- Get the name of the current program being executed
2215 Find_Program_Name;
2217 Start_Of_Suffix := Name_Len + 1;
2219 -- Find the target prefix if any, for the cross compilation case.
2220 -- For instance in "powerpc-elf-gcc" the target prefix is
2221 -- "powerpc-elf-"
2222 -- Ditto for suffix, e.g. in "gcc-4.1", the suffix is "-4.1"
2224 for J in reverse 1 .. Name_Len loop
2225 if Name_Buffer (J) = '/'
2226 or else Name_Buffer (J) = Directory_Separator
2227 or else Name_Buffer (J) = ':'
2228 then
2229 Start_Of_Prefix := J + 1;
2230 exit;
2231 end if;
2232 end loop;
2234 -- Find End_Of_Prefix
2236 for J in Start_Of_Prefix .. Name_Len - Prog'Length + 1 loop
2237 if Name_Buffer (J .. J + Prog'Length - 1) = Prog then
2238 End_Of_Prefix := J - 1;
2239 exit;
2240 end if;
2241 end loop;
2243 if End_Of_Prefix > 1 then
2244 Start_Of_Suffix := End_Of_Prefix + Prog'Length + 1;
2245 end if;
2247 -- Create the new program name
2249 return new String'
2250 (Name_Buffer (Start_Of_Prefix .. End_Of_Prefix)
2251 & Nam
2252 & Name_Buffer (Start_Of_Suffix .. Name_Len));
2253 end Program_Name;
2255 ------------------------------
2256 -- Read_Default_Search_Dirs --
2257 ------------------------------
2259 function Read_Default_Search_Dirs
2260 (Search_Dir_Prefix : String_Access;
2261 Search_File : String_Access;
2262 Search_Dir_Default_Name : String_Access) return String_Access
2264 Prefix_Len : constant Integer := Search_Dir_Prefix.all'Length;
2265 Buffer : String (1 .. Prefix_Len + Search_File.all'Length + 1);
2266 File_FD : File_Descriptor;
2267 S, S1 : String_Access;
2268 Len : Integer;
2269 Curr : Integer;
2270 Actual_Len : Integer;
2271 J1 : Integer;
2273 Prev_Was_Separator : Boolean;
2274 Nb_Relative_Dir : Integer;
2276 function Is_Relative (S : String; K : Positive) return Boolean;
2277 pragma Inline (Is_Relative);
2278 -- Returns True if a relative directory specification is found
2279 -- in S at position K, False otherwise.
2281 -----------------
2282 -- Is_Relative --
2283 -----------------
2285 function Is_Relative (S : String; K : Positive) return Boolean is
2286 begin
2287 return not Is_Absolute_Path (S (K .. S'Last));
2288 end Is_Relative;
2290 -- Start of processing for Read_Default_Search_Dirs
2292 begin
2293 -- Construct a C compatible character string buffer
2295 Buffer (1 .. Search_Dir_Prefix.all'Length)
2296 := Search_Dir_Prefix.all;
2297 Buffer (Search_Dir_Prefix.all'Length + 1 .. Buffer'Last - 1)
2298 := Search_File.all;
2299 Buffer (Buffer'Last) := ASCII.NUL;
2301 File_FD := Open_Read (Buffer'Address, Binary);
2302 if File_FD = Invalid_FD then
2303 return Search_Dir_Default_Name;
2304 end if;
2306 Len := Integer (File_Length (File_FD));
2308 -- An extra character for a trailing Path_Separator is allocated
2310 S := new String (1 .. Len + 1);
2311 S (Len + 1) := Path_Separator;
2313 -- Read the file. Note that the loop is probably not necessary since the
2314 -- whole file is read at once but the loop is harmless and that way we
2315 -- are sure to accommodate systems where this is not the case.
2317 Curr := 1;
2318 Actual_Len := Len;
2319 while Actual_Len /= 0 loop
2320 Actual_Len := Read (File_FD, S (Curr)'Address, Len);
2321 Curr := Curr + Actual_Len;
2322 end loop;
2324 -- Process the file, dealing with path separators
2326 Prev_Was_Separator := True;
2327 Nb_Relative_Dir := 0;
2328 for J in 1 .. Len loop
2330 -- Treat any control character as a path separator. Note that we do
2331 -- not treat space as a path separator (we used to treat space as a
2332 -- path separator in an earlier version). That way space can appear
2333 -- as a legitimate character in a path name.
2335 -- Why do we treat all control characters as path separators???
2337 if S (J) in ASCII.NUL .. ASCII.US then
2338 S (J) := Path_Separator;
2339 end if;
2341 -- Test for explicit path separator (or control char as above)
2343 if S (J) = Path_Separator then
2344 Prev_Was_Separator := True;
2346 -- If not path separator, register use of relative directory
2348 else
2349 if Prev_Was_Separator and then Is_Relative (S.all, J) then
2350 Nb_Relative_Dir := Nb_Relative_Dir + 1;
2351 end if;
2353 Prev_Was_Separator := False;
2354 end if;
2355 end loop;
2357 if Nb_Relative_Dir = 0 then
2358 return S;
2359 end if;
2361 -- Add the Search_Dir_Prefix to all relative paths
2363 S1 := new String (1 .. S'Length + Nb_Relative_Dir * Prefix_Len);
2364 J1 := 1;
2365 Prev_Was_Separator := True;
2366 for J in 1 .. Len + 1 loop
2367 if S (J) = Path_Separator then
2368 Prev_Was_Separator := True;
2370 else
2371 if Prev_Was_Separator and then Is_Relative (S.all, J) then
2372 S1 (J1 .. J1 + Prefix_Len - 1) := Search_Dir_Prefix.all;
2373 J1 := J1 + Prefix_Len;
2374 end if;
2376 Prev_Was_Separator := False;
2377 end if;
2378 S1 (J1) := S (J);
2379 J1 := J1 + 1;
2380 end loop;
2382 Free (S);
2383 return S1;
2384 end Read_Default_Search_Dirs;
2386 -----------------------
2387 -- Read_Library_Info --
2388 -----------------------
2390 function Read_Library_Info
2391 (Lib_File : File_Name_Type;
2392 Fatal_Err : Boolean := False) return Text_Buffer_Ptr
2394 File : File_Name_Type;
2395 Attr : aliased File_Attributes;
2396 begin
2397 Find_File (Lib_File, Library, File, Attr'Access);
2398 return Read_Library_Info_From_Full
2399 (Full_Lib_File => File,
2400 Lib_File_Attr => Attr'Access,
2401 Fatal_Err => Fatal_Err);
2402 end Read_Library_Info;
2404 ---------------------------------
2405 -- Read_Library_Info_From_Full --
2406 ---------------------------------
2408 function Read_Library_Info_From_Full
2409 (Full_Lib_File : File_Name_Type;
2410 Lib_File_Attr : access File_Attributes;
2411 Fatal_Err : Boolean := False) return Text_Buffer_Ptr
2413 Lib_FD : File_Descriptor;
2414 -- The file descriptor for the current library file. A negative value
2415 -- indicates failure to open the specified source file.
2417 Len : Integer;
2418 -- Length of source file text (ALI). If it doesn't fit in an integer
2419 -- we're probably stuck anyway (>2 gigs of source seems a lot, and
2420 -- there are other places in the compiler that make this assumption).
2422 Text : Text_Buffer_Ptr;
2423 -- Allocated text buffer
2425 Status : Boolean;
2426 pragma Warnings (Off, Status);
2427 -- For the calls to Close
2429 begin
2430 Current_Full_Lib_Name := Full_Lib_File;
2431 Current_Full_Obj_Name := Object_File_Name (Current_Full_Lib_Name);
2433 if Current_Full_Lib_Name = No_File then
2434 if Fatal_Err then
2435 Fail ("Cannot find: " & Name_Buffer (1 .. Name_Len));
2436 else
2437 Current_Full_Obj_Stamp := Empty_Time_Stamp;
2438 return null;
2439 end if;
2440 end if;
2442 Get_Name_String (Current_Full_Lib_Name);
2443 Name_Buffer (Name_Len + 1) := ASCII.NUL;
2445 -- Open the library FD, note that we open in binary mode, because as
2446 -- documented in the spec, the caller is expected to handle either
2447 -- DOS or Unix mode files, and there is no point in wasting time on
2448 -- text translation when it is not required.
2450 Lib_FD := Open_Read (Name_Buffer'Address, Binary);
2452 if Lib_FD = Invalid_FD then
2453 if Fatal_Err then
2454 Fail ("Cannot open: " & Name_Buffer (1 .. Name_Len));
2455 else
2456 Current_Full_Obj_Stamp := Empty_Time_Stamp;
2457 return null;
2458 end if;
2459 end if;
2461 -- Compute the length of the file (potentially also preparing other data
2462 -- like the timestamp and whether the file is read-only, for future use)
2464 Len := Integer (File_Length (Name_Buffer'Address, Lib_File_Attr));
2466 -- Check for object file consistency if requested
2468 if Opt.Check_Object_Consistency then
2469 -- On most systems, this does not result in an extra system call
2471 Current_Full_Lib_Stamp :=
2472 OS_Time_To_GNAT_Time
2473 (File_Time_Stamp (Name_Buffer'Address, Lib_File_Attr));
2475 -- ??? One system call here
2477 Current_Full_Obj_Stamp := File_Stamp (Current_Full_Obj_Name);
2479 if Current_Full_Obj_Stamp (1) = ' ' then
2481 -- When the library is readonly always assume object is consistent
2482 -- The call to Is_Writable_File only results in a system call on
2483 -- some systems, but in most cases it has already been computed as
2484 -- part of the call to File_Length above.
2486 Get_Name_String (Current_Full_Lib_Name);
2487 Name_Buffer (Name_Len + 1) := ASCII.NUL;
2489 if not Is_Writable_File (Name_Buffer'Address, Lib_File_Attr) then
2490 Current_Full_Obj_Stamp := Current_Full_Lib_Stamp;
2492 elsif Fatal_Err then
2493 Get_Name_String (Current_Full_Obj_Name);
2494 Close (Lib_FD, Status);
2496 -- No need to check the status, we fail anyway
2498 Fail ("Cannot find: " & Name_Buffer (1 .. Name_Len));
2500 else
2501 Current_Full_Obj_Stamp := Empty_Time_Stamp;
2502 Close (Lib_FD, Status);
2504 -- No need to check the status, we return null anyway
2506 return null;
2507 end if;
2509 elsif Current_Full_Obj_Stamp < Current_Full_Lib_Stamp then
2510 Close (Lib_FD, Status);
2512 -- No need to check the status, we return null anyway
2514 return null;
2515 end if;
2516 end if;
2518 -- Read data from the file
2520 declare
2521 Actual_Len : Integer := 0;
2523 Lo : constant Text_Ptr := 0;
2524 -- Low bound for allocated text buffer
2526 Hi : Text_Ptr := Text_Ptr (Len);
2527 -- High bound for allocated text buffer. Note length is Len + 1
2528 -- which allows for extra EOF character at the end of the buffer.
2530 begin
2531 -- Allocate text buffer. Note extra character at end for EOF
2533 Text := new Text_Buffer (Lo .. Hi);
2535 -- Some systems have file types that require one read per line,
2536 -- so read until we get the Len bytes or until there are no more
2537 -- characters.
2539 Hi := Lo;
2540 loop
2541 Actual_Len := Read (Lib_FD, Text (Hi)'Address, Len);
2542 Hi := Hi + Text_Ptr (Actual_Len);
2543 exit when Actual_Len = Len or else Actual_Len <= 0;
2544 end loop;
2546 Text (Hi) := EOF;
2547 end;
2549 -- Read is complete, close file and we are done
2551 Close (Lib_FD, Status);
2552 -- The status should never be False. But, if it is, what can we do?
2553 -- So, we don't test it.
2555 return Text;
2557 end Read_Library_Info_From_Full;
2559 ----------------------
2560 -- Read_Source_File --
2561 ----------------------
2563 procedure Read_Source_File
2564 (N : File_Name_Type;
2565 Lo : Source_Ptr;
2566 Hi : out Source_Ptr;
2567 Src : out Source_Buffer_Ptr;
2568 FD : out File_Descriptor;
2569 T : File_Type := Source)
2571 Len : Integer;
2572 -- Length of file, assume no more than 2 gigabytes of source
2574 Actual_Len : Integer;
2576 Status : Boolean;
2577 pragma Warnings (Off, Status);
2578 -- For the call to Close
2580 begin
2581 Current_Full_Source_Name := Find_File (N, T, Full_Name => True);
2582 Current_Full_Source_Stamp := File_Stamp (Current_Full_Source_Name);
2584 if Current_Full_Source_Name = No_File then
2586 -- If we were trying to access the main file and we could not find
2587 -- it, we have an error.
2589 if N = Current_Main then
2590 Get_Name_String (N);
2591 Fail ("Cannot find: " & Name_Buffer (1 .. Name_Len));
2592 end if;
2594 FD := Null_FD;
2595 Src := null;
2596 Hi := No_Location;
2597 return;
2598 end if;
2600 Get_Name_String (Current_Full_Source_Name);
2601 Name_Buffer (Name_Len + 1) := ASCII.NUL;
2603 -- Open the source FD, note that we open in binary mode, because as
2604 -- documented in the spec, the caller is expected to handle either
2605 -- DOS or Unix mode files, and there is no point in wasting time on
2606 -- text translation when it is not required.
2608 FD := Open_Read (Name_Buffer'Address, Binary);
2610 if FD = Invalid_FD then
2611 Src := null;
2612 Hi := No_Location;
2613 return;
2614 end if;
2616 -- If it's a Source file, print out the file name, if requested, and if
2617 -- it's not part of the runtimes, store it in File_Name_Chars. We don't
2618 -- want to print non-Source files, like GNAT-TEMP-000001.TMP used to
2619 -- pass information from gprbuild to gcc. We don't want to save runtime
2620 -- file names, because we don't want users to send them in bug reports.
2622 if T = Source then
2623 declare
2624 Name : String renames Name_Buffer (1 .. Name_Len);
2625 Inc : String renames Include_Dir_Default_Prefix.all;
2627 Part_Of_Runtimes : constant Boolean :=
2628 Inc /= ""
2629 and then Inc'Length < Name_Len
2630 and then Name_Buffer (1 .. Inc'Length) = Inc;
2632 begin
2633 if Debug.Debug_Flag_Dot_N then
2634 Write_Line (Name);
2635 end if;
2637 if not Part_Of_Runtimes then
2638 File_Name_Chars.Append_All (File_Name_Chars.Table_Type (Name));
2639 File_Name_Chars.Append (ASCII.LF);
2640 end if;
2641 end;
2642 end if;
2644 -- Prepare to read data from the file
2646 Len := Integer (File_Length (FD));
2648 -- Set Hi so that length is one more than the physical length,
2649 -- allowing for the extra EOF character at the end of the buffer
2651 Hi := Lo + Source_Ptr (Len);
2653 -- Do the actual read operation
2655 declare
2656 Var_Ptr : constant Source_Buffer_Ptr_Var :=
2657 new Source_Buffer (Lo .. Hi);
2658 -- Allocate source buffer, allowing extra character at end for EOF
2659 begin
2660 -- Some systems have file types that require one read per line,
2661 -- so read until we get the Len bytes or until there are no more
2662 -- characters.
2664 Hi := Lo;
2665 loop
2666 Actual_Len := Read (FD, Var_Ptr (Hi)'Address, Len);
2667 Hi := Hi + Source_Ptr (Actual_Len);
2668 exit when Actual_Len = Len or else Actual_Len <= 0;
2669 end loop;
2671 Var_Ptr (Hi) := EOF;
2672 Src := Var_Ptr.all'Access;
2673 end;
2675 -- Read is complete, get time stamp and close file and we are done
2677 Close (FD, Status);
2679 -- The status should never be False. But, if it is, what can we do?
2680 -- So, we don't test it.
2682 -- ???We don't really need to return Hi anymore; We could get rid of
2683 -- it. We could also make this into a function.
2685 pragma Assert (Hi = Src'Last);
2686 end Read_Source_File;
2688 -------------------
2689 -- Relocate_Path --
2690 -------------------
2692 function Relocate_Path
2693 (Prefix : String;
2694 Path : String) return String_Ptr
2696 S : String_Ptr;
2698 procedure set_std_prefix (S : String; Len : Integer);
2699 pragma Import (C, set_std_prefix);
2701 begin
2702 if Std_Prefix = null then
2703 Std_Prefix := Executable_Prefix;
2705 if Std_Prefix.all /= "" then
2707 -- Remove trailing directory separator when calling set_std_prefix
2709 set_std_prefix (Std_Prefix.all, Std_Prefix'Length - 1);
2710 end if;
2711 end if;
2713 if Path'Last >= Prefix'Last and then Path (Prefix'Range) = Prefix then
2714 if Std_Prefix.all /= "" then
2715 S := new String
2716 (1 .. Std_Prefix'Length + Path'Last - Prefix'Last);
2717 S (1 .. Std_Prefix'Length) := Std_Prefix.all;
2718 S (Std_Prefix'Length + 1 .. S'Last) :=
2719 Path (Prefix'Last + 1 .. Path'Last);
2720 return S;
2721 end if;
2722 end if;
2724 return new String'(Path);
2725 end Relocate_Path;
2727 -----------------
2728 -- Set_Program --
2729 -----------------
2731 procedure Set_Program (P : Program_Type) is
2732 begin
2733 if Program_Set then
2734 Fail ("Set_Program called twice");
2735 end if;
2737 Program_Set := True;
2738 Running_Program := P;
2739 end Set_Program;
2741 ----------------
2742 -- Shared_Lib --
2743 ----------------
2745 function Shared_Lib (Name : String) return String is
2746 Library : String (1 .. Name'Length + Library_Version'Length + 3);
2747 -- 3 = 2 for "-l" + 1 for "-" before lib version
2749 begin
2750 Library (1 .. 2) := "-l";
2751 Library (3 .. 2 + Name'Length) := Name;
2752 Library (3 + Name'Length) := '-';
2753 Library (4 + Name'Length .. Library'Last) := Library_Version;
2754 return Library;
2755 end Shared_Lib;
2757 ----------------------
2758 -- Smart_File_Stamp --
2759 ----------------------
2761 function Smart_File_Stamp
2762 (N : File_Name_Type;
2763 T : File_Type) return Time_Stamp_Type
2765 File : File_Name_Type;
2766 Attr : aliased File_Attributes;
2768 begin
2769 if not File_Cache_Enabled then
2770 Find_File (N, T, File, Attr'Access);
2771 else
2772 Smart_Find_File (N, T, File, Attr);
2773 end if;
2775 if File = No_File then
2776 return Empty_Time_Stamp;
2777 else
2778 Get_Name_String (File);
2779 Name_Buffer (Name_Len + 1) := ASCII.NUL;
2780 return
2781 OS_Time_To_GNAT_Time
2782 (File_Time_Stamp (Name_Buffer'Address, Attr'Access));
2783 end if;
2784 end Smart_File_Stamp;
2786 ---------------------
2787 -- Smart_Find_File --
2788 ---------------------
2790 function Smart_Find_File
2791 (N : File_Name_Type;
2792 T : File_Type) return File_Name_Type
2794 File : File_Name_Type;
2795 Attr : File_Attributes;
2796 begin
2797 Smart_Find_File (N, T, File, Attr);
2798 return File;
2799 end Smart_Find_File;
2801 ---------------------
2802 -- Smart_Find_File --
2803 ---------------------
2805 procedure Smart_Find_File
2806 (N : File_Name_Type;
2807 T : File_Type;
2808 Found : out File_Name_Type;
2809 Attr : out File_Attributes)
2811 Info : File_Info_Cache;
2813 begin
2814 if not File_Cache_Enabled then
2815 Find_File (N, T, Info.File, Info.Attr'Access);
2817 else
2818 Info := File_Name_Hash_Table.Get (N);
2820 if Info.File = No_File then
2821 Find_File (N, T, Info.File, Info.Attr'Access);
2822 File_Name_Hash_Table.Set (N, Info);
2823 end if;
2824 end if;
2826 Found := Info.File;
2827 Attr := Info.Attr;
2828 end Smart_Find_File;
2830 ----------------------
2831 -- Source_File_Data --
2832 ----------------------
2834 procedure Source_File_Data (Cache : Boolean) is
2835 begin
2836 File_Cache_Enabled := Cache;
2837 end Source_File_Data;
2839 -----------------------
2840 -- Source_File_Stamp --
2841 -----------------------
2843 function Source_File_Stamp (N : File_Name_Type) return Time_Stamp_Type is
2844 begin
2845 return Smart_File_Stamp (N, Source);
2846 end Source_File_Stamp;
2848 ---------------------
2849 -- Strip_Directory --
2850 ---------------------
2852 function Strip_Directory (Name : File_Name_Type) return File_Name_Type is
2853 begin
2854 Get_Name_String (Name);
2856 for J in reverse 1 .. Name_Len - 1 loop
2858 -- If we find the last directory separator
2860 if Is_Directory_Separator (Name_Buffer (J)) then
2862 -- Return part of Name that follows this last directory separator
2864 Name_Buffer (1 .. Name_Len - J) := Name_Buffer (J + 1 .. Name_Len);
2865 Name_Len := Name_Len - J;
2866 return Name_Find;
2867 end if;
2868 end loop;
2870 -- There were no directory separator, just return Name
2872 return Name;
2873 end Strip_Directory;
2875 ------------------
2876 -- Strip_Suffix --
2877 ------------------
2879 function Strip_Suffix (Name : File_Name_Type) return File_Name_Type is
2880 begin
2881 Get_Name_String (Name);
2883 for J in reverse 2 .. Name_Len loop
2885 -- If we found the last '.', return part of Name that precedes it
2887 if Name_Buffer (J) = '.' then
2888 Name_Len := J - 1;
2889 return Name_Enter;
2890 end if;
2891 end loop;
2893 return Name;
2894 end Strip_Suffix;
2896 ---------------------------
2897 -- To_Canonical_File_List --
2898 ---------------------------
2900 function To_Canonical_File_List
2901 (Wildcard_Host_File : String;
2902 Only_Dirs : Boolean) return String_Access_List_Access
2904 function To_Canonical_File_List_Init
2905 (Host_File : Address;
2906 Only_Dirs : Integer) return Integer;
2907 pragma Import (C, To_Canonical_File_List_Init,
2908 "__gnat_to_canonical_file_list_init");
2910 function To_Canonical_File_List_Next return Address;
2911 pragma Import (C, To_Canonical_File_List_Next,
2912 "__gnat_to_canonical_file_list_next");
2914 procedure To_Canonical_File_List_Free;
2915 pragma Import (C, To_Canonical_File_List_Free,
2916 "__gnat_to_canonical_file_list_free");
2918 Num_Files : Integer;
2919 C_Wildcard_Host_File : String (1 .. Wildcard_Host_File'Length + 1);
2921 begin
2922 C_Wildcard_Host_File (1 .. Wildcard_Host_File'Length) :=
2923 Wildcard_Host_File;
2924 C_Wildcard_Host_File (C_Wildcard_Host_File'Last) := ASCII.NUL;
2926 -- Do the expansion and say how many there are
2928 Num_Files := To_Canonical_File_List_Init
2929 (C_Wildcard_Host_File'Address, Boolean'Pos (Only_Dirs));
2931 declare
2932 Canonical_File_List : String_Access_List (1 .. Num_Files);
2933 Canonical_File_Addr : Address;
2934 Canonical_File_Len : CRTL.size_t;
2936 begin
2937 -- Retrieve the expanded directory names and build the list
2939 for J in 1 .. Num_Files loop
2940 Canonical_File_Addr := To_Canonical_File_List_Next;
2941 Canonical_File_Len := C_String_Length (Canonical_File_Addr);
2942 Canonical_File_List (J) := To_Path_String_Access
2943 (Canonical_File_Addr, Canonical_File_Len);
2944 end loop;
2946 -- Free up the storage
2948 To_Canonical_File_List_Free;
2950 return new String_Access_List'(Canonical_File_List);
2951 end;
2952 end To_Canonical_File_List;
2954 ----------------------
2955 -- To_Host_Dir_Spec --
2956 ----------------------
2958 function To_Host_Dir_Spec
2959 (Canonical_Dir : String;
2960 Prefix_Style : Boolean) return String_Access
2962 function To_Host_Dir_Spec
2963 (Canonical_Dir : Address;
2964 Prefix_Flag : Integer) return Address;
2965 pragma Import (C, To_Host_Dir_Spec, "__gnat_to_host_dir_spec");
2967 C_Canonical_Dir : String (1 .. Canonical_Dir'Length + 1);
2968 Host_Dir_Addr : Address;
2969 Host_Dir_Len : CRTL.size_t;
2971 begin
2972 C_Canonical_Dir (1 .. Canonical_Dir'Length) := Canonical_Dir;
2973 C_Canonical_Dir (C_Canonical_Dir'Last) := ASCII.NUL;
2975 if Prefix_Style then
2976 Host_Dir_Addr := To_Host_Dir_Spec (C_Canonical_Dir'Address, 1);
2977 else
2978 Host_Dir_Addr := To_Host_Dir_Spec (C_Canonical_Dir'Address, 0);
2979 end if;
2980 Host_Dir_Len := C_String_Length (Host_Dir_Addr);
2982 if Host_Dir_Len = 0 then
2983 return null;
2984 else
2985 return To_Path_String_Access (Host_Dir_Addr, Host_Dir_Len);
2986 end if;
2987 end To_Host_Dir_Spec;
2989 -----------------------
2990 -- To_Host_File_Spec --
2991 -----------------------
2993 function To_Host_File_Spec
2994 (Canonical_File : String) return String_Access
2996 function To_Host_File_Spec (Canonical_File : Address) return Address;
2997 pragma Import (C, To_Host_File_Spec, "__gnat_to_host_file_spec");
2999 C_Canonical_File : String (1 .. Canonical_File'Length + 1);
3000 Host_File_Addr : Address;
3001 Host_File_Len : CRTL.size_t;
3003 begin
3004 C_Canonical_File (1 .. Canonical_File'Length) := Canonical_File;
3005 C_Canonical_File (C_Canonical_File'Last) := ASCII.NUL;
3007 Host_File_Addr := To_Host_File_Spec (C_Canonical_File'Address);
3008 Host_File_Len := C_String_Length (Host_File_Addr);
3010 if Host_File_Len = 0 then
3011 return null;
3012 else
3013 return To_Path_String_Access
3014 (Host_File_Addr, Host_File_Len);
3015 end if;
3016 end To_Host_File_Spec;
3018 ---------------------------
3019 -- To_Path_String_Access --
3020 ---------------------------
3022 function To_Path_String_Access
3023 (Path_Addr : Address;
3024 Path_Len : CRTL.size_t) return String_Access
3026 subtype Path_String is String (1 .. Integer (Path_Len));
3027 type Path_String_Access is access Path_String;
3029 function Address_To_Access is new
3030 Unchecked_Conversion (Source => Address,
3031 Target => Path_String_Access);
3033 Path_Access : constant Path_String_Access :=
3034 Address_To_Access (Path_Addr);
3036 Return_Val : String_Access;
3038 begin
3039 Return_Val := new String (1 .. Integer (Path_Len));
3041 for J in 1 .. Integer (Path_Len) loop
3042 Return_Val (J) := Path_Access (J);
3043 end loop;
3045 return Return_Val;
3046 end To_Path_String_Access;
3048 -----------------
3049 -- Update_Path --
3050 -----------------
3052 function Update_Path (Path : String_Ptr) return String_Ptr is
3054 function C_Update_Path (Path, Component : Address) return Address;
3055 pragma Import (C, C_Update_Path, "update_path");
3057 In_Length : constant Integer := Path'Length;
3058 In_String : String (1 .. In_Length + 1);
3059 Component_Name : aliased String := "GCC" & ASCII.NUL;
3060 Result_Ptr : Address;
3061 Result_Length : CRTL.size_t;
3062 Out_String : String_Ptr;
3064 begin
3065 In_String (1 .. In_Length) := Path.all;
3066 In_String (In_Length + 1) := ASCII.NUL;
3067 Result_Ptr := C_Update_Path (In_String'Address, Component_Name'Address);
3068 Result_Length := CRTL.strlen (Result_Ptr);
3070 Out_String := new String (1 .. Integer (Result_Length));
3071 CRTL.strncpy (Out_String.all'Address, Result_Ptr, Result_Length);
3072 return Out_String;
3073 end Update_Path;
3075 ----------------
3076 -- Write_Info --
3077 ----------------
3079 procedure Write_Info (Info : String) is
3080 begin
3081 Write_With_Check (Info'Address, Info'Length);
3082 Write_With_Check (EOL'Address, 1);
3083 end Write_Info;
3085 ------------------------
3086 -- Write_Program_Name --
3087 ------------------------
3089 procedure Write_Program_Name is
3090 Save_Buffer : constant String (1 .. Name_Len) :=
3091 Name_Buffer (1 .. Name_Len);
3093 begin
3094 Find_Program_Name;
3096 -- Convert the name to lower case so error messages are the same on
3097 -- all systems.
3099 for J in 1 .. Name_Len loop
3100 if Name_Buffer (J) in 'A' .. 'Z' then
3101 Name_Buffer (J) :=
3102 Character'Val (Character'Pos (Name_Buffer (J)) + 32);
3103 end if;
3104 end loop;
3106 Write_Str (Name_Buffer (1 .. Name_Len));
3108 -- Restore Name_Buffer which was clobbered by the call to
3109 -- Find_Program_Name
3111 Name_Len := Save_Buffer'Last;
3112 Name_Buffer (1 .. Name_Len) := Save_Buffer;
3113 end Write_Program_Name;
3115 ----------------------
3116 -- Write_With_Check --
3117 ----------------------
3119 procedure Write_With_Check (A : Address; N : Integer) is
3120 Ignore : Boolean;
3121 begin
3122 if N = Write (Output_FD, A, N) then
3123 return;
3124 else
3125 Write_Str ("error: disk full writing ");
3126 Write_Name_Decoded (Output_File_Name);
3127 Write_Eol;
3128 Name_Len := Name_Len + 1;
3129 Name_Buffer (Name_Len) := ASCII.NUL;
3130 Delete_File (Name_Buffer'Address, Ignore);
3131 Exit_Program (E_Fatal);
3132 end if;
3133 end Write_With_Check;
3135 ----------------------------
3136 -- Package Initialization --
3137 ----------------------------
3139 procedure Reset_File_Attributes (Attr : System.Address);
3140 pragma Import (C, Reset_File_Attributes, "__gnat_reset_attributes");
3142 begin
3143 Initialization : declare
3145 function Get_Default_Identifier_Character_Set return Character;
3146 pragma Import (C, Get_Default_Identifier_Character_Set,
3147 "__gnat_get_default_identifier_character_set");
3148 -- Function to determine the default identifier character set,
3149 -- which is system dependent. See Opt package spec for a list of
3150 -- the possible character codes and their interpretations.
3152 function Get_Maximum_File_Name_Length return Int;
3153 pragma Import (C, Get_Maximum_File_Name_Length,
3154 "__gnat_get_maximum_file_name_length");
3155 -- Function to get maximum file name length for system
3157 Sizeof_File_Attributes : Integer;
3158 pragma Import (C, Sizeof_File_Attributes,
3159 "__gnat_size_of_file_attributes");
3161 begin
3162 pragma Assert (Sizeof_File_Attributes <= File_Attributes_Size);
3164 Reset_File_Attributes (Unknown_Attributes'Address);
3166 Identifier_Character_Set := Get_Default_Identifier_Character_Set;
3167 Maximum_File_Name_Length := Get_Maximum_File_Name_Length;
3169 -- Following should be removed by having above function return
3170 -- Integer'Last as indication of no maximum instead of -1 ???
3172 if Maximum_File_Name_Length = -1 then
3173 Maximum_File_Name_Length := Int'Last;
3174 end if;
3176 Src_Search_Directories.Set_Last (Primary_Directory);
3177 Src_Search_Directories.Table (Primary_Directory) := new String'("");
3179 Lib_Search_Directories.Set_Last (Primary_Directory);
3180 Lib_Search_Directories.Table (Primary_Directory) := new String'("");
3182 Osint.Initialize;
3183 end Initialization;
3185 end Osint;