* c-decl.c (duplicate_decls): Conditionalize DECL_SAVED_TREE copy.
[official-gcc.git] / gcc / ada / a-textio.adb
blob36a6a167ba88ea35225587a4165f1b3790e28fa8
1 ------------------------------------------------------------------------------
2 -- --
3 -- GNAT RUNTIME COMPONENTS --
4 -- --
5 -- A D A . T E X T _ I O --
6 -- --
7 -- B o d y --
8 -- --
9 -- $Revision: 1.81 $
10 -- --
11 -- Copyright (C) 1992-2001 Free Software Foundation, Inc. --
12 -- --
13 -- GNAT is free software; you can redistribute it and/or modify it under --
14 -- terms of the GNU General Public License as published by the Free Soft- --
15 -- ware Foundation; either version 2, or (at your option) any later ver- --
16 -- sion. GNAT is distributed in the hope that it will be useful, but WITH- --
17 -- OUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY --
18 -- or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License --
19 -- for more details. You should have received a copy of the GNU General --
20 -- Public License distributed with GNAT; see file COPYING. If not, write --
21 -- to the Free Software Foundation, 59 Temple Place - Suite 330, Boston, --
22 -- MA 02111-1307, USA. --
23 -- --
24 -- As a special exception, if other files instantiate generics from this --
25 -- unit, or you link this unit with other files to produce an executable, --
26 -- this unit does not by itself cause the resulting executable to be --
27 -- covered by the GNU General Public License. This exception does not --
28 -- however invalidate any other reasons why the executable file might be --
29 -- covered by the GNU Public License. --
30 -- --
31 -- GNAT was originally developed by the GNAT team at New York University. --
32 -- It is now maintained by Ada Core Technologies Inc (http://www.gnat.com). --
33 -- --
34 ------------------------------------------------------------------------------
36 with Ada.Streams; use Ada.Streams;
37 with Interfaces.C_Streams; use Interfaces.C_Streams;
38 with System;
39 with System.File_IO;
40 with Unchecked_Conversion;
41 with Unchecked_Deallocation;
43 pragma Elaborate_All (System.File_IO);
44 -- Needed because of calls to Chain_File in package body elaboration
46 package body Ada.Text_IO is
48 package FIO renames System.File_IO;
50 subtype AP is FCB.AFCB_Ptr;
52 function To_FCB is new Unchecked_Conversion (File_Mode, FCB.File_Mode);
53 function To_TIO is new Unchecked_Conversion (FCB.File_Mode, File_Mode);
54 use type FCB.File_Mode;
56 -------------------
57 -- AFCB_Allocate --
58 -------------------
60 function AFCB_Allocate (Control_Block : Text_AFCB) return FCB.AFCB_Ptr is
61 begin
62 return new Text_AFCB;
63 end AFCB_Allocate;
65 ----------------
66 -- AFCB_Close --
67 ----------------
69 procedure AFCB_Close (File : access Text_AFCB) is
70 begin
71 -- If the file being closed is one of the current files, then close
72 -- the corresponding current file. It is not clear that this action
73 -- is required (RM A.10.3(23)) but it seems reasonable, and besides
74 -- ACVC test CE3208A expects this behavior.
76 if File_Type (File) = Current_In then
77 Current_In := null;
78 elsif File_Type (File) = Current_Out then
79 Current_Out := null;
80 elsif File_Type (File) = Current_Err then
81 Current_Err := null;
82 end if;
84 Terminate_Line (File_Type (File));
85 end AFCB_Close;
87 ---------------
88 -- AFCB_Free --
89 ---------------
91 procedure AFCB_Free (File : access Text_AFCB) is
92 type FCB_Ptr is access all Text_AFCB;
93 FT : FCB_Ptr := FCB_Ptr (File);
95 procedure Free is new Unchecked_Deallocation (Text_AFCB, FCB_Ptr);
97 begin
98 Free (FT);
99 end AFCB_Free;
101 -----------
102 -- Close --
103 -----------
105 procedure Close (File : in out File_Type) is
106 begin
107 FIO.Close (AP (File));
108 end Close;
110 ---------
111 -- Col --
112 ---------
114 -- Note: we assume that it is impossible in practice for the column
115 -- to exceed the value of Count'Last, i.e. no check is required for
116 -- overflow raising layout error.
118 function Col (File : in File_Type) return Positive_Count is
119 begin
120 FIO.Check_File_Open (AP (File));
121 return File.Col;
122 end Col;
124 function Col return Positive_Count is
125 begin
126 return Col (Current_Out);
127 end Col;
129 ------------
130 -- Create --
131 ------------
133 procedure Create
134 (File : in out File_Type;
135 Mode : in File_Mode := Out_File;
136 Name : in String := "";
137 Form : in String := "")
139 File_Control_Block : Text_AFCB;
141 begin
142 FIO.Open (File_Ptr => AP (File),
143 Dummy_FCB => File_Control_Block,
144 Mode => To_FCB (Mode),
145 Name => Name,
146 Form => Form,
147 Amethod => 'T',
148 Creat => True,
149 Text => True);
151 File.Self := File;
152 end Create;
154 -------------------
155 -- Current_Error --
156 -------------------
158 function Current_Error return File_Type is
159 begin
160 return Current_Err;
161 end Current_Error;
163 function Current_Error return File_Access is
164 begin
165 return Current_Err.Self'Access;
166 end Current_Error;
168 -------------------
169 -- Current_Input --
170 -------------------
172 function Current_Input return File_Type is
173 begin
174 return Current_In;
175 end Current_Input;
177 function Current_Input return File_Access is
178 begin
179 return Current_In.Self'Access;
180 end Current_Input;
182 --------------------
183 -- Current_Output --
184 --------------------
186 function Current_Output return File_Type is
187 begin
188 return Current_Out;
189 end Current_Output;
191 function Current_Output return File_Access is
192 begin
193 return Current_Out.Self'Access;
194 end Current_Output;
196 ------------
197 -- Delete --
198 ------------
200 procedure Delete (File : in out File_Type) is
201 begin
202 FIO.Delete (AP (File));
203 end Delete;
205 -----------------
206 -- End_Of_File --
207 -----------------
209 function End_Of_File (File : in File_Type) return Boolean is
210 ch : int;
212 begin
213 FIO.Check_Read_Status (AP (File));
215 if File.Before_LM then
217 if File.Before_LM_PM then
218 return Nextc (File) = EOF;
219 end if;
221 else
222 ch := Getc (File);
224 if ch = EOF then
225 return True;
227 elsif ch /= LM then
228 Ungetc (ch, File);
229 return False;
231 else -- ch = LM
232 File.Before_LM := True;
233 end if;
234 end if;
236 -- Here we are just past the line mark with Before_LM set so that we
237 -- do not have to try to back up past the LM, thus avoiding the need
238 -- to back up more than one character.
240 ch := Getc (File);
242 if ch = EOF then
243 return True;
245 elsif ch = PM and then File.Is_Regular_File then
246 File.Before_LM_PM := True;
247 return Nextc (File) = EOF;
249 -- Here if neither EOF nor PM followed end of line
251 else
252 Ungetc (ch, File);
253 return False;
254 end if;
256 end End_Of_File;
258 function End_Of_File return Boolean is
259 begin
260 return End_Of_File (Current_In);
261 end End_Of_File;
263 -----------------
264 -- End_Of_Line --
265 -----------------
267 function End_Of_Line (File : in File_Type) return Boolean is
268 ch : int;
270 begin
271 FIO.Check_Read_Status (AP (File));
273 if File.Before_LM then
274 return True;
276 else
277 ch := Getc (File);
279 if ch = EOF then
280 return True;
282 else
283 Ungetc (ch, File);
284 return (ch = LM);
285 end if;
286 end if;
287 end End_Of_Line;
289 function End_Of_Line return Boolean is
290 begin
291 return End_Of_Line (Current_In);
292 end End_Of_Line;
294 -----------------
295 -- End_Of_Page --
296 -----------------
298 function End_Of_Page (File : in File_Type) return Boolean is
299 ch : int;
301 begin
302 FIO.Check_Read_Status (AP (File));
304 if not File.Is_Regular_File then
305 return False;
307 elsif File.Before_LM then
308 if File.Before_LM_PM then
309 return True;
310 end if;
312 else
313 ch := Getc (File);
315 if ch = EOF then
316 return True;
318 elsif ch /= LM then
319 Ungetc (ch, File);
320 return False;
322 else -- ch = LM
323 File.Before_LM := True;
324 end if;
325 end if;
327 -- Here we are just past the line mark with Before_LM set so that we
328 -- do not have to try to back up past the LM, thus avoiding the need
329 -- to back up more than one character.
331 ch := Nextc (File);
333 return ch = PM or else ch = EOF;
334 end End_Of_Page;
336 function End_Of_Page return Boolean is
337 begin
338 return End_Of_Page (Current_In);
339 end End_Of_Page;
341 -----------
342 -- Flush --
343 -----------
345 procedure Flush (File : in File_Type) is
346 begin
347 FIO.Flush (AP (File));
348 end Flush;
350 procedure Flush is
351 begin
352 Flush (Current_Out);
353 end Flush;
355 ----------
356 -- Form --
357 ----------
359 function Form (File : in File_Type) return String is
360 begin
361 return FIO.Form (AP (File));
362 end Form;
364 ---------
365 -- Get --
366 ---------
368 procedure Get
369 (File : in File_Type;
370 Item : out Character)
372 ch : int;
374 begin
375 FIO.Check_Read_Status (AP (File));
377 if File.Before_LM then
378 File.Before_LM := False;
379 File.Col := 1;
381 if File.Before_LM_PM then
382 File.Line := 1;
383 File.Page := File.Page + 1;
384 File.Before_LM_PM := False;
385 else
386 File.Line := File.Line + 1;
387 end if;
388 end if;
390 loop
391 ch := Getc (File);
393 if ch = EOF then
394 raise End_Error;
396 elsif ch = LM then
397 File.Line := File.Line + 1;
398 File.Col := 1;
400 elsif ch = PM and then File.Is_Regular_File then
401 File.Page := File.Page + 1;
402 File.Line := 1;
404 else
405 Item := Character'Val (ch);
406 File.Col := File.Col + 1;
407 return;
408 end if;
409 end loop;
410 end Get;
412 procedure Get (Item : out Character) is
413 begin
414 Get (Current_In, Item);
415 end Get;
417 procedure Get
418 (File : in File_Type;
419 Item : out String)
421 ch : int;
422 J : Natural;
424 begin
425 FIO.Check_Read_Status (AP (File));
427 if File.Before_LM then
428 File.Before_LM := False;
429 File.Before_LM_PM := False;
430 File.Col := 1;
432 if File.Before_LM_PM then
433 File.Line := 1;
434 File.Page := File.Page + 1;
435 File.Before_LM_PM := False;
437 else
438 File.Line := File.Line + 1;
439 end if;
440 end if;
442 J := Item'First;
443 while J <= Item'Last loop
444 ch := Getc (File);
446 if ch = EOF then
447 raise End_Error;
449 elsif ch = LM then
450 File.Line := File.Line + 1;
451 File.Col := 1;
453 elsif ch = PM and then File.Is_Regular_File then
454 File.Page := File.Page + 1;
455 File.Line := 1;
457 else
458 Item (J) := Character'Val (ch);
459 J := J + 1;
460 File.Col := File.Col + 1;
461 end if;
462 end loop;
463 end Get;
465 procedure Get (Item : out String) is
466 begin
467 Get (Current_In, Item);
468 end Get;
470 -------------------
471 -- Get_Immediate --
472 -------------------
474 -- More work required here ???
476 procedure Get_Immediate
477 (File : in File_Type;
478 Item : out Character)
480 ch : int;
481 end_of_file : int;
483 procedure getc_immediate
484 (stream : FILEs; ch : out int; end_of_file : out int);
485 pragma Import (C, getc_immediate, "getc_immediate");
487 begin
488 FIO.Check_Read_Status (AP (File));
490 if File.Before_LM then
491 File.Before_LM := False;
492 File.Before_LM_PM := False;
493 ch := LM;
495 else
496 getc_immediate (File.Stream, ch, end_of_file);
498 if ferror (File.Stream) /= 0 then
499 raise Device_Error;
500 elsif end_of_file /= 0 then
501 raise End_Error;
502 end if;
503 end if;
505 Item := Character'Val (ch);
507 end Get_Immediate;
509 procedure Get_Immediate
510 (Item : out Character)
512 begin
513 Get_Immediate (Current_In, Item);
514 end Get_Immediate;
516 procedure Get_Immediate
517 (File : in File_Type;
518 Item : out Character;
519 Available : out Boolean)
521 ch : int;
522 end_of_file : int;
523 avail : int;
525 procedure getc_immediate_nowait
526 (stream : FILEs;
527 ch : out int;
528 end_of_file : out int;
529 avail : out int);
530 pragma Import (C, getc_immediate_nowait, "getc_immediate_nowait");
532 begin
533 FIO.Check_Read_Status (AP (File));
535 -- If we are logically before an end of line, but physically after it,
536 -- then we just return the end of line character, no I/O is necessary.
538 if File.Before_LM then
539 File.Before_LM := False;
540 File.Before_LM_PM := False;
542 Available := True;
543 Item := Character'Val (LM);
545 -- Normal case where a read operation is required
547 else
548 getc_immediate_nowait (File.Stream, ch, end_of_file, avail);
550 if ferror (File.Stream) /= 0 then
551 raise Device_Error;
553 elsif end_of_file /= 0 then
554 raise End_Error;
556 elsif avail = 0 then
557 Available := False;
558 Item := ASCII.NUL;
560 else
561 Available := True;
562 Item := Character'Val (ch);
563 end if;
564 end if;
566 end Get_Immediate;
568 procedure Get_Immediate
569 (Item : out Character;
570 Available : out Boolean)
572 begin
573 Get_Immediate (Current_In, Item, Available);
574 end Get_Immediate;
576 --------------
577 -- Get_Line --
578 --------------
580 procedure Get_Line
581 (File : in File_Type;
582 Item : out String;
583 Last : out Natural)
585 ch : int;
587 begin
588 FIO.Check_Read_Status (AP (File));
589 Last := Item'First - 1;
591 -- Immediate exit for null string, this is a case in which we do not
592 -- need to test for end of file and we do not skip a line mark under
593 -- any circumstances.
595 if Last >= Item'Last then
596 return;
597 end if;
599 -- Here we have at least one character, if we are immediately before
600 -- a line mark, then we will just skip past it storing no characters.
602 if File.Before_LM then
603 File.Before_LM := False;
604 File.Before_LM_PM := False;
606 -- Otherwise we need to read some characters
608 else
609 ch := Getc (File);
611 -- If we are at the end of file now, it means we are trying to
612 -- skip a file terminator and we raise End_Error (RM A.10.7(20))
614 if ch = EOF then
615 raise End_Error;
616 end if;
618 -- Loop through characters. Don't bother if we hit a page mark,
619 -- since in normal files, page marks can only follow line marks
620 -- in any case and we only promise to treat the page nonsense
621 -- correctly in the absense of such rogue page marks.
623 loop
624 -- Exit the loop if read is terminated by encountering line mark
626 exit when ch = LM;
628 -- Otherwise store the character, note that we know that ch is
629 -- something other than LM or EOF. It could possibly be a page
630 -- mark if there is a stray page mark in the middle of a line,
631 -- but this is not an official page mark in any case, since
632 -- official page marks can only follow a line mark. The whole
633 -- page business is pretty much nonsense anyway, so we do not
634 -- want to waste time trying to make sense out of non-standard
635 -- page marks in the file! This means that the behavior of
636 -- Get_Line is different from repeated Get of a character, but
637 -- that's too bad. We only promise that page numbers etc make
638 -- sense if the file is formatted in a standard manner.
640 -- Note: we do not adjust the column number because it is quicker
641 -- to adjust it once at the end of the operation than incrementing
642 -- it each time around the loop.
644 Last := Last + 1;
645 Item (Last) := Character'Val (ch);
647 -- All done if the string is full, this is the case in which
648 -- we do not skip the following line mark. We need to adjust
649 -- the column number in this case.
651 if Last = Item'Last then
652 File.Col := File.Col + Count (Item'Length);
653 return;
654 end if;
656 -- Otherwise read next character. We also exit from the loop if
657 -- we read an end of file. This is the case where the last line
658 -- is not terminated with a line mark, and we consider that there
659 -- is an implied line mark in this case (this is a non-standard
660 -- file, but it is nice to treat it reasonably).
662 ch := Getc (File);
663 exit when ch = EOF;
664 end loop;
665 end if;
667 -- We have skipped past, but not stored, a line mark. Skip following
668 -- page mark if one follows, but do not do this for a non-regular
669 -- file (since otherwise we get annoying wait for an extra character)
671 File.Line := File.Line + 1;
672 File.Col := 1;
674 if File.Before_LM_PM then
675 File.Line := 1;
676 File.Before_LM_PM := False;
677 File.Page := File.Page + 1;
679 elsif File.Is_Regular_File then
680 ch := Getc (File);
682 if ch = PM and then File.Is_Regular_File then
683 File.Line := 1;
684 File.Page := File.Page + 1;
685 else
686 Ungetc (ch, File);
687 end if;
688 end if;
689 end Get_Line;
691 procedure Get_Line
692 (Item : out String;
693 Last : out Natural)
695 begin
696 Get_Line (Current_In, Item, Last);
697 end Get_Line;
699 ----------
700 -- Getc --
701 ----------
703 function Getc (File : File_Type) return int is
704 ch : int;
706 begin
707 ch := fgetc (File.Stream);
709 if ch = EOF and then ferror (File.Stream) /= 0 then
710 raise Device_Error;
711 else
712 return ch;
713 end if;
714 end Getc;
716 -------------
717 -- Is_Open --
718 -------------
720 function Is_Open (File : in File_Type) return Boolean is
721 begin
722 return FIO.Is_Open (AP (File));
723 end Is_Open;
725 ----------
726 -- Line --
727 ----------
729 -- Note: we assume that it is impossible in practice for the line
730 -- to exceed the value of Count'Last, i.e. no check is required for
731 -- overflow raising layout error.
733 function Line (File : in File_Type) return Positive_Count is
734 begin
735 FIO.Check_File_Open (AP (File));
736 return File.Line;
737 end Line;
739 function Line return Positive_Count is
740 begin
741 return Line (Current_Out);
742 end Line;
744 -----------------
745 -- Line_Length --
746 -----------------
748 function Line_Length (File : in File_Type) return Count is
749 begin
750 FIO.Check_Write_Status (AP (File));
751 return File.Line_Length;
752 end Line_Length;
754 function Line_Length return Count is
755 begin
756 return Line_Length (Current_Out);
757 end Line_Length;
759 ----------------
760 -- Look_Ahead --
761 ----------------
763 procedure Look_Ahead
764 (File : in File_Type;
765 Item : out Character;
766 End_Of_Line : out Boolean)
768 ch : int;
770 begin
771 FIO.Check_Read_Status (AP (File));
773 if File.Before_LM then
774 End_Of_Line := True;
775 Item := ASCII.NUL;
777 else
778 ch := Nextc (File);
780 if ch = LM
781 or else ch = EOF
782 or else (ch = PM and then File.Is_Regular_File)
783 then
784 End_Of_Line := True;
785 Item := ASCII.NUL;
786 else
787 End_Of_Line := False;
788 Item := Character'Val (ch);
789 end if;
790 end if;
791 end Look_Ahead;
793 procedure Look_Ahead
794 (Item : out Character;
795 End_Of_Line : out Boolean)
797 begin
798 Look_Ahead (Current_In, Item, End_Of_Line);
799 end Look_Ahead;
801 ----------
802 -- Mode --
803 ----------
805 function Mode (File : in File_Type) return File_Mode is
806 begin
807 return To_TIO (FIO.Mode (AP (File)));
808 end Mode;
810 ----------
811 -- Name --
812 ----------
814 function Name (File : in File_Type) return String is
815 begin
816 return FIO.Name (AP (File));
817 end Name;
819 --------------
820 -- New_Line --
821 --------------
823 procedure New_Line
824 (File : in File_Type;
825 Spacing : in Positive_Count := 1)
827 begin
828 -- Raise Constraint_Error if out of range value. The reason for this
829 -- explicit test is that we don't want junk values around, even if
830 -- checks are off in the caller.
832 if Spacing not in Positive_Count then
833 raise Constraint_Error;
834 end if;
836 FIO.Check_Write_Status (AP (File));
838 for K in 1 .. Spacing loop
839 Putc (LM, File);
840 File.Line := File.Line + 1;
842 if File.Page_Length /= 0
843 and then File.Line > File.Page_Length
844 then
845 Putc (PM, File);
846 File.Line := 1;
847 File.Page := File.Page + 1;
848 end if;
849 end loop;
851 File.Col := 1;
852 end New_Line;
854 procedure New_Line (Spacing : in Positive_Count := 1) is
855 begin
856 New_Line (Current_Out, Spacing);
857 end New_Line;
859 --------------
860 -- New_Page --
861 --------------
863 procedure New_Page (File : in File_Type) is
864 begin
865 FIO.Check_Write_Status (AP (File));
867 if File.Col /= 1 or else File.Line = 1 then
868 Putc (LM, File);
869 end if;
871 Putc (PM, File);
872 File.Page := File.Page + 1;
873 File.Line := 1;
874 File.Col := 1;
875 end New_Page;
877 procedure New_Page is
878 begin
879 New_Page (Current_Out);
880 end New_Page;
882 -----------
883 -- Nextc --
884 -----------
886 function Nextc (File : File_Type) return int is
887 ch : int;
889 begin
890 ch := fgetc (File.Stream);
892 if ch = EOF then
893 if ferror (File.Stream) /= 0 then
894 raise Device_Error;
895 end if;
897 else
898 if ungetc (ch, File.Stream) = EOF then
899 raise Device_Error;
900 end if;
901 end if;
903 return ch;
904 end Nextc;
906 ----------
907 -- Open --
908 ----------
910 procedure Open
911 (File : in out File_Type;
912 Mode : in File_Mode;
913 Name : in String;
914 Form : in String := "")
916 File_Control_Block : Text_AFCB;
918 begin
919 FIO.Open (File_Ptr => AP (File),
920 Dummy_FCB => File_Control_Block,
921 Mode => To_FCB (Mode),
922 Name => Name,
923 Form => Form,
924 Amethod => 'T',
925 Creat => False,
926 Text => True);
928 File.Self := File;
929 end Open;
931 ----------
932 -- Page --
933 ----------
935 -- Note: we assume that it is impossible in practice for the page
936 -- to exceed the value of Count'Last, i.e. no check is required for
937 -- overflow raising layout error.
939 function Page (File : in File_Type) return Positive_Count is
940 begin
941 FIO.Check_File_Open (AP (File));
942 return File.Page;
943 end Page;
945 function Page return Positive_Count is
946 begin
947 return Page (Current_Out);
948 end Page;
950 -----------------
951 -- Page_Length --
952 -----------------
954 function Page_Length (File : in File_Type) return Count is
955 begin
956 FIO.Check_Write_Status (AP (File));
957 return File.Page_Length;
958 end Page_Length;
960 function Page_Length return Count is
961 begin
962 return Page_Length (Current_Out);
963 end Page_Length;
965 ---------
966 -- Put --
967 ---------
969 procedure Put
970 (File : in File_Type;
971 Item : in Character)
973 begin
974 FIO.Check_Write_Status (AP (File));
976 if File.Line_Length /= 0 and then File.Col > File.Line_Length then
977 New_Line (File);
978 end if;
980 if fputc (Character'Pos (Item), File.Stream) = EOF then
981 raise Device_Error;
982 end if;
984 File.Col := File.Col + 1;
985 end Put;
987 procedure Put (Item : in Character) is
988 begin
989 FIO.Check_Write_Status (AP (Current_Out));
991 if Current_Out.Line_Length /= 0
992 and then Current_Out.Col > Current_Out.Line_Length
993 then
994 New_Line (Current_Out);
995 end if;
997 if fputc (Character'Pos (Item), Current_Out.Stream) = EOF then
998 raise Device_Error;
999 end if;
1001 Current_Out.Col := Current_Out.Col + 1;
1002 end Put;
1004 ---------
1005 -- Put --
1006 ---------
1008 procedure Put
1009 (File : in File_Type;
1010 Item : in String)
1012 begin
1013 FIO.Check_Write_Status (AP (File));
1015 if Item'Length > 0 then
1017 -- If we have bounded lines, then do things character by
1018 -- character (this seems a rare case anyway!)
1020 if File.Line_Length /= 0 then
1021 for J in Item'Range loop
1022 Put (File, Item (J));
1023 end loop;
1025 -- Otherwise we can output the entire string at once. Note that if
1026 -- there are LF or FF characters in the string, we do not bother to
1027 -- count them as line or page terminators.
1029 else
1030 FIO.Write_Buf (AP (File), Item'Address, Item'Length);
1031 File.Col := File.Col + Item'Length;
1032 end if;
1033 end if;
1034 end Put;
1036 procedure Put (Item : in String) is
1037 begin
1038 Put (Current_Out, Item);
1039 end Put;
1041 --------------
1042 -- Put_Line --
1043 --------------
1045 procedure Put_Line
1046 (File : in File_Type;
1047 Item : in String)
1049 begin
1050 FIO.Check_Write_Status (AP (File));
1052 -- If we have bounded lines, then just do a put and a new line. In
1053 -- this case we will end up doing things character by character in
1054 -- any case, and it is a rare situation.
1056 if File.Line_Length /= 0 then
1057 Put (File, Item);
1058 New_Line (File);
1059 return;
1060 end if;
1062 -- We setup a single string that has the necessary terminators and
1063 -- then write it with a single call. The reason for doing this is
1064 -- that it gives better behavior for the use of Put_Line in multi-
1065 -- tasking programs, since often the OS will treat the entire put
1066 -- operation as an atomic operation.
1068 declare
1069 Ilen : constant Natural := Item'Length;
1070 Buffer : String (1 .. Ilen + 2);
1071 Plen : size_t;
1073 begin
1074 Buffer (1 .. Ilen) := Item;
1075 Buffer (Ilen + 1) := Character'Val (LM);
1077 if File.Page_Length /= 0
1078 and then File.Line > File.Page_Length
1079 then
1080 Buffer (Ilen + 2) := Character'Val (PM);
1081 Plen := size_t (Ilen) + 2;
1082 File.Line := 1;
1083 File.Page := File.Page + 1;
1085 else
1086 Plen := size_t (Ilen) + 1;
1087 File.Line := File.Line + 1;
1088 end if;
1090 FIO.Write_Buf (AP (File), Buffer'Address, Plen);
1092 File.Col := 1;
1093 end;
1094 end Put_Line;
1096 procedure Put_Line (Item : in String) is
1097 begin
1098 Put_Line (Current_Out, Item);
1099 end Put_Line;
1101 ----------
1102 -- Putc --
1103 ----------
1105 procedure Putc (ch : int; File : File_Type) is
1106 begin
1107 if fputc (ch, File.Stream) = EOF then
1108 raise Device_Error;
1109 end if;
1110 end Putc;
1112 ----------
1113 -- Read --
1114 ----------
1116 -- This is the primitive Stream Read routine, used when a Text_IO file
1117 -- is treated directly as a stream using Text_IO.Streams.Stream.
1119 procedure Read
1120 (File : in out Text_AFCB;
1121 Item : out Stream_Element_Array;
1122 Last : out Stream_Element_Offset)
1124 ch : int;
1126 begin
1127 if File.Mode /= FCB.In_File then
1128 raise Mode_Error;
1129 end if;
1131 -- Deal with case where our logical and physical position do not match
1132 -- because of being after an LM or LM-PM sequence when in fact we are
1133 -- logically positioned before it.
1135 if File.Before_LM then
1137 -- If we are before a PM, then it is possible for a stream read
1138 -- to leave us after the LM and before the PM, which is a bit
1139 -- odd. The easiest way to deal with this is to unget the PM,
1140 -- so we are indeed positioned between the characters. This way
1141 -- further stream read operations will work correctly, and the
1142 -- effect on text processing is a little weird, but what can
1143 -- be expected if stream and text input are mixed this way?
1145 if File.Before_LM_PM then
1146 ch := ungetc (PM, File.Stream);
1147 File.Before_LM_PM := False;
1148 end if;
1150 File.Before_LM := False;
1152 Item (Item'First) := Stream_Element (Character'Pos (ASCII.LF));
1154 if Item'Length = 1 then
1155 Last := Item'Last;
1157 else
1158 Last :=
1159 Item'First +
1160 Stream_Element_Offset
1161 (fread (buffer => Item'Address,
1162 index => size_t (Item'First + 1),
1163 size => 1,
1164 count => Item'Length - 1,
1165 stream => File.Stream));
1166 end if;
1168 return;
1169 end if;
1171 -- Now we do the read. Since this is a text file, it is normally in
1172 -- text mode, but stream data must be read in binary mode, so we
1173 -- temporarily set binary mode for the read, resetting it after.
1174 -- These calls have no effect in a system (like Unix) where there is
1175 -- no distinction between text and binary files.
1177 set_binary_mode (fileno (File.Stream));
1179 Last :=
1180 Item'First +
1181 Stream_Element_Offset
1182 (fread (Item'Address, 1, Item'Length, File.Stream)) - 1;
1184 if Last < Item'Last then
1185 if ferror (File.Stream) /= 0 then
1186 raise Device_Error;
1187 end if;
1188 end if;
1190 set_text_mode (fileno (File.Stream));
1191 end Read;
1193 -----------
1194 -- Reset --
1195 -----------
1197 procedure Reset
1198 (File : in out File_Type;
1199 Mode : in File_Mode)
1201 begin
1202 -- Don't allow change of mode for current file (RM A.10.2(5))
1204 if (File = Current_In or else
1205 File = Current_Out or else
1206 File = Current_Error)
1207 and then To_FCB (Mode) /= File.Mode
1208 then
1209 raise Mode_Error;
1210 end if;
1212 Terminate_Line (File);
1213 FIO.Reset (AP (File), To_FCB (Mode));
1214 File.Page := 1;
1215 File.Line := 1;
1216 File.Col := 1;
1217 File.Line_Length := 0;
1218 File.Page_Length := 0;
1219 File.Before_LM := False;
1220 File.Before_LM_PM := False;
1221 end Reset;
1223 procedure Reset (File : in out File_Type) is
1224 begin
1225 Terminate_Line (File);
1226 FIO.Reset (AP (File));
1227 File.Page := 1;
1228 File.Line := 1;
1229 File.Col := 1;
1230 File.Line_Length := 0;
1231 File.Page_Length := 0;
1232 File.Before_LM := False;
1233 File.Before_LM_PM := False;
1234 end Reset;
1236 -------------
1237 -- Set_Col --
1238 -------------
1240 procedure Set_Col
1241 (File : in File_Type;
1242 To : in Positive_Count)
1244 ch : int;
1246 begin
1247 -- Raise Constraint_Error if out of range value. The reason for this
1248 -- explicit test is that we don't want junk values around, even if
1249 -- checks are off in the caller.
1251 if To not in Positive_Count then
1252 raise Constraint_Error;
1253 end if;
1255 FIO.Check_File_Open (AP (File));
1257 if To = File.Col then
1258 return;
1259 end if;
1261 if Mode (File) >= Out_File then
1262 if File.Line_Length /= 0 and then To > File.Line_Length then
1263 raise Layout_Error;
1264 end if;
1266 if To < File.Col then
1267 New_Line (File);
1268 end if;
1270 while File.Col < To loop
1271 Put (File, ' ');
1272 end loop;
1274 else
1275 loop
1276 ch := Getc (File);
1278 if ch = EOF then
1279 raise End_Error;
1281 elsif ch = LM then
1282 File.Line := File.Line + 1;
1283 File.Col := 1;
1285 elsif ch = PM and then File.Is_Regular_File then
1286 File.Page := File.Page + 1;
1287 File.Line := 1;
1288 File.Col := 1;
1290 elsif To = File.Col then
1291 Ungetc (ch, File);
1292 return;
1294 else
1295 File.Col := File.Col + 1;
1296 end if;
1297 end loop;
1298 end if;
1299 end Set_Col;
1301 procedure Set_Col (To : in Positive_Count) is
1302 begin
1303 Set_Col (Current_Out, To);
1304 end Set_Col;
1306 ---------------
1307 -- Set_Error --
1308 ---------------
1310 procedure Set_Error (File : in File_Type) is
1311 begin
1312 FIO.Check_Write_Status (AP (File));
1313 Current_Err := File;
1314 end Set_Error;
1316 ---------------
1317 -- Set_Input --
1318 ---------------
1320 procedure Set_Input (File : in File_Type) is
1321 begin
1322 FIO.Check_Read_Status (AP (File));
1323 Current_In := File;
1324 end Set_Input;
1326 --------------
1327 -- Set_Line --
1328 --------------
1330 procedure Set_Line
1331 (File : in File_Type;
1332 To : in Positive_Count)
1334 begin
1335 -- Raise Constraint_Error if out of range value. The reason for this
1336 -- explicit test is that we don't want junk values around, even if
1337 -- checks are off in the caller.
1339 if To not in Positive_Count then
1340 raise Constraint_Error;
1341 end if;
1343 FIO.Check_File_Open (AP (File));
1345 if To = File.Line then
1346 return;
1347 end if;
1349 if Mode (File) >= Out_File then
1350 if File.Page_Length /= 0 and then To > File.Page_Length then
1351 raise Layout_Error;
1352 end if;
1354 if To < File.Line then
1355 New_Page (File);
1356 end if;
1358 while File.Line < To loop
1359 New_Line (File);
1360 end loop;
1362 else
1363 while To /= File.Line loop
1364 Skip_Line (File);
1365 end loop;
1366 end if;
1367 end Set_Line;
1369 procedure Set_Line (To : in Positive_Count) is
1370 begin
1371 Set_Line (Current_Out, To);
1372 end Set_Line;
1374 ---------------------
1375 -- Set_Line_Length --
1376 ---------------------
1378 procedure Set_Line_Length (File : in File_Type; To : in Count) is
1379 begin
1380 -- Raise Constraint_Error if out of range value. The reason for this
1381 -- explicit test is that we don't want junk values around, even if
1382 -- checks are off in the caller.
1384 if To not in Count then
1385 raise Constraint_Error;
1386 end if;
1388 FIO.Check_Write_Status (AP (File));
1389 File.Line_Length := To;
1390 end Set_Line_Length;
1392 procedure Set_Line_Length (To : in Count) is
1393 begin
1394 Set_Line_Length (Current_Out, To);
1395 end Set_Line_Length;
1397 ----------------
1398 -- Set_Output --
1399 ----------------
1401 procedure Set_Output (File : in File_Type) is
1402 begin
1403 FIO.Check_Write_Status (AP (File));
1404 Current_Out := File;
1405 end Set_Output;
1407 ---------------------
1408 -- Set_Page_Length --
1409 ---------------------
1411 procedure Set_Page_Length (File : in File_Type; To : in Count) is
1412 begin
1413 -- Raise Constraint_Error if out of range value. The reason for this
1414 -- explicit test is that we don't want junk values around, even if
1415 -- checks are off in the caller.
1417 if To not in Count then
1418 raise Constraint_Error;
1419 end if;
1421 FIO.Check_Write_Status (AP (File));
1422 File.Page_Length := To;
1423 end Set_Page_Length;
1425 procedure Set_Page_Length (To : in Count) is
1426 begin
1427 Set_Page_Length (Current_Out, To);
1428 end Set_Page_Length;
1430 ---------------
1431 -- Skip_Line --
1432 ---------------
1434 procedure Skip_Line
1435 (File : in File_Type;
1436 Spacing : in Positive_Count := 1)
1438 ch : int;
1440 begin
1441 -- Raise Constraint_Error if out of range value. The reason for this
1442 -- explicit test is that we don't want junk values around, even if
1443 -- checks are off in the caller.
1445 if Spacing not in Positive_Count then
1446 raise Constraint_Error;
1447 end if;
1449 FIO.Check_Read_Status (AP (File));
1451 for L in 1 .. Spacing loop
1452 if File.Before_LM then
1453 File.Before_LM := False;
1454 File.Before_LM_PM := False;
1456 else
1457 ch := Getc (File);
1459 -- If at end of file now, then immediately raise End_Error. Note
1460 -- that we can never be positioned between a line mark and a page
1461 -- mark, so if we are at the end of file, we cannot logically be
1462 -- before the implicit page mark that is at the end of the file.
1464 -- For the same reason, we do not need an explicit check for a
1465 -- page mark. If there is a FF in the middle of a line, the file
1466 -- is not in canonical format and we do not care about the page
1467 -- numbers for files other than ones in canonical format.
1469 if ch = EOF then
1470 raise End_Error;
1471 end if;
1473 -- If not at end of file, then loop till we get to an LM or EOF.
1474 -- The latter case happens only in non-canonical files where the
1475 -- last line is not terminated by LM, but we don't want to blow
1476 -- up for such files, so we assume an implicit LM in this case.
1478 loop
1479 exit when ch = LM or ch = EOF;
1480 ch := Getc (File);
1481 end loop;
1482 end if;
1484 -- We have got past a line mark, now, for a regular file only,
1485 -- see if a page mark immediately follows this line mark and
1486 -- if so, skip past the page mark as well. We do not do this
1487 -- for non-regular files, since it would cause an undesirable
1488 -- wait for an additional character.
1490 File.Col := 1;
1491 File.Line := File.Line + 1;
1493 if File.Before_LM_PM then
1494 File.Page := File.Page + 1;
1495 File.Line := 1;
1496 File.Before_LM_PM := False;
1498 elsif File.Is_Regular_File then
1499 ch := Getc (File);
1501 -- Page mark can be explicit, or implied at the end of the file
1503 if (ch = PM or else ch = EOF)
1504 and then File.Is_Regular_File
1505 then
1506 File.Page := File.Page + 1;
1507 File.Line := 1;
1508 else
1509 Ungetc (ch, File);
1510 end if;
1511 end if;
1513 end loop;
1514 end Skip_Line;
1516 procedure Skip_Line (Spacing : in Positive_Count := 1) is
1517 begin
1518 Skip_Line (Current_In, Spacing);
1519 end Skip_Line;
1521 ---------------
1522 -- Skip_Page --
1523 ---------------
1525 procedure Skip_Page (File : in File_Type) is
1526 ch : int;
1528 begin
1529 FIO.Check_Read_Status (AP (File));
1531 -- If at page mark already, just skip it
1533 if File.Before_LM_PM then
1534 File.Before_LM := False;
1535 File.Before_LM_PM := False;
1536 File.Page := File.Page + 1;
1537 File.Line := 1;
1538 File.Col := 1;
1539 return;
1540 end if;
1542 -- This is a bit tricky, if we are logically before an LM then
1543 -- it is not an error if we are at an end of file now, since we
1544 -- are not really at it.
1546 if File.Before_LM then
1547 File.Before_LM := False;
1548 File.Before_LM_PM := False;
1549 ch := Getc (File);
1551 -- Otherwise we do raise End_Error if we are at the end of file now
1553 else
1554 ch := Getc (File);
1556 if ch = EOF then
1557 raise End_Error;
1558 end if;
1559 end if;
1561 -- Now we can just rumble along to the next page mark, or to the
1562 -- end of file, if that comes first. The latter case happens when
1563 -- the page mark is implied at the end of file.
1565 loop
1566 exit when ch = EOF
1567 or else (ch = PM and then File.Is_Regular_File);
1568 ch := Getc (File);
1569 end loop;
1571 File.Page := File.Page + 1;
1572 File.Line := 1;
1573 File.Col := 1;
1574 end Skip_Page;
1576 procedure Skip_Page is
1577 begin
1578 Skip_Page (Current_In);
1579 end Skip_Page;
1581 --------------------
1582 -- Standard_Error --
1583 --------------------
1585 function Standard_Error return File_Type is
1586 begin
1587 return Standard_Err;
1588 end Standard_Error;
1590 function Standard_Error return File_Access is
1591 begin
1592 return Standard_Err'Access;
1593 end Standard_Error;
1595 --------------------
1596 -- Standard_Input --
1597 --------------------
1599 function Standard_Input return File_Type is
1600 begin
1601 return Standard_In;
1602 end Standard_Input;
1604 function Standard_Input return File_Access is
1605 begin
1606 return Standard_In'Access;
1607 end Standard_Input;
1609 ---------------------
1610 -- Standard_Output --
1611 ---------------------
1613 function Standard_Output return File_Type is
1614 begin
1615 return Standard_Out;
1616 end Standard_Output;
1618 function Standard_Output return File_Access is
1619 begin
1620 return Standard_Out'Access;
1621 end Standard_Output;
1623 --------------------
1624 -- Terminate_Line --
1625 --------------------
1627 procedure Terminate_Line (File : File_Type) is
1628 begin
1629 FIO.Check_File_Open (AP (File));
1631 -- For file other than In_File, test for needing to terminate last line
1633 if Mode (File) /= In_File then
1635 -- If not at start of line definition need new line
1637 if File.Col /= 1 then
1638 New_Line (File);
1640 -- For files other than standard error and standard output, we
1641 -- make sure that an empty file has a single line feed, so that
1642 -- it is properly formatted. We avoid this for the standard files
1643 -- because it is too much of a nuisance to have these odd line
1644 -- feeds when nothing has been written to the file.
1646 elsif (File /= Standard_Err and then File /= Standard_Out)
1647 and then (File.Line = 1 and then File.Page = 1)
1648 then
1649 New_Line (File);
1650 end if;
1651 end if;
1652 end Terminate_Line;
1654 ------------
1655 -- Ungetc --
1656 ------------
1658 procedure Ungetc (ch : int; File : File_Type) is
1659 begin
1660 if ch /= EOF then
1661 if ungetc (ch, File.Stream) = EOF then
1662 raise Device_Error;
1663 end if;
1664 end if;
1665 end Ungetc;
1667 -----------
1668 -- Write --
1669 -----------
1671 -- This is the primitive Stream Write routine, used when a Text_IO file
1672 -- is treated directly as a stream using Text_IO.Streams.Stream.
1674 procedure Write
1675 (File : in out Text_AFCB;
1676 Item : in Stream_Element_Array)
1679 function Has_Translated_Characters return Boolean;
1680 -- return True if Item array contains a character which will be
1681 -- translated under the text file mode. There is only one such
1682 -- character under DOS based systems which is character 10.
1684 text_translation_required : Boolean;
1685 pragma Import (C, text_translation_required,
1686 "__gnat_text_translation_required");
1688 Siz : constant size_t := Item'Length;
1690 function Has_Translated_Characters return Boolean is
1691 begin
1692 for K in Item'Range loop
1693 if Item (K) = 10 then
1694 return True;
1695 end if;
1696 end loop;
1697 return False;
1698 end Has_Translated_Characters;
1700 Needs_Binary_Write : constant Boolean :=
1701 text_translation_required and then Has_Translated_Characters;
1703 begin
1704 if File.Mode = FCB.In_File then
1705 raise Mode_Error;
1706 end if;
1708 -- Now we do the write. Since this is a text file, it is normally in
1709 -- text mode, but stream data must be written in binary mode, so we
1710 -- temporarily set binary mode for the write, resetting it after. This
1711 -- is done only if needed (i.e. there is some characters in Item which
1712 -- needs to be written using the binary mode).
1713 -- These calls have no effect in a system (like Unix) where there is
1714 -- no distinction between text and binary files.
1716 -- Since the character translation is done at the time the buffer is
1717 -- written (this is true under Windows) we first flush current buffer
1718 -- with text mode if needed.
1720 if Needs_Binary_Write then
1722 if fflush (File.Stream) = -1 then
1723 raise Device_Error;
1724 end if;
1726 set_binary_mode (fileno (File.Stream));
1727 end if;
1729 if fwrite (Item'Address, 1, Siz, File.Stream) /= Siz then
1730 raise Device_Error;
1731 end if;
1733 -- At this point we need to flush the buffer using the binary mode then
1734 -- we reset to text mode.
1736 if Needs_Binary_Write then
1738 if fflush (File.Stream) = -1 then
1739 raise Device_Error;
1740 end if;
1742 set_text_mode (fileno (File.Stream));
1743 end if;
1744 end Write;
1746 -- Use "preallocated" strings to avoid calling "new" during the
1747 -- elaboration of the run time. This is needed in the tasking case to
1748 -- avoid calling Task_Lock too early. A filename is expected to end with a
1749 -- null character in the runtime, here the null characters are added just
1750 -- to have a correct filename length.
1752 Err_Name : aliased String := "*stderr" & ASCII.Nul;
1753 In_Name : aliased String := "*stdin" & ASCII.Nul;
1754 Out_Name : aliased String := "*stdout" & ASCII.Nul;
1755 begin
1756 -------------------------------
1757 -- Initialize Standard Files --
1758 -------------------------------
1760 -- Note: the names in these files are bogus, and probably it would be
1761 -- better for these files to have no names, but the ACVC test insist!
1762 -- We use names that are bound to fail in open etc.
1764 Standard_Err.Stream := stderr;
1765 Standard_Err.Name := Err_Name'Access;
1766 Standard_Err.Form := Null_Str'Unrestricted_Access;
1767 Standard_Err.Mode := FCB.Out_File;
1768 Standard_Err.Is_Regular_File := is_regular_file (fileno (stderr)) /= 0;
1769 Standard_Err.Is_Temporary_File := False;
1770 Standard_Err.Is_System_File := True;
1771 Standard_Err.Is_Text_File := True;
1772 Standard_Err.Access_Method := 'T';
1773 Standard_Err.Self := Standard_Err;
1775 Standard_In.Stream := stdin;
1776 Standard_In.Name := In_Name'Access;
1777 Standard_In.Form := Null_Str'Unrestricted_Access;
1778 Standard_In.Mode := FCB.In_File;
1779 Standard_In.Is_Regular_File := is_regular_file (fileno (stdin)) /= 0;
1780 Standard_In.Is_Temporary_File := False;
1781 Standard_In.Is_System_File := True;
1782 Standard_In.Is_Text_File := True;
1783 Standard_In.Access_Method := 'T';
1784 Standard_In.Self := Standard_In;
1786 Standard_Out.Stream := stdout;
1787 Standard_Out.Name := Out_Name'Access;
1788 Standard_Out.Form := Null_Str'Unrestricted_Access;
1789 Standard_Out.Mode := FCB.Out_File;
1790 Standard_Out.Is_Regular_File := is_regular_file (fileno (stdout)) /= 0;
1791 Standard_Out.Is_Temporary_File := False;
1792 Standard_Out.Is_System_File := True;
1793 Standard_Out.Is_Text_File := True;
1794 Standard_Out.Access_Method := 'T';
1795 Standard_Out.Self := Standard_Out;
1797 FIO.Chain_File (AP (Standard_In));
1798 FIO.Chain_File (AP (Standard_Out));
1799 FIO.Chain_File (AP (Standard_Err));
1801 FIO.Make_Unbuffered (AP (Standard_Out));
1802 FIO.Make_Unbuffered (AP (Standard_Err));
1804 end Ada.Text_IO;