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1 706 jeremybenn
------------------------------------------------------------------------------
2
--                                                                          --
3
--                         GNAT LIBRARY COMPONENTS                          --
4
--                                                                          --
5
--                         G N A T . S P I T B O L                          --
6
--                                                                          --
7
--                                 B o d y                                  --
8
--                                                                          --
9
--                     Copyright (C) 1998-2010, AdaCore                     --
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.                                     --
17
--                                                                          --
18
-- As a special exception under Section 7 of GPL version 3, you are granted --
19
-- additional permissions described in the GCC Runtime Library Exception,   --
20
-- version 3.1, as published by the Free Software Foundation.               --
21
--                                                                          --
22
-- You should have received a copy of the GNU General Public License and    --
23
-- a copy of the GCC Runtime Library Exception along with this program;     --
24
-- see the files COPYING3 and COPYING.RUNTIME respectively.  If not, see    --
25
-- <http://www.gnu.org/licenses/>.                                          --
26
--                                                                          --
27
-- GNAT was originally developed  by the GNAT team at  New York University. --
28
-- Extensive contributions were provided by Ada Core Technologies Inc.      --
29
--                                                                          --
30
------------------------------------------------------------------------------
31
 
32
with Ada.Strings;               use Ada.Strings;
33
with Ada.Strings.Unbounded.Aux; use Ada.Strings.Unbounded.Aux;
34
 
35
with GNAT.Debug_Utilities;      use GNAT.Debug_Utilities;
36
with GNAT.IO;                   use GNAT.IO;
37
 
38
with System.String_Hash;
39
 
40
with Ada.Unchecked_Deallocation;
41
 
42
package body GNAT.Spitbol is
43
 
44
   ---------
45
   -- "&" --
46
   ---------
47
 
48
   function "&" (Num : Integer; Str : String)  return String is
49
   begin
50
      return S (Num) & Str;
51
   end "&";
52
 
53
   function "&" (Str : String;  Num : Integer) return String is
54
   begin
55
      return Str & S (Num);
56
   end "&";
57
 
58
   function "&" (Num : Integer; Str : VString) return VString is
59
   begin
60
      return S (Num) & Str;
61
   end "&";
62
 
63
   function "&" (Str : VString; Num : Integer) return VString is
64
   begin
65
      return Str & S (Num);
66
   end "&";
67
 
68
   ----------
69
   -- Char --
70
   ----------
71
 
72
   function Char (Num : Natural) return Character is
73
   begin
74
      return Character'Val (Num);
75
   end Char;
76
 
77
   ----------
78
   -- Lpad --
79
   ----------
80
 
81
   function Lpad
82
     (Str : VString;
83
      Len : Natural;
84
      Pad : Character := ' ') return VString
85
   is
86
   begin
87
      if Length (Str) >= Len then
88
         return Str;
89
      else
90
         return Tail (Str, Len, Pad);
91
      end if;
92
   end Lpad;
93
 
94
   function Lpad
95
     (Str : String;
96
      Len : Natural;
97
      Pad : Character := ' ') return VString
98
   is
99
   begin
100
      if Str'Length >= Len then
101
         return V (Str);
102
 
103
      else
104
         declare
105
            R : String (1 .. Len);
106
 
107
         begin
108
            for J in 1 .. Len - Str'Length loop
109
               R (J) := Pad;
110
            end loop;
111
 
112
            R (Len - Str'Length + 1 .. Len) := Str;
113
            return V (R);
114
         end;
115
      end if;
116
   end Lpad;
117
 
118
   procedure Lpad
119
     (Str  : in out VString;
120
      Len  : Natural;
121
      Pad  : Character := ' ')
122
   is
123
   begin
124
      if Length (Str) >= Len then
125
         return;
126
      else
127
         Tail (Str, Len, Pad);
128
      end if;
129
   end Lpad;
130
 
131
   -------
132
   -- N --
133
   -------
134
 
135
   function N (Str : VString) return Integer is
136
      S : Big_String_Access;
137
      L : Natural;
138
   begin
139
      Get_String (Str, S, L);
140
      return Integer'Value (S (1 .. L));
141
   end N;
142
 
143
   --------------------
144
   -- Reverse_String --
145
   --------------------
146
 
147
   function Reverse_String (Str : VString) return VString is
148
      S : Big_String_Access;
149
      L : Natural;
150
 
151
   begin
152
      Get_String (Str, S, L);
153
 
154
      declare
155
         Result : String (1 .. L);
156
 
157
      begin
158
         for J in 1 .. L loop
159
            Result (J) := S (L + 1 - J);
160
         end loop;
161
 
162
         return V (Result);
163
      end;
164
   end Reverse_String;
165
 
166
   function Reverse_String (Str : String) return VString is
167
      Result : String (1 .. Str'Length);
168
 
169
   begin
170
      for J in 1 .. Str'Length loop
171
         Result (J) := Str (Str'Last + 1 - J);
172
      end loop;
173
 
174
      return V (Result);
175
   end Reverse_String;
176
 
177
   procedure Reverse_String (Str : in out VString) is
178
      S : Big_String_Access;
179
      L : Natural;
180
 
181
   begin
182
      Get_String (Str, S, L);
183
 
184
      declare
185
         Result : String (1 .. L);
186
 
187
      begin
188
         for J in 1 .. L loop
189
            Result (J) := S (L + 1 - J);
190
         end loop;
191
 
192
         Set_Unbounded_String (Str, Result);
193
      end;
194
   end Reverse_String;
195
 
196
   ----------
197
   -- Rpad --
198
   ----------
199
 
200
   function Rpad
201
     (Str : VString;
202
      Len : Natural;
203
      Pad : Character := ' ') return VString
204
   is
205
   begin
206
      if Length (Str) >= Len then
207
         return Str;
208
      else
209
         return Head (Str, Len, Pad);
210
      end if;
211
   end Rpad;
212
 
213
   function Rpad
214
     (Str : String;
215
      Len : Natural;
216
      Pad : Character := ' ') return VString
217
   is
218
   begin
219
      if Str'Length >= Len then
220
         return V (Str);
221
 
222
      else
223
         declare
224
            R : String (1 .. Len);
225
 
226
         begin
227
            for J in Str'Length + 1 .. Len loop
228
               R (J) := Pad;
229
            end loop;
230
 
231
            R (1 .. Str'Length) := Str;
232
            return V (R);
233
         end;
234
      end if;
235
   end Rpad;
236
 
237
   procedure Rpad
238
     (Str  : in out VString;
239
      Len  : Natural;
240
      Pad  : Character := ' ')
241
   is
242
   begin
243
      if Length (Str) >= Len then
244
         return;
245
 
246
      else
247
         Head (Str, Len, Pad);
248
      end if;
249
   end Rpad;
250
 
251
   -------
252
   -- S --
253
   -------
254
 
255
   function S (Num : Integer) return String is
256
      Buf : String (1 .. 30);
257
      Ptr : Natural := Buf'Last + 1;
258
      Val : Natural := abs (Num);
259
 
260
   begin
261
      loop
262
         Ptr := Ptr - 1;
263
         Buf (Ptr) := Character'Val (Val mod 10 + Character'Pos ('0'));
264
         Val := Val / 10;
265
         exit when Val = 0;
266
      end loop;
267
 
268
      if Num < 0 then
269
         Ptr := Ptr - 1;
270
         Buf (Ptr) := '-';
271
      end if;
272
 
273
      return Buf (Ptr .. Buf'Last);
274
   end S;
275
 
276
   ------------
277
   -- Substr --
278
   ------------
279
 
280
   function Substr
281
     (Str   : VString;
282
      Start : Positive;
283
      Len   : Natural) return VString
284
   is
285
      S : Big_String_Access;
286
      L : Natural;
287
 
288
   begin
289
      Get_String (Str, S, L);
290
 
291
      if Start > L then
292
         raise Index_Error;
293
      elsif Start + Len - 1 > L then
294
         raise Length_Error;
295
      else
296
         return V (S (Start .. Start + Len - 1));
297
      end if;
298
   end Substr;
299
 
300
   function Substr
301
     (Str   : String;
302
      Start : Positive;
303
      Len   : Natural) return VString
304
   is
305
   begin
306
      if Start > Str'Length then
307
         raise Index_Error;
308
      elsif Start + Len > Str'Length then
309
         raise Length_Error;
310
      else
311
         return
312
           V (Str (Str'First + Start - 1 .. Str'First + Start + Len - 2));
313
      end if;
314
   end Substr;
315
 
316
   -----------
317
   -- Table --
318
   -----------
319
 
320
   package body Table is
321
 
322
      procedure Free is new
323
        Ada.Unchecked_Deallocation (Hash_Element, Hash_Element_Ptr);
324
 
325
      -----------------------
326
      -- Local Subprograms --
327
      -----------------------
328
 
329
      function Hash is new System.String_Hash.Hash
330
        (Character, String, Unsigned_32);
331
 
332
      ------------
333
      -- Adjust --
334
      ------------
335
 
336
      procedure Adjust (Object : in out Table) is
337
         Ptr1 : Hash_Element_Ptr;
338
         Ptr2 : Hash_Element_Ptr;
339
 
340
      begin
341
         for J in Object.Elmts'Range loop
342
            Ptr1 := Object.Elmts (J)'Unrestricted_Access;
343
 
344
            if Ptr1.Name /= null then
345
               loop
346
                  Ptr1.Name := new String'(Ptr1.Name.all);
347
                  exit when Ptr1.Next = null;
348
                  Ptr2 := Ptr1.Next;
349
                  Ptr1.Next := new Hash_Element'(Ptr2.all);
350
                  Ptr1 := Ptr1.Next;
351
               end loop;
352
            end if;
353
         end loop;
354
      end Adjust;
355
 
356
      -----------
357
      -- Clear --
358
      -----------
359
 
360
      procedure Clear (T : in out Table) is
361
         Ptr1 : Hash_Element_Ptr;
362
         Ptr2 : Hash_Element_Ptr;
363
 
364
      begin
365
         for J in T.Elmts'Range loop
366
            if T.Elmts (J).Name /= null then
367
               Free (T.Elmts (J).Name);
368
               T.Elmts (J).Value := Null_Value;
369
 
370
               Ptr1 := T.Elmts (J).Next;
371
               T.Elmts (J).Next := null;
372
 
373
               while Ptr1 /= null loop
374
                  Ptr2 := Ptr1.Next;
375
                  Free (Ptr1.Name);
376
                  Free (Ptr1);
377
                  Ptr1 := Ptr2;
378
               end loop;
379
            end if;
380
         end loop;
381
      end Clear;
382
 
383
      ----------------------
384
      -- Convert_To_Array --
385
      ----------------------
386
 
387
      function Convert_To_Array (T : Table) return Table_Array is
388
         Num_Elmts : Natural := 0;
389
         Elmt      : Hash_Element_Ptr;
390
 
391
      begin
392
         for J in T.Elmts'Range loop
393
            Elmt := T.Elmts (J)'Unrestricted_Access;
394
 
395
            if Elmt.Name /= null then
396
               loop
397
                  Num_Elmts := Num_Elmts + 1;
398
                  Elmt := Elmt.Next;
399
                  exit when Elmt = null;
400
               end loop;
401
            end if;
402
         end loop;
403
 
404
         declare
405
            TA  : Table_Array (1 .. Num_Elmts);
406
            P   : Natural := 1;
407
 
408
         begin
409
            for J in T.Elmts'Range loop
410
               Elmt := T.Elmts (J)'Unrestricted_Access;
411
 
412
               if Elmt.Name /= null then
413
                  loop
414
                     Set_Unbounded_String (TA (P).Name, Elmt.Name.all);
415
                     TA (P).Value := Elmt.Value;
416
                     P := P + 1;
417
                     Elmt := Elmt.Next;
418
                     exit when Elmt = null;
419
                  end loop;
420
               end if;
421
            end loop;
422
 
423
            return TA;
424
         end;
425
      end Convert_To_Array;
426
 
427
      ----------
428
      -- Copy --
429
      ----------
430
 
431
      procedure Copy (From : Table; To : in out Table) is
432
         Elmt : Hash_Element_Ptr;
433
 
434
      begin
435
         Clear (To);
436
 
437
         for J in From.Elmts'Range loop
438
            Elmt := From.Elmts (J)'Unrestricted_Access;
439
            if Elmt.Name /= null then
440
               loop
441
                  Set (To, Elmt.Name.all, Elmt.Value);
442
                  Elmt := Elmt.Next;
443
                  exit when Elmt = null;
444
               end loop;
445
            end if;
446
         end loop;
447
      end Copy;
448
 
449
      ------------
450
      -- Delete --
451
      ------------
452
 
453
      procedure Delete (T : in out Table; Name : Character) is
454
      begin
455
         Delete (T, String'(1 => Name));
456
      end Delete;
457
 
458
      procedure Delete (T : in out Table; Name  : VString) is
459
         S : Big_String_Access;
460
         L : Natural;
461
      begin
462
         Get_String (Name, S, L);
463
         Delete (T, S (1 .. L));
464
      end Delete;
465
 
466
      procedure Delete (T : in out Table; Name  : String) is
467
         Slot : constant Unsigned_32 := Hash (Name) mod T.N + 1;
468
         Elmt : Hash_Element_Ptr := T.Elmts (Slot)'Unrestricted_Access;
469
         Next : Hash_Element_Ptr;
470
 
471
      begin
472
         if Elmt.Name = null then
473
            null;
474
 
475
         elsif Elmt.Name.all = Name then
476
            Free (Elmt.Name);
477
 
478
            if Elmt.Next = null then
479
               Elmt.Value := Null_Value;
480
               return;
481
 
482
            else
483
               Next := Elmt.Next;
484
               Elmt.Name  := Next.Name;
485
               Elmt.Value := Next.Value;
486
               Elmt.Next  := Next.Next;
487
               Free (Next);
488
               return;
489
            end if;
490
 
491
         else
492
            loop
493
               Next := Elmt.Next;
494
 
495
               if Next = null then
496
                  return;
497
 
498
               elsif Next.Name.all = Name then
499
                  Free (Next.Name);
500
                  Elmt.Next := Next.Next;
501
                  Free (Next);
502
                  return;
503
 
504
               else
505
                  Elmt := Next;
506
               end if;
507
            end loop;
508
         end if;
509
      end Delete;
510
 
511
      ----------
512
      -- Dump --
513
      ----------
514
 
515
      procedure Dump (T : Table; Str : String := "Table") is
516
         Num_Elmts : Natural := 0;
517
         Elmt      : Hash_Element_Ptr;
518
 
519
      begin
520
         for J in T.Elmts'Range loop
521
            Elmt := T.Elmts (J)'Unrestricted_Access;
522
 
523
            if Elmt.Name /= null then
524
               loop
525
                  Num_Elmts := Num_Elmts + 1;
526
                  Put_Line
527
                    (Str & '<' & Image (Elmt.Name.all) & "> = " &
528
                     Img (Elmt.Value));
529
                  Elmt := Elmt.Next;
530
                  exit when Elmt = null;
531
               end loop;
532
            end if;
533
         end loop;
534
 
535
         if Num_Elmts = 0 then
536
            Put_Line (Str & " is empty");
537
         end if;
538
      end Dump;
539
 
540
      procedure Dump (T : Table_Array; Str : String := "Table_Array") is
541
      begin
542
         if T'Length = 0 then
543
            Put_Line (Str & " is empty");
544
 
545
         else
546
            for J in T'Range loop
547
               Put_Line
548
                 (Str & '(' & Image (To_String (T (J).Name)) & ") = " &
549
                  Img (T (J).Value));
550
            end loop;
551
         end if;
552
      end Dump;
553
 
554
      --------------
555
      -- Finalize --
556
      --------------
557
 
558
      procedure Finalize (Object : in out Table) is
559
         Ptr1 : Hash_Element_Ptr;
560
         Ptr2 : Hash_Element_Ptr;
561
 
562
      begin
563
         for J in Object.Elmts'Range loop
564
            Ptr1 := Object.Elmts (J).Next;
565
            Free (Object.Elmts (J).Name);
566
            while Ptr1 /= null loop
567
               Ptr2 := Ptr1.Next;
568
               Free (Ptr1.Name);
569
               Free (Ptr1);
570
               Ptr1 := Ptr2;
571
            end loop;
572
         end loop;
573
      end Finalize;
574
 
575
      ---------
576
      -- Get --
577
      ---------
578
 
579
      function Get (T : Table; Name : Character) return Value_Type is
580
      begin
581
         return Get (T, String'(1 => Name));
582
      end Get;
583
 
584
      function Get (T : Table; Name : VString) return Value_Type is
585
         S : Big_String_Access;
586
         L : Natural;
587
      begin
588
         Get_String (Name, S, L);
589
         return Get (T, S (1 .. L));
590
      end Get;
591
 
592
      function Get (T : Table; Name : String) return Value_Type is
593
         Slot : constant Unsigned_32 := Hash (Name) mod T.N + 1;
594
         Elmt : Hash_Element_Ptr := T.Elmts (Slot)'Unrestricted_Access;
595
 
596
      begin
597
         if Elmt.Name = null then
598
            return Null_Value;
599
 
600
         else
601
            loop
602
               if Name = Elmt.Name.all then
603
                  return Elmt.Value;
604
 
605
               else
606
                  Elmt := Elmt.Next;
607
 
608
                  if Elmt = null then
609
                     return Null_Value;
610
                  end if;
611
               end if;
612
            end loop;
613
         end if;
614
      end Get;
615
 
616
      -------------
617
      -- Present --
618
      -------------
619
 
620
      function Present (T : Table; Name : Character) return Boolean is
621
      begin
622
         return Present (T, String'(1 => Name));
623
      end Present;
624
 
625
      function Present (T : Table; Name : VString) return Boolean is
626
         S : Big_String_Access;
627
         L : Natural;
628
      begin
629
         Get_String (Name, S, L);
630
         return Present (T, S (1 .. L));
631
      end Present;
632
 
633
      function Present (T : Table; Name : String) return Boolean is
634
         Slot : constant Unsigned_32 := Hash (Name) mod T.N + 1;
635
         Elmt : Hash_Element_Ptr := T.Elmts (Slot)'Unrestricted_Access;
636
 
637
      begin
638
         if Elmt.Name = null then
639
            return False;
640
 
641
         else
642
            loop
643
               if Name = Elmt.Name.all then
644
                  return True;
645
 
646
               else
647
                  Elmt := Elmt.Next;
648
 
649
                  if Elmt = null then
650
                     return False;
651
                  end if;
652
               end if;
653
            end loop;
654
         end if;
655
      end Present;
656
 
657
      ---------
658
      -- Set --
659
      ---------
660
 
661
      procedure Set (T : in out Table; Name : VString; Value : Value_Type) is
662
         S : Big_String_Access;
663
         L : Natural;
664
      begin
665
         Get_String (Name, S, L);
666
         Set (T, S (1 .. L), Value);
667
      end Set;
668
 
669
      procedure Set (T : in out Table; Name : Character; Value : Value_Type) is
670
      begin
671
         Set (T, String'(1 => Name), Value);
672
      end Set;
673
 
674
      procedure Set
675
        (T     : in out Table;
676
         Name  : String;
677
         Value : Value_Type)
678
      is
679
      begin
680
         if Value = Null_Value then
681
            Delete (T, Name);
682
 
683
         else
684
            declare
685
               Slot : constant Unsigned_32 := Hash (Name) mod T.N + 1;
686
               Elmt : Hash_Element_Ptr := T.Elmts (Slot)'Unrestricted_Access;
687
 
688
               subtype String1 is String (1 .. Name'Length);
689
 
690
            begin
691
               if Elmt.Name = null then
692
                  Elmt.Name  := new String'(String1 (Name));
693
                  Elmt.Value := Value;
694
                  return;
695
 
696
               else
697
                  loop
698
                     if Name = Elmt.Name.all then
699
                        Elmt.Value := Value;
700
                        return;
701
 
702
                     elsif Elmt.Next = null then
703
                        Elmt.Next := new Hash_Element'(
704
                                       Name  => new String'(String1 (Name)),
705
                                       Value => Value,
706
                                       Next  => null);
707
                        return;
708
 
709
                     else
710
                        Elmt := Elmt.Next;
711
                     end if;
712
                  end loop;
713
               end if;
714
            end;
715
         end if;
716
      end Set;
717
   end Table;
718
 
719
   ----------
720
   -- Trim --
721
   ----------
722
 
723
   function Trim (Str : VString) return VString is
724
   begin
725
      return Trim (Str, Right);
726
   end Trim;
727
 
728
   function Trim (Str : String) return VString is
729
   begin
730
      for J in reverse Str'Range loop
731
         if Str (J) /= ' ' then
732
            return V (Str (Str'First .. J));
733
         end if;
734
      end loop;
735
 
736
      return Nul;
737
   end Trim;
738
 
739
   procedure Trim (Str : in out VString) is
740
   begin
741
      Trim (Str, Right);
742
   end Trim;
743
 
744
   -------
745
   -- V --
746
   -------
747
 
748
   function V (Num : Integer) return VString is
749
      Buf : String (1 .. 30);
750
      Ptr : Natural := Buf'Last + 1;
751
      Val : Natural := abs (Num);
752
 
753
   begin
754
      loop
755
         Ptr := Ptr - 1;
756
         Buf (Ptr) := Character'Val (Val mod 10 + Character'Pos ('0'));
757
         Val := Val / 10;
758
         exit when Val = 0;
759
      end loop;
760
 
761
      if Num < 0 then
762
         Ptr := Ptr - 1;
763
         Buf (Ptr) := '-';
764
      end if;
765
 
766
      return V (Buf (Ptr .. Buf'Last));
767
   end V;
768
 
769
end GNAT.Spitbol;

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