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1 706 jeremybenn
------------------------------------------------------------------------------
2
--                                                                          --
3
--                         GNAT COMPILER COMPONENTS                         --
4
--                                                                          --
5
--                              E X P _ T S S                               --
6
--                                                                          --
7
--                                 B o d y                                  --
8
--                                                                          --
9
--          Copyright (C) 1992-2010, 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
------------------------------------------------------------------------------
25
 
26
with Atree;    use Atree;
27
with Einfo;    use Einfo;
28
with Elists;   use Elists;
29
with Exp_Util; use Exp_Util;
30
with Nlists;   use Nlists;
31
with Lib;      use Lib;
32
with Restrict; use Restrict;
33
with Rident;   use Rident;
34
with Sem_Aux;  use Sem_Aux;
35
with Sem_Util; use Sem_Util;
36
with Sinfo;    use Sinfo;
37
 
38
package body Exp_Tss is
39
 
40
   --------------------
41
   -- Base_Init_Proc --
42
   --------------------
43
 
44
   function Base_Init_Proc
45
     (Typ : Entity_Id;
46
      Ref : Entity_Id := Empty) return Entity_Id
47
   is
48
      Full_Type : E;
49
      Proc      : Entity_Id;
50
 
51
   begin
52
      pragma Assert (Is_Type (Typ));
53
 
54
      if Is_Private_Type (Typ) then
55
         Full_Type := Underlying_Type (Base_Type (Typ));
56
      else
57
         Full_Type := Typ;
58
      end if;
59
 
60
      if No (Full_Type) then
61
         return Empty;
62
 
63
      elsif Is_Concurrent_Type (Full_Type)
64
        and then Present (Corresponding_Record_Type (Base_Type (Full_Type)))
65
      then
66
         --  The initialization routine to be called is that of the base type
67
         --  of the corresponding record type, which may itself be a subtype
68
         --  and possibly an itype.
69
 
70
         return Init_Proc
71
           (Base_Type (Corresponding_Record_Type (Base_Type (Full_Type))),
72
            Ref);
73
 
74
      else
75
         Proc := Init_Proc (Base_Type (Full_Type), Ref);
76
 
77
         if No (Proc)
78
           and then Is_Composite_Type (Full_Type)
79
           and then Is_Derived_Type (Full_Type)
80
         then
81
            return Init_Proc (Root_Type (Full_Type), Ref);
82
         else
83
            return Proc;
84
         end if;
85
      end if;
86
   end Base_Init_Proc;
87
 
88
   --------------
89
   -- Copy_TSS --
90
   --------------
91
 
92
   --  Note: internally this routine is also used to initially set up
93
   --  a TSS entry for a new type (case of being called from Set_TSS)
94
 
95
   procedure Copy_TSS (TSS : Entity_Id; Typ : Entity_Id) is
96
      FN : Node_Id;
97
 
98
   begin
99
      Ensure_Freeze_Node (Typ);
100
      FN := Freeze_Node (Typ);
101
 
102
      if No (TSS_Elist (FN)) then
103
         Set_TSS_Elist (FN, New_Elmt_List);
104
      end if;
105
 
106
      --  We prepend here, so that a second call overrides the first, it
107
      --  is not clear that this is required, but it seems reasonable.
108
 
109
      Prepend_Elmt (TSS, TSS_Elist (FN));
110
   end Copy_TSS;
111
 
112
   -------------------
113
   -- CPP_Init_Proc --
114
   -------------------
115
 
116
   function CPP_Init_Proc (Typ  : Entity_Id) return Entity_Id is
117
      FN   : constant Node_Id := Freeze_Node (Typ);
118
      Elmt : Elmt_Id;
119
 
120
   begin
121
      if not Is_CPP_Class (Root_Type (Typ))
122
        or else No (FN)
123
        or else No (TSS_Elist (FN))
124
      then
125
         return Empty;
126
 
127
      else
128
         Elmt := First_Elmt (TSS_Elist (FN));
129
         while Present (Elmt) loop
130
            if Is_CPP_Init_Proc (Node (Elmt)) then
131
               return Node (Elmt);
132
            end if;
133
 
134
            Next_Elmt (Elmt);
135
         end loop;
136
      end if;
137
 
138
      return Empty;
139
   end CPP_Init_Proc;
140
 
141
   ------------------------
142
   -- Find_Inherited_TSS --
143
   ------------------------
144
 
145
   function Find_Inherited_TSS
146
     (Typ : Entity_Id;
147
      Nam : TSS_Name_Type) return Entity_Id
148
   is
149
      Btyp : Entity_Id := Typ;
150
      Proc : Entity_Id;
151
 
152
   begin
153
      loop
154
         Btyp := Base_Type (Btyp);
155
         Proc :=  TSS (Btyp, Nam);
156
 
157
         exit when Present (Proc)
158
           or else not Is_Derived_Type (Btyp);
159
 
160
         --  If Typ is a derived type, it may inherit attributes from some
161
         --  ancestor.
162
 
163
         Btyp := Etype (Btyp);
164
      end loop;
165
 
166
      if No (Proc) then
167
 
168
         --  If nothing else, use the TSS of the root type
169
 
170
         Proc := TSS (Base_Type (Underlying_Type (Typ)), Nam);
171
      end if;
172
 
173
      return Proc;
174
   end Find_Inherited_TSS;
175
 
176
   -----------------------
177
   -- Get_TSS_Name_Type --
178
   -----------------------
179
 
180
   function Get_TSS_Name (E : Entity_Id) return TSS_Name_Type is
181
      C1 : Character;
182
      C2 : Character;
183
      Nm : TSS_Name_Type;
184
 
185
   begin
186
      Get_Last_Two_Chars (Chars (E), C1, C2);
187
 
188
      if C1 in 'A' .. 'Z' and then C2 in 'A' .. 'Z' then
189
         Nm := (C1, C2);
190
 
191
         for J in TSS_Names'Range loop
192
            if Nm = TSS_Names (J) then
193
               return Nm;
194
            end if;
195
         end loop;
196
      end if;
197
 
198
      return TSS_Null;
199
   end Get_TSS_Name;
200
 
201
   ---------------------------------
202
   -- Has_Non_Null_Base_Init_Proc --
203
   ---------------------------------
204
 
205
   --  Note: if a base Init_Proc is present, and No_Default_Initialization is
206
   --  present, then we must avoid testing for a null init proc, since there
207
   --  is no init proc present in this case.
208
 
209
   function Has_Non_Null_Base_Init_Proc (Typ : Entity_Id) return Boolean is
210
      BIP : constant Entity_Id := Base_Init_Proc (Typ);
211
   begin
212
      return Present (BIP)
213
        and then (Restriction_Active (No_Default_Initialization)
214
                    or else not Is_Null_Init_Proc (BIP));
215
   end Has_Non_Null_Base_Init_Proc;
216
 
217
   ---------------
218
   -- Init_Proc --
219
   ---------------
220
 
221
   function Init_Proc
222
     (Typ  : Entity_Id;
223
      Ref  : Entity_Id := Empty) return Entity_Id
224
   is
225
      FN   : constant Node_Id := Freeze_Node (Typ);
226
      Elmt : Elmt_Id;
227
      E1   : Entity_Id;
228
      E2   : Entity_Id;
229
 
230
   begin
231
      if No (FN) then
232
         return Empty;
233
 
234
      elsif No (TSS_Elist (FN)) then
235
         return Empty;
236
 
237
      elsif No (Ref) then
238
         Elmt := First_Elmt (TSS_Elist (FN));
239
         while Present (Elmt) loop
240
            if Is_Init_Proc (Node (Elmt)) then
241
               if not Is_CPP_Class (Typ) then
242
                  return Node (Elmt);
243
 
244
               --  For CPP classes, we are looking for the default constructor,
245
               --  and so we must skip any non-default constructor.
246
 
247
               elsif
248
                 No (Next
249
                      (First
250
                        (Parameter_Specifications (Parent (Node (Elmt))))))
251
               then
252
                  return Node (Elmt);
253
               end if;
254
            end if;
255
 
256
            Next_Elmt (Elmt);
257
         end loop;
258
 
259
      --  Non-default constructors are currently supported only in the context
260
      --  of interfacing with C++.
261
 
262
      else pragma Assert (Is_CPP_Class (Typ));
263
 
264
         --  Use the referenced function to locate the init_proc matching
265
         --  the C++ constructor.
266
 
267
         Elmt := First_Elmt (TSS_Elist (FN));
268
         while Present (Elmt) loop
269
            if Is_Init_Proc (Node (Elmt)) then
270
               E1 := Next_Formal (First_Formal (Node (Elmt)));
271
               E2 := First_Formal (Ref);
272
               while Present (E1) and then Present (E2) loop
273
                  if Chars (E1) /= Chars (E2)
274
                    or else Ekind (E1) /= Ekind (E2)
275
                  then
276
                     exit;
277
 
278
                  elsif Ekind (Etype (E1)) /= E_Anonymous_Access_Type
279
                    and then Ekind (Etype (E2)) /= E_Anonymous_Access_Type
280
                    and then Etype (E1) /= Etype (E2)
281
                  then
282
                     exit;
283
 
284
                  elsif Ekind (Etype (E1)) = E_Anonymous_Access_Type
285
                    and then Ekind (Etype (E2)) = E_Anonymous_Access_Type
286
                    and then Directly_Designated_Type (Etype (E1))
287
                               /= Directly_Designated_Type (Etype (E2))
288
                  then
289
                     exit;
290
                  end if;
291
 
292
                  E1 := Next_Formal (E1);
293
                  E2 := Next_Formal (E2);
294
               end loop;
295
 
296
               if No (E1) and then No (E2) then
297
                  return Node (Elmt);
298
               end if;
299
            end if;
300
 
301
            Next_Elmt (Elmt);
302
         end loop;
303
      end if;
304
 
305
      return Empty;
306
   end Init_Proc;
307
 
308
   ----------------------
309
   -- Is_CPP_Init_Proc --
310
   ----------------------
311
 
312
   function Is_CPP_Init_Proc (E : Entity_Id) return Boolean is
313
      C1 : Character;
314
      C2 : Character;
315
   begin
316
      Get_Last_Two_Chars (Chars (E), C1, C2);
317
      return C1 = TSS_CPP_Init_Proc (1) and then C2 = TSS_CPP_Init_Proc (2);
318
   end Is_CPP_Init_Proc;
319
 
320
   ------------------
321
   -- Is_Init_Proc --
322
   ------------------
323
 
324
   function Is_Init_Proc (E : Entity_Id) return Boolean is
325
      C1 : Character;
326
      C2 : Character;
327
   begin
328
      Get_Last_Two_Chars (Chars (E), C1, C2);
329
      return C1 = TSS_Init_Proc (1) and then C2 = TSS_Init_Proc (2);
330
   end Is_Init_Proc;
331
 
332
   ------------
333
   -- Is_TSS --
334
   ------------
335
 
336
   function Is_TSS (E : Entity_Id; Nam : TSS_Name_Type) return Boolean is
337
      C1 : Character;
338
      C2 : Character;
339
   begin
340
      Get_Last_Two_Chars (Chars (E), C1, C2);
341
      return C1 = Nam (1) and then C2 = Nam (2);
342
   end Is_TSS;
343
 
344
   function Is_TSS (N : Name_Id; Nam : TSS_Name_Type) return Boolean is
345
      C1 : Character;
346
      C2 : Character;
347
   begin
348
      Get_Last_Two_Chars (N, C1, C2);
349
      return C1 = Nam (1) and then C2 = Nam (2);
350
   end Is_TSS;
351
 
352
   -------------------------
353
   -- Make_Init_Proc_Name --
354
   -------------------------
355
 
356
   function Make_Init_Proc_Name (Typ : Entity_Id) return Name_Id is
357
   begin
358
      return Make_TSS_Name (Typ, TSS_Init_Proc);
359
   end Make_Init_Proc_Name;
360
 
361
   -------------------
362
   -- Make_TSS_Name --
363
   -------------------
364
 
365
   function Make_TSS_Name
366
     (Typ : Entity_Id;
367
      Nam : TSS_Name_Type) return Name_Id
368
   is
369
   begin
370
      Get_Name_String (Chars (Typ));
371
      Add_Char_To_Name_Buffer (Nam (1));
372
      Add_Char_To_Name_Buffer (Nam (2));
373
      return Name_Find;
374
   end Make_TSS_Name;
375
 
376
   -------------------------
377
   -- Make_TSS_Name_Local --
378
   -------------------------
379
 
380
   function Make_TSS_Name_Local
381
     (Typ : Entity_Id;
382
      Nam : TSS_Name_Type) return Name_Id
383
   is
384
   begin
385
      Get_Name_String (Chars (Typ));
386
      Add_Char_To_Name_Buffer ('_');
387
      Add_Nat_To_Name_Buffer (Increment_Serial_Number);
388
      Add_Char_To_Name_Buffer (Nam (1));
389
      Add_Char_To_Name_Buffer (Nam (2));
390
      return Name_Find;
391
   end Make_TSS_Name_Local;
392
 
393
   --------------
394
   -- Same_TSS --
395
   --------------
396
 
397
   function Same_TSS (E1, E2 : Entity_Id) return Boolean is
398
      E1C1 : Character;
399
      E1C2 : Character;
400
      E2C1 : Character;
401
      E2C2 : Character;
402
 
403
   begin
404
      Get_Last_Two_Chars (Chars (E1), E1C1, E1C2);
405
      Get_Last_Two_Chars (Chars (E2), E2C1, E2C2);
406
 
407
      return
408
        E1C1 = E2C1
409
          and then
410
        E1C2 = E2C2
411
          and then
412
        E1C1 in 'A' .. 'Z'
413
          and then
414
        E1C2 in 'A' .. 'Z';
415
   end Same_TSS;
416
 
417
   -------------------
418
   -- Set_Init_Proc --
419
   -------------------
420
 
421
   procedure Set_Init_Proc (Typ : Entity_Id; Init : Entity_Id) is
422
   begin
423
      Set_TSS (Typ, Init);
424
   end Set_Init_Proc;
425
 
426
   -------------
427
   -- Set_TSS --
428
   -------------
429
 
430
   procedure Set_TSS (Typ : Entity_Id; TSS : Entity_Id) is
431
   begin
432
      --  Make sure body of subprogram is frozen
433
 
434
      --  Skip this for Init_Proc with No_Default_Initialization, since the
435
      --  Init proc is a dummy void entity in this case to be ignored.
436
 
437
      if (Is_Init_Proc (TSS) or else Is_CPP_Init_Proc (TSS))
438
        and then Restriction_Active (No_Default_Initialization)
439
      then
440
         null;
441
 
442
      --  Skip this if not in the same code unit (since it means we are using
443
      --  an already existing TSS in another unit)
444
 
445
      elsif not In_Same_Code_Unit (Typ, TSS) then
446
         null;
447
 
448
      --  Otherwise make sure body is frozen
449
 
450
      else
451
         Append_Freeze_Action (Typ, Unit_Declaration_Node (TSS));
452
      end if;
453
 
454
      --  Set TSS entry
455
 
456
      Copy_TSS (TSS, Typ);
457
   end Set_TSS;
458
 
459
   ---------
460
   -- TSS --
461
   ---------
462
 
463
   function TSS (Typ : Entity_Id; Nam : TSS_Name_Type) return Entity_Id is
464
      FN   : constant Node_Id := Freeze_Node (Typ);
465
      Elmt : Elmt_Id;
466
      Subp : Entity_Id;
467
 
468
   begin
469
      if No (FN) then
470
         return Empty;
471
 
472
      elsif No (TSS_Elist (FN)) then
473
         return Empty;
474
 
475
      else
476
         Elmt := First_Elmt (TSS_Elist (FN));
477
         while Present (Elmt) loop
478
            if Is_TSS (Node (Elmt), Nam) then
479
               Subp := Node (Elmt);
480
 
481
               --  For stream subprograms, the TSS entity may be a renaming-
482
               --  as-body of an already generated entity. Use that one rather
483
               --  the one introduced by the renaming, which is an artifact of
484
               --  current stream handling.
485
 
486
               if Nkind (Parent (Parent (Subp))) =
487
                                           N_Subprogram_Renaming_Declaration
488
                 and then
489
                   Present (Corresponding_Spec (Parent (Parent (Subp))))
490
               then
491
                  return Corresponding_Spec (Parent (Parent (Subp)));
492
               else
493
                  return Subp;
494
               end if;
495
 
496
            else
497
               Next_Elmt (Elmt);
498
            end if;
499
         end loop;
500
      end if;
501
 
502
      return Empty;
503
   end TSS;
504
 
505
   function TSS (Typ : Entity_Id; Nam : Name_Id) return Entity_Id is
506
      FN   : constant Node_Id := Freeze_Node (Typ);
507
      Elmt : Elmt_Id;
508
      Subp : Entity_Id;
509
 
510
   begin
511
      if No (FN) then
512
         return Empty;
513
 
514
      elsif No (TSS_Elist (FN)) then
515
         return Empty;
516
 
517
      else
518
         Elmt := First_Elmt (TSS_Elist (FN));
519
         while Present (Elmt) loop
520
            if Chars (Node (Elmt)) =  Nam then
521
               Subp := Node (Elmt);
522
 
523
               --  For stream subprograms, the TSS entity may be a renaming-
524
               --  as-body of an already generated entity. Use that one rather
525
               --  the one introduced by the renaming, which is an artifact of
526
               --  current stream handling.
527
 
528
               if Nkind (Parent (Parent (Subp))) =
529
                                           N_Subprogram_Renaming_Declaration
530
                 and then
531
                   Present (Corresponding_Spec (Parent (Parent (Subp))))
532
               then
533
                  return Corresponding_Spec (Parent (Parent (Subp)));
534
               else
535
                  return Subp;
536
               end if;
537
 
538
            else
539
               Next_Elmt (Elmt);
540
            end if;
541
         end loop;
542
      end if;
543
 
544
      return Empty;
545
   end TSS;
546
 
547
end Exp_Tss;

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