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1 281 jeremybenn
------------------------------------------------------------------------------
2
--                                                                          --
3
--                         GNAT COMPILER COMPONENTS                         --
4
--                                                                          --
5
--                             P A R . L A B L                              --
6
--                                                                          --
7
--                                 B o d y                                  --
8
--                                                                          --
9
--          Copyright (C) 1992-2008, 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
separate (Par)
27
procedure Labl is
28
   Enclosing_Body_Or_Block : Node_Id;
29
   --  Innermost enclosing body or block statement
30
 
31
   Label_Decl_Node : Node_Id;
32
   --  Implicit label declaration node
33
 
34
   Defining_Ident_Node : Node_Id;
35
   --  Defining identifier node for implicit label declaration
36
 
37
   Next_Label_Elmt : Elmt_Id;
38
   --  Next element on label element list
39
 
40
   Label_Node : Node_Id;
41
   --  Next label node to process
42
 
43
   function Find_Enclosing_Body_Or_Block (N : Node_Id) return Node_Id;
44
   --  Find the innermost body or block that encloses N
45
 
46
   function Find_Enclosing_Body (N : Node_Id) return Node_Id;
47
   --  Find the innermost body that encloses N
48
 
49
   procedure Check_Distinct_Labels;
50
   --  Checks the rule in RM-5.1(11), which requires distinct identifiers
51
   --  for all the labels in a given body.
52
 
53
   procedure Find_Natural_Loops;
54
   --  Recognizes loops created by backward gotos, and rewrites the
55
   --  corresponding statements into a proper loop, for optimization
56
   --  purposes (for example, to control reclaiming local storage).
57
 
58
   ---------------------------
59
   -- Check_Distinct_Labels --
60
   ---------------------------
61
 
62
   procedure Check_Distinct_Labels is
63
      Label_Id : constant Node_Id := Identifier (Label_Node);
64
 
65
      Enclosing_Body : constant Node_Id :=
66
                         Find_Enclosing_Body (Enclosing_Body_Or_Block);
67
      --  Innermost enclosing body
68
 
69
      Next_Other_Label_Elmt : Elmt_Id := First_Elmt (Label_List);
70
      --  Next element on label element list
71
 
72
      Other_Label : Node_Id;
73
      --  Next label node to process
74
 
75
   begin
76
      --  Loop through all the labels, and if we find some other label
77
      --  (i.e. not Label_Node) that has the same identifier,
78
      --  and whose innermost enclosing body is the same,
79
      --  then we have an error.
80
 
81
      --  Note that in the worst case, this is quadratic in the number
82
      --  of labels.  However, labels are not all that common, and this
83
      --  is only called for explicit labels.
84
      --  ???Nonetheless, the efficiency could be improved. For example,
85
      --  call Labl for each body, rather than once per compilation.
86
 
87
      while Present (Next_Other_Label_Elmt) loop
88
         Other_Label := Node (Next_Other_Label_Elmt);
89
 
90
         exit when Label_Node = Other_Label;
91
 
92
         if Chars (Label_Id) = Chars (Identifier (Other_Label))
93
           and then Enclosing_Body = Find_Enclosing_Body (Other_Label)
94
         then
95
            Error_Msg_Sloc := Sloc (Other_Label);
96
            Error_Msg_N ("& conflicts with label#", Label_Id);
97
            exit;
98
         end if;
99
 
100
         Next_Elmt (Next_Other_Label_Elmt);
101
      end loop;
102
   end Check_Distinct_Labels;
103
 
104
   -------------------------
105
   -- Find_Enclosing_Body --
106
   -------------------------
107
 
108
   function Find_Enclosing_Body (N : Node_Id) return Node_Id is
109
      Result : Node_Id := N;
110
 
111
   begin
112
      --  This is the same as Find_Enclosing_Body_Or_Block, except
113
      --  that we skip block statements and accept statements, instead
114
      --  of stopping at them.
115
 
116
      while Present (Result)
117
        and then Nkind (Result) /= N_Entry_Body
118
        and then Nkind (Result) /= N_Task_Body
119
        and then Nkind (Result) /= N_Package_Body
120
        and then Nkind (Result) /= N_Subprogram_Body
121
      loop
122
         Result := Parent (Result);
123
      end loop;
124
 
125
      return Result;
126
   end Find_Enclosing_Body;
127
 
128
   ----------------------------------
129
   -- Find_Enclosing_Body_Or_Block --
130
   ----------------------------------
131
 
132
   function Find_Enclosing_Body_Or_Block (N : Node_Id) return Node_Id is
133
      Result : Node_Id := Parent (N);
134
 
135
   begin
136
      --  Climb up the parent chain until we find a body or block
137
 
138
      while Present (Result)
139
        and then Nkind (Result) /= N_Accept_Statement
140
        and then Nkind (Result) /= N_Entry_Body
141
        and then Nkind (Result) /= N_Task_Body
142
        and then Nkind (Result) /= N_Package_Body
143
        and then Nkind (Result) /= N_Subprogram_Body
144
        and then Nkind (Result) /= N_Block_Statement
145
      loop
146
         Result := Parent (Result);
147
      end loop;
148
 
149
      return Result;
150
   end Find_Enclosing_Body_Or_Block;
151
 
152
   ------------------------
153
   -- Find_Natural_Loops --
154
   ------------------------
155
 
156
   procedure Find_Natural_Loops is
157
      Node_List : constant Elist_Id := New_Elmt_List;
158
      N         : Elmt_Id;
159
      Succ      : Elmt_Id;
160
 
161
      function Goto_Id (Goto_Node : Node_Id) return Name_Id;
162
      --  Find Name_Id of goto statement, which may be an expanded name
163
 
164
      function Matches
165
        (Label_Node : Node_Id;
166
         Goto_Node  : Node_Id) return Boolean;
167
      --  A label and a goto are candidates for a loop if the names match,
168
      --  and both nodes appear in the same body. In addition, both must
169
      --  appear in the same statement list. If they are not in the same
170
      --  statement list, the goto is from within an nested structure, and
171
      --  the label is not a header. We ignore the case where the goto is
172
      --  within a conditional structure, and capture only infinite loops.
173
 
174
      procedure Merge;
175
      --  Merge labels and goto statements in order of increasing sloc value.
176
      --  Discard labels of loop and block statements.
177
 
178
      procedure No_Header (N : Elmt_Id);
179
      --  The label N is known not to be a loop header. Scan forward and
180
      --  remove all subsequent gotos that may have this node as a target.
181
 
182
      procedure Process_Goto (N : Elmt_Id);
183
      --  N is a forward jump. Scan forward and remove all subsequent gotos
184
      --  that may have the same target, to preclude spurious loops.
185
 
186
      procedure Rewrite_As_Loop
187
        (Loop_Header : Node_Id;
188
         Loop_End    : Node_Id);
189
      --  Given a label and a backwards goto, rewrite intervening statements
190
      --  as a loop. Remove the label from the node list, and rewrite the
191
      --  goto with the body of the new loop.
192
 
193
      procedure Try_Loop (N : Elmt_Id);
194
      --  N is a label that may be a loop header. Scan forward to find some
195
      --  backwards goto with which to make a loop. Do nothing if there is
196
      --  an intervening label that is not part of a loop, or more than one
197
      --  goto with this target.
198
 
199
      -------------
200
      -- Goto_Id --
201
      -------------
202
 
203
      function Goto_Id (Goto_Node : Node_Id) return Name_Id is
204
      begin
205
         if Nkind (Name (Goto_Node)) = N_Identifier then
206
            return Chars (Name (Goto_Node));
207
 
208
         elsif Nkind (Name (Goto_Node)) = N_Selected_Component then
209
            return Chars (Selector_Name (Name (Goto_Node)));
210
         else
211
 
212
            --  In case of error, return Id that can't match anything
213
 
214
            return Name_Null;
215
         end if;
216
      end Goto_Id;
217
 
218
      -------------
219
      -- Matches --
220
      -------------
221
 
222
      function Matches
223
        (Label_Node : Node_Id;
224
         Goto_Node  :  Node_Id) return Boolean
225
      is
226
      begin
227
         return Chars (Identifier (Label_Node)) = Goto_Id (Goto_Node)
228
           and then Find_Enclosing_Body (Label_Node) =
229
                    Find_Enclosing_Body (Goto_Node);
230
      end Matches;
231
 
232
      -----------
233
      -- Merge --
234
      -----------
235
 
236
      procedure Merge is
237
         L1 : Elmt_Id;
238
         G1 : Elmt_Id;
239
 
240
      begin
241
         L1 := First_Elmt (Label_List);
242
         G1 := First_Elmt (Goto_List);
243
 
244
         while Present (L1)
245
           and then Present (G1)
246
         loop
247
            if Sloc (Node (L1)) < Sloc (Node (G1)) then
248
 
249
               --  Optimization: remove labels of loops and blocks, which
250
               --  play no role in what follows.
251
 
252
               if Nkind (Node (L1)) /= N_Loop_Statement
253
                 and then Nkind (Node (L1)) /= N_Block_Statement
254
               then
255
                  Append_Elmt (Node (L1), Node_List);
256
               end if;
257
 
258
               Next_Elmt (L1);
259
 
260
            else
261
               Append_Elmt (Node (G1), Node_List);
262
               Next_Elmt (G1);
263
            end if;
264
         end loop;
265
 
266
         while Present (L1) loop
267
            Append_Elmt (Node (L1), Node_List);
268
            Next_Elmt (L1);
269
         end loop;
270
 
271
         while Present (G1) loop
272
            Append_Elmt (Node (G1), Node_List);
273
            Next_Elmt (G1);
274
         end loop;
275
      end Merge;
276
 
277
      ---------------
278
      -- No_Header --
279
      ---------------
280
 
281
      procedure No_Header (N : Elmt_Id) is
282
         S1, S2 : Elmt_Id;
283
 
284
      begin
285
         S1 := Next_Elmt (N);
286
         while Present (S1) loop
287
            S2 := Next_Elmt (S1);
288
            if Nkind (Node (S1)) = N_Goto_Statement
289
              and then Matches (Node (N), Node (S1))
290
            then
291
               Remove_Elmt (Node_List, S1);
292
            end if;
293
 
294
            S1 := S2;
295
         end loop;
296
      end No_Header;
297
 
298
      ------------------
299
      -- Process_Goto --
300
      ------------------
301
 
302
      procedure Process_Goto (N : Elmt_Id) is
303
         Goto1 : constant Node_Id := Node (N);
304
         Goto2 : Node_Id;
305
         S, S1 : Elmt_Id;
306
 
307
      begin
308
         S := Next_Elmt (N);
309
 
310
         while Present (S) loop
311
            S1 := Next_Elmt (S);
312
            Goto2 := Node (S);
313
 
314
            if Nkind (Goto2) = N_Goto_Statement
315
              and then Goto_Id (Goto1) = Goto_Id (Goto2)
316
              and then Find_Enclosing_Body (Goto1) =
317
                       Find_Enclosing_Body (Goto2)
318
            then
319
 
320
               --  Goto2 may have the same target, remove it from
321
               --  consideration.
322
 
323
               Remove_Elmt (Node_List, S);
324
            end if;
325
 
326
            S := S1;
327
         end loop;
328
      end Process_Goto;
329
 
330
      ---------------------
331
      -- Rewrite_As_Loop --
332
      ---------------------
333
 
334
      procedure Rewrite_As_Loop
335
        (Loop_Header : Node_Id;
336
         Loop_End    : Node_Id)
337
      is
338
         Loop_Body : constant List_Id := New_List;
339
         Loop_Stmt : constant Node_Id :=
340
                       New_Node (N_Loop_Statement, Sloc (Loop_Header));
341
         Stat      : Node_Id;
342
         Next_Stat : Node_Id;
343
      begin
344
         Stat := Next (Loop_Header);
345
         while Stat /= Loop_End loop
346
            Next_Stat := Next (Stat);
347
            Remove (Stat);
348
            Append (Stat, Loop_Body);
349
            Stat := Next_Stat;
350
         end loop;
351
 
352
         Set_Statements (Loop_Stmt, Loop_Body);
353
         Set_Identifier (Loop_Stmt, Identifier (Loop_Header));
354
 
355
         Remove (Loop_Header);
356
         Rewrite (Loop_End, Loop_Stmt);
357
         Error_Msg_N
358
           ("code between label and backwards goto rewritten as loop?",
359
             Loop_End);
360
      end Rewrite_As_Loop;
361
 
362
      --------------
363
      -- Try_Loop --
364
      --------------
365
 
366
      procedure Try_Loop (N : Elmt_Id) is
367
         Source : Elmt_Id;
368
         Found  : Boolean := False;
369
         S1     : Elmt_Id;
370
 
371
      begin
372
         S1 := Next_Elmt (N);
373
         while Present (S1) loop
374
            if Nkind (Node (S1)) = N_Goto_Statement
375
              and then Matches (Node (N), Node (S1))
376
            then
377
               if not Found then
378
                  if Parent (Node (N)) = Parent (Node (S1)) then
379
                     Source := S1;
380
                     Found  := True;
381
 
382
                  else
383
                     --  The goto is within some nested structure
384
 
385
                     No_Header (N);
386
                     return;
387
                  end if;
388
 
389
               else
390
                  --  More than one goto with the same target
391
 
392
                  No_Header (N);
393
                  return;
394
               end if;
395
 
396
            elsif Nkind (Node (S1)) = N_Label
397
              and then not Found
398
            then
399
               --  Intervening label before possible end of loop. Current
400
               --  label is not a candidate. This is conservative, because
401
               --  the label might not be the target of any jumps, but not
402
               --  worth dealing with useless labels!
403
 
404
               No_Header (N);
405
               return;
406
 
407
            else
408
               --  If the node is a loop_statement, it corresponds to a
409
               --  label-goto pair rewritten as a loop. Continue forward scan.
410
 
411
               null;
412
            end if;
413
 
414
            Next_Elmt (S1);
415
         end loop;
416
 
417
         if Found then
418
            Rewrite_As_Loop (Node (N), Node (Source));
419
            Remove_Elmt (Node_List, N);
420
            Remove_Elmt (Node_List, Source);
421
         end if;
422
      end Try_Loop;
423
 
424
   begin
425
      --  Start of processing for Find_Natural_Loops
426
 
427
      Merge;
428
 
429
      N := First_Elmt (Node_List);
430
      while Present (N) loop
431
         Succ := Next_Elmt (N);
432
 
433
         if Nkind (Node (N)) = N_Label then
434
            if No (Succ) then
435
               exit;
436
 
437
            elsif Nkind (Node (Succ)) = N_Label then
438
               Try_Loop (Succ);
439
 
440
               --  If a loop was found, the label has been removed, and
441
               --  the following goto rewritten as the loop body.
442
 
443
               Succ := Next_Elmt (N);
444
 
445
               if Nkind (Node (Succ)) = N_Label then
446
 
447
                  --  Following label was not removed, so current label
448
                  --  is not a candidate header.
449
 
450
                  No_Header (N);
451
 
452
               else
453
 
454
                  --  Following label was part of inner loop. Current
455
                  --  label is still a candidate.
456
 
457
                  Try_Loop (N);
458
                  Succ := Next_Elmt (N);
459
               end if;
460
 
461
            elsif Nkind (Node (Succ)) = N_Goto_Statement then
462
               Try_Loop (N);
463
               Succ := Next_Elmt (N);
464
            end if;
465
 
466
         elsif Nkind (Node (N)) = N_Goto_Statement then
467
            Process_Goto (N);
468
            Succ := Next_Elmt (N);
469
         end if;
470
 
471
         N := Succ;
472
      end loop;
473
   end Find_Natural_Loops;
474
 
475
--  Start of processing for Par.Labl
476
 
477
begin
478
   Next_Label_Elmt := First_Elmt (Label_List);
479
   while Present (Next_Label_Elmt) loop
480
      Label_Node := Node (Next_Label_Elmt);
481
 
482
      if not Comes_From_Source (Label_Node) then
483
         goto Next_Label;
484
      end if;
485
 
486
      --  Find the innermost enclosing body or block, which is where
487
      --  we need to implicitly declare this label
488
 
489
      Enclosing_Body_Or_Block := Find_Enclosing_Body_Or_Block (Label_Node);
490
 
491
      --  If we didn't find a parent, then the label in question never got
492
      --  hooked into a reasonable declarative part. This happens only in
493
      --  error situations, and we simply ignore the entry (we aren't going
494
      --  to get into the semantics in any case given the error).
495
 
496
      if Present (Enclosing_Body_Or_Block) then
497
         Check_Distinct_Labels;
498
 
499
         --  Now create the implicit label declaration node and its
500
         --  corresponding defining identifier. Note that the defining
501
         --  occurrence of a label is the implicit label declaration that
502
         --  we are creating. The label itself is an applied occurrence.
503
 
504
         Label_Decl_Node :=
505
           New_Node (N_Implicit_Label_Declaration, Sloc (Label_Node));
506
         Defining_Ident_Node :=
507
           New_Entity (N_Defining_Identifier, Sloc (Identifier (Label_Node)));
508
         Set_Chars (Defining_Ident_Node, Chars (Identifier (Label_Node)));
509
         Set_Defining_Identifier (Label_Decl_Node, Defining_Ident_Node);
510
         Set_Label_Construct (Label_Decl_Node, Label_Node);
511
 
512
         --  The following makes sure that Comes_From_Source is appropriately
513
         --  set for the entity, depending on whether the label appeared in
514
         --  the source explicitly or not.
515
 
516
         Set_Comes_From_Source
517
          (Defining_Ident_Node, Comes_From_Source (Identifier (Label_Node)));
518
 
519
         --  Now attach the implicit label declaration to the appropriate
520
         --  declarative region, creating a declaration list if none exists
521
 
522
         if No (Declarations (Enclosing_Body_Or_Block)) then
523
            Set_Declarations (Enclosing_Body_Or_Block, New_List);
524
         end if;
525
 
526
         Append (Label_Decl_Node, Declarations (Enclosing_Body_Or_Block));
527
      end if;
528
 
529
      <<Next_Label>>
530
         Next_Elmt (Next_Label_Elmt);
531
   end loop;
532
 
533
   Find_Natural_Loops;
534
 
535
end Labl;

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