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1 706 jeremybenn
------------------------------------------------------------------------------
2
--                                                                          --
3
--                         GNAT COMPILER COMPONENTS                         --
4
--                                                                          --
5
--                              S E M . C H 7                               --
6
--                                                                          --
7
--                                 B o d y                                  --
8
--                                                                          --
9
--          Copyright (C) 1992-2011, 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
--  This package contains the routines to process package specifications and
27
--  bodies. The most important semantic aspects of package processing are the
28
--  handling of private and full declarations, and the construction of dispatch
29
--  tables for tagged types.
30
 
31
with Atree;    use Atree;
32
with Debug;    use Debug;
33
with Einfo;    use Einfo;
34
with Elists;   use Elists;
35
with Errout;   use Errout;
36
with Exp_Disp; use Exp_Disp;
37
with Exp_Dist; use Exp_Dist;
38
with Exp_Dbug; use Exp_Dbug;
39
with Lib;      use Lib;
40
with Lib.Xref; use Lib.Xref;
41
with Namet;    use Namet;
42
with Nmake;    use Nmake;
43
with Nlists;   use Nlists;
44
with Opt;      use Opt;
45
with Output;   use Output;
46
with Restrict; use Restrict;
47
with Sem;      use Sem;
48
with Sem_Aux;  use Sem_Aux;
49
with Sem_Cat;  use Sem_Cat;
50
with Sem_Ch3;  use Sem_Ch3;
51
with Sem_Ch6;  use Sem_Ch6;
52
with Sem_Ch8;  use Sem_Ch8;
53
with Sem_Ch10; use Sem_Ch10;
54
with Sem_Ch12; use Sem_Ch12;
55
with Sem_Ch13; use Sem_Ch13;
56
with Sem_Disp; use Sem_Disp;
57
with Sem_Eval; use Sem_Eval;
58
with Sem_Util; use Sem_Util;
59
with Sem_Warn; use Sem_Warn;
60
with Snames;   use Snames;
61
with Stand;    use Stand;
62
with Sinfo;    use Sinfo;
63
with Sinput;   use Sinput;
64
with Style;
65
with Uintp;    use Uintp;
66
 
67
package body Sem_Ch7 is
68
 
69
   -----------------------------------
70
   -- Handling private declarations --
71
   -----------------------------------
72
 
73
   --  The principle that each entity has a single defining occurrence clashes
74
   --  with the presence of two separate definitions for private types: the
75
   --  first is the private type declaration, and the second is the full type
76
   --  declaration. It is important that all references to the type point to
77
   --  the same defining occurrence, namely the first one. To enforce the two
78
   --  separate views of the entity, the corresponding information is swapped
79
   --  between the two declarations. Outside of the package, the defining
80
   --  occurrence only contains the private declaration information, while in
81
   --  the private part and the body of the package the defining occurrence
82
   --  contains the full declaration. To simplify the swap, the defining
83
   --  occurrence that currently holds the private declaration points to the
84
   --  full declaration. During semantic processing the defining occurrence
85
   --  also points to a list of private dependents, that is to say access types
86
   --  or composite types whose designated types or component types are
87
   --  subtypes or derived types of the private type in question. After the
88
   --  full declaration has been seen, the private dependents are updated to
89
   --  indicate that they have full definitions.
90
 
91
   -----------------------
92
   -- Local Subprograms --
93
   -----------------------
94
 
95
   procedure Analyze_Package_Body_Helper (N : Node_Id);
96
   --  Does all the real work of Analyze_Package_Body
97
 
98
   procedure Check_Anonymous_Access_Types
99
     (Spec_Id : Entity_Id;
100
      P_Body  : Node_Id);
101
   --  If the spec of a package has a limited_with_clause, it may declare
102
   --  anonymous access types whose designated type is a limited view, such an
103
   --  anonymous access return type for a function. This access type cannot be
104
   --  elaborated in the spec itself, but it may need an itype reference if it
105
   --  is used within a nested scope. In that case the itype reference is
106
   --  created at the beginning of the corresponding package body and inserted
107
   --  before other body declarations.
108
 
109
   procedure Install_Package_Entity (Id : Entity_Id);
110
   --  Supporting procedure for Install_{Visible,Private}_Declarations. Places
111
   --  one entity on its visibility chain, and recurses on the visible part if
112
   --  the entity is an inner package.
113
 
114
   function Is_Private_Base_Type (E : Entity_Id) return Boolean;
115
   --  True for a private type that is not a subtype
116
 
117
   function Is_Visible_Dependent (Dep : Entity_Id) return Boolean;
118
   --  If the private dependent is a private type whose full view is derived
119
   --  from the parent type, its full properties are revealed only if we are in
120
   --  the immediate scope of the private dependent. Should this predicate be
121
   --  tightened further???
122
 
123
   procedure Declare_Inherited_Private_Subprograms (Id : Entity_Id);
124
   --  Called upon entering the private part of a public child package and the
125
   --  body of a nested package, to potentially declare certain inherited
126
   --  subprograms that were inherited by types in the visible part, but whose
127
   --  declaration was deferred because the parent operation was private and
128
   --  not visible at that point. These subprograms are located by traversing
129
   --  the visible part declarations looking for non-private type extensions
130
   --  and then examining each of the primitive operations of such types to
131
   --  find those that were inherited but declared with a special internal
132
   --  name. Each such operation is now declared as an operation with a normal
133
   --  name (using the name of the parent operation) and replaces the previous
134
   --  implicit operation in the primitive operations list of the type. If the
135
   --  inherited private operation has been overridden, then it's replaced by
136
   --  the overriding operation.
137
 
138
   --------------------------
139
   -- Analyze_Package_Body --
140
   --------------------------
141
 
142
   procedure Analyze_Package_Body (N : Node_Id) is
143
      Loc : constant Source_Ptr := Sloc (N);
144
 
145
   begin
146
      if Debug_Flag_C then
147
         Write_Str ("==> package body ");
148
         Write_Name (Chars (Defining_Entity (N)));
149
         Write_Str (" from ");
150
         Write_Location (Loc);
151
         Write_Eol;
152
         Indent;
153
      end if;
154
 
155
      --  The real work is split out into the helper, so it can do "return;"
156
      --  without skipping the debug output.
157
 
158
      Analyze_Package_Body_Helper (N);
159
 
160
      if Debug_Flag_C then
161
         Outdent;
162
         Write_Str ("<== package body ");
163
         Write_Name (Chars (Defining_Entity (N)));
164
         Write_Str (" from ");
165
         Write_Location (Loc);
166
         Write_Eol;
167
      end if;
168
   end Analyze_Package_Body;
169
 
170
   ---------------------------------
171
   -- Analyze_Package_Body_Helper --
172
   ---------------------------------
173
 
174
   procedure Analyze_Package_Body_Helper (N : Node_Id) is
175
      HSS              : Node_Id;
176
      Body_Id          : Entity_Id;
177
      Spec_Id          : Entity_Id;
178
      Last_Spec_Entity : Entity_Id;
179
      New_N            : Node_Id;
180
      Pack_Decl        : Node_Id;
181
 
182
      procedure Install_Composite_Operations (P : Entity_Id);
183
      --  Composite types declared in the current scope may depend on types
184
      --  that were private at the point of declaration, and whose full view
185
      --  is now in scope. Indicate that the corresponding operations on the
186
      --  composite type are available.
187
 
188
      ----------------------------------
189
      -- Install_Composite_Operations --
190
      ----------------------------------
191
 
192
      procedure Install_Composite_Operations (P : Entity_Id) is
193
         Id : Entity_Id;
194
 
195
      begin
196
         Id := First_Entity (P);
197
         while Present (Id) loop
198
            if Is_Type (Id)
199
              and then (Is_Limited_Composite (Id)
200
                         or else Is_Private_Composite (Id))
201
              and then No (Private_Component (Id))
202
            then
203
               Set_Is_Limited_Composite (Id, False);
204
               Set_Is_Private_Composite (Id, False);
205
            end if;
206
 
207
            Next_Entity (Id);
208
         end loop;
209
      end Install_Composite_Operations;
210
 
211
   --  Start of processing for Analyze_Package_Body_Helper
212
 
213
   begin
214
      --  Find corresponding package specification, and establish the current
215
      --  scope. The visible defining entity for the package is the defining
216
      --  occurrence in the spec. On exit from the package body, all body
217
      --  declarations are attached to the defining entity for the body, but
218
      --  the later is never used for name resolution. In this fashion there
219
      --  is only one visible entity that denotes the package.
220
 
221
      --  Set Body_Id. Note that this Will be reset to point to the generic
222
      --  copy later on in the generic case.
223
 
224
      Body_Id := Defining_Entity (N);
225
 
226
      if Present (Corresponding_Spec (N)) then
227
 
228
         --  Body is body of package instantiation. Corresponding spec has
229
         --  already been set.
230
 
231
         Spec_Id := Corresponding_Spec (N);
232
         Pack_Decl := Unit_Declaration_Node (Spec_Id);
233
 
234
      else
235
         Spec_Id := Current_Entity_In_Scope (Defining_Entity (N));
236
 
237
         if Present (Spec_Id)
238
           and then Is_Package_Or_Generic_Package (Spec_Id)
239
         then
240
            Pack_Decl := Unit_Declaration_Node (Spec_Id);
241
 
242
            if Nkind (Pack_Decl) = N_Package_Renaming_Declaration then
243
               Error_Msg_N ("cannot supply body for package renaming", N);
244
               return;
245
 
246
            elsif Present (Corresponding_Body (Pack_Decl)) then
247
               Error_Msg_N ("redefinition of package body", N);
248
               return;
249
            end if;
250
 
251
         else
252
            Error_Msg_N ("missing specification for package body", N);
253
            return;
254
         end if;
255
 
256
         if Is_Package_Or_Generic_Package (Spec_Id)
257
           and then (Scope (Spec_Id) = Standard_Standard
258
                      or else Is_Child_Unit (Spec_Id))
259
           and then not Unit_Requires_Body (Spec_Id)
260
         then
261
            if Ada_Version = Ada_83 then
262
               Error_Msg_N
263
                 ("optional package body (not allowed in Ada 95)?", N);
264
            else
265
               Error_Msg_N ("spec of this package does not allow a body", N);
266
            end if;
267
         end if;
268
      end if;
269
 
270
      Set_Is_Compilation_Unit (Body_Id, Is_Compilation_Unit (Spec_Id));
271
      Style.Check_Identifier (Body_Id, Spec_Id);
272
 
273
      if Is_Child_Unit (Spec_Id) then
274
         if Nkind (Parent (N)) /= N_Compilation_Unit then
275
            Error_Msg_NE
276
              ("body of child unit& cannot be an inner package", N, Spec_Id);
277
         end if;
278
 
279
         Set_Is_Child_Unit (Body_Id);
280
      end if;
281
 
282
      --  Generic package case
283
 
284
      if Ekind (Spec_Id) = E_Generic_Package then
285
 
286
         --  Disable expansion and perform semantic analysis on copy. The
287
         --  unannotated body will be used in all instantiations.
288
 
289
         Body_Id := Defining_Entity (N);
290
         Set_Ekind (Body_Id, E_Package_Body);
291
         Set_Scope (Body_Id, Scope (Spec_Id));
292
         Set_Is_Obsolescent (Body_Id, Is_Obsolescent (Spec_Id));
293
         Set_Body_Entity (Spec_Id, Body_Id);
294
         Set_Spec_Entity (Body_Id, Spec_Id);
295
 
296
         New_N := Copy_Generic_Node (N, Empty, Instantiating => False);
297
         Rewrite (N, New_N);
298
 
299
         --  Update Body_Id to point to the copied node for the remainder of
300
         --  the processing.
301
 
302
         Body_Id := Defining_Entity (N);
303
         Start_Generic;
304
      end if;
305
 
306
      --  The Body_Id is that of the copied node in the generic case, the
307
      --  current node otherwise. Note that N was rewritten above, so we must
308
      --  be sure to get the latest Body_Id value.
309
 
310
      Set_Ekind (Body_Id, E_Package_Body);
311
      Set_Body_Entity (Spec_Id, Body_Id);
312
      Set_Spec_Entity (Body_Id, Spec_Id);
313
 
314
      --  Defining name for the package body is not a visible entity: Only the
315
      --  defining name for the declaration is visible.
316
 
317
      Set_Etype (Body_Id, Standard_Void_Type);
318
      Set_Scope (Body_Id, Scope (Spec_Id));
319
      Set_Corresponding_Spec (N, Spec_Id);
320
      Set_Corresponding_Body (Pack_Decl, Body_Id);
321
 
322
      --  The body entity is not used for semantics or code generation, but
323
      --  it is attached to the entity list of the enclosing scope to simplify
324
      --  the listing of back-annotations for the types it main contain.
325
 
326
      if Scope (Spec_Id) /= Standard_Standard then
327
         Append_Entity (Body_Id, Scope (Spec_Id));
328
      end if;
329
 
330
      --  Indicate that we are currently compiling the body of the package
331
 
332
      Set_In_Package_Body (Spec_Id);
333
      Set_Has_Completion (Spec_Id);
334
      Last_Spec_Entity := Last_Entity (Spec_Id);
335
 
336
      Push_Scope (Spec_Id);
337
 
338
      Set_Categorization_From_Pragmas (N);
339
 
340
      Install_Visible_Declarations (Spec_Id);
341
      Install_Private_Declarations (Spec_Id);
342
      Install_Private_With_Clauses (Spec_Id);
343
      Install_Composite_Operations (Spec_Id);
344
 
345
      Check_Anonymous_Access_Types (Spec_Id, N);
346
 
347
      if Ekind (Spec_Id) = E_Generic_Package then
348
         Set_Use (Generic_Formal_Declarations (Pack_Decl));
349
      end if;
350
 
351
      Set_Use (Visible_Declarations (Specification (Pack_Decl)));
352
      Set_Use (Private_Declarations (Specification (Pack_Decl)));
353
 
354
      --  This is a nested package, so it may be necessary to declare certain
355
      --  inherited subprograms that are not yet visible because the parent
356
      --  type's subprograms are now visible.
357
 
358
      if Ekind (Scope (Spec_Id)) = E_Package
359
        and then Scope (Spec_Id) /= Standard_Standard
360
      then
361
         Declare_Inherited_Private_Subprograms (Spec_Id);
362
      end if;
363
 
364
      if Present (Declarations (N)) then
365
         Analyze_Declarations (Declarations (N));
366
         Inspect_Deferred_Constant_Completion (Declarations (N));
367
      end if;
368
 
369
      --  Analyze_Declarations has caused freezing of all types. Now generate
370
      --  bodies for RACW primitives and stream attributes, if any.
371
 
372
      if Ekind (Spec_Id) = E_Package and then Has_RACW (Spec_Id) then
373
 
374
         --  Attach subprogram bodies to support RACWs declared in spec
375
 
376
         Append_RACW_Bodies (Declarations (N), Spec_Id);
377
         Analyze_List (Declarations (N));
378
      end if;
379
 
380
      HSS := Handled_Statement_Sequence (N);
381
 
382
      if Present (HSS) then
383
         Process_End_Label (HSS, 't', Spec_Id);
384
         Analyze (HSS);
385
 
386
         --  Check that elaboration code in a preelaborable package body is
387
         --  empty other than null statements and labels (RM 10.2.1(6)).
388
 
389
         Validate_Null_Statement_Sequence (N);
390
      end if;
391
 
392
      Validate_Categorization_Dependency (N, Spec_Id);
393
      Check_Completion (Body_Id);
394
 
395
      --  Generate start of body reference. Note that we do this fairly late,
396
      --  because the call will use In_Extended_Main_Source_Unit as a check,
397
      --  and we want to make sure that Corresponding_Stub links are set
398
 
399
      Generate_Reference (Spec_Id, Body_Id, 'b', Set_Ref => False);
400
 
401
      --  For a generic package, collect global references and mark them on
402
      --  the original body so that they are not resolved again at the point
403
      --  of instantiation.
404
 
405
      if Ekind (Spec_Id) /= E_Package then
406
         Save_Global_References (Original_Node (N));
407
         End_Generic;
408
      end if;
409
 
410
      --  The entities of the package body have so far been chained onto the
411
      --  declaration chain for the spec. That's been fine while we were in the
412
      --  body, since we wanted them to be visible, but now that we are leaving
413
      --  the package body, they are no longer visible, so we remove them from
414
      --  the entity chain of the package spec entity, and copy them to the
415
      --  entity chain of the package body entity, where they will never again
416
      --  be visible.
417
 
418
      if Present (Last_Spec_Entity) then
419
         Set_First_Entity (Body_Id, Next_Entity (Last_Spec_Entity));
420
         Set_Next_Entity (Last_Spec_Entity, Empty);
421
         Set_Last_Entity (Body_Id, Last_Entity (Spec_Id));
422
         Set_Last_Entity (Spec_Id, Last_Spec_Entity);
423
 
424
      else
425
         Set_First_Entity (Body_Id, First_Entity (Spec_Id));
426
         Set_Last_Entity  (Body_Id, Last_Entity  (Spec_Id));
427
         Set_First_Entity (Spec_Id, Empty);
428
         Set_Last_Entity  (Spec_Id, Empty);
429
      end if;
430
 
431
      End_Package_Scope (Spec_Id);
432
 
433
      --  All entities declared in body are not visible
434
 
435
      declare
436
         E : Entity_Id;
437
 
438
      begin
439
         E := First_Entity (Body_Id);
440
         while Present (E) loop
441
            Set_Is_Immediately_Visible (E, False);
442
            Set_Is_Potentially_Use_Visible (E, False);
443
            Set_Is_Hidden (E);
444
 
445
            --  Child units may appear on the entity list (e.g. if they appear
446
            --  in the context of a subunit) but they are not body entities.
447
 
448
            if not Is_Child_Unit (E) then
449
               Set_Is_Package_Body_Entity (E);
450
            end if;
451
 
452
            Next_Entity (E);
453
         end loop;
454
      end;
455
 
456
      Check_References (Body_Id);
457
 
458
      --  For a generic unit, check that the formal parameters are referenced,
459
      --  and that local variables are used, as for regular packages.
460
 
461
      if Ekind (Spec_Id) = E_Generic_Package then
462
         Check_References (Spec_Id);
463
      end if;
464
 
465
      --  The processing so far has made all entities of the package body
466
      --  public (i.e. externally visible to the linker). This is in general
467
      --  necessary, since inlined or generic bodies, for which code is
468
      --  generated in other units, may need to see these entities. The
469
      --  following loop runs backwards from the end of the entities of the
470
      --  package body making these entities invisible until we reach a
471
      --  referencer, i.e. a declaration that could reference a previous
472
      --  declaration, a generic body or an inlined body, or a stub (which may
473
      --  contain either of these). This is of course an approximation, but it
474
      --  is conservative and definitely correct.
475
 
476
      --  We only do this at the outer (library) level non-generic packages.
477
      --  The reason is simply to cut down on the number of global symbols
478
      --  generated, which has a double effect: (1) to make the compilation
479
      --  process more efficient and (2) to give the code generator more
480
      --  freedom to optimize within each unit, especially subprograms.
481
 
482
      if (Scope (Spec_Id) = Standard_Standard or else Is_Child_Unit (Spec_Id))
483
        and then not Is_Generic_Unit (Spec_Id)
484
        and then Present (Declarations (N))
485
      then
486
         Make_Non_Public_Where_Possible : declare
487
 
488
            function Has_Referencer
489
              (L     : List_Id;
490
               Outer : Boolean) return  Boolean;
491
            --  Traverse the given list of declarations in reverse order.
492
            --  Return True if a referencer is present. Return False if none is
493
            --  found. The Outer parameter is True for the outer level call and
494
            --  False for inner level calls for nested packages. If Outer is
495
            --  True, then any entities up to the point of hitting a referencer
496
            --  get their Is_Public flag cleared, so that the entities will be
497
            --  treated as static entities in the C sense, and need not have
498
            --  fully qualified names. Furthermore, if the referencer is an
499
            --  inlined subprogram that doesn't reference other subprograms,
500
            --  we keep clearing the Is_Public flag on subprograms. For inner
501
            --  levels, we need all names to be fully qualified to deal with
502
            --  the same name appearing in parallel packages (right now this
503
            --  is tied to their being external).
504
 
505
            --------------------
506
            -- Has_Referencer --
507
            --------------------
508
 
509
            function Has_Referencer
510
              (L     : List_Id;
511
               Outer : Boolean) return  Boolean
512
            is
513
               Has_Referencer_Except_For_Subprograms : Boolean := False;
514
 
515
               D : Node_Id;
516
               E : Entity_Id;
517
               K : Node_Kind;
518
               S : Entity_Id;
519
 
520
               function Check_Subprogram_Ref (N : Node_Id)
521
                 return Traverse_Result;
522
               --  Look for references to subprograms
523
 
524
               --------------------------
525
               -- Check_Subprogram_Ref --
526
               --------------------------
527
 
528
               function Check_Subprogram_Ref (N : Node_Id)
529
                 return Traverse_Result
530
               is
531
                  V : Node_Id;
532
 
533
               begin
534
                  --  Check name of procedure or function calls
535
 
536
                  if Nkind_In (N, N_Procedure_Call_Statement, N_Function_Call)
537
                    and then Is_Entity_Name (Name (N))
538
                  then
539
                     return Abandon;
540
                  end if;
541
 
542
                  --  Check prefix of attribute references
543
 
544
                  if Nkind (N) = N_Attribute_Reference
545
                    and then Is_Entity_Name (Prefix (N))
546
                    and then Present (Entity (Prefix (N)))
547
                    and then Ekind (Entity (Prefix (N))) in Subprogram_Kind
548
                  then
549
                     return Abandon;
550
                  end if;
551
 
552
                  --  Check value of constants
553
 
554
                  if Nkind (N) = N_Identifier
555
                    and then Present (Entity (N))
556
                    and then Ekind (Entity (N)) = E_Constant
557
                  then
558
                     V := Constant_Value (Entity (N));
559
                     if Present (V)
560
                       and then not Compile_Time_Known_Value_Or_Aggr (V)
561
                     then
562
                        return Abandon;
563
                     end if;
564
                  end if;
565
 
566
                  return OK;
567
               end Check_Subprogram_Ref;
568
 
569
               function Check_Subprogram_Refs is
570
                 new Traverse_Func (Check_Subprogram_Ref);
571
 
572
            --  Start of processing for Has_Referencer
573
 
574
            begin
575
               if No (L) then
576
                  return False;
577
               end if;
578
 
579
               D := Last (L);
580
               while Present (D) loop
581
                  K := Nkind (D);
582
 
583
                  if K in N_Body_Stub then
584
                     return True;
585
 
586
                  --  Processing for subprogram bodies
587
 
588
                  elsif K = N_Subprogram_Body then
589
                     if Acts_As_Spec (D) then
590
                        E := Defining_Entity (D);
591
 
592
                        --  An inlined body acts as a referencer. Note also
593
                        --  that we never reset Is_Public for an inlined
594
                        --  subprogram. Gigi requires Is_Public to be set.
595
 
596
                        --  Note that we test Has_Pragma_Inline here rather
597
                        --  than Is_Inlined. We are compiling this for a
598
                        --  client, and it is the client who will decide if
599
                        --  actual inlining should occur, so we need to assume
600
                        --  that the procedure could be inlined for the purpose
601
                        --  of accessing global entities.
602
 
603
                        if Has_Pragma_Inline (E) then
604
                           if Outer
605
                             and then Check_Subprogram_Refs (D) = OK
606
                           then
607
                              Has_Referencer_Except_For_Subprograms := True;
608
                           else
609
                              return True;
610
                           end if;
611
                        else
612
                           Set_Is_Public (E, False);
613
                        end if;
614
 
615
                     else
616
                        E := Corresponding_Spec (D);
617
 
618
                        if Present (E) then
619
 
620
                           --  A generic subprogram body acts as a referencer
621
 
622
                           if Is_Generic_Unit (E) then
623
                              return True;
624
                           end if;
625
 
626
                           if Has_Pragma_Inline (E) or else Is_Inlined (E) then
627
                              if Outer
628
                                and then Check_Subprogram_Refs (D) = OK
629
                              then
630
                                 Has_Referencer_Except_For_Subprograms := True;
631
                              else
632
                                 return True;
633
                              end if;
634
                           end if;
635
                        end if;
636
                     end if;
637
 
638
                  --  Processing for package bodies
639
 
640
                  elsif K = N_Package_Body
641
                    and then Present (Corresponding_Spec (D))
642
                  then
643
                     E := Corresponding_Spec (D);
644
 
645
                     --  Generic package body is a referencer. It would seem
646
                     --  that we only have to consider generics that can be
647
                     --  exported, i.e. where the corresponding spec is the
648
                     --  spec of the current package, but because of nested
649
                     --  instantiations, a fully private generic body may
650
                     --  export other private body entities. Furthermore,
651
                     --  regardless of whether there was a previous inlined
652
                     --  subprogram, (an instantiation of) the generic package
653
                     --  may reference any entity declared before it.
654
 
655
                     if Is_Generic_Unit (E) then
656
                        return True;
657
 
658
                     --  For non-generic package body, recurse into body unless
659
                     --  this is an instance, we ignore instances since they
660
                     --  cannot have references that affect outer entities.
661
 
662
                     elsif not Is_Generic_Instance (E)
663
                       and then not Has_Referencer_Except_For_Subprograms
664
                     then
665
                        if Has_Referencer
666
                             (Declarations (D), Outer => False)
667
                        then
668
                           return True;
669
                        end if;
670
                     end if;
671
 
672
                  --  Processing for package specs, recurse into declarations.
673
                  --  Again we skip this for the case of generic instances.
674
 
675
                  elsif K = N_Package_Declaration
676
                    and then not Has_Referencer_Except_For_Subprograms
677
                  then
678
                     S := Specification (D);
679
 
680
                     if not Is_Generic_Unit (Defining_Entity (S)) then
681
                        if Has_Referencer
682
                             (Private_Declarations (S), Outer => False)
683
                        then
684
                           return True;
685
                        elsif Has_Referencer
686
                               (Visible_Declarations (S), Outer => False)
687
                        then
688
                           return True;
689
                        end if;
690
                     end if;
691
 
692
                  --  Objects and exceptions need not be public if we have not
693
                  --  encountered a referencer so far. We only reset the flag
694
                  --  for outer level entities that are not imported/exported,
695
                  --  and which have no interface name.
696
 
697
                  elsif Nkind_In (K, N_Object_Declaration,
698
                                     N_Exception_Declaration,
699
                                     N_Subprogram_Declaration)
700
                  then
701
                     E := Defining_Entity (D);
702
 
703
                     if Outer
704
                       and then (not Has_Referencer_Except_For_Subprograms
705
                                  or else K = N_Subprogram_Declaration)
706
                       and then not Is_Imported (E)
707
                       and then not Is_Exported (E)
708
                       and then No (Interface_Name (E))
709
                     then
710
                        Set_Is_Public (E, False);
711
                     end if;
712
                  end if;
713
 
714
                  Prev (D);
715
               end loop;
716
 
717
               return Has_Referencer_Except_For_Subprograms;
718
            end Has_Referencer;
719
 
720
         --  Start of processing for Make_Non_Public_Where_Possible
721
 
722
         begin
723
            declare
724
               Discard : Boolean;
725
               pragma Warnings (Off, Discard);
726
 
727
            begin
728
               Discard := Has_Referencer (Declarations (N), Outer => True);
729
            end;
730
         end Make_Non_Public_Where_Possible;
731
      end if;
732
 
733
      --  If expander is not active, then here is where we turn off the
734
      --  In_Package_Body flag, otherwise it is turned off at the end of the
735
      --  corresponding expansion routine. If this is an instance body, we need
736
      --  to qualify names of local entities, because the body may have been
737
      --  compiled as a preliminary to another instantiation.
738
 
739
      if not Expander_Active then
740
         Set_In_Package_Body (Spec_Id, False);
741
 
742
         if Is_Generic_Instance (Spec_Id)
743
           and then Operating_Mode = Generate_Code
744
         then
745
            Qualify_Entity_Names (N);
746
         end if;
747
      end if;
748
   end Analyze_Package_Body_Helper;
749
 
750
   ---------------------------------
751
   -- Analyze_Package_Declaration --
752
   ---------------------------------
753
 
754
   procedure Analyze_Package_Declaration (N : Node_Id) is
755
      Id : constant Node_Id := Defining_Entity (N);
756
 
757
      PF : Boolean;
758
      --  True when in the context of a declared pure library unit
759
 
760
      Body_Required : Boolean;
761
      --  True when this package declaration requires a corresponding body
762
 
763
      Comp_Unit : Boolean;
764
      --  True when this package declaration is not a nested declaration
765
 
766
   begin
767
      --  Analye aspect specifications immediately, since we need to recognize
768
      --  things like Pure early enough to diagnose violations during analysis.
769
 
770
      if Has_Aspects (N) then
771
         Analyze_Aspect_Specifications (N, Id);
772
      end if;
773
 
774
      --  Ada 2005 (AI-217): Check if the package has been erroneously named
775
      --  in a limited-with clause of its own context. In this case the error
776
      --  has been previously notified by Analyze_Context.
777
 
778
      --     limited with Pkg; -- ERROR
779
      --     package Pkg is ...
780
 
781
      if From_With_Type (Id) then
782
         return;
783
      end if;
784
 
785
      if Debug_Flag_C then
786
         Write_Str ("==> package spec ");
787
         Write_Name (Chars (Id));
788
         Write_Str (" from ");
789
         Write_Location (Sloc (N));
790
         Write_Eol;
791
         Indent;
792
      end if;
793
 
794
      Generate_Definition (Id);
795
      Enter_Name (Id);
796
      Set_Ekind (Id, E_Package);
797
      Set_Etype (Id, Standard_Void_Type);
798
 
799
      Push_Scope (Id);
800
 
801
      PF := Is_Pure (Enclosing_Lib_Unit_Entity);
802
      Set_Is_Pure (Id, PF);
803
 
804
      Set_Categorization_From_Pragmas (N);
805
 
806
      Analyze (Specification (N));
807
      Validate_Categorization_Dependency (N, Id);
808
 
809
      Body_Required := Unit_Requires_Body (Id);
810
 
811
      --  When this spec does not require an explicit body, we know that there
812
      --  are no entities requiring completion in the language sense; we call
813
      --  Check_Completion here only to ensure that any nested package
814
      --  declaration that requires an implicit body gets one. (In the case
815
      --  where a body is required, Check_Completion is called at the end of
816
      --  the body's declarative part.)
817
 
818
      if not Body_Required then
819
         Check_Completion;
820
      end if;
821
 
822
      Comp_Unit := Nkind (Parent (N)) = N_Compilation_Unit;
823
      if Comp_Unit then
824
 
825
         --  Set Body_Required indication on the compilation unit node, and
826
         --  determine whether elaboration warnings may be meaningful on it.
827
 
828
         Set_Body_Required (Parent (N), Body_Required);
829
 
830
         if not Body_Required then
831
            Set_Suppress_Elaboration_Warnings (Id);
832
         end if;
833
 
834
      end if;
835
 
836
      End_Package_Scope (Id);
837
 
838
      --  For the declaration of a library unit that is a remote types package,
839
      --  check legality rules regarding availability of stream attributes for
840
      --  types that contain non-remote access values. This subprogram performs
841
      --  visibility tests that rely on the fact that we have exited the scope
842
      --  of Id.
843
 
844
      if Comp_Unit then
845
         Validate_RT_RAT_Component (N);
846
      end if;
847
 
848
      if Debug_Flag_C then
849
         Outdent;
850
         Write_Str ("<== package spec ");
851
         Write_Name (Chars (Id));
852
         Write_Str (" from ");
853
         Write_Location (Sloc (N));
854
         Write_Eol;
855
      end if;
856
   end Analyze_Package_Declaration;
857
 
858
   -----------------------------------
859
   -- Analyze_Package_Specification --
860
   -----------------------------------
861
 
862
   --  Note that this code is shared for the analysis of generic package specs
863
   --  (see Sem_Ch12.Analyze_Generic_Package_Declaration for details).
864
 
865
   procedure Analyze_Package_Specification (N : Node_Id) is
866
      Id           : constant Entity_Id  := Defining_Entity (N);
867
      Orig_Decl    : constant Node_Id    := Original_Node (Parent (N));
868
      Vis_Decls    : constant List_Id    := Visible_Declarations (N);
869
      Priv_Decls   : constant List_Id    := Private_Declarations (N);
870
      E            : Entity_Id;
871
      L            : Entity_Id;
872
      Public_Child : Boolean;
873
 
874
      Private_With_Clauses_Installed : Boolean := False;
875
      --  In Ada 2005, private with_clauses are visible in the private part
876
      --  of a nested package, even if it appears in the public part of the
877
      --  enclosing package. This requires a separate step to install these
878
      --  private_with_clauses, and remove them at the end of the nested
879
      --  package.
880
 
881
      procedure Check_One_Tagged_Type_Or_Extension_At_Most;
882
      --  Issue an error in SPARK mode if a package specification contains
883
      --  more than one tagged type or type extension.
884
 
885
      procedure Clear_Constants (Id : Entity_Id; FE : Entity_Id);
886
      --  Clears constant indications (Never_Set_In_Source, Constant_Value, and
887
      --  Is_True_Constant) on all variables that are entities of Id, and on
888
      --  the chain whose first element is FE. A recursive call is made for all
889
      --  packages and generic packages.
890
 
891
      procedure Generate_Parent_References;
892
      --  For a child unit, generate references to parent units, for
893
      --  GPS navigation purposes.
894
 
895
      function Is_Public_Child (Child, Unit : Entity_Id) return Boolean;
896
      --  Child and Unit are entities of compilation units. True if Child
897
      --  is a public child of Parent as defined in 10.1.1
898
 
899
      procedure Inspect_Unchecked_Union_Completion (Decls : List_Id);
900
      --  Detects all incomplete or private type declarations having a known
901
      --  discriminant part that are completed by an Unchecked_Union. Emits
902
      --  the error message "Unchecked_Union may not complete discriminated
903
      --  partial view".
904
 
905
      procedure Install_Parent_Private_Declarations (Inst_Id : Entity_Id);
906
      --  Given the package entity of a generic package instantiation or
907
      --  formal package whose corresponding generic is a child unit, installs
908
      --  the private declarations of each of the child unit's parents.
909
      --  This has to be done at the point of entering the instance package's
910
      --  private part rather than being done in Sem_Ch12.Install_Parent
911
      --  (which is where the parents' visible declarations are installed).
912
 
913
      ------------------------------------------------
914
      -- Check_One_Tagged_Type_Or_Extension_At_Most --
915
      ------------------------------------------------
916
 
917
      procedure Check_One_Tagged_Type_Or_Extension_At_Most is
918
         Previous : Node_Id;
919
 
920
         procedure Check_Decls (Decls : List_Id);
921
         --  Check that either Previous is Empty and Decls does not contain
922
         --  more than one tagged type or type extension, or Previous is
923
         --  already set and Decls contains no tagged type or type extension.
924
 
925
         -----------------
926
         -- Check_Decls --
927
         -----------------
928
 
929
         procedure Check_Decls (Decls : List_Id) is
930
            Decl : Node_Id;
931
 
932
         begin
933
            Decl := First (Decls);
934
            while Present (Decl) loop
935
               if Nkind (Decl) = N_Full_Type_Declaration
936
                 and then Is_Tagged_Type (Defining_Identifier (Decl))
937
               then
938
                  if No (Previous) then
939
                     Previous := Decl;
940
 
941
                  else
942
                     Error_Msg_Sloc := Sloc (Previous);
943
                     Check_SPARK_Restriction
944
                       ("at most one tagged type or type extension allowed",
945
                        "\\ previous declaration#",
946
                        Decl);
947
                  end if;
948
               end if;
949
 
950
               Next (Decl);
951
            end loop;
952
         end Check_Decls;
953
 
954
      --  Start of processing for Check_One_Tagged_Type_Or_Extension_At_Most
955
 
956
      begin
957
         Previous := Empty;
958
         Check_Decls (Vis_Decls);
959
 
960
         if Present (Priv_Decls) then
961
            Check_Decls (Priv_Decls);
962
         end if;
963
      end Check_One_Tagged_Type_Or_Extension_At_Most;
964
 
965
      ---------------------
966
      -- Clear_Constants --
967
      ---------------------
968
 
969
      procedure Clear_Constants (Id : Entity_Id; FE : Entity_Id) is
970
         E : Entity_Id;
971
 
972
      begin
973
         --  Ignore package renamings, not interesting and they can cause self
974
         --  referential loops in the code below.
975
 
976
         if Nkind (Parent (Id)) = N_Package_Renaming_Declaration then
977
            return;
978
         end if;
979
 
980
         --  Note: in the loop below, the check for Next_Entity pointing back
981
         --  to the package entity may seem odd, but it is needed, because a
982
         --  package can contain a renaming declaration to itself, and such
983
         --  renamings are generated automatically within package instances.
984
 
985
         E := FE;
986
         while Present (E) and then E /= Id loop
987
            if Is_Assignable (E) then
988
               Set_Never_Set_In_Source (E, False);
989
               Set_Is_True_Constant    (E, False);
990
               Set_Current_Value       (E, Empty);
991
               Set_Is_Known_Null       (E, False);
992
               Set_Last_Assignment     (E, Empty);
993
 
994
               if not Can_Never_Be_Null (E) then
995
                  Set_Is_Known_Non_Null (E, False);
996
               end if;
997
 
998
            elsif Is_Package_Or_Generic_Package (E) then
999
               Clear_Constants (E, First_Entity (E));
1000
               Clear_Constants (E, First_Private_Entity (E));
1001
            end if;
1002
 
1003
            Next_Entity (E);
1004
         end loop;
1005
      end Clear_Constants;
1006
 
1007
      --------------------------------
1008
      -- Generate_Parent_References --
1009
      --------------------------------
1010
 
1011
      procedure Generate_Parent_References is
1012
         Decl : constant Node_Id := Parent (N);
1013
 
1014
      begin
1015
         if Id = Cunit_Entity (Main_Unit)
1016
           or else Parent (Decl) = Library_Unit (Cunit (Main_Unit))
1017
         then
1018
            Generate_Reference (Id, Scope (Id), 'k', False);
1019
 
1020
         elsif not Nkind_In (Unit (Cunit (Main_Unit)), N_Subprogram_Body,
1021
                                                       N_Subunit)
1022
         then
1023
            --  If current unit is an ancestor of main unit, generate a
1024
            --  reference to its own parent.
1025
 
1026
            declare
1027
               U         : Node_Id;
1028
               Main_Spec : Node_Id := Unit (Cunit (Main_Unit));
1029
 
1030
            begin
1031
               if Nkind (Main_Spec) = N_Package_Body then
1032
                  Main_Spec := Unit (Library_Unit (Cunit (Main_Unit)));
1033
               end if;
1034
 
1035
               U := Parent_Spec (Main_Spec);
1036
               while Present (U) loop
1037
                  if U = Parent (Decl) then
1038
                     Generate_Reference (Id, Scope (Id), 'k',  False);
1039
                     exit;
1040
 
1041
                  elsif Nkind (Unit (U)) = N_Package_Body then
1042
                     exit;
1043
 
1044
                  else
1045
                     U := Parent_Spec (Unit (U));
1046
                  end if;
1047
               end loop;
1048
            end;
1049
         end if;
1050
      end Generate_Parent_References;
1051
 
1052
      ---------------------
1053
      -- Is_Public_Child --
1054
      ---------------------
1055
 
1056
      function Is_Public_Child (Child, Unit : Entity_Id) return Boolean is
1057
      begin
1058
         if not Is_Private_Descendant (Child) then
1059
            return True;
1060
         else
1061
            if Child = Unit then
1062
               return not Private_Present (
1063
                 Parent (Unit_Declaration_Node (Child)));
1064
            else
1065
               return Is_Public_Child (Scope (Child), Unit);
1066
            end if;
1067
         end if;
1068
      end Is_Public_Child;
1069
 
1070
      ----------------------------------------
1071
      -- Inspect_Unchecked_Union_Completion --
1072
      ----------------------------------------
1073
 
1074
      procedure Inspect_Unchecked_Union_Completion (Decls : List_Id) is
1075
         Decl : Node_Id;
1076
 
1077
      begin
1078
         Decl := First (Decls);
1079
         while Present (Decl) loop
1080
 
1081
            --  We are looking at an incomplete or private type declaration
1082
            --  with a known_discriminant_part whose full view is an
1083
            --  Unchecked_Union.
1084
 
1085
            if Nkind_In (Decl, N_Incomplete_Type_Declaration,
1086
                               N_Private_Type_Declaration)
1087
              and then Has_Discriminants (Defining_Identifier (Decl))
1088
              and then Present (Full_View (Defining_Identifier (Decl)))
1089
              and then
1090
                Is_Unchecked_Union (Full_View (Defining_Identifier (Decl)))
1091
            then
1092
               Error_Msg_N
1093
                 ("completion of discriminated partial view "
1094
                  & "cannot be an Unchecked_Union",
1095
                 Full_View (Defining_Identifier (Decl)));
1096
            end if;
1097
 
1098
            Next (Decl);
1099
         end loop;
1100
      end Inspect_Unchecked_Union_Completion;
1101
 
1102
      -----------------------------------------
1103
      -- Install_Parent_Private_Declarations --
1104
      -----------------------------------------
1105
 
1106
      procedure Install_Parent_Private_Declarations (Inst_Id : Entity_Id) is
1107
         Inst_Par  : Entity_Id;
1108
         Gen_Par   : Entity_Id;
1109
         Inst_Node : Node_Id;
1110
 
1111
      begin
1112
         Inst_Par := Inst_Id;
1113
 
1114
         Gen_Par :=
1115
           Generic_Parent (Specification (Unit_Declaration_Node (Inst_Par)));
1116
         while Present (Gen_Par) and then Is_Child_Unit (Gen_Par) loop
1117
            Inst_Node := Get_Package_Instantiation_Node (Inst_Par);
1118
 
1119
            if Nkind_In (Inst_Node, N_Package_Instantiation,
1120
                                    N_Formal_Package_Declaration)
1121
              and then Nkind (Name (Inst_Node)) = N_Expanded_Name
1122
            then
1123
               Inst_Par := Entity (Prefix (Name (Inst_Node)));
1124
 
1125
               if Present (Renamed_Entity (Inst_Par)) then
1126
                  Inst_Par := Renamed_Entity (Inst_Par);
1127
               end if;
1128
 
1129
               Gen_Par :=
1130
                 Generic_Parent
1131
                   (Specification (Unit_Declaration_Node (Inst_Par)));
1132
 
1133
               --  Install the private declarations and private use clauses
1134
               --  of a parent instance of the child instance, unless the
1135
               --  parent instance private declarations have already been
1136
               --  installed earlier in Analyze_Package_Specification, which
1137
               --  happens when a generic child is instantiated, and the
1138
               --  instance is a child of the parent instance.
1139
 
1140
               --  Installing the use clauses of the parent instance twice
1141
               --  is both unnecessary and wrong, because it would cause the
1142
               --  clauses to be chained to themselves in the use clauses
1143
               --  list of the scope stack entry. That in turn would cause
1144
               --  an endless loop from End_Use_Clauses upon scope exit.
1145
 
1146
               --  The parent is now fully visible. It may be a hidden open
1147
               --  scope if we are currently compiling some child instance
1148
               --  declared within it, but while the current instance is being
1149
               --  compiled the parent is immediately visible. In particular
1150
               --  its entities must remain visible if a stack save/restore
1151
               --  takes place through a call to Rtsfind.
1152
 
1153
               if Present (Gen_Par) then
1154
                  if not In_Private_Part (Inst_Par) then
1155
                     Install_Private_Declarations (Inst_Par);
1156
                     Set_Use (Private_Declarations
1157
                                (Specification
1158
                                   (Unit_Declaration_Node (Inst_Par))));
1159
                     Set_Is_Hidden_Open_Scope (Inst_Par, False);
1160
                  end if;
1161
 
1162
               --  If we've reached the end of the generic instance parents,
1163
               --  then finish off by looping through the nongeneric parents
1164
               --  and installing their private declarations.
1165
 
1166
               else
1167
                  while Present (Inst_Par)
1168
                    and then Inst_Par /= Standard_Standard
1169
                    and then (not In_Open_Scopes (Inst_Par)
1170
                                or else not In_Private_Part (Inst_Par))
1171
                  loop
1172
                     Install_Private_Declarations (Inst_Par);
1173
                     Set_Use (Private_Declarations
1174
                                (Specification
1175
                                   (Unit_Declaration_Node (Inst_Par))));
1176
                     Inst_Par := Scope (Inst_Par);
1177
                  end loop;
1178
 
1179
                  exit;
1180
               end if;
1181
 
1182
            else
1183
               exit;
1184
            end if;
1185
         end loop;
1186
      end Install_Parent_Private_Declarations;
1187
 
1188
   --  Start of processing for Analyze_Package_Specification
1189
 
1190
   begin
1191
      if Present (Vis_Decls) then
1192
         Analyze_Declarations (Vis_Decls);
1193
      end if;
1194
 
1195
      --  Verify that incomplete types have received full declarations and
1196
      --  also build invariant procedures for any types with invariants.
1197
 
1198
      E := First_Entity (Id);
1199
      while Present (E) loop
1200
 
1201
         --  Check on incomplete types
1202
 
1203
         --  AI05-0213: A formal incomplete type has no completion
1204
 
1205
         if Ekind (E) = E_Incomplete_Type
1206
           and then No (Full_View (E))
1207
           and then not Is_Generic_Type (E)
1208
         then
1209
            Error_Msg_N ("no declaration in visible part for incomplete}", E);
1210
         end if;
1211
 
1212
         --  Build invariant procedures
1213
 
1214
         if Is_Type (E) and then Has_Invariants (E) then
1215
            Build_Invariant_Procedure (E, N);
1216
         end if;
1217
 
1218
         Next_Entity (E);
1219
      end loop;
1220
 
1221
      if Is_Remote_Call_Interface (Id)
1222
         and then Nkind (Parent (Parent (N))) = N_Compilation_Unit
1223
      then
1224
         Validate_RCI_Declarations (Id);
1225
      end if;
1226
 
1227
      --  Save global references in the visible declarations, before installing
1228
      --  private declarations of parent unit if there is one, because the
1229
      --  privacy status of types defined in the parent will change. This is
1230
      --  only relevant for generic child units, but is done in all cases for
1231
      --  uniformity.
1232
 
1233
      if Ekind (Id) = E_Generic_Package
1234
        and then Nkind (Orig_Decl) = N_Generic_Package_Declaration
1235
      then
1236
         declare
1237
            Orig_Spec : constant Node_Id := Specification (Orig_Decl);
1238
            Save_Priv : constant List_Id := Private_Declarations (Orig_Spec);
1239
         begin
1240
            Set_Private_Declarations (Orig_Spec, Empty_List);
1241
            Save_Global_References   (Orig_Decl);
1242
            Set_Private_Declarations (Orig_Spec, Save_Priv);
1243
         end;
1244
      end if;
1245
 
1246
      --  If package is a public child unit, then make the private declarations
1247
      --  of the parent visible.
1248
 
1249
      Public_Child := False;
1250
 
1251
      declare
1252
         Par       : Entity_Id;
1253
         Pack_Decl : Node_Id;
1254
         Par_Spec  : Node_Id;
1255
 
1256
      begin
1257
         Par := Id;
1258
         Par_Spec := Parent_Spec (Parent (N));
1259
 
1260
         --  If the package is formal package of an enclosing generic, it is
1261
         --  transformed into a local generic declaration, and compiled to make
1262
         --  its spec available. We need to retrieve the original generic to
1263
         --  determine whether it is a child unit, and install its parents.
1264
 
1265
         if No (Par_Spec)
1266
           and then
1267
             Nkind (Original_Node (Parent (N))) = N_Formal_Package_Declaration
1268
         then
1269
            Par := Entity (Name (Original_Node (Parent (N))));
1270
            Par_Spec := Parent_Spec (Unit_Declaration_Node (Par));
1271
         end if;
1272
 
1273
         if Present (Par_Spec) then
1274
            Generate_Parent_References;
1275
 
1276
            while Scope (Par) /= Standard_Standard
1277
              and then Is_Public_Child (Id, Par)
1278
              and then In_Open_Scopes (Par)
1279
            loop
1280
               Public_Child := True;
1281
               Par := Scope (Par);
1282
               Install_Private_Declarations (Par);
1283
               Install_Private_With_Clauses (Par);
1284
               Pack_Decl := Unit_Declaration_Node (Par);
1285
               Set_Use (Private_Declarations (Specification (Pack_Decl)));
1286
            end loop;
1287
         end if;
1288
      end;
1289
 
1290
      if Is_Compilation_Unit (Id) then
1291
         Install_Private_With_Clauses (Id);
1292
      else
1293
 
1294
         --  The current compilation unit may include private with_clauses,
1295
         --  which are visible in the private part of the current nested
1296
         --  package, and have to be installed now. This is not done for
1297
         --  nested instantiations, where the private with_clauses of the
1298
         --  enclosing unit have no effect once the instantiation info is
1299
         --  established and we start analyzing the package declaration.
1300
 
1301
         declare
1302
            Comp_Unit : constant Entity_Id := Cunit_Entity (Current_Sem_Unit);
1303
         begin
1304
            if Is_Package_Or_Generic_Package (Comp_Unit)
1305
              and then not In_Private_Part (Comp_Unit)
1306
              and then not In_Instance
1307
            then
1308
               Install_Private_With_Clauses (Comp_Unit);
1309
               Private_With_Clauses_Installed := True;
1310
            end if;
1311
         end;
1312
      end if;
1313
 
1314
      --  If this is a package associated with a generic instance or formal
1315
      --  package, then the private declarations of each of the generic's
1316
      --  parents must be installed at this point.
1317
 
1318
      if Is_Generic_Instance (Id) then
1319
         Install_Parent_Private_Declarations (Id);
1320
      end if;
1321
 
1322
      --  Analyze private part if present. The flag In_Private_Part is reset
1323
      --  in End_Package_Scope.
1324
 
1325
      L := Last_Entity (Id);
1326
 
1327
      if Present (Priv_Decls) then
1328
         Set_In_Private_Part (Id);
1329
 
1330
         --  Upon entering a public child's private part, it may be necessary
1331
         --  to declare subprograms that were derived in the package's visible
1332
         --  part but not yet made visible.
1333
 
1334
         if Public_Child then
1335
            Declare_Inherited_Private_Subprograms (Id);
1336
         end if;
1337
 
1338
         Analyze_Declarations (Priv_Decls);
1339
 
1340
         --  Check the private declarations for incomplete deferred constants
1341
 
1342
         Inspect_Deferred_Constant_Completion (Priv_Decls);
1343
 
1344
         --  The first private entity is the immediate follower of the last
1345
         --  visible entity, if there was one.
1346
 
1347
         if Present (L) then
1348
            Set_First_Private_Entity (Id, Next_Entity (L));
1349
         else
1350
            Set_First_Private_Entity (Id, First_Entity (Id));
1351
         end if;
1352
 
1353
      --  There may be inherited private subprograms that need to be declared,
1354
      --  even in the absence of an explicit private part.  If there are any
1355
      --  public declarations in the package and the package is a public child
1356
      --  unit, then an implicit private part is assumed.
1357
 
1358
      elsif Present (L) and then Public_Child then
1359
         Set_In_Private_Part (Id);
1360
         Declare_Inherited_Private_Subprograms (Id);
1361
         Set_First_Private_Entity (Id, Next_Entity (L));
1362
      end if;
1363
 
1364
      E := First_Entity (Id);
1365
      while Present (E) loop
1366
 
1367
         --  Check rule of 3.6(11), which in general requires waiting till all
1368
         --  full types have been seen.
1369
 
1370
         if Ekind (E) = E_Record_Type or else Ekind (E) = E_Array_Type then
1371
            Check_Aliased_Component_Types (E);
1372
         end if;
1373
 
1374
         --  Check preelaborable initialization for full type completing a
1375
         --  private type for which pragma Preelaborable_Initialization given.
1376
 
1377
         if Is_Type (E)
1378
           and then Must_Have_Preelab_Init (E)
1379
           and then not Has_Preelaborable_Initialization (E)
1380
         then
1381
            Error_Msg_N
1382
              ("full view of & does not have preelaborable initialization", E);
1383
         end if;
1384
 
1385
         --  An invariant may appear on a full view of a type
1386
 
1387
         if Is_Type (E)
1388
           and then Has_Private_Declaration (E)
1389
           and then Nkind (Parent (E)) = N_Full_Type_Declaration
1390
           and then Has_Aspects (Parent (E))
1391
         then
1392
            Build_Invariant_Procedure (E, N);
1393
         end if;
1394
 
1395
         Next_Entity (E);
1396
      end loop;
1397
 
1398
      --  Ada 2005 (AI-216): The completion of an incomplete or private type
1399
      --  declaration having a known_discriminant_part shall not be an
1400
      --  Unchecked_Union type.
1401
 
1402
      if Present (Vis_Decls) then
1403
         Inspect_Unchecked_Union_Completion (Vis_Decls);
1404
      end if;
1405
 
1406
      if Present (Priv_Decls) then
1407
         Inspect_Unchecked_Union_Completion (Priv_Decls);
1408
      end if;
1409
 
1410
      if Ekind (Id) = E_Generic_Package
1411
        and then Nkind (Orig_Decl) = N_Generic_Package_Declaration
1412
        and then Present (Priv_Decls)
1413
      then
1414
         --  Save global references in private declarations, ignoring the
1415
         --  visible declarations that were processed earlier.
1416
 
1417
         declare
1418
            Orig_Spec : constant Node_Id := Specification (Orig_Decl);
1419
            Save_Vis  : constant List_Id := Visible_Declarations (Orig_Spec);
1420
            Save_Form : constant List_Id :=
1421
                          Generic_Formal_Declarations (Orig_Decl);
1422
 
1423
         begin
1424
            Set_Visible_Declarations        (Orig_Spec, Empty_List);
1425
            Set_Generic_Formal_Declarations (Orig_Decl, Empty_List);
1426
            Save_Global_References          (Orig_Decl);
1427
            Set_Generic_Formal_Declarations (Orig_Decl, Save_Form);
1428
            Set_Visible_Declarations        (Orig_Spec, Save_Vis);
1429
         end;
1430
      end if;
1431
 
1432
      Process_End_Label (N, 'e', Id);
1433
 
1434
      --  Remove private_with_clauses of enclosing compilation unit, if they
1435
      --  were installed.
1436
 
1437
      if Private_With_Clauses_Installed then
1438
         Remove_Private_With_Clauses (Cunit (Current_Sem_Unit));
1439
      end if;
1440
 
1441
      --  For the case of a library level package, we must go through all the
1442
      --  entities clearing the indications that the value may be constant and
1443
      --  not modified. Why? Because any client of this package may modify
1444
      --  these values freely from anywhere. This also applies to any nested
1445
      --  packages or generic packages.
1446
 
1447
      --  For now we unconditionally clear constants for packages that are
1448
      --  instances of generic packages. The reason is that we do not have the
1449
      --  body yet, and we otherwise think things are unreferenced when they
1450
      --  are not. This should be fixed sometime (the effect is not terrible,
1451
      --  we just lose some warnings, and also some cases of value propagation)
1452
      --  ???
1453
 
1454
      if Is_Library_Level_Entity (Id)
1455
        or else Is_Generic_Instance (Id)
1456
      then
1457
         Clear_Constants (Id, First_Entity (Id));
1458
         Clear_Constants (Id, First_Private_Entity (Id));
1459
      end if;
1460
 
1461
      Check_One_Tagged_Type_Or_Extension_At_Most;
1462
   end Analyze_Package_Specification;
1463
 
1464
   --------------------------------------
1465
   -- Analyze_Private_Type_Declaration --
1466
   --------------------------------------
1467
 
1468
   procedure Analyze_Private_Type_Declaration (N : Node_Id) is
1469
      PF : constant Boolean   := Is_Pure (Enclosing_Lib_Unit_Entity);
1470
      Id : constant Entity_Id := Defining_Identifier (N);
1471
 
1472
   begin
1473
      Generate_Definition (Id);
1474
      Set_Is_Pure         (Id, PF);
1475
      Init_Size_Align     (Id);
1476
 
1477
      if not Is_Package_Or_Generic_Package (Current_Scope)
1478
        or else In_Private_Part (Current_Scope)
1479
      then
1480
         Error_Msg_N ("invalid context for private declaration", N);
1481
      end if;
1482
 
1483
      New_Private_Type (N, Id, N);
1484
      Set_Depends_On_Private (Id);
1485
 
1486
      if Has_Aspects (N) then
1487
         Analyze_Aspect_Specifications (N, Id);
1488
      end if;
1489
   end Analyze_Private_Type_Declaration;
1490
 
1491
   ----------------------------------
1492
   -- Check_Anonymous_Access_Types --
1493
   ----------------------------------
1494
 
1495
   procedure Check_Anonymous_Access_Types
1496
     (Spec_Id : Entity_Id;
1497
      P_Body  : Node_Id)
1498
   is
1499
      E  : Entity_Id;
1500
      IR : Node_Id;
1501
 
1502
   begin
1503
      --  Itype references are only needed by gigi, to force elaboration of
1504
      --  itypes. In the absence of code generation, they are not needed.
1505
 
1506
      if not Expander_Active then
1507
         return;
1508
      end if;
1509
 
1510
      E := First_Entity (Spec_Id);
1511
      while Present (E) loop
1512
         if Ekind (E) = E_Anonymous_Access_Type
1513
           and then From_With_Type (E)
1514
         then
1515
            IR := Make_Itype_Reference (Sloc (P_Body));
1516
            Set_Itype (IR, E);
1517
 
1518
            if No (Declarations (P_Body)) then
1519
               Set_Declarations (P_Body, New_List (IR));
1520
            else
1521
               Prepend (IR, Declarations (P_Body));
1522
            end if;
1523
         end if;
1524
 
1525
         Next_Entity (E);
1526
      end loop;
1527
   end Check_Anonymous_Access_Types;
1528
 
1529
   -------------------------------------------
1530
   -- Declare_Inherited_Private_Subprograms --
1531
   -------------------------------------------
1532
 
1533
   procedure Declare_Inherited_Private_Subprograms (Id : Entity_Id) is
1534
 
1535
      function Is_Primitive_Of (T : Entity_Id; S : Entity_Id) return Boolean;
1536
      --  Check whether an inherited subprogram S is an operation of an
1537
      --  untagged derived type T.
1538
 
1539
      ---------------------
1540
      -- Is_Primitive_Of --
1541
      ---------------------
1542
 
1543
      function Is_Primitive_Of (T : Entity_Id; S : Entity_Id) return Boolean is
1544
         Formal : Entity_Id;
1545
 
1546
      begin
1547
         --  If the full view is a scalar type, the type is the anonymous base
1548
         --  type, but the operation mentions the first subtype, so check the
1549
         --  signature against the base type.
1550
 
1551
         if Base_Type (Etype (S)) = Base_Type (T) then
1552
            return True;
1553
 
1554
         else
1555
            Formal := First_Formal (S);
1556
            while Present (Formal) loop
1557
               if Base_Type (Etype (Formal)) = Base_Type (T) then
1558
                  return True;
1559
               end if;
1560
 
1561
               Next_Formal (Formal);
1562
            end loop;
1563
 
1564
            return False;
1565
         end if;
1566
      end Is_Primitive_Of;
1567
 
1568
      --  Local variables
1569
 
1570
      E           : Entity_Id;
1571
      Op_List     : Elist_Id;
1572
      Op_Elmt     : Elmt_Id;
1573
      Op_Elmt_2   : Elmt_Id;
1574
      Prim_Op     : Entity_Id;
1575
      New_Op      : Entity_Id := Empty;
1576
      Parent_Subp : Entity_Id;
1577
      Tag         : Entity_Id;
1578
 
1579
   --  Start of processing for Declare_Inherited_Private_Subprograms
1580
 
1581
   begin
1582
      E := First_Entity (Id);
1583
      while Present (E) loop
1584
 
1585
         --  If the entity is a nonprivate type extension whose parent type
1586
         --  is declared in an open scope, then the type may have inherited
1587
         --  operations that now need to be made visible. Ditto if the entity
1588
         --  is a formal derived type in a child unit.
1589
 
1590
         if ((Is_Derived_Type (E) and then not Is_Private_Type (E))
1591
               or else
1592
                 (Nkind (Parent (E)) = N_Private_Extension_Declaration
1593
                   and then Is_Generic_Type (E)))
1594
           and then In_Open_Scopes (Scope (Etype (E)))
1595
           and then Is_Base_Type (E)
1596
         then
1597
            if Is_Tagged_Type (E) then
1598
               Op_List := Primitive_Operations (E);
1599
               New_Op  := Empty;
1600
               Tag     := First_Tag_Component (E);
1601
 
1602
               Op_Elmt := First_Elmt (Op_List);
1603
               while Present (Op_Elmt) loop
1604
                  Prim_Op := Node (Op_Elmt);
1605
 
1606
                  --  Search primitives that are implicit operations with an
1607
                  --  internal name whose parent operation has a normal name.
1608
 
1609
                  if Present (Alias (Prim_Op))
1610
                    and then Find_Dispatching_Type (Alias (Prim_Op)) /= E
1611
                    and then not Comes_From_Source (Prim_Op)
1612
                    and then Is_Internal_Name (Chars (Prim_Op))
1613
                    and then not Is_Internal_Name (Chars (Alias (Prim_Op)))
1614
                  then
1615
                     Parent_Subp := Alias (Prim_Op);
1616
 
1617
                     --  Case 1: Check if the type has also an explicit
1618
                     --  overriding for this primitive.
1619
 
1620
                     Op_Elmt_2 := Next_Elmt (Op_Elmt);
1621
                     while Present (Op_Elmt_2) loop
1622
 
1623
                        --  Skip entities with attribute Interface_Alias since
1624
                        --  they are not overriding primitives (these entities
1625
                        --  link an interface primitive with their covering
1626
                        --  primitive)
1627
 
1628
                        if Chars (Node (Op_Elmt_2)) = Chars (Parent_Subp)
1629
                          and then Type_Conformant (Prim_Op, Node (Op_Elmt_2))
1630
                          and then No (Interface_Alias (Node (Op_Elmt_2)))
1631
                        then
1632
                           --  The private inherited operation has been
1633
                           --  overridden by an explicit subprogram: replace
1634
                           --  the former by the latter.
1635
 
1636
                           New_Op := Node (Op_Elmt_2);
1637
                           Replace_Elmt (Op_Elmt, New_Op);
1638
                           Remove_Elmt  (Op_List, Op_Elmt_2);
1639
                           Set_Overridden_Operation (New_Op, Parent_Subp);
1640
 
1641
                           --  We don't need to inherit its dispatching slot.
1642
                           --  Set_All_DT_Position has previously ensured that
1643
                           --  the same slot was assigned to the two primitives
1644
 
1645
                           if Present (Tag)
1646
                             and then Present (DTC_Entity (New_Op))
1647
                             and then Present (DTC_Entity (Prim_Op))
1648
                           then
1649
                              pragma Assert (DT_Position (New_Op)
1650
                                              = DT_Position (Prim_Op));
1651
                              null;
1652
                           end if;
1653
 
1654
                           goto Next_Primitive;
1655
                        end if;
1656
 
1657
                        Next_Elmt (Op_Elmt_2);
1658
                     end loop;
1659
 
1660
                     --  Case 2: We have not found any explicit overriding and
1661
                     --  hence we need to declare the operation (i.e., make it
1662
                     --  visible).
1663
 
1664
                     Derive_Subprogram (New_Op, Alias (Prim_Op), E, Etype (E));
1665
 
1666
                     --  Inherit the dispatching slot if E is already frozen
1667
 
1668
                     if Is_Frozen (E)
1669
                       and then Present (DTC_Entity (Alias (Prim_Op)))
1670
                     then
1671
                        Set_DTC_Entity_Value (E, New_Op);
1672
                        Set_DT_Position (New_Op,
1673
                          DT_Position (Alias (Prim_Op)));
1674
                     end if;
1675
 
1676
                     pragma Assert
1677
                       (Is_Dispatching_Operation (New_Op)
1678
                         and then Node (Last_Elmt (Op_List)) = New_Op);
1679
 
1680
                     --  Substitute the new operation for the old one in the
1681
                     --  type's primitive operations list. Since the new
1682
                     --  operation was also just added to the end of list,
1683
                     --  the last element must be removed.
1684
 
1685
                     --  (Question: is there a simpler way of declaring the
1686
                     --  operation, say by just replacing the name of the
1687
                     --  earlier operation, reentering it in the in the symbol
1688
                     --  table (how?), and marking it as private???)
1689
 
1690
                     Replace_Elmt (Op_Elmt, New_Op);
1691
                     Remove_Last_Elmt (Op_List);
1692
                  end if;
1693
 
1694
                  <<Next_Primitive>>
1695
                  Next_Elmt (Op_Elmt);
1696
               end loop;
1697
 
1698
               --  Generate listing showing the contents of the dispatch table
1699
 
1700
               if Debug_Flag_ZZ then
1701
                  Write_DT (E);
1702
               end if;
1703
 
1704
            else
1705
               --  Non-tagged type, scan forward to locate inherited hidden
1706
               --  operations.
1707
 
1708
               Prim_Op := Next_Entity (E);
1709
               while Present (Prim_Op) loop
1710
                  if Is_Subprogram (Prim_Op)
1711
                    and then Present (Alias (Prim_Op))
1712
                    and then not Comes_From_Source (Prim_Op)
1713
                    and then Is_Internal_Name (Chars (Prim_Op))
1714
                    and then not Is_Internal_Name (Chars (Alias (Prim_Op)))
1715
                    and then Is_Primitive_Of (E, Prim_Op)
1716
                  then
1717
                     Derive_Subprogram (New_Op, Alias (Prim_Op), E, Etype (E));
1718
                  end if;
1719
 
1720
                  Next_Entity (Prim_Op);
1721
               end loop;
1722
            end if;
1723
         end if;
1724
 
1725
         Next_Entity (E);
1726
      end loop;
1727
   end Declare_Inherited_Private_Subprograms;
1728
 
1729
   -----------------------
1730
   -- End_Package_Scope --
1731
   -----------------------
1732
 
1733
   procedure End_Package_Scope (P : Entity_Id) is
1734
   begin
1735
      Uninstall_Declarations (P);
1736
      Pop_Scope;
1737
   end End_Package_Scope;
1738
 
1739
   ---------------------------
1740
   -- Exchange_Declarations --
1741
   ---------------------------
1742
 
1743
   procedure Exchange_Declarations (Id : Entity_Id) is
1744
      Full_Id : constant Entity_Id := Full_View (Id);
1745
      H1      : constant Entity_Id := Homonym (Id);
1746
      Next1   : constant Entity_Id := Next_Entity (Id);
1747
      H2      : Entity_Id;
1748
      Next2   : Entity_Id;
1749
 
1750
   begin
1751
      --  If missing full declaration for type, nothing to exchange
1752
 
1753
      if No (Full_Id) then
1754
         return;
1755
      end if;
1756
 
1757
      --  Otherwise complete the exchange, and preserve semantic links
1758
 
1759
      Next2 := Next_Entity (Full_Id);
1760
      H2    := Homonym (Full_Id);
1761
 
1762
      --  Reset full declaration pointer to reflect the switched entities and
1763
      --  readjust the next entity chains.
1764
 
1765
      Exchange_Entities (Id, Full_Id);
1766
 
1767
      Set_Next_Entity (Id, Next1);
1768
      Set_Homonym     (Id, H1);
1769
 
1770
      Set_Full_View   (Full_Id, Id);
1771
      Set_Next_Entity (Full_Id, Next2);
1772
      Set_Homonym     (Full_Id, H2);
1773
   end Exchange_Declarations;
1774
 
1775
   ----------------------------
1776
   -- Install_Package_Entity --
1777
   ----------------------------
1778
 
1779
   procedure Install_Package_Entity (Id : Entity_Id) is
1780
   begin
1781
      if not Is_Internal (Id) then
1782
         if Debug_Flag_E then
1783
            Write_Str ("Install: ");
1784
            Write_Name (Chars (Id));
1785
            Write_Eol;
1786
         end if;
1787
 
1788
         if not Is_Child_Unit (Id) then
1789
            Set_Is_Immediately_Visible (Id);
1790
         end if;
1791
 
1792
      end if;
1793
   end Install_Package_Entity;
1794
 
1795
   ----------------------------------
1796
   -- Install_Private_Declarations --
1797
   ----------------------------------
1798
 
1799
   procedure Install_Private_Declarations (P : Entity_Id) is
1800
      Id        : Entity_Id;
1801
      Priv_Elmt : Elmt_Id;
1802
      Priv      : Entity_Id;
1803
      Full      : Entity_Id;
1804
 
1805
   begin
1806
      --  First exchange declarations for private types, so that the full
1807
      --  declaration is visible. For each private type, we check its
1808
      --  Private_Dependents list and also exchange any subtypes of or derived
1809
      --  types from it. Finally, if this is a Taft amendment type, the
1810
      --  incomplete declaration is irrelevant, and we want to link the
1811
      --  eventual full declaration with the original private one so we also
1812
      --  skip the exchange.
1813
 
1814
      Id := First_Entity (P);
1815
      while Present (Id) and then Id /= First_Private_Entity (P) loop
1816
         if Is_Private_Base_Type (Id)
1817
           and then Comes_From_Source (Full_View (Id))
1818
           and then Present (Full_View (Id))
1819
           and then Scope (Full_View (Id)) = Scope (Id)
1820
           and then Ekind (Full_View (Id)) /= E_Incomplete_Type
1821
         then
1822
            --  If there is a use-type clause on the private type, set the
1823
            --  full view accordingly.
1824
 
1825
            Set_In_Use (Full_View (Id), In_Use (Id));
1826
            Full := Full_View (Id);
1827
 
1828
            if Is_Private_Base_Type (Full)
1829
              and then Has_Private_Declaration (Full)
1830
              and then Nkind (Parent (Full)) = N_Full_Type_Declaration
1831
              and then In_Open_Scopes (Scope (Etype (Full)))
1832
              and then In_Package_Body (Current_Scope)
1833
              and then not Is_Private_Type (Etype (Full))
1834
            then
1835
               --  This is the completion of a private type by a derivation
1836
               --  from another private type which is not private anymore. This
1837
               --  can only happen in a package nested within a child package,
1838
               --  when the parent type is defined in the parent unit. At this
1839
               --  point the current type is not private either, and we have to
1840
               --  install the underlying full view, which is now visible. Save
1841
               --  the current full view as well, so that all views can be
1842
               --  restored on exit. It may seem that after compiling the child
1843
               --  body there are not environments to restore, but the back-end
1844
               --  expects those links to be valid, and freeze nodes depend on
1845
               --  them.
1846
 
1847
               if No (Full_View (Full))
1848
                 and then Present (Underlying_Full_View (Full))
1849
               then
1850
                  Set_Full_View (Id, Underlying_Full_View (Full));
1851
                  Set_Underlying_Full_View (Id, Full);
1852
 
1853
                  Set_Underlying_Full_View (Full, Empty);
1854
                  Set_Is_Frozen (Full_View (Id));
1855
               end if;
1856
            end if;
1857
 
1858
            Priv_Elmt := First_Elmt (Private_Dependents (Id));
1859
 
1860
            Exchange_Declarations (Id);
1861
            Set_Is_Immediately_Visible (Id);
1862
 
1863
            while Present (Priv_Elmt) loop
1864
               Priv := Node (Priv_Elmt);
1865
 
1866
               --  Before the exchange, verify that the presence of the
1867
               --  Full_View field. It will be empty if the entity has already
1868
               --  been installed due to a previous call.
1869
 
1870
               if Present (Full_View (Priv))
1871
                 and then Is_Visible_Dependent (Priv)
1872
               then
1873
 
1874
                  --  For each subtype that is swapped, we also swap the
1875
                  --  reference to it in Private_Dependents, to allow access
1876
                  --  to it when we swap them out in End_Package_Scope.
1877
 
1878
                  Replace_Elmt (Priv_Elmt, Full_View (Priv));
1879
                  Exchange_Declarations (Priv);
1880
                  Set_Is_Immediately_Visible
1881
                    (Priv, In_Open_Scopes (Scope (Priv)));
1882
                  Set_Is_Potentially_Use_Visible
1883
                    (Priv, Is_Potentially_Use_Visible (Node (Priv_Elmt)));
1884
               end if;
1885
 
1886
               Next_Elmt (Priv_Elmt);
1887
            end loop;
1888
         end if;
1889
 
1890
         Next_Entity (Id);
1891
      end loop;
1892
 
1893
      --  Next make other declarations in the private part visible as well
1894
 
1895
      Id := First_Private_Entity (P);
1896
      while Present (Id) loop
1897
         Install_Package_Entity (Id);
1898
         Set_Is_Hidden (Id, False);
1899
         Next_Entity (Id);
1900
      end loop;
1901
 
1902
      --  Indicate that the private part is currently visible, so it can be
1903
      --  properly reset on exit.
1904
 
1905
      Set_In_Private_Part (P);
1906
   end Install_Private_Declarations;
1907
 
1908
   ----------------------------------
1909
   -- Install_Visible_Declarations --
1910
   ----------------------------------
1911
 
1912
   procedure Install_Visible_Declarations (P : Entity_Id) is
1913
      Id          : Entity_Id;
1914
      Last_Entity : Entity_Id;
1915
 
1916
   begin
1917
      pragma Assert
1918
        (Is_Package_Or_Generic_Package (P) or else Is_Record_Type (P));
1919
 
1920
      if Is_Package_Or_Generic_Package (P) then
1921
         Last_Entity := First_Private_Entity (P);
1922
      else
1923
         Last_Entity := Empty;
1924
      end if;
1925
 
1926
      Id := First_Entity (P);
1927
      while Present (Id) and then Id /= Last_Entity loop
1928
         Install_Package_Entity (Id);
1929
         Next_Entity (Id);
1930
      end loop;
1931
   end Install_Visible_Declarations;
1932
 
1933
   --------------------------
1934
   -- Is_Private_Base_Type --
1935
   --------------------------
1936
 
1937
   function Is_Private_Base_Type (E : Entity_Id) return Boolean is
1938
   begin
1939
      return Ekind (E) = E_Private_Type
1940
        or else Ekind (E) = E_Limited_Private_Type
1941
        or else Ekind (E) = E_Record_Type_With_Private;
1942
   end Is_Private_Base_Type;
1943
 
1944
   --------------------------
1945
   -- Is_Visible_Dependent --
1946
   --------------------------
1947
 
1948
   function Is_Visible_Dependent (Dep : Entity_Id) return Boolean
1949
   is
1950
      S : constant Entity_Id := Scope (Dep);
1951
 
1952
   begin
1953
      --  Renamings created for actual types have the visibility of the actual
1954
 
1955
      if Ekind (S) = E_Package
1956
        and then Is_Generic_Instance (S)
1957
        and then (Is_Generic_Actual_Type (Dep)
1958
                   or else Is_Generic_Actual_Type (Full_View (Dep)))
1959
      then
1960
         return True;
1961
 
1962
      elsif not (Is_Derived_Type (Dep))
1963
        and then Is_Derived_Type (Full_View (Dep))
1964
      then
1965
         --  When instantiating a package body, the scope stack is empty, so
1966
         --  check instead whether the dependent type is defined in the same
1967
         --  scope as the instance itself.
1968
 
1969
         return In_Open_Scopes (S)
1970
           or else (Is_Generic_Instance (Current_Scope)
1971
              and then Scope (Dep) = Scope (Current_Scope));
1972
      else
1973
         return True;
1974
      end if;
1975
   end Is_Visible_Dependent;
1976
 
1977
   ----------------------------
1978
   -- May_Need_Implicit_Body --
1979
   ----------------------------
1980
 
1981
   procedure May_Need_Implicit_Body (E : Entity_Id) is
1982
      P     : constant Node_Id := Unit_Declaration_Node (E);
1983
      S     : constant Node_Id := Parent (P);
1984
      B     : Node_Id;
1985
      Decls : List_Id;
1986
 
1987
   begin
1988
      if not Has_Completion (E)
1989
        and then Nkind (P) = N_Package_Declaration
1990
        and then (Present (Activation_Chain_Entity (P)) or else Has_RACW (E))
1991
      then
1992
         B :=
1993
           Make_Package_Body (Sloc (E),
1994
             Defining_Unit_Name => Make_Defining_Identifier (Sloc (E),
1995
               Chars => Chars (E)),
1996
             Declarations  => New_List);
1997
 
1998
         if Nkind (S) = N_Package_Specification then
1999
            if Present (Private_Declarations (S)) then
2000
               Decls := Private_Declarations (S);
2001
            else
2002
               Decls := Visible_Declarations (S);
2003
            end if;
2004
         else
2005
            Decls := Declarations (S);
2006
         end if;
2007
 
2008
         Append (B, Decls);
2009
         Analyze (B);
2010
      end if;
2011
   end May_Need_Implicit_Body;
2012
 
2013
   ----------------------
2014
   -- New_Private_Type --
2015
   ----------------------
2016
 
2017
   procedure New_Private_Type (N : Node_Id; Id : Entity_Id; Def : Node_Id) is
2018
   begin
2019
      --  For other than Ada 2012, enter the name in the current scope
2020
 
2021
      if Ada_Version < Ada_2012 then
2022
         Enter_Name (Id);
2023
 
2024
      --  Ada 2012 (AI05-0162): Enter the name in the current scope handling
2025
      --  private type that completes an incomplete type.
2026
 
2027
      else
2028
         declare
2029
            Prev : Entity_Id;
2030
         begin
2031
            Prev := Find_Type_Name (N);
2032
            pragma Assert (Prev = Id
2033
              or else (Ekind (Prev) = E_Incomplete_Type
2034
                        and then Present (Full_View (Prev))
2035
                        and then Full_View (Prev) = Id));
2036
         end;
2037
      end if;
2038
 
2039
      if Limited_Present (Def) then
2040
         Set_Ekind (Id, E_Limited_Private_Type);
2041
      else
2042
         Set_Ekind (Id, E_Private_Type);
2043
      end if;
2044
 
2045
      Set_Etype              (Id, Id);
2046
      Set_Has_Delayed_Freeze (Id);
2047
      Set_Is_First_Subtype   (Id);
2048
      Init_Size_Align        (Id);
2049
 
2050
      Set_Is_Constrained (Id,
2051
        No (Discriminant_Specifications (N))
2052
          and then not Unknown_Discriminants_Present (N));
2053
 
2054
      --  Set tagged flag before processing discriminants, to catch illegal
2055
      --  usage.
2056
 
2057
      Set_Is_Tagged_Type (Id, Tagged_Present (Def));
2058
 
2059
      Set_Discriminant_Constraint (Id, No_Elist);
2060
      Set_Stored_Constraint (Id, No_Elist);
2061
 
2062
      if Present (Discriminant_Specifications (N)) then
2063
         Push_Scope (Id);
2064
         Process_Discriminants (N);
2065
         End_Scope;
2066
 
2067
      elsif Unknown_Discriminants_Present (N) then
2068
         Set_Has_Unknown_Discriminants (Id);
2069
      end if;
2070
 
2071
      Set_Private_Dependents (Id, New_Elmt_List);
2072
 
2073
      if Tagged_Present (Def) then
2074
         Set_Ekind                       (Id, E_Record_Type_With_Private);
2075
         Set_Direct_Primitive_Operations (Id, New_Elmt_List);
2076
         Set_Is_Abstract_Type            (Id, Abstract_Present (Def));
2077
         Set_Is_Limited_Record           (Id, Limited_Present (Def));
2078
         Set_Has_Delayed_Freeze          (Id, True);
2079
 
2080
         --  Create a class-wide type with the same attributes
2081
 
2082
         Make_Class_Wide_Type     (Id);
2083
 
2084
      elsif Abstract_Present (Def) then
2085
         Error_Msg_N ("only a tagged type can be abstract", N);
2086
      end if;
2087
   end New_Private_Type;
2088
 
2089
   ----------------------------
2090
   -- Uninstall_Declarations --
2091
   ----------------------------
2092
 
2093
   procedure Uninstall_Declarations (P : Entity_Id) is
2094
      Decl      : constant Node_Id := Unit_Declaration_Node (P);
2095
      Id        : Entity_Id;
2096
      Full      : Entity_Id;
2097
      Priv_Elmt : Elmt_Id;
2098
      Priv_Sub  : Entity_Id;
2099
 
2100
      procedure Preserve_Full_Attributes (Priv, Full : Entity_Id);
2101
      --  Copy to the private declaration the attributes of the full view that
2102
      --  need to be available for the partial view also.
2103
 
2104
      function Type_In_Use (T : Entity_Id) return Boolean;
2105
      --  Check whether type or base type appear in an active use_type clause
2106
 
2107
      ------------------------------
2108
      -- Preserve_Full_Attributes --
2109
      ------------------------------
2110
 
2111
      procedure Preserve_Full_Attributes (Priv, Full : Entity_Id) is
2112
         Priv_Is_Base_Type : constant Boolean := Is_Base_Type (Priv);
2113
 
2114
      begin
2115
         Set_Size_Info (Priv, (Full));
2116
         Set_RM_Size                 (Priv, RM_Size (Full));
2117
         Set_Size_Known_At_Compile_Time
2118
                                     (Priv, Size_Known_At_Compile_Time (Full));
2119
         Set_Is_Volatile             (Priv, Is_Volatile                (Full));
2120
         Set_Treat_As_Volatile       (Priv, Treat_As_Volatile          (Full));
2121
         Set_Is_Ada_2005_Only        (Priv, Is_Ada_2005_Only           (Full));
2122
         Set_Is_Ada_2012_Only        (Priv, Is_Ada_2012_Only           (Full));
2123
         Set_Has_Pragma_Unmodified   (Priv, Has_Pragma_Unmodified      (Full));
2124
         Set_Has_Pragma_Unreferenced (Priv, Has_Pragma_Unreferenced    (Full));
2125
         Set_Has_Pragma_Unreferenced_Objects
2126
                                     (Priv, Has_Pragma_Unreferenced_Objects
2127
                                                                       (Full));
2128
         if Is_Unchecked_Union (Full) then
2129
            Set_Is_Unchecked_Union (Base_Type (Priv));
2130
         end if;
2131
         --  Why is atomic not copied here ???
2132
 
2133
         if Referenced (Full) then
2134
            Set_Referenced (Priv);
2135
         end if;
2136
 
2137
         if Priv_Is_Base_Type then
2138
            Set_Is_Controlled (Priv, Is_Controlled (Base_Type (Full)));
2139
            Set_Finalize_Storage_Only (Priv, Finalize_Storage_Only
2140
                                                           (Base_Type (Full)));
2141
            Set_Has_Task (Priv, Has_Task (Base_Type (Full)));
2142
            Set_Has_Controlled_Component (Priv, Has_Controlled_Component
2143
                                                           (Base_Type (Full)));
2144
         end if;
2145
 
2146
         Set_Freeze_Node (Priv, Freeze_Node (Full));
2147
 
2148
         if Is_Tagged_Type (Priv)
2149
           and then Is_Tagged_Type (Full)
2150
           and then not Error_Posted (Full)
2151
         then
2152
            if Is_Tagged_Type (Priv) then
2153
 
2154
               --  If the type is tagged, the tag itself must be available on
2155
               --  the partial view, for expansion purposes.
2156
 
2157
               Set_First_Entity (Priv, First_Entity (Full));
2158
 
2159
               --  If there are discriminants in the partial view, these remain
2160
               --  visible. Otherwise only the tag itself is visible, and there
2161
               --  are no nameable components in the partial view.
2162
 
2163
               if No (Last_Entity (Priv)) then
2164
                  Set_Last_Entity (Priv, First_Entity (Priv));
2165
               end if;
2166
            end if;
2167
 
2168
            Set_Has_Discriminants (Priv, Has_Discriminants (Full));
2169
 
2170
            if Has_Discriminants (Full) then
2171
               Set_Discriminant_Constraint (Priv,
2172
                 Discriminant_Constraint (Full));
2173
            end if;
2174
         end if;
2175
      end Preserve_Full_Attributes;
2176
 
2177
      -----------------
2178
      -- Type_In_Use --
2179
      -----------------
2180
 
2181
      function Type_In_Use (T : Entity_Id) return Boolean is
2182
      begin
2183
         return Scope (Base_Type (T)) = P
2184
           and then (In_Use (T) or else In_Use (Base_Type (T)));
2185
      end Type_In_Use;
2186
 
2187
   --  Start of processing for Uninstall_Declarations
2188
 
2189
   begin
2190
      Id := First_Entity (P);
2191
      while Present (Id) and then Id /= First_Private_Entity (P) loop
2192
         if Debug_Flag_E then
2193
            Write_Str ("unlinking visible entity ");
2194
            Write_Int (Int (Id));
2195
            Write_Eol;
2196
         end if;
2197
 
2198
         --  On  exit from the package scope, we must preserve the visibility
2199
         --  established by use clauses in the current scope. Two cases:
2200
 
2201
         --  a) If the entity is an operator, it may be a primitive operator of
2202
         --  a type for which there is a visible use-type clause.
2203
 
2204
         --  b) for other entities, their use-visibility is determined by a
2205
         --  visible use clause for the package itself. For a generic instance,
2206
         --  the instantiation of the formals appears in the visible part,
2207
         --  but the formals are private and remain so.
2208
 
2209
         if Ekind (Id) = E_Function
2210
           and then Is_Operator_Symbol_Name (Chars (Id))
2211
           and then not Is_Hidden (Id)
2212
           and then not Error_Posted (Id)
2213
         then
2214
            Set_Is_Potentially_Use_Visible (Id,
2215
              In_Use (P)
2216
              or else Type_In_Use (Etype (Id))
2217
              or else Type_In_Use (Etype (First_Formal (Id)))
2218
              or else (Present (Next_Formal (First_Formal (Id)))
2219
                         and then
2220
                           Type_In_Use
2221
                             (Etype (Next_Formal (First_Formal (Id))))));
2222
         else
2223
            if In_Use (P) and then not Is_Hidden (Id) then
2224
 
2225
               --  A child unit of a use-visible package remains use-visible
2226
               --  only if it is itself a visible child unit. Otherwise it
2227
               --  would remain visible in other contexts where P is use-
2228
               --  visible, because once compiled it stays in the entity list
2229
               --  of its parent unit.
2230
 
2231
               if Is_Child_Unit (Id) then
2232
                  Set_Is_Potentially_Use_Visible (Id,
2233
                    Is_Visible_Child_Unit (Id));
2234
               else
2235
                  Set_Is_Potentially_Use_Visible (Id);
2236
               end if;
2237
 
2238
            else
2239
               Set_Is_Potentially_Use_Visible (Id, False);
2240
            end if;
2241
         end if;
2242
 
2243
         --  Local entities are not immediately visible outside of the package
2244
 
2245
         Set_Is_Immediately_Visible (Id, False);
2246
 
2247
         --  If this is a private type with a full view (for example a local
2248
         --  subtype of a private type declared elsewhere), ensure that the
2249
         --  full view is also removed from visibility: it may be exposed when
2250
         --  swapping views in an instantiation.
2251
 
2252
         if Is_Type (Id)
2253
           and then Present (Full_View (Id))
2254
         then
2255
            Set_Is_Immediately_Visible (Full_View (Id), False);
2256
         end if;
2257
 
2258
         if Is_Tagged_Type (Id) and then Ekind (Id) = E_Record_Type then
2259
            Check_Abstract_Overriding (Id);
2260
            Check_Conventions (Id);
2261
         end if;
2262
 
2263
         if (Ekind (Id) = E_Private_Type
2264
               or else Ekind (Id) = E_Limited_Private_Type)
2265
           and then No (Full_View (Id))
2266
           and then not Is_Generic_Type (Id)
2267
           and then not Is_Derived_Type (Id)
2268
         then
2269
            Error_Msg_N ("missing full declaration for private type&", Id);
2270
 
2271
         elsif Ekind (Id) = E_Record_Type_With_Private
2272
           and then not Is_Generic_Type (Id)
2273
           and then No (Full_View (Id))
2274
         then
2275
            if Nkind (Parent (Id)) = N_Private_Type_Declaration then
2276
               Error_Msg_N ("missing full declaration for private type&", Id);
2277
            else
2278
               Error_Msg_N
2279
                 ("missing full declaration for private extension", Id);
2280
            end if;
2281
 
2282
         --  Case of constant, check for deferred constant declaration with
2283
         --  no full view. Likely just a matter of a missing expression, or
2284
         --  accidental use of the keyword constant.
2285
 
2286
         elsif Ekind (Id) = E_Constant
2287
 
2288
           --  OK if constant value present
2289
 
2290
           and then No (Constant_Value (Id))
2291
 
2292
           --  OK if full view present
2293
 
2294
           and then No (Full_View (Id))
2295
 
2296
           --  OK if imported, since that provides the completion
2297
 
2298
           and then not Is_Imported (Id)
2299
 
2300
           --  OK if object declaration replaced by renaming declaration as
2301
           --  a result of OK_To_Rename processing (e.g. for concatenation)
2302
 
2303
           and then Nkind (Parent (Id)) /= N_Object_Renaming_Declaration
2304
 
2305
           --  OK if object declaration with the No_Initialization flag set
2306
 
2307
           and then not (Nkind (Parent (Id)) = N_Object_Declaration
2308
                           and then No_Initialization (Parent (Id)))
2309
         then
2310
            --  If no private declaration is present, we assume the user did
2311
            --  not intend a deferred constant declaration and the problem
2312
            --  is simply that the initializing expression is missing.
2313
 
2314
            if not Has_Private_Declaration (Etype (Id)) then
2315
 
2316
               --  We assume that the user did not intend a deferred constant
2317
               --  declaration, and the expression is just missing.
2318
 
2319
               Error_Msg_N
2320
                 ("constant declaration requires initialization expression",
2321
                   Parent (Id));
2322
 
2323
               if Is_Limited_Type (Etype (Id)) then
2324
                  Error_Msg_N
2325
                    ("\if variable intended, remove CONSTANT from declaration",
2326
                    Parent (Id));
2327
               end if;
2328
 
2329
            --  Otherwise if a private declaration is present, then we are
2330
            --  missing the full declaration for the deferred constant.
2331
 
2332
            else
2333
               Error_Msg_N
2334
                  ("missing full declaration for deferred constant (RM 7.4)",
2335
                     Id);
2336
 
2337
               if Is_Limited_Type (Etype (Id)) then
2338
                  Error_Msg_N
2339
                    ("\if variable intended, remove CONSTANT from declaration",
2340
                    Parent (Id));
2341
               end if;
2342
            end if;
2343
         end if;
2344
 
2345
         Next_Entity (Id);
2346
      end loop;
2347
 
2348
      --  If the specification was installed as the parent of a public child
2349
      --  unit, the private declarations were not installed, and there is
2350
      --  nothing to do.
2351
 
2352
      if not In_Private_Part (P) then
2353
         return;
2354
      else
2355
         Set_In_Private_Part (P, False);
2356
      end if;
2357
 
2358
      --  Make private entities invisible and exchange full and private
2359
      --  declarations for private types. Id is now the first private entity
2360
      --  in the package.
2361
 
2362
      while Present (Id) loop
2363
         if Debug_Flag_E then
2364
            Write_Str ("unlinking private entity ");
2365
            Write_Int (Int (Id));
2366
            Write_Eol;
2367
         end if;
2368
 
2369
         if Is_Tagged_Type (Id) and then Ekind (Id) = E_Record_Type then
2370
            Check_Abstract_Overriding (Id);
2371
            Check_Conventions (Id);
2372
         end if;
2373
 
2374
         Set_Is_Immediately_Visible (Id, False);
2375
 
2376
         if Is_Private_Base_Type (Id)
2377
           and then Present (Full_View (Id))
2378
         then
2379
            Full := Full_View (Id);
2380
 
2381
            --  If the partial view is not declared in the visible part of the
2382
            --  package (as is the case when it is a type derived from some
2383
            --  other private type in the private part of the current package),
2384
            --  no exchange takes place.
2385
 
2386
            if No (Parent (Id))
2387
              or else List_Containing (Parent (Id))
2388
                /= Visible_Declarations (Specification (Decl))
2389
            then
2390
               goto Next_Id;
2391
            end if;
2392
 
2393
            --  The entry in the private part points to the full declaration,
2394
            --  which is currently visible. Exchange them so only the private
2395
            --  type declaration remains accessible, and link private and full
2396
            --  declaration in the opposite direction. Before the actual
2397
            --  exchange, we copy back attributes of the full view that must
2398
            --  be available to the partial view too.
2399
 
2400
            Preserve_Full_Attributes (Id, Full);
2401
 
2402
            Set_Is_Potentially_Use_Visible (Id, In_Use (P));
2403
 
2404
            if  Is_Indefinite_Subtype (Full)
2405
              and then not Is_Indefinite_Subtype (Id)
2406
            then
2407
               Error_Msg_N
2408
                 ("full view of type must be definite subtype", Full);
2409
            end if;
2410
 
2411
            Priv_Elmt := First_Elmt (Private_Dependents (Id));
2412
 
2413
            --  Swap out the subtypes and derived types of Id that were
2414
            --  compiled in this scope, or installed previously by
2415
            --  Install_Private_Declarations.
2416
 
2417
            --  Before we do the swap, we verify the presence of the Full_View
2418
            --  field which may be empty due to a swap by a previous call to
2419
            --  End_Package_Scope (e.g. from the freezing mechanism).
2420
 
2421
            while Present (Priv_Elmt) loop
2422
               Priv_Sub := Node (Priv_Elmt);
2423
 
2424
               if Present (Full_View (Priv_Sub)) then
2425
 
2426
                  if Scope (Priv_Sub) = P
2427
                     or else not In_Open_Scopes (Scope (Priv_Sub))
2428
                  then
2429
                     Set_Is_Immediately_Visible (Priv_Sub, False);
2430
                  end if;
2431
 
2432
                  if Is_Visible_Dependent (Priv_Sub) then
2433
                     Preserve_Full_Attributes
2434
                       (Priv_Sub, Full_View (Priv_Sub));
2435
                     Replace_Elmt (Priv_Elmt, Full_View (Priv_Sub));
2436
                     Exchange_Declarations (Priv_Sub);
2437
                  end if;
2438
               end if;
2439
 
2440
               Next_Elmt (Priv_Elmt);
2441
            end loop;
2442
 
2443
            --  Now restore the type itself to its private view
2444
 
2445
            Exchange_Declarations (Id);
2446
 
2447
            --  If we have installed an underlying full view for a type derived
2448
            --  from a private type in a child unit, restore the proper views
2449
            --  of private and full view. See corresponding code in
2450
            --  Install_Private_Declarations.
2451
 
2452
            --  After the exchange, Full denotes the private type in the
2453
            --  visible part of the package.
2454
 
2455
            if Is_Private_Base_Type (Full)
2456
              and then Present (Full_View (Full))
2457
              and then Present (Underlying_Full_View (Full))
2458
              and then In_Package_Body (Current_Scope)
2459
            then
2460
               Set_Full_View (Full, Underlying_Full_View (Full));
2461
               Set_Underlying_Full_View (Full, Empty);
2462
            end if;
2463
 
2464
         elsif Ekind (Id) = E_Incomplete_Type
2465
           and then Comes_From_Source (Id)
2466
           and then No (Full_View (Id))
2467
         then
2468
            --  Mark Taft amendment types. Verify that there are no primitive
2469
            --  operations declared for the type (3.10.1(9)).
2470
 
2471
            Set_Has_Completion_In_Body (Id);
2472
 
2473
            declare
2474
               Elmt : Elmt_Id;
2475
               Subp : Entity_Id;
2476
 
2477
            begin
2478
               Elmt := First_Elmt (Private_Dependents (Id));
2479
               while Present (Elmt) loop
2480
                  Subp := Node (Elmt);
2481
 
2482
                  --  Is_Primitive is tested because there can be cases where
2483
                  --  nonprimitive subprograms (in nested packages) are added
2484
                  --  to the Private_Dependents list.
2485
 
2486
                  if Is_Overloadable (Subp) and then Is_Primitive (Subp) then
2487
                     Error_Msg_NE
2488
                       ("type& must be completed in the private part",
2489
                         Parent (Subp), Id);
2490
 
2491
                  --  The result type of an access-to-function type cannot be a
2492
                  --  Taft-amendment type, unless the version is Ada 2012 or
2493
                  --  later (see AI05-151).
2494
 
2495
                  elsif Ada_Version < Ada_2012
2496
                    and then Ekind (Subp) = E_Subprogram_Type
2497
                  then
2498
                     if Etype (Subp) = Id
2499
                       or else
2500
                         (Is_Class_Wide_Type (Etype (Subp))
2501
                            and then Etype (Etype (Subp)) = Id)
2502
                     then
2503
                        Error_Msg_NE
2504
                          ("type& must be completed in the private part",
2505
                             Associated_Node_For_Itype (Subp), Id);
2506
                     end if;
2507
                  end if;
2508
 
2509
                  Next_Elmt (Elmt);
2510
               end loop;
2511
            end;
2512
 
2513
         elsif not Is_Child_Unit (Id)
2514
           and then (not Is_Private_Type (Id)
2515
                      or else No (Full_View (Id)))
2516
         then
2517
            Set_Is_Hidden (Id);
2518
            Set_Is_Potentially_Use_Visible (Id, False);
2519
         end if;
2520
 
2521
         <<Next_Id>>
2522
            Next_Entity (Id);
2523
      end loop;
2524
   end Uninstall_Declarations;
2525
 
2526
   ------------------------
2527
   -- Unit_Requires_Body --
2528
   ------------------------
2529
 
2530
   function Unit_Requires_Body (P : Entity_Id) return Boolean is
2531
      E : Entity_Id;
2532
 
2533
   begin
2534
      --  Imported entity never requires body. Right now, only subprograms can
2535
      --  be imported, but perhaps in the future we will allow import of
2536
      --  packages.
2537
 
2538
      if Is_Imported (P) then
2539
         return False;
2540
 
2541
      --  Body required if library package with pragma Elaborate_Body
2542
 
2543
      elsif Has_Pragma_Elaborate_Body (P) then
2544
         return True;
2545
 
2546
      --  Body required if subprogram
2547
 
2548
      elsif Is_Subprogram (P) or else Is_Generic_Subprogram (P) then
2549
         return True;
2550
 
2551
      --  Treat a block as requiring a body
2552
 
2553
      elsif Ekind (P) = E_Block then
2554
         return True;
2555
 
2556
      elsif Ekind (P) = E_Package
2557
        and then Nkind (Parent (P)) = N_Package_Specification
2558
        and then Present (Generic_Parent (Parent (P)))
2559
      then
2560
         declare
2561
            G_P : constant Entity_Id := Generic_Parent (Parent (P));
2562
         begin
2563
            if Has_Pragma_Elaborate_Body (G_P) then
2564
               return True;
2565
            end if;
2566
         end;
2567
      end if;
2568
 
2569
      --  Otherwise search entity chain for entity requiring completion
2570
 
2571
      E := First_Entity (P);
2572
      while Present (E) loop
2573
 
2574
         --  Always ignore child units. Child units get added to the entity
2575
         --  list of a parent unit, but are not original entities of the
2576
         --  parent, and so do not affect whether the parent needs a body.
2577
 
2578
         if Is_Child_Unit (E) then
2579
            null;
2580
 
2581
         --  Ignore formal packages and their renamings
2582
 
2583
         elsif Ekind (E) = E_Package
2584
           and then Nkind (Original_Node (Unit_Declaration_Node (E))) =
2585
                                                N_Formal_Package_Declaration
2586
         then
2587
            null;
2588
 
2589
         --  Otherwise test to see if entity requires a completion.
2590
         --  Note that subprogram entities whose declaration does not come
2591
         --  from source are ignored here on the basis that we assume the
2592
         --  expander will provide an implicit completion at some point.
2593
 
2594
         elsif (Is_Overloadable (E)
2595
               and then Ekind (E) /= E_Enumeration_Literal
2596
               and then Ekind (E) /= E_Operator
2597
               and then not Is_Abstract_Subprogram (E)
2598
               and then not Has_Completion (E)
2599
               and then Comes_From_Source (Parent (E)))
2600
 
2601
           or else
2602
             (Ekind (E) = E_Package
2603
               and then E /= P
2604
               and then not Has_Completion (E)
2605
               and then Unit_Requires_Body (E))
2606
 
2607
           or else
2608
             (Ekind (E) = E_Incomplete_Type
2609
               and then No (Full_View (E))
2610
               and then not Is_Generic_Type (E))
2611
 
2612
           or else
2613
            ((Ekind (E) = E_Task_Type or else
2614
              Ekind (E) = E_Protected_Type)
2615
               and then not Has_Completion (E))
2616
 
2617
           or else
2618
             (Ekind (E) = E_Generic_Package and then E /= P
2619
               and then not Has_Completion (E)
2620
               and then Unit_Requires_Body (E))
2621
 
2622
           or else
2623
             (Is_Generic_Subprogram (E)
2624
               and then not Has_Completion (E))
2625
 
2626
         then
2627
            return True;
2628
 
2629
         --  Entity that does not require completion
2630
 
2631
         else
2632
            null;
2633
         end if;
2634
 
2635
         Next_Entity (E);
2636
      end loop;
2637
 
2638
      return False;
2639
   end Unit_Requires_Body;
2640
 
2641
end Sem_Ch7;

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