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1 706 jeremybenn
------------------------------------------------------------------------------
2
--                                                                          --
3
--                         GNAT COMPILER COMPONENTS                         --
4
--                                                                          --
5
--                              E X P _ C H 7                               --
6
--                                                                          --
7
--                                 B o d y                                  --
8
--                                                                          --
9
--          Copyright (C) 1992-2012, 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 virtually all expansion mechanisms related to
27
--    - controlled types
28
--    - transient scopes
29
 
30
with Atree;    use Atree;
31
with Debug;    use Debug;
32
with Einfo;    use Einfo;
33
with Elists;   use Elists;
34
with Errout;   use Errout;
35
with Exp_Ch6;  use Exp_Ch6;
36
with Exp_Ch9;  use Exp_Ch9;
37
with Exp_Ch11; use Exp_Ch11;
38
with Exp_Dbug; use Exp_Dbug;
39
with Exp_Dist; use Exp_Dist;
40
with Exp_Disp; use Exp_Disp;
41
with Exp_Tss;  use Exp_Tss;
42
with Exp_Util; use Exp_Util;
43
with Freeze;   use Freeze;
44
with Lib;      use Lib;
45
with Nlists;   use Nlists;
46
with Nmake;    use Nmake;
47
with Opt;      use Opt;
48
with Output;   use Output;
49
with Restrict; use Restrict;
50
with Rident;   use Rident;
51
with Rtsfind;  use Rtsfind;
52
with Sinfo;    use Sinfo;
53
with Sem;      use Sem;
54
with Sem_Aux;  use Sem_Aux;
55
with Sem_Ch3;  use Sem_Ch3;
56
with Sem_Ch7;  use Sem_Ch7;
57
with Sem_Ch8;  use Sem_Ch8;
58
with Sem_Res;  use Sem_Res;
59
with Sem_Util; use Sem_Util;
60
with Snames;   use Snames;
61
with Stand;    use Stand;
62
with Targparm; use Targparm;
63
with Tbuild;   use Tbuild;
64
with Ttypes;   use Ttypes;
65
with Uintp;    use Uintp;
66
 
67
package body Exp_Ch7 is
68
 
69
   --------------------------------
70
   -- Transient Scope Management --
71
   --------------------------------
72
 
73
   --  A transient scope is created when temporary objects are created by the
74
   --  compiler. These temporary objects are allocated on the secondary stack
75
   --  and the transient scope is responsible for finalizing the object when
76
   --  appropriate and reclaiming the memory at the right time. The temporary
77
   --  objects are generally the objects allocated to store the result of a
78
   --  function returning an unconstrained or a tagged value. Expressions
79
   --  needing to be wrapped in a transient scope (functions calls returning
80
   --  unconstrained or tagged values) may appear in 3 different contexts which
81
   --  lead to 3 different kinds of transient scope expansion:
82
 
83
   --   1. In a simple statement (procedure call, assignment, ...). In this
84
   --      case the instruction is wrapped into a transient block. See
85
   --      Wrap_Transient_Statement for details.
86
 
87
   --   2. In an expression of a control structure (test in a IF statement,
88
   --      expression in a CASE statement, ...). See Wrap_Transient_Expression
89
   --      for details.
90
 
91
   --   3. In a expression of an object_declaration. No wrapping is possible
92
   --      here, so the finalization actions, if any, are done right after the
93
   --      declaration and the secondary stack deallocation is done in the
94
   --      proper enclosing scope. See Wrap_Transient_Declaration for details.
95
 
96
   --  Note about functions returning tagged types: it has been decided to
97
   --  always allocate their result in the secondary stack, even though is not
98
   --  absolutely mandatory when the tagged type is constrained because the
99
   --  caller knows the size of the returned object and thus could allocate the
100
   --  result in the primary stack. An exception to this is when the function
101
   --  builds its result in place, as is done for functions with inherently
102
   --  limited result types for Ada 2005. In that case, certain callers may
103
   --  pass the address of a constrained object as the target object for the
104
   --  function result.
105
 
106
   --  By allocating tagged results in the secondary stack a number of
107
   --  implementation difficulties are avoided:
108
 
109
   --    - If it is a dispatching function call, the computation of the size of
110
   --      the result is possible but complex from the outside.
111
 
112
   --    - If the returned type is controlled, the assignment of the returned
113
   --      value to the anonymous object involves an Adjust, and we have no
114
   --      easy way to access the anonymous object created by the back end.
115
 
116
   --    - If the returned type is class-wide, this is an unconstrained type
117
   --      anyway.
118
 
119
   --  Furthermore, the small loss in efficiency which is the result of this
120
   --  decision is not such a big deal because functions returning tagged types
121
   --  are not as common in practice compared to functions returning access to
122
   --  a tagged type.
123
 
124
   --------------------------------------------------
125
   -- Transient Blocks and Finalization Management --
126
   --------------------------------------------------
127
 
128
   function Find_Node_To_Be_Wrapped (N : Node_Id) return Node_Id;
129
   --  N is a node which may generate a transient scope. Loop over the parent
130
   --  pointers of N until it find the appropriate node to wrap. If it returns
131
   --  Empty, it means that no transient scope is needed in this context.
132
 
133
   procedure Insert_Actions_In_Scope_Around (N : Node_Id);
134
   --  Insert the before-actions kept in the scope stack before N, and the
135
   --  after-actions after N, which must be a member of a list.
136
 
137
   function Make_Transient_Block
138
     (Loc    : Source_Ptr;
139
      Action : Node_Id;
140
      Par    : Node_Id) return Node_Id;
141
   --  Action is a single statement or object declaration. Par is the proper
142
   --  parent of the generated block. Create a transient block whose name is
143
   --  the current scope and the only handled statement is Action. If Action
144
   --  involves controlled objects or secondary stack usage, the corresponding
145
   --  cleanup actions are performed at the end of the block.
146
 
147
   procedure Set_Node_To_Be_Wrapped (N : Node_Id);
148
   --  Set the field Node_To_Be_Wrapped of the current scope
149
 
150
   --  ??? The entire comment needs to be rewritten
151
 
152
   -----------------------------
153
   -- Finalization Management --
154
   -----------------------------
155
 
156
   --  This part describe how Initialization/Adjustment/Finalization procedures
157
   --  are generated and called. Two cases must be considered, types that are
158
   --  Controlled (Is_Controlled flag set) and composite types that contain
159
   --  controlled components (Has_Controlled_Component flag set). In the first
160
   --  case the procedures to call are the user-defined primitive operations
161
   --  Initialize/Adjust/Finalize. In the second case, GNAT generates
162
   --  Deep_Initialize, Deep_Adjust and Deep_Finalize that are in charge
163
   --  of calling the former procedures on the controlled components.
164
 
165
   --  For records with Has_Controlled_Component set, a hidden "controller"
166
   --  component is inserted. This controller component contains its own
167
   --  finalization list on which all controlled components are attached
168
   --  creating an indirection on the upper-level Finalization list. This
169
   --  technique facilitates the management of objects whose number of
170
   --  controlled components changes during execution. This controller
171
   --  component is itself controlled and is attached to the upper-level
172
   --  finalization chain. Its adjust primitive is in charge of calling adjust
173
   --  on the components and adjusting the finalization pointer to match their
174
   --  new location (see a-finali.adb).
175
 
176
   --  It is not possible to use a similar technique for arrays that have
177
   --  Has_Controlled_Component set. In this case, deep procedures are
178
   --  generated that call initialize/adjust/finalize + attachment or
179
   --  detachment on the finalization list for all component.
180
 
181
   --  Initialize calls: they are generated for declarations or dynamic
182
   --  allocations of Controlled objects with no initial value. They are always
183
   --  followed by an attachment to the current Finalization Chain. For the
184
   --  dynamic allocation case this the chain attached to the scope of the
185
   --  access type definition otherwise, this is the chain of the current
186
   --  scope.
187
 
188
   --  Adjust Calls: They are generated on 2 occasions: (1) for declarations
189
   --  or dynamic allocations of Controlled objects with an initial value.
190
   --  (2) after an assignment. In the first case they are followed by an
191
   --  attachment to the final chain, in the second case they are not.
192
 
193
   --  Finalization Calls: They are generated on (1) scope exit, (2)
194
   --  assignments, (3) unchecked deallocations. In case (3) they have to
195
   --  be detached from the final chain, in case (2) they must not and in
196
   --  case (1) this is not important since we are exiting the scope anyway.
197
 
198
   --  Other details:
199
 
200
   --    Type extensions will have a new record controller at each derivation
201
   --    level containing controlled components. The record controller for
202
   --    the parent/ancestor is attached to the finalization list of the
203
   --    extension's record controller (i.e. the parent is like a component
204
   --    of the extension).
205
 
206
   --    For types that are both Is_Controlled and Has_Controlled_Components,
207
   --    the record controller and the object itself are handled separately.
208
   --    It could seem simpler to attach the object at the end of its record
209
   --    controller but this would not tackle view conversions properly.
210
 
211
   --    A classwide type can always potentially have controlled components
212
   --    but the record controller of the corresponding actual type may not
213
   --    be known at compile time so the dispatch table contains a special
214
   --    field that allows to compute the offset of the record controller
215
   --    dynamically. See s-finimp.Deep_Tag_Attach and a-tags.RC_Offset.
216
 
217
   --  Here is a simple example of the expansion of a controlled block :
218
 
219
   --    declare
220
   --       X : Controlled;
221
   --       Y : Controlled := Init;
222
   --
223
   --       type R is record
224
   --          C : Controlled;
225
   --       end record;
226
   --       W : R;
227
   --       Z : R := (C => X);
228
 
229
   --    begin
230
   --       X := Y;
231
   --       W := Z;
232
   --    end;
233
   --
234
   --  is expanded into
235
   --
236
   --    declare
237
   --       _L : System.FI.Finalizable_Ptr;
238
 
239
   --       procedure _Clean is
240
   --       begin
241
   --          Abort_Defer;
242
   --          System.FI.Finalize_List (_L);
243
   --          Abort_Undefer;
244
   --       end _Clean;
245
 
246
   --       X : Controlled;
247
   --       begin
248
   --          Abort_Defer;
249
   --          Initialize (X);
250
   --          Attach_To_Final_List (_L, Finalizable (X), 1);
251
   --       at end: Abort_Undefer;
252
   --       Y : Controlled := Init;
253
   --       Adjust (Y);
254
   --       Attach_To_Final_List (_L, Finalizable (Y), 1);
255
   --
256
   --       type R is record
257
   --          C : Controlled;
258
   --       end record;
259
   --       W : R;
260
   --       begin
261
   --          Abort_Defer;
262
   --          Deep_Initialize (W, _L, 1);
263
   --       at end: Abort_Under;
264
   --       Z : R := (C => X);
265
   --       Deep_Adjust (Z, _L, 1);
266
 
267
   --    begin
268
   --       _Assign (X, Y);
269
   --       Deep_Finalize (W, False);
270
   --       <save W's final pointers>
271
   --       W := Z;
272
   --       <restore W's final pointers>
273
   --       Deep_Adjust (W, _L, 0);
274
   --    at end
275
   --       _Clean;
276
   --    end;
277
 
278
   type Final_Primitives is
279
     (Initialize_Case, Adjust_Case, Finalize_Case, Address_Case);
280
   --  This enumeration type is defined in order to ease sharing code for
281
   --  building finalization procedures for composite types.
282
 
283
   Name_Of      : constant array (Final_Primitives) of Name_Id :=
284
                    (Initialize_Case => Name_Initialize,
285
                     Adjust_Case     => Name_Adjust,
286
                     Finalize_Case   => Name_Finalize,
287
                     Address_Case    => Name_Finalize_Address);
288
   Deep_Name_Of : constant array (Final_Primitives) of TSS_Name_Type :=
289
                    (Initialize_Case => TSS_Deep_Initialize,
290
                     Adjust_Case     => TSS_Deep_Adjust,
291
                     Finalize_Case   => TSS_Deep_Finalize,
292
                     Address_Case    => TSS_Finalize_Address);
293
 
294
   procedure Build_Array_Deep_Procs (Typ : Entity_Id);
295
   --  Build the deep Initialize/Adjust/Finalize for a record Typ with
296
   --  Has_Controlled_Component set and store them using the TSS mechanism.
297
 
298
   function Build_Cleanup_Statements (N : Node_Id) return List_Id;
299
   --  Create the clean up calls for an asynchronous call block, task master,
300
   --  protected subprogram body, task allocation block or task body. If the
301
   --  context does not contain the above constructs, the routine returns an
302
   --  empty list.
303
 
304
   procedure Build_Finalizer
305
     (N           : Node_Id;
306
      Clean_Stmts : List_Id;
307
      Mark_Id     : Entity_Id;
308
      Top_Decls   : List_Id;
309
      Defer_Abort : Boolean;
310
      Fin_Id      : out Entity_Id);
311
   --  N may denote an accept statement, block, entry body, package body,
312
   --  package spec, protected body, subprogram body, and a task body. Create
313
   --  a procedure which contains finalization calls for all controlled objects
314
   --  declared in the declarative or statement region of N. The calls are
315
   --  built in reverse order relative to the original declarations. In the
316
   --  case of a tack body, the routine delays the creation of the finalizer
317
   --  until all statements have been moved to the task body procedure.
318
   --  Clean_Stmts may contain additional context-dependent code used to abort
319
   --  asynchronous calls or complete tasks (see Build_Cleanup_Statements).
320
   --  Mark_Id is the secondary stack used in the current context or Empty if
321
   --  missing. Top_Decls is the list on which the declaration of the finalizer
322
   --  is attached in the non-package case. Defer_Abort indicates that the
323
   --  statements passed in perform actions that require abort to be deferred,
324
   --  such as for task termination. Fin_Id is the finalizer declaration
325
   --  entity.
326
 
327
   procedure Build_Finalizer_Call (N : Node_Id; Fin_Id : Entity_Id);
328
   --  N is a construct which contains a handled sequence of statements, Fin_Id
329
   --  is the entity of a finalizer. Create an At_End handler which covers the
330
   --  statements of N and calls Fin_Id. If the handled statement sequence has
331
   --  an exception handler, the statements will be wrapped in a block to avoid
332
   --  unwanted interaction with the new At_End handler.
333
 
334
   procedure Build_Record_Deep_Procs (Typ : Entity_Id);
335
   --  Build the deep Initialize/Adjust/Finalize for a record Typ with
336
   --  Has_Component_Component set and store them using the TSS mechanism.
337
 
338
   procedure Check_Visibly_Controlled
339
     (Prim : Final_Primitives;
340
      Typ  : Entity_Id;
341
      E    : in out Entity_Id;
342
      Cref : in out Node_Id);
343
   --  The controlled operation declared for a derived type may not be
344
   --  overriding, if the controlled operations of the parent type are hidden,
345
   --  for example when the parent is a private type whose full view is
346
   --  controlled. For other primitive operations we modify the name of the
347
   --  operation to indicate that it is not overriding, but this is not
348
   --  possible for Initialize, etc. because they have to be retrievable by
349
   --  name. Before generating the proper call to one of these operations we
350
   --  check whether Typ is known to be controlled at the point of definition.
351
   --  If it is not then we must retrieve the hidden operation of the parent
352
   --  and use it instead.  This is one case that might be solved more cleanly
353
   --  once Overriding pragmas or declarations are in place.
354
 
355
   function Convert_View
356
     (Proc : Entity_Id;
357
      Arg  : Node_Id;
358
      Ind  : Pos := 1) return Node_Id;
359
   --  Proc is one of the Initialize/Adjust/Finalize operations, and Arg is the
360
   --  argument being passed to it. Ind indicates which formal of procedure
361
   --  Proc we are trying to match. This function will, if necessary, generate
362
   --  a conversion between the partial and full view of Arg to match the type
363
   --  of the formal of Proc, or force a conversion to the class-wide type in
364
   --  the case where the operation is abstract.
365
 
366
   function Enclosing_Function (E : Entity_Id) return Entity_Id;
367
   --  Given an arbitrary entity, traverse the scope chain looking for the
368
   --  first enclosing function. Return Empty if no function was found.
369
 
370
   function Make_Call
371
     (Loc        : Source_Ptr;
372
      Proc_Id    : Entity_Id;
373
      Param      : Node_Id;
374
      For_Parent : Boolean := False) return Node_Id;
375
   --  Subsidiary to Make_Adjust_Call and Make_Final_Call. Given the entity of
376
   --  routine [Deep_]Adjust / Finalize and an object parameter, create an
377
   --  adjust / finalization call. Flag For_Parent should be set when field
378
   --  _parent is being processed.
379
 
380
   function Make_Deep_Proc
381
     (Prim  : Final_Primitives;
382
      Typ   : Entity_Id;
383
      Stmts : List_Id) return Node_Id;
384
   --  This function generates the tree for Deep_Initialize, Deep_Adjust or
385
   --  Deep_Finalize procedures according to the first parameter, these
386
   --  procedures operate on the type Typ. The Stmts parameter gives the body
387
   --  of the procedure.
388
 
389
   function Make_Deep_Array_Body
390
     (Prim : Final_Primitives;
391
      Typ  : Entity_Id) return List_Id;
392
   --  This function generates the list of statements for implementing
393
   --  Deep_Initialize, Deep_Adjust or Deep_Finalize procedures according to
394
   --  the first parameter, these procedures operate on the array type Typ.
395
 
396
   function Make_Deep_Record_Body
397
     (Prim     : Final_Primitives;
398
      Typ      : Entity_Id;
399
      Is_Local : Boolean := False) return List_Id;
400
   --  This function generates the list of statements for implementing
401
   --  Deep_Initialize, Deep_Adjust or Deep_Finalize procedures according to
402
   --  the first parameter, these procedures operate on the record type Typ.
403
   --  Flag Is_Local is used in conjunction with Deep_Finalize to designate
404
   --  whether the inner logic should be dictated by state counters.
405
 
406
   function Make_Finalize_Address_Stmts (Typ : Entity_Id) return List_Id;
407
   --  Subsidiary to Make_Finalize_Address_Body, Make_Deep_Array_Body and
408
   --  Make_Deep_Record_Body. Generate the following statements:
409
   --
410
   --    declare
411
   --       type Acc_Typ is access all Typ;
412
   --       for Acc_Typ'Storage_Size use 0;
413
   --    begin
414
   --       [Deep_]Finalize (Acc_Typ (V).all);
415
   --    end;
416
 
417
   ----------------------------
418
   -- Build_Array_Deep_Procs --
419
   ----------------------------
420
 
421
   procedure Build_Array_Deep_Procs (Typ : Entity_Id) is
422
   begin
423
      Set_TSS (Typ,
424
        Make_Deep_Proc
425
          (Prim  => Initialize_Case,
426
           Typ   => Typ,
427
           Stmts => Make_Deep_Array_Body (Initialize_Case, Typ)));
428
 
429
      if not Is_Immutably_Limited_Type (Typ) then
430
         Set_TSS (Typ,
431
           Make_Deep_Proc
432
             (Prim  => Adjust_Case,
433
              Typ   => Typ,
434
              Stmts => Make_Deep_Array_Body (Adjust_Case, Typ)));
435
      end if;
436
 
437
      --  Do not generate Deep_Finalize and Finalize_Address if finalization is
438
      --  suppressed since these routine will not be used.
439
 
440
      if not Restriction_Active (No_Finalization) then
441
         Set_TSS (Typ,
442
           Make_Deep_Proc
443
             (Prim  => Finalize_Case,
444
              Typ   => Typ,
445
              Stmts => Make_Deep_Array_Body (Finalize_Case, Typ)));
446
 
447
         --  Create TSS primitive Finalize_Address for non-VM targets. JVM and
448
         --  .NET do not support address arithmetic and unchecked conversions.
449
 
450
         if VM_Target = No_VM then
451
            Set_TSS (Typ,
452
              Make_Deep_Proc
453
                (Prim  => Address_Case,
454
                 Typ   => Typ,
455
                 Stmts => Make_Deep_Array_Body (Address_Case, Typ)));
456
         end if;
457
      end if;
458
   end Build_Array_Deep_Procs;
459
 
460
   ------------------------------
461
   -- Build_Cleanup_Statements --
462
   ------------------------------
463
 
464
   function Build_Cleanup_Statements (N : Node_Id) return List_Id is
465
      Is_Asynchronous_Call : constant Boolean :=
466
                               Nkind (N) = N_Block_Statement
467
                                 and then Is_Asynchronous_Call_Block (N);
468
      Is_Master            : constant Boolean :=
469
                               Nkind (N) /= N_Entry_Body
470
                                 and then Is_Task_Master (N);
471
      Is_Protected_Body    : constant Boolean :=
472
                               Nkind (N) = N_Subprogram_Body
473
                                 and then Is_Protected_Subprogram_Body (N);
474
      Is_Task_Allocation   : constant Boolean :=
475
                               Nkind (N) = N_Block_Statement
476
                                 and then Is_Task_Allocation_Block (N);
477
      Is_Task_Body         : constant Boolean :=
478
                               Nkind (Original_Node (N)) = N_Task_Body;
479
 
480
      Loc   : constant Source_Ptr := Sloc (N);
481
      Stmts : constant List_Id    := New_List;
482
 
483
   begin
484
      if Is_Task_Body then
485
         if Restricted_Profile then
486
            Append_To (Stmts,
487
              Build_Runtime_Call (Loc, RE_Complete_Restricted_Task));
488
         else
489
            Append_To (Stmts, Build_Runtime_Call (Loc, RE_Complete_Task));
490
         end if;
491
 
492
      elsif Is_Master then
493
         if Restriction_Active (No_Task_Hierarchy) = False then
494
            Append_To (Stmts, Build_Runtime_Call (Loc, RE_Complete_Master));
495
         end if;
496
 
497
      --  Add statements to unlock the protected object parameter and to
498
      --  undefer abort. If the context is a protected procedure and the object
499
      --  has entries, call the entry service routine.
500
 
501
      --  NOTE: The generated code references _object, a parameter to the
502
      --  procedure.
503
 
504
      elsif Is_Protected_Body then
505
         declare
506
            Spec      : constant Node_Id := Parent (Corresponding_Spec (N));
507
            Conc_Typ  : Entity_Id;
508
            Nam       : Node_Id;
509
            Param     : Node_Id;
510
            Param_Typ : Entity_Id;
511
 
512
         begin
513
            --  Find the _object parameter representing the protected object
514
 
515
            Param := First (Parameter_Specifications (Spec));
516
            loop
517
               Param_Typ := Etype (Parameter_Type (Param));
518
 
519
               if Ekind (Param_Typ) = E_Record_Type then
520
                  Conc_Typ := Corresponding_Concurrent_Type (Param_Typ);
521
               end if;
522
 
523
               exit when No (Param) or else Present (Conc_Typ);
524
               Next (Param);
525
            end loop;
526
 
527
            pragma Assert (Present (Param));
528
 
529
            --  If the associated protected object has entries, a protected
530
            --  procedure has to service entry queues. In this case generate:
531
 
532
            --    Service_Entries (_object._object'Access);
533
 
534
            if Nkind (Specification (N)) = N_Procedure_Specification
535
              and then Has_Entries (Conc_Typ)
536
            then
537
               case Corresponding_Runtime_Package (Conc_Typ) is
538
                  when System_Tasking_Protected_Objects_Entries =>
539
                     Nam := New_Reference_To (RTE (RE_Service_Entries), Loc);
540
 
541
                  when System_Tasking_Protected_Objects_Single_Entry =>
542
                     Nam := New_Reference_To (RTE (RE_Service_Entry), Loc);
543
 
544
                  when others =>
545
                     raise Program_Error;
546
               end case;
547
 
548
               Append_To (Stmts,
549
                 Make_Procedure_Call_Statement (Loc,
550
                   Name                   => Nam,
551
                   Parameter_Associations => New_List (
552
                     Make_Attribute_Reference (Loc,
553
                       Prefix         =>
554
                         Make_Selected_Component (Loc,
555
                           Prefix        => New_Reference_To (
556
                             Defining_Identifier (Param), Loc),
557
                           Selector_Name =>
558
                             Make_Identifier (Loc, Name_uObject)),
559
                       Attribute_Name => Name_Unchecked_Access))));
560
 
561
            else
562
               --  Generate:
563
               --    Unlock (_object._object'Access);
564
 
565
               case Corresponding_Runtime_Package (Conc_Typ) is
566
                  when System_Tasking_Protected_Objects_Entries =>
567
                     Nam := New_Reference_To (RTE (RE_Unlock_Entries), Loc);
568
 
569
                  when System_Tasking_Protected_Objects_Single_Entry =>
570
                     Nam := New_Reference_To (RTE (RE_Unlock_Entry), Loc);
571
 
572
                  when System_Tasking_Protected_Objects =>
573
                     Nam := New_Reference_To (RTE (RE_Unlock), Loc);
574
 
575
                  when others =>
576
                     raise Program_Error;
577
               end case;
578
 
579
               Append_To (Stmts,
580
                 Make_Procedure_Call_Statement (Loc,
581
                   Name                   => Nam,
582
                   Parameter_Associations => New_List (
583
                     Make_Attribute_Reference (Loc,
584
                       Prefix         =>
585
                         Make_Selected_Component (Loc,
586
                           Prefix        =>
587
                             New_Reference_To
588
                               (Defining_Identifier (Param), Loc),
589
                           Selector_Name =>
590
                             Make_Identifier (Loc, Name_uObject)),
591
                       Attribute_Name => Name_Unchecked_Access))));
592
            end if;
593
 
594
            --  Generate:
595
            --    Abort_Undefer;
596
 
597
            if Abort_Allowed then
598
               Append_To (Stmts,
599
                 Make_Procedure_Call_Statement (Loc,
600
                   Name                   =>
601
                     New_Reference_To (RTE (RE_Abort_Undefer), Loc),
602
                   Parameter_Associations => Empty_List));
603
            end if;
604
         end;
605
 
606
      --  Add a call to Expunge_Unactivated_Tasks for dynamically allocated
607
      --  tasks. Other unactivated tasks are completed by Complete_Task or
608
      --  Complete_Master.
609
 
610
      --  NOTE: The generated code references _chain, a local object
611
 
612
      elsif Is_Task_Allocation then
613
 
614
         --  Generate:
615
         --     Expunge_Unactivated_Tasks (_chain);
616
 
617
         --  where _chain is the list of tasks created by the allocator but not
618
         --  yet activated. This list will be empty unless the block completes
619
         --  abnormally.
620
 
621
         Append_To (Stmts,
622
           Make_Procedure_Call_Statement (Loc,
623
             Name =>
624
               New_Reference_To
625
                 (RTE (RE_Expunge_Unactivated_Tasks), Loc),
626
             Parameter_Associations => New_List (
627
               New_Reference_To (Activation_Chain_Entity (N), Loc))));
628
 
629
      --  Attempt to cancel an asynchronous entry call whenever the block which
630
      --  contains the abortable part is exited.
631
 
632
      --  NOTE: The generated code references Cnn, a local object
633
 
634
      elsif Is_Asynchronous_Call then
635
         declare
636
            Cancel_Param : constant Entity_Id :=
637
                             Entry_Cancel_Parameter (Entity (Identifier (N)));
638
 
639
         begin
640
            --  If it is of type Communication_Block, this must be a protected
641
            --  entry call. Generate:
642
 
643
            --    if Enqueued (Cancel_Param) then
644
            --       Cancel_Protected_Entry_Call (Cancel_Param);
645
            --    end if;
646
 
647
            if Is_RTE (Etype (Cancel_Param), RE_Communication_Block) then
648
               Append_To (Stmts,
649
                 Make_If_Statement (Loc,
650
                   Condition =>
651
                     Make_Function_Call (Loc,
652
                       Name                   =>
653
                         New_Reference_To (RTE (RE_Enqueued), Loc),
654
                       Parameter_Associations => New_List (
655
                         New_Reference_To (Cancel_Param, Loc))),
656
 
657
                   Then_Statements => New_List (
658
                     Make_Procedure_Call_Statement (Loc,
659
                       Name =>
660
                         New_Reference_To
661
                           (RTE (RE_Cancel_Protected_Entry_Call), Loc),
662
                         Parameter_Associations => New_List (
663
                           New_Reference_To (Cancel_Param, Loc))))));
664
 
665
            --  Asynchronous delay, generate:
666
            --    Cancel_Async_Delay (Cancel_Param);
667
 
668
            elsif Is_RTE (Etype (Cancel_Param), RE_Delay_Block) then
669
               Append_To (Stmts,
670
                 Make_Procedure_Call_Statement (Loc,
671
                   Name                   =>
672
                     New_Reference_To (RTE (RE_Cancel_Async_Delay), Loc),
673
                   Parameter_Associations => New_List (
674
                     Make_Attribute_Reference (Loc,
675
                       Prefix         =>
676
                         New_Reference_To (Cancel_Param, Loc),
677
                       Attribute_Name => Name_Unchecked_Access))));
678
 
679
            --  Task entry call, generate:
680
            --    Cancel_Task_Entry_Call (Cancel_Param);
681
 
682
            else
683
               Append_To (Stmts,
684
                 Make_Procedure_Call_Statement (Loc,
685
                   Name                   =>
686
                     New_Reference_To (RTE (RE_Cancel_Task_Entry_Call), Loc),
687
                   Parameter_Associations => New_List (
688
                     New_Reference_To (Cancel_Param, Loc))));
689
            end if;
690
         end;
691
      end if;
692
 
693
      return Stmts;
694
   end Build_Cleanup_Statements;
695
 
696
   -----------------------------
697
   -- Build_Controlling_Procs --
698
   -----------------------------
699
 
700
   procedure Build_Controlling_Procs (Typ : Entity_Id) is
701
   begin
702
      if Is_Array_Type (Typ) then
703
         Build_Array_Deep_Procs (Typ);
704
      else pragma Assert (Is_Record_Type (Typ));
705
         Build_Record_Deep_Procs (Typ);
706
      end if;
707
   end Build_Controlling_Procs;
708
 
709
   -----------------------------
710
   -- Build_Exception_Handler --
711
   -----------------------------
712
 
713
   function Build_Exception_Handler
714
     (Data        : Finalization_Exception_Data;
715
      For_Library : Boolean := False) return Node_Id
716
   is
717
      Actuals      : List_Id;
718
      Proc_To_Call : Entity_Id;
719
 
720
   begin
721
      pragma Assert (Present (Data.E_Id));
722
      pragma Assert (Present (Data.Raised_Id));
723
 
724
      --  Generate:
725
      --    Get_Current_Excep.all.all
726
 
727
      Actuals := New_List (
728
        Make_Explicit_Dereference (Data.Loc,
729
          Prefix =>
730
            Make_Function_Call (Data.Loc,
731
              Name =>
732
                Make_Explicit_Dereference (Data.Loc,
733
                  Prefix =>
734
                    New_Reference_To (RTE (RE_Get_Current_Excep),
735
                                      Data.Loc)))));
736
 
737
      if For_Library and then not Restricted_Profile then
738
         Proc_To_Call := RTE (RE_Save_Library_Occurrence);
739
 
740
      else
741
         Proc_To_Call := RTE (RE_Save_Occurrence);
742
         Prepend_To (Actuals, New_Reference_To (Data.E_Id, Data.Loc));
743
      end if;
744
 
745
      --  Generate:
746
      --    when others =>
747
      --       if not Raised_Id then
748
      --          Raised_Id := True;
749
 
750
      --          Save_Occurrence (E_Id, Get_Current_Excep.all.all);
751
      --            or
752
      --          Save_Library_Occurrence (Get_Current_Excep.all.all);
753
      --       end if;
754
 
755
      return
756
        Make_Exception_Handler (Data.Loc,
757
          Exception_Choices =>
758
            New_List (Make_Others_Choice (Data.Loc)),
759
          Statements => New_List (
760
            Make_If_Statement (Data.Loc,
761
              Condition       =>
762
                Make_Op_Not (Data.Loc,
763
                  Right_Opnd => New_Reference_To (Data.Raised_Id, Data.Loc)),
764
 
765
              Then_Statements => New_List (
766
                Make_Assignment_Statement (Data.Loc,
767
                  Name       => New_Reference_To (Data.Raised_Id, Data.Loc),
768
                  Expression => New_Reference_To (Standard_True, Data.Loc)),
769
 
770
                Make_Procedure_Call_Statement (Data.Loc,
771
                  Name                   =>
772
                    New_Reference_To (Proc_To_Call, Data.Loc),
773
                  Parameter_Associations => Actuals)))));
774
   end Build_Exception_Handler;
775
 
776
   -------------------------------
777
   -- Build_Finalization_Master --
778
   -------------------------------
779
 
780
   procedure Build_Finalization_Master
781
     (Typ        : Entity_Id;
782
      Ins_Node   : Node_Id := Empty;
783
      Encl_Scope : Entity_Id := Empty)
784
   is
785
      Desig_Typ : constant Entity_Id := Directly_Designated_Type (Typ);
786
      Ptr_Typ   : Entity_Id := Root_Type (Base_Type (Typ));
787
 
788
      function In_Deallocation_Instance (E : Entity_Id) return Boolean;
789
      --  Determine whether entity E is inside a wrapper package created for
790
      --  an instance of Ada.Unchecked_Deallocation.
791
 
792
      ------------------------------
793
      -- In_Deallocation_Instance --
794
      ------------------------------
795
 
796
      function In_Deallocation_Instance (E : Entity_Id) return Boolean is
797
         Pkg : constant Entity_Id := Scope (E);
798
         Par : Node_Id := Empty;
799
 
800
      begin
801
         if Ekind (Pkg) = E_Package
802
           and then Present (Related_Instance (Pkg))
803
           and then Ekind (Related_Instance (Pkg)) = E_Procedure
804
         then
805
            Par := Generic_Parent (Parent (Related_Instance (Pkg)));
806
 
807
            return
808
              Present (Par)
809
                and then Chars (Par) = Name_Unchecked_Deallocation
810
                and then Chars (Scope (Par)) = Name_Ada
811
                and then Scope (Scope (Par)) = Standard_Standard;
812
         end if;
813
 
814
         return False;
815
      end In_Deallocation_Instance;
816
 
817
   --  Start of processing for Build_Finalization_Master
818
 
819
   begin
820
      if Is_Private_Type (Ptr_Typ)
821
        and then Present (Full_View (Ptr_Typ))
822
      then
823
         Ptr_Typ := Full_View (Ptr_Typ);
824
      end if;
825
 
826
      --  Certain run-time configurations and targets do not provide support
827
      --  for controlled types.
828
 
829
      if Restriction_Active (No_Finalization) then
830
         return;
831
 
832
      --  Do not process C, C++, CIL and Java types since it is assumend that
833
      --  the non-Ada side will handle their clean up.
834
 
835
      elsif Convention (Desig_Typ) = Convention_C
836
        or else Convention (Desig_Typ) = Convention_CIL
837
        or else Convention (Desig_Typ) = Convention_CPP
838
        or else Convention (Desig_Typ) = Convention_Java
839
      then
840
         return;
841
 
842
      --  Various machinery such as freezing may have already created a
843
      --  finalization master.
844
 
845
      elsif Present (Finalization_Master (Ptr_Typ)) then
846
         return;
847
 
848
      --  Do not process types that return on the secondary stack
849
 
850
      elsif Present (Associated_Storage_Pool (Ptr_Typ))
851
        and then Is_RTE (Associated_Storage_Pool (Ptr_Typ), RE_SS_Pool)
852
      then
853
         return;
854
 
855
      --  Do not process types which may never allocate an object
856
 
857
      elsif No_Pool_Assigned (Ptr_Typ) then
858
         return;
859
 
860
      --  Do not process access types coming from Ada.Unchecked_Deallocation
861
      --  instances. Even though the designated type may be controlled, the
862
      --  access type will never participate in allocation.
863
 
864
      elsif In_Deallocation_Instance (Ptr_Typ) then
865
         return;
866
 
867
      --  Ignore the general use of anonymous access types unless the context
868
      --  requires a finalization master.
869
 
870
      elsif Ekind (Ptr_Typ) = E_Anonymous_Access_Type
871
        and then No (Ins_Node)
872
      then
873
         return;
874
 
875
      --  Do not process non-library access types when restriction No_Nested_
876
      --  Finalization is in effect since masters are controlled objects.
877
 
878
      elsif Restriction_Active (No_Nested_Finalization)
879
        and then not Is_Library_Level_Entity (Ptr_Typ)
880
      then
881
         return;
882
 
883
      --  For .NET/JVM targets, allow the processing of access-to-controlled
884
      --  types where the designated type is explicitly derived from [Limited_]
885
      --  Controlled.
886
 
887
      elsif VM_Target /= No_VM
888
        and then not Is_Controlled (Desig_Typ)
889
      then
890
         return;
891
 
892
      --  Do not create finalization masters in Alfa mode because they result
893
      --  in unwanted expansion.
894
 
895
      elsif Alfa_Mode then
896
         return;
897
      end if;
898
 
899
      declare
900
         Loc        : constant Source_Ptr := Sloc (Ptr_Typ);
901
         Actions    : constant List_Id := New_List;
902
         Fin_Mas_Id : Entity_Id;
903
         Pool_Id    : Entity_Id;
904
 
905
      begin
906
         --  Generate:
907
         --    Fnn : aliased Finalization_Master;
908
 
909
         --  Source access types use fixed master names since the master is
910
         --  inserted in the same source unit only once. The only exception to
911
         --  this are instances using the same access type as generic actual.
912
 
913
         if Comes_From_Source (Ptr_Typ)
914
           and then not Inside_A_Generic
915
         then
916
            Fin_Mas_Id :=
917
              Make_Defining_Identifier (Loc,
918
                Chars => New_External_Name (Chars (Ptr_Typ), "FM"));
919
 
920
         --  Internally generated access types use temporaries as their names
921
         --  due to possible collision with identical names coming from other
922
         --  packages.
923
 
924
         else
925
            Fin_Mas_Id := Make_Temporary (Loc, 'F');
926
         end if;
927
 
928
         Append_To (Actions,
929
           Make_Object_Declaration (Loc,
930
             Defining_Identifier => Fin_Mas_Id,
931
             Aliased_Present     => True,
932
             Object_Definition   =>
933
               New_Reference_To (RTE (RE_Finalization_Master), Loc)));
934
 
935
         --  Storage pool selection and attribute decoration of the generated
936
         --  master. Since .NET/JVM compilers do not support pools, this step
937
         --  is skipped.
938
 
939
         if VM_Target = No_VM then
940
 
941
            --  If the access type has a user-defined pool, use it as the base
942
            --  storage medium for the finalization pool.
943
 
944
            if Present (Associated_Storage_Pool (Ptr_Typ)) then
945
               Pool_Id := Associated_Storage_Pool (Ptr_Typ);
946
 
947
            --  The default choice is the global pool
948
 
949
            else
950
               Pool_Id := Get_Global_Pool_For_Access_Type (Ptr_Typ);
951
               Set_Associated_Storage_Pool (Ptr_Typ, Pool_Id);
952
            end if;
953
 
954
            --  Generate:
955
            --    Set_Base_Pool (Fnn, Pool_Id'Unchecked_Access);
956
 
957
            Append_To (Actions,
958
              Make_Procedure_Call_Statement (Loc,
959
                Name                   =>
960
                  New_Reference_To (RTE (RE_Set_Base_Pool), Loc),
961
                Parameter_Associations => New_List (
962
                  New_Reference_To (Fin_Mas_Id, Loc),
963
                  Make_Attribute_Reference (Loc,
964
                    Prefix         => New_Reference_To (Pool_Id, Loc),
965
                    Attribute_Name => Name_Unrestricted_Access))));
966
         end if;
967
 
968
         Set_Finalization_Master (Ptr_Typ, Fin_Mas_Id);
969
 
970
         --  A finalization master created for an anonymous access type must be
971
         --  inserted before a context-dependent node.
972
 
973
         if Present (Ins_Node) then
974
            Push_Scope (Encl_Scope);
975
 
976
            --  Treat use clauses as declarations and insert directly in front
977
            --  of them.
978
 
979
            if Nkind_In (Ins_Node, N_Use_Package_Clause,
980
                                   N_Use_Type_Clause)
981
            then
982
               Insert_List_Before_And_Analyze (Ins_Node, Actions);
983
            else
984
               Insert_Actions (Ins_Node, Actions);
985
            end if;
986
 
987
            Pop_Scope;
988
 
989
         elsif Ekind (Desig_Typ) = E_Incomplete_Type
990
           and then Has_Completion_In_Body (Desig_Typ)
991
         then
992
            Insert_Actions (Parent (Ptr_Typ), Actions);
993
 
994
         --  If the designated type is not yet frozen, then append the actions
995
         --  to that type's freeze actions. The actions need to be appended to
996
         --  whichever type is frozen later, similarly to what Freeze_Type does
997
         --  for appending the storage pool declaration for an access type.
998
         --  Otherwise, the call to Set_Storage_Pool_Ptr might reference the
999
         --  pool object before it's declared. However, it's not clear that
1000
         --  this is exactly the right test to accomplish that here. ???
1001
 
1002
         elsif Present (Freeze_Node (Desig_Typ))
1003
           and then not Analyzed (Freeze_Node (Desig_Typ))
1004
         then
1005
            Append_Freeze_Actions (Desig_Typ, Actions);
1006
 
1007
         elsif Present (Freeze_Node (Ptr_Typ))
1008
           and then not Analyzed (Freeze_Node (Ptr_Typ))
1009
         then
1010
            Append_Freeze_Actions (Ptr_Typ, Actions);
1011
 
1012
         --  If there's a pool created locally for the access type, then we
1013
         --  need to ensure that the master gets created after the pool object,
1014
         --  because otherwise we can have a forward reference, so we force the
1015
         --  master actions to be inserted and analyzed after the pool entity.
1016
         --  Note that both the access type and its designated type may have
1017
         --  already been frozen and had their freezing actions analyzed at
1018
         --  this point. (This seems a little unclean.???)
1019
 
1020
         elsif VM_Target = No_VM
1021
           and then Scope (Pool_Id) = Scope (Ptr_Typ)
1022
         then
1023
            Insert_List_After_And_Analyze (Parent (Pool_Id), Actions);
1024
 
1025
         else
1026
            Insert_Actions (Parent (Ptr_Typ), Actions);
1027
         end if;
1028
      end;
1029
   end Build_Finalization_Master;
1030
 
1031
   ---------------------
1032
   -- Build_Finalizer --
1033
   ---------------------
1034
 
1035
   procedure Build_Finalizer
1036
     (N           : Node_Id;
1037
      Clean_Stmts : List_Id;
1038
      Mark_Id     : Entity_Id;
1039
      Top_Decls   : List_Id;
1040
      Defer_Abort : Boolean;
1041
      Fin_Id      : out Entity_Id)
1042
   is
1043
      Acts_As_Clean    : constant Boolean :=
1044
                           Present (Mark_Id)
1045
                             or else
1046
                               (Present (Clean_Stmts)
1047
                                 and then Is_Non_Empty_List (Clean_Stmts));
1048
      Exceptions_OK    : constant Boolean :=
1049
                           not Restriction_Active (No_Exception_Propagation);
1050
      For_Package_Body : constant Boolean := Nkind (N) = N_Package_Body;
1051
      For_Package_Spec : constant Boolean := Nkind (N) = N_Package_Declaration;
1052
      For_Package      : constant Boolean :=
1053
                           For_Package_Body or else For_Package_Spec;
1054
      Loc              : constant Source_Ptr := Sloc (N);
1055
 
1056
      --  NOTE: Local variable declarations are conservative and do not create
1057
      --  structures right from the start. Entities and lists are created once
1058
      --  it has been established that N has at least one controlled object.
1059
 
1060
      Components_Built : Boolean := False;
1061
      --  A flag used to avoid double initialization of entities and lists. If
1062
      --  the flag is set then the following variables have been initialized:
1063
      --    Counter_Id
1064
      --    Finalizer_Decls
1065
      --    Finalizer_Stmts
1066
      --    Jump_Alts
1067
 
1068
      Counter_Id  : Entity_Id := Empty;
1069
      Counter_Val : Int       := 0;
1070
      --  Name and value of the state counter
1071
 
1072
      Decls : List_Id := No_List;
1073
      --  Declarative region of N (if available). If N is a package declaration
1074
      --  Decls denotes the visible declarations.
1075
 
1076
      Finalizer_Data : Finalization_Exception_Data;
1077
      --  Data for the exception
1078
 
1079
      Finalizer_Decls : List_Id := No_List;
1080
      --  Local variable declarations. This list holds the label declarations
1081
      --  of all jump block alternatives as well as the declaration of the
1082
      --  local exception occurence and the raised flag:
1083
      --     E : Exception_Occurrence;
1084
      --     Raised : Boolean := False;
1085
      --     L<counter value> : label;
1086
 
1087
      Finalizer_Insert_Nod : Node_Id := Empty;
1088
      --  Insertion point for the finalizer body. Depending on the context
1089
      --  (Nkind of N) and the individual grouping of controlled objects, this
1090
      --  node may denote a package declaration or body, package instantiation,
1091
      --  block statement or a counter update statement.
1092
 
1093
      Finalizer_Stmts : List_Id := No_List;
1094
      --  The statement list of the finalizer body. It contains the following:
1095
      --
1096
      --    Abort_Defer;               --  Added if abort is allowed
1097
      --    <call to Prev_At_End>      --  Added if exists
1098
      --    <cleanup statements>       --  Added if Acts_As_Clean
1099
      --    <jump block>               --  Added if Has_Ctrl_Objs
1100
      --    <finalization statements>  --  Added if Has_Ctrl_Objs
1101
      --    <stack release>            --  Added if Mark_Id exists
1102
      --    Abort_Undefer;             --  Added if abort is allowed
1103
 
1104
      Has_Ctrl_Objs : Boolean := False;
1105
      --  A general flag which denotes whether N has at least one controlled
1106
      --  object.
1107
 
1108
      Has_Tagged_Types : Boolean := False;
1109
      --  A general flag which indicates whether N has at least one library-
1110
      --  level tagged type declaration.
1111
 
1112
      HSS : Node_Id := Empty;
1113
      --  The sequence of statements of N (if available)
1114
 
1115
      Jump_Alts : List_Id := No_List;
1116
      --  Jump block alternatives. Depending on the value of the state counter,
1117
      --  the control flow jumps to a sequence of finalization statements. This
1118
      --  list contains the following:
1119
      --
1120
      --     when <counter value> =>
1121
      --        goto L<counter value>;
1122
 
1123
      Jump_Block_Insert_Nod : Node_Id := Empty;
1124
      --  Specific point in the finalizer statements where the jump block is
1125
      --  inserted.
1126
 
1127
      Last_Top_Level_Ctrl_Construct : Node_Id := Empty;
1128
      --  The last controlled construct encountered when processing the top
1129
      --  level lists of N. This can be a nested package, an instantiation or
1130
      --  an object declaration.
1131
 
1132
      Prev_At_End : Entity_Id := Empty;
1133
      --  The previous at end procedure of the handled statements block of N
1134
 
1135
      Priv_Decls : List_Id := No_List;
1136
      --  The private declarations of N if N is a package declaration
1137
 
1138
      Spec_Id    : Entity_Id := Empty;
1139
      Spec_Decls : List_Id   := Top_Decls;
1140
      Stmts      : List_Id   := No_List;
1141
 
1142
      Tagged_Type_Stmts : List_Id := No_List;
1143
      --  Contains calls to Ada.Tags.Unregister_Tag for all library-level
1144
      --  tagged types found in N.
1145
 
1146
      -----------------------
1147
      -- Local subprograms --
1148
      -----------------------
1149
 
1150
      procedure Build_Components;
1151
      --  Create all entites and initialize all lists used in the creation of
1152
      --  the finalizer.
1153
 
1154
      procedure Create_Finalizer;
1155
      --  Create the spec and body of the finalizer and insert them in the
1156
      --  proper place in the tree depending on the context.
1157
 
1158
      procedure Process_Declarations
1159
        (Decls      : List_Id;
1160
         Preprocess : Boolean := False;
1161
         Top_Level  : Boolean := False);
1162
      --  Inspect a list of declarations or statements which may contain
1163
      --  objects that need finalization. When flag Preprocess is set, the
1164
      --  routine will simply count the total number of controlled objects in
1165
      --  Decls. Flag Top_Level denotes whether the processing is done for
1166
      --  objects in nested package declarations or instances.
1167
 
1168
      procedure Process_Object_Declaration
1169
        (Decl         : Node_Id;
1170
         Has_No_Init  : Boolean := False;
1171
         Is_Protected : Boolean := False);
1172
      --  Generate all the machinery associated with the finalization of a
1173
      --  single object. Flag Has_No_Init is used to denote certain contexts
1174
      --  where Decl does not have initialization call(s). Flag Is_Protected
1175
      --  is set when Decl denotes a simple protected object.
1176
 
1177
      procedure Process_Tagged_Type_Declaration (Decl : Node_Id);
1178
      --  Generate all the code necessary to unregister the external tag of a
1179
      --  tagged type.
1180
 
1181
      ----------------------
1182
      -- Build_Components --
1183
      ----------------------
1184
 
1185
      procedure Build_Components is
1186
         Counter_Decl     : Node_Id;
1187
         Counter_Typ      : Entity_Id;
1188
         Counter_Typ_Decl : Node_Id;
1189
 
1190
      begin
1191
         pragma Assert (Present (Decls));
1192
 
1193
         --  This routine might be invoked several times when dealing with
1194
         --  constructs that have two lists (either two declarative regions
1195
         --  or declarations and statements). Avoid double initialization.
1196
 
1197
         if Components_Built then
1198
            return;
1199
         end if;
1200
 
1201
         Components_Built := True;
1202
 
1203
         if Has_Ctrl_Objs then
1204
 
1205
            --  Create entities for the counter, its type, the local exception
1206
            --  and the raised flag.
1207
 
1208
            Counter_Id  := Make_Temporary (Loc, 'C');
1209
            Counter_Typ := Make_Temporary (Loc, 'T');
1210
 
1211
            Finalizer_Decls := New_List;
1212
 
1213
            Build_Object_Declarations
1214
              (Finalizer_Data, Finalizer_Decls, Loc, For_Package);
1215
 
1216
            --  Since the total number of controlled objects is always known,
1217
            --  build a subtype of Natural with precise bounds. This allows
1218
            --  the backend to optimize the case statement. Generate:
1219
            --
1220
            --    subtype Tnn is Natural range 0 .. Counter_Val;
1221
 
1222
            Counter_Typ_Decl :=
1223
              Make_Subtype_Declaration (Loc,
1224
                Defining_Identifier => Counter_Typ,
1225
                Subtype_Indication  =>
1226
                  Make_Subtype_Indication (Loc,
1227
                    Subtype_Mark => New_Reference_To (Standard_Natural, Loc),
1228
                    Constraint   =>
1229
                      Make_Range_Constraint (Loc,
1230
                        Range_Expression =>
1231
                          Make_Range (Loc,
1232
                            Low_Bound  =>
1233
                              Make_Integer_Literal (Loc, Uint_0),
1234
                            High_Bound =>
1235
                              Make_Integer_Literal (Loc, Counter_Val)))));
1236
 
1237
            --  Generate the declaration of the counter itself:
1238
            --
1239
            --    Counter : Integer := 0;
1240
 
1241
            Counter_Decl :=
1242
              Make_Object_Declaration (Loc,
1243
                Defining_Identifier => Counter_Id,
1244
                Object_Definition   => New_Reference_To (Counter_Typ, Loc),
1245
                Expression          => Make_Integer_Literal (Loc, 0));
1246
 
1247
            --  Set the type of the counter explicitly to prevent errors when
1248
            --  examining object declarations later on.
1249
 
1250
            Set_Etype (Counter_Id, Counter_Typ);
1251
 
1252
            --  The counter and its type are inserted before the source
1253
            --  declarations of N.
1254
 
1255
            Prepend_To (Decls, Counter_Decl);
1256
            Prepend_To (Decls, Counter_Typ_Decl);
1257
 
1258
            --  The counter and its associated type must be manually analized
1259
            --  since N has already been analyzed. Use the scope of the spec
1260
            --  when inserting in a package.
1261
 
1262
            if For_Package then
1263
               Push_Scope (Spec_Id);
1264
               Analyze (Counter_Typ_Decl);
1265
               Analyze (Counter_Decl);
1266
               Pop_Scope;
1267
 
1268
            else
1269
               Analyze (Counter_Typ_Decl);
1270
               Analyze (Counter_Decl);
1271
            end if;
1272
 
1273
            Jump_Alts := New_List;
1274
         end if;
1275
 
1276
         --  If the context requires additional clean up, the finalization
1277
         --  machinery is added after the clean up code.
1278
 
1279
         if Acts_As_Clean then
1280
            Finalizer_Stmts       := Clean_Stmts;
1281
            Jump_Block_Insert_Nod := Last (Finalizer_Stmts);
1282
         else
1283
            Finalizer_Stmts := New_List;
1284
         end if;
1285
 
1286
         if Has_Tagged_Types then
1287
            Tagged_Type_Stmts := New_List;
1288
         end if;
1289
      end Build_Components;
1290
 
1291
      ----------------------
1292
      -- Create_Finalizer --
1293
      ----------------------
1294
 
1295
      procedure Create_Finalizer is
1296
         Body_Id    : Entity_Id;
1297
         Fin_Body   : Node_Id;
1298
         Fin_Spec   : Node_Id;
1299
         Jump_Block : Node_Id;
1300
         Label      : Node_Id;
1301
         Label_Id   : Entity_Id;
1302
 
1303
         function New_Finalizer_Name return Name_Id;
1304
         --  Create a fully qualified name of a package spec or body finalizer.
1305
         --  The generated name is of the form: xx__yy__finalize_[spec|body].
1306
 
1307
         ------------------------
1308
         -- New_Finalizer_Name --
1309
         ------------------------
1310
 
1311
         function New_Finalizer_Name return Name_Id is
1312
            procedure New_Finalizer_Name (Id : Entity_Id);
1313
            --  Place "__<name-of-Id>" in the name buffer. If the identifier
1314
            --  has a non-standard scope, process the scope first.
1315
 
1316
            ------------------------
1317
            -- New_Finalizer_Name --
1318
            ------------------------
1319
 
1320
            procedure New_Finalizer_Name (Id : Entity_Id) is
1321
            begin
1322
               if Scope (Id) = Standard_Standard then
1323
                  Get_Name_String (Chars (Id));
1324
 
1325
               else
1326
                  New_Finalizer_Name (Scope (Id));
1327
                  Add_Str_To_Name_Buffer ("__");
1328
                  Add_Str_To_Name_Buffer (Get_Name_String (Chars (Id)));
1329
               end if;
1330
            end New_Finalizer_Name;
1331
 
1332
         --  Start of processing for New_Finalizer_Name
1333
 
1334
         begin
1335
            --  Create the fully qualified name of the enclosing scope
1336
 
1337
            New_Finalizer_Name (Spec_Id);
1338
 
1339
            --  Generate:
1340
            --    __finalize_[spec|body]
1341
 
1342
            Add_Str_To_Name_Buffer ("__finalize_");
1343
 
1344
            if For_Package_Spec then
1345
               Add_Str_To_Name_Buffer ("spec");
1346
            else
1347
               Add_Str_To_Name_Buffer ("body");
1348
            end if;
1349
 
1350
            return Name_Find;
1351
         end New_Finalizer_Name;
1352
 
1353
      --  Start of processing for Create_Finalizer
1354
 
1355
      begin
1356
         --  Step 1: Creation of the finalizer name
1357
 
1358
         --  Packages must use a distinct name for their finalizers since the
1359
         --  binder will have to generate calls to them by name. The name is
1360
         --  of the following form:
1361
 
1362
         --    xx__yy__finalize_[spec|body]
1363
 
1364
         if For_Package then
1365
            Fin_Id := Make_Defining_Identifier (Loc, New_Finalizer_Name);
1366
            Set_Has_Qualified_Name       (Fin_Id);
1367
            Set_Has_Fully_Qualified_Name (Fin_Id);
1368
 
1369
         --  The default name is _finalizer
1370
 
1371
         else
1372
            Fin_Id :=
1373
              Make_Defining_Identifier (Loc,
1374
                Chars => New_External_Name (Name_uFinalizer));
1375
 
1376
            --  The visibility semantics of AT_END handlers force a strange
1377
            --  separation of spec and body for stack-related finalizers:
1378
 
1379
            --     declare : Enclosing_Scope
1380
            --        procedure _finalizer;
1381
            --     begin
1382
            --        <controlled objects>
1383
            --        procedure _finalizer is
1384
            --           ...
1385
            --     at end
1386
            --        _finalizer;
1387
            --     end;
1388
 
1389
            --  Both spec and body are within the same construct and scope, but
1390
            --  the body is part of the handled sequence of statements. This
1391
            --  placement confuses the elaboration mechanism on targets where
1392
            --  AT_END handlers are expanded into "when all others" handlers:
1393
 
1394
            --     exception
1395
            --        when all others =>
1396
            --           _finalizer;  --  appears to require elab checks
1397
            --     at end
1398
            --        _finalizer;
1399
            --     end;
1400
 
1401
            --  Since the compiler guarantees that the body of a _finalizer is
1402
            --  always inserted in the same construct where the AT_END handler
1403
            --  resides, there is no need for elaboration checks.
1404
 
1405
            Set_Kill_Elaboration_Checks (Fin_Id);
1406
         end if;
1407
 
1408
         --  Step 2: Creation of the finalizer specification
1409
 
1410
         --  Generate:
1411
         --    procedure Fin_Id;
1412
 
1413
         Fin_Spec :=
1414
           Make_Subprogram_Declaration (Loc,
1415
             Specification =>
1416
               Make_Procedure_Specification (Loc,
1417
                 Defining_Unit_Name => Fin_Id));
1418
 
1419
         --  Step 3: Creation of the finalizer body
1420
 
1421
         if Has_Ctrl_Objs then
1422
 
1423
            --  Add L0, the default destination to the jump block
1424
 
1425
            Label_Id := Make_Identifier (Loc, New_External_Name ('L', 0));
1426
            Set_Entity (Label_Id,
1427
              Make_Defining_Identifier (Loc, Chars (Label_Id)));
1428
            Label := Make_Label (Loc, Label_Id);
1429
 
1430
            --  Generate:
1431
            --    L0 : label;
1432
 
1433
            Prepend_To (Finalizer_Decls,
1434
              Make_Implicit_Label_Declaration (Loc,
1435
                Defining_Identifier => Entity (Label_Id),
1436
                Label_Construct     => Label));
1437
 
1438
            --  Generate:
1439
            --    when others =>
1440
            --       goto L0;
1441
 
1442
            Append_To (Jump_Alts,
1443
              Make_Case_Statement_Alternative (Loc,
1444
                Discrete_Choices => New_List (Make_Others_Choice (Loc)),
1445
                Statements       => New_List (
1446
                  Make_Goto_Statement (Loc,
1447
                    Name => New_Reference_To (Entity (Label_Id), Loc)))));
1448
 
1449
            --  Generate:
1450
            --    <<L0>>
1451
 
1452
            Append_To (Finalizer_Stmts, Label);
1453
 
1454
            --  The local exception does not need to be reraised for library-
1455
            --  level finalizers. Generate:
1456
            --
1457
            --    if Raised and then not Abort then
1458
            --       Raise_From_Controlled_Operation (E);
1459
            --    end if;
1460
 
1461
            if not For_Package
1462
              and then Exceptions_OK
1463
            then
1464
               Append_To (Finalizer_Stmts,
1465
                 Build_Raise_Statement (Finalizer_Data));
1466
            end if;
1467
 
1468
            --  Create the jump block which controls the finalization flow
1469
            --  depending on the value of the state counter.
1470
 
1471
            Jump_Block :=
1472
              Make_Case_Statement (Loc,
1473
                Expression   => Make_Identifier (Loc, Chars (Counter_Id)),
1474
                Alternatives => Jump_Alts);
1475
 
1476
            if Acts_As_Clean
1477
              and then Present (Jump_Block_Insert_Nod)
1478
            then
1479
               Insert_After (Jump_Block_Insert_Nod, Jump_Block);
1480
            else
1481
               Prepend_To (Finalizer_Stmts, Jump_Block);
1482
            end if;
1483
         end if;
1484
 
1485
         --  Add the library-level tagged type unregistration machinery before
1486
         --  the jump block circuitry. This ensures that external tags will be
1487
         --  removed even if a finalization exception occurs at some point.
1488
 
1489
         if Has_Tagged_Types then
1490
            Prepend_List_To (Finalizer_Stmts, Tagged_Type_Stmts);
1491
         end if;
1492
 
1493
         --  Add a call to the previous At_End handler if it exists. The call
1494
         --  must always precede the jump block.
1495
 
1496
         if Present (Prev_At_End) then
1497
            Prepend_To (Finalizer_Stmts,
1498
              Make_Procedure_Call_Statement (Loc, Prev_At_End));
1499
 
1500
            --  Clear the At_End handler since we have already generated the
1501
            --  proper replacement call for it.
1502
 
1503
            Set_At_End_Proc (HSS, Empty);
1504
         end if;
1505
 
1506
         --  Release the secondary stack mark
1507
 
1508
         if Present (Mark_Id) then
1509
            Append_To (Finalizer_Stmts,
1510
              Make_Procedure_Call_Statement (Loc,
1511
                Name                   =>
1512
                  New_Reference_To (RTE (RE_SS_Release), Loc),
1513
                Parameter_Associations => New_List (
1514
                  New_Reference_To (Mark_Id, Loc))));
1515
         end if;
1516
 
1517
         --  Protect the statements with abort defer/undefer. This is only when
1518
         --  aborts are allowed and the clean up statements require deferral or
1519
         --  there are controlled objects to be finalized.
1520
 
1521
         if Abort_Allowed
1522
           and then
1523
             (Defer_Abort or else Has_Ctrl_Objs)
1524
         then
1525
            Prepend_To (Finalizer_Stmts,
1526
              Make_Procedure_Call_Statement (Loc,
1527
                Name => New_Reference_To (RTE (RE_Abort_Defer), Loc)));
1528
 
1529
            Append_To (Finalizer_Stmts,
1530
              Make_Procedure_Call_Statement (Loc,
1531
                Name => New_Reference_To (RTE (RE_Abort_Undefer), Loc)));
1532
         end if;
1533
 
1534
         --  Generate:
1535
         --    procedure Fin_Id is
1536
         --       Abort  : constant Boolean := Triggered_By_Abort;
1537
         --         <or>
1538
         --       Abort  : constant Boolean := False;  --  no abort
1539
 
1540
         --       E      : Exception_Occurrence;  --  All added if flag
1541
         --       Raised : Boolean := False;      --  Has_Ctrl_Objs is set
1542
         --       L0     : label;
1543
         --       ...
1544
         --       Lnn    : label;
1545
 
1546
         --    begin
1547
         --       Abort_Defer;               --  Added if abort is allowed
1548
         --       <call to Prev_At_End>      --  Added if exists
1549
         --       <cleanup statements>       --  Added if Acts_As_Clean
1550
         --       <jump block>               --  Added if Has_Ctrl_Objs
1551
         --       <finalization statements>  --  Added if Has_Ctrl_Objs
1552
         --       <stack release>            --  Added if Mark_Id exists
1553
         --       Abort_Undefer;             --  Added if abort is allowed
1554
         --    end Fin_Id;
1555
 
1556
         --  Create the body of the finalizer
1557
 
1558
         Body_Id := Make_Defining_Identifier (Loc, Chars (Fin_Id));
1559
 
1560
         if For_Package then
1561
            Set_Has_Qualified_Name       (Body_Id);
1562
            Set_Has_Fully_Qualified_Name (Body_Id);
1563
         end if;
1564
 
1565
         Fin_Body :=
1566
           Make_Subprogram_Body (Loc,
1567
             Specification              =>
1568
               Make_Procedure_Specification (Loc,
1569
                 Defining_Unit_Name => Body_Id),
1570
             Declarations               => Finalizer_Decls,
1571
             Handled_Statement_Sequence =>
1572
               Make_Handled_Sequence_Of_Statements (Loc, Finalizer_Stmts));
1573
 
1574
         --  Step 4: Spec and body insertion, analysis
1575
 
1576
         if For_Package then
1577
 
1578
            --  If the package spec has private declarations, the finalizer
1579
            --  body must be added to the end of the list in order to have
1580
            --  visibility of all private controlled objects.
1581
 
1582
            if For_Package_Spec then
1583
               if Present (Priv_Decls) then
1584
                  Append_To (Priv_Decls, Fin_Spec);
1585
                  Append_To (Priv_Decls, Fin_Body);
1586
               else
1587
                  Append_To (Decls, Fin_Spec);
1588
                  Append_To (Decls, Fin_Body);
1589
               end if;
1590
 
1591
            --  For package bodies, both the finalizer spec and body are
1592
            --  inserted at the end of the package declarations.
1593
 
1594
            else
1595
               Append_To (Decls, Fin_Spec);
1596
               Append_To (Decls, Fin_Body);
1597
            end if;
1598
 
1599
            --  Push the name of the package
1600
 
1601
            Push_Scope (Spec_Id);
1602
            Analyze (Fin_Spec);
1603
            Analyze (Fin_Body);
1604
            Pop_Scope;
1605
 
1606
         --  Non-package case
1607
 
1608
         else
1609
            --  Create the spec for the finalizer. The At_End handler must be
1610
            --  able to call the body which resides in a nested structure.
1611
 
1612
            --  Generate:
1613
            --    declare
1614
            --       procedure Fin_Id;                  --  Spec
1615
            --    begin
1616
            --       <objects and possibly statements>
1617
            --       procedure Fin_Id is ...            --  Body
1618
            --       <statements>
1619
            --    at end
1620
            --       Fin_Id;                            --  At_End handler
1621
            --    end;
1622
 
1623
            pragma Assert (Present (Spec_Decls));
1624
 
1625
            Append_To (Spec_Decls, Fin_Spec);
1626
            Analyze (Fin_Spec);
1627
 
1628
            --  When the finalizer acts solely as a clean up routine, the body
1629
            --  is inserted right after the spec.
1630
 
1631
            if Acts_As_Clean
1632
              and then not Has_Ctrl_Objs
1633
            then
1634
               Insert_After (Fin_Spec, Fin_Body);
1635
 
1636
            --  In all other cases the body is inserted after either:
1637
            --
1638
            --    1) The counter update statement of the last controlled object
1639
            --    2) The last top level nested controlled package
1640
            --    3) The last top level controlled instantiation
1641
 
1642
            else
1643
               --  Manually freeze the spec. This is somewhat of a hack because
1644
               --  a subprogram is frozen when its body is seen and the freeze
1645
               --  node appears right before the body. However, in this case,
1646
               --  the spec must be frozen earlier since the At_End handler
1647
               --  must be able to call it.
1648
               --
1649
               --    declare
1650
               --       procedure Fin_Id;               --  Spec
1651
               --       [Fin_Id]                        --  Freeze node
1652
               --    begin
1653
               --       ...
1654
               --    at end
1655
               --       Fin_Id;                         --  At_End handler
1656
               --    end;
1657
 
1658
               Ensure_Freeze_Node (Fin_Id);
1659
               Insert_After (Fin_Spec, Freeze_Node (Fin_Id));
1660
               Set_Is_Frozen (Fin_Id);
1661
 
1662
               --  In the case where the last construct to contain a controlled
1663
               --  object is either a nested package, an instantiation or a
1664
               --  freeze node, the body must be inserted directly after the
1665
               --  construct.
1666
 
1667
               if Nkind_In (Last_Top_Level_Ctrl_Construct,
1668
                              N_Freeze_Entity,
1669
                              N_Package_Declaration,
1670
                              N_Package_Body)
1671
               then
1672
                  Finalizer_Insert_Nod := Last_Top_Level_Ctrl_Construct;
1673
               end if;
1674
 
1675
               Insert_After (Finalizer_Insert_Nod, Fin_Body);
1676
            end if;
1677
 
1678
            Analyze (Fin_Body);
1679
         end if;
1680
      end Create_Finalizer;
1681
 
1682
      --------------------------
1683
      -- Process_Declarations --
1684
      --------------------------
1685
 
1686
      procedure Process_Declarations
1687
        (Decls      : List_Id;
1688
         Preprocess : Boolean := False;
1689
         Top_Level  : Boolean := False)
1690
      is
1691
         Decl    : Node_Id;
1692
         Expr    : Node_Id;
1693
         Obj_Id  : Entity_Id;
1694
         Obj_Typ : Entity_Id;
1695
         Pack_Id : Entity_Id;
1696
         Spec    : Node_Id;
1697
         Typ     : Entity_Id;
1698
 
1699
         Old_Counter_Val : Int;
1700
         --  This variable is used to determine whether a nested package or
1701
         --  instance contains at least one controlled object.
1702
 
1703
         procedure Processing_Actions
1704
           (Has_No_Init  : Boolean := False;
1705
            Is_Protected : Boolean := False);
1706
         --  Depending on the mode of operation of Process_Declarations, either
1707
         --  increment the controlled object counter, set the controlled object
1708
         --  flag and store the last top level construct or process the current
1709
         --  declaration. Flag Has_No_Init is used to propagate scenarios where
1710
         --  the current declaration may not have initialization proc(s). Flag
1711
         --  Is_Protected should be set when the current declaration denotes a
1712
         --  simple protected object.
1713
 
1714
         ------------------------
1715
         -- Processing_Actions --
1716
         ------------------------
1717
 
1718
         procedure Processing_Actions
1719
           (Has_No_Init  : Boolean := False;
1720
            Is_Protected : Boolean := False)
1721
         is
1722
         begin
1723
            --  Library-level tagged type
1724
 
1725
            if Nkind (Decl) = N_Full_Type_Declaration then
1726
               if Preprocess then
1727
                  Has_Tagged_Types := True;
1728
 
1729
                  if Top_Level
1730
                    and then No (Last_Top_Level_Ctrl_Construct)
1731
                  then
1732
                     Last_Top_Level_Ctrl_Construct := Decl;
1733
                  end if;
1734
 
1735
               else
1736
                  Process_Tagged_Type_Declaration (Decl);
1737
               end if;
1738
 
1739
            --  Controlled object declaration
1740
 
1741
            else
1742
               if Preprocess then
1743
                  Counter_Val   := Counter_Val + 1;
1744
                  Has_Ctrl_Objs := True;
1745
 
1746
                  if Top_Level
1747
                    and then No (Last_Top_Level_Ctrl_Construct)
1748
                  then
1749
                     Last_Top_Level_Ctrl_Construct := Decl;
1750
                  end if;
1751
 
1752
               else
1753
                  Process_Object_Declaration (Decl, Has_No_Init, Is_Protected);
1754
               end if;
1755
            end if;
1756
         end Processing_Actions;
1757
 
1758
      --  Start of processing for Process_Declarations
1759
 
1760
      begin
1761
         if No (Decls) or else Is_Empty_List (Decls) then
1762
            return;
1763
         end if;
1764
 
1765
         --  Process all declarations in reverse order
1766
 
1767
         Decl := Last_Non_Pragma (Decls);
1768
         while Present (Decl) loop
1769
 
1770
            --  Library-level tagged types
1771
 
1772
            if Nkind (Decl) = N_Full_Type_Declaration then
1773
               Typ := Defining_Identifier (Decl);
1774
 
1775
               if Is_Tagged_Type (Typ)
1776
                 and then Is_Library_Level_Entity (Typ)
1777
                 and then Convention (Typ) = Convention_Ada
1778
                 and then Present (Access_Disp_Table (Typ))
1779
                 and then RTE_Available (RE_Register_Tag)
1780
                 and then not No_Run_Time_Mode
1781
                 and then not Is_Abstract_Type (Typ)
1782
               then
1783
                  Processing_Actions;
1784
               end if;
1785
 
1786
            --  Regular object declarations
1787
 
1788
            elsif Nkind (Decl) = N_Object_Declaration then
1789
               Obj_Id  := Defining_Identifier (Decl);
1790
               Obj_Typ := Base_Type (Etype (Obj_Id));
1791
               Expr    := Expression (Decl);
1792
 
1793
               --  Bypass any form of processing for objects which have their
1794
               --  finalization disabled. This applies only to objects at the
1795
               --  library level.
1796
 
1797
               if For_Package
1798
                 and then Finalize_Storage_Only (Obj_Typ)
1799
               then
1800
                  null;
1801
 
1802
               --  Transient variables are treated separately in order to
1803
               --  minimize the size of the generated code. For details, see
1804
               --  Process_Transient_Objects.
1805
 
1806
               elsif Is_Processed_Transient (Obj_Id) then
1807
                  null;
1808
 
1809
               --  The object is of the form:
1810
               --    Obj : Typ [:= Expr];
1811
 
1812
               --  Do not process the incomplete view of a deferred constant.
1813
               --  Do not consider tag-to-class-wide conversions.
1814
 
1815
               elsif not Is_Imported (Obj_Id)
1816
                 and then Needs_Finalization (Obj_Typ)
1817
                 and then not (Ekind (Obj_Id) = E_Constant
1818
                                and then not Has_Completion (Obj_Id))
1819
                 and then not Is_Tag_To_Class_Wide_Conversion (Obj_Id)
1820
               then
1821
                  Processing_Actions;
1822
 
1823
               --  The object is of the form:
1824
               --    Obj : Access_Typ := Non_BIP_Function_Call'reference;
1825
 
1826
               --    Obj : Access_Typ :=
1827
               --            BIP_Function_Call
1828
               --              (..., BIPaccess => null, ...)'reference;
1829
 
1830
               elsif Is_Access_Type (Obj_Typ)
1831
                 and then Needs_Finalization
1832
                            (Available_View (Designated_Type (Obj_Typ)))
1833
                 and then Present (Expr)
1834
                 and then
1835
                   (Is_Null_Access_BIP_Func_Call (Expr)
1836
                     or else
1837
                       (Is_Non_BIP_Func_Call (Expr)
1838
                         and then not Is_Related_To_Func_Return (Obj_Id)))
1839
               then
1840
                  Processing_Actions (Has_No_Init => True);
1841
 
1842
               --  Processing for "hook" objects generated for controlled
1843
               --  transients declared inside an Expression_With_Actions.
1844
 
1845
               elsif Is_Access_Type (Obj_Typ)
1846
                 and then Present (Return_Flag_Or_Transient_Decl (Obj_Id))
1847
                 and then Nkind (Return_Flag_Or_Transient_Decl (Obj_Id)) =
1848
                                   N_Object_Declaration
1849
                 and then Is_Finalizable_Transient
1850
                            (Return_Flag_Or_Transient_Decl (Obj_Id), Decl)
1851
               then
1852
                  Processing_Actions (Has_No_Init => True);
1853
 
1854
               --  Simple protected objects which use type System.Tasking.
1855
               --  Protected_Objects.Protection to manage their locks should
1856
               --  be treated as controlled since they require manual cleanup.
1857
               --  The only exception is illustrated in the following example:
1858
 
1859
               --     package Pkg is
1860
               --        type Ctrl is new Controlled ...
1861
               --        procedure Finalize (Obj : in out Ctrl);
1862
               --        Lib_Obj : Ctrl;
1863
               --     end Pkg;
1864
 
1865
               --     package body Pkg is
1866
               --        protected Prot is
1867
               --           procedure Do_Something (Obj : in out Ctrl);
1868
               --        end Prot;
1869
 
1870
               --        protected body Prot is
1871
               --           procedure Do_Something (Obj : in out Ctrl) is ...
1872
               --        end Prot;
1873
 
1874
               --        procedure Finalize (Obj : in out Ctrl) is
1875
               --        begin
1876
               --           Prot.Do_Something (Obj);
1877
               --        end Finalize;
1878
               --     end Pkg;
1879
 
1880
               --  Since for the most part entities in package bodies depend on
1881
               --  those in package specs, Prot's lock should be cleaned up
1882
               --  first. The subsequent cleanup of the spec finalizes Lib_Obj.
1883
               --  This act however attempts to invoke Do_Something and fails
1884
               --  because the lock has disappeared.
1885
 
1886
               elsif Ekind (Obj_Id) = E_Variable
1887
                 and then not In_Library_Level_Package_Body (Obj_Id)
1888
                 and then
1889
                   (Is_Simple_Protected_Type (Obj_Typ)
1890
                     or else Has_Simple_Protected_Object (Obj_Typ))
1891
               then
1892
                  Processing_Actions (Is_Protected => True);
1893
               end if;
1894
 
1895
            --  Specific cases of object renamings
1896
 
1897
            elsif Nkind (Decl) = N_Object_Renaming_Declaration then
1898
               Obj_Id  := Defining_Identifier (Decl);
1899
               Obj_Typ := Base_Type (Etype (Obj_Id));
1900
 
1901
               --  Bypass any form of processing for objects which have their
1902
               --  finalization disabled. This applies only to objects at the
1903
               --  library level.
1904
 
1905
               if For_Package
1906
                 and then Finalize_Storage_Only (Obj_Typ)
1907
               then
1908
                  null;
1909
 
1910
               --  Return object of a build-in-place function. This case is
1911
               --  recognized and marked by the expansion of an extended return
1912
               --  statement (see Expand_N_Extended_Return_Statement).
1913
 
1914
               elsif Needs_Finalization (Obj_Typ)
1915
                 and then Is_Return_Object (Obj_Id)
1916
                 and then Present (Return_Flag_Or_Transient_Decl (Obj_Id))
1917
               then
1918
                  Processing_Actions (Has_No_Init => True);
1919
 
1920
               --  Detect a case where a source object has been initialized by
1921
               --  a controlled function call which was later rewritten as a
1922
               --  class-wide conversion of Ada.Tags.Displace.
1923
 
1924
               --     Obj : Class_Wide_Type := Function_Call (...);
1925
 
1926
               --     Temp : ... := Function_Call (...)'reference;
1927
               --     Obj  : Class_Wide_Type renames
1928
               --              (... Ada.Tags.Displace (Temp));
1929
 
1930
               elsif Is_Displacement_Of_Ctrl_Function_Result (Obj_Id) then
1931
                  Processing_Actions (Has_No_Init => True);
1932
               end if;
1933
 
1934
            --  Inspect the freeze node of an access-to-controlled type and
1935
            --  look for a delayed finalization master. This case arises when
1936
            --  the freeze actions are inserted at a later time than the
1937
            --  expansion of the context. Since Build_Finalizer is never called
1938
            --  on a single construct twice, the master will be ultimately
1939
            --  left out and never finalized. This is also needed for freeze
1940
            --  actions of designated types themselves, since in some cases the
1941
            --  finalization master is associated with a designated type's
1942
            --  freeze node rather than that of the access type (see handling
1943
            --  for freeze actions in Build_Finalization_Master).
1944
 
1945
            elsif Nkind (Decl) = N_Freeze_Entity
1946
              and then Present (Actions (Decl))
1947
            then
1948
               Typ := Entity (Decl);
1949
 
1950
               if (Is_Access_Type (Typ)
1951
                    and then not Is_Access_Subprogram_Type (Typ)
1952
                    and then Needs_Finalization
1953
                               (Available_View (Designated_Type (Typ))))
1954
                 or else (Is_Type (Typ) and then Needs_Finalization (Typ))
1955
               then
1956
                  Old_Counter_Val := Counter_Val;
1957
 
1958
                  --  Freeze nodes are considered to be identical to packages
1959
                  --  and blocks in terms of nesting. The difference is that
1960
                  --  a finalization master created inside the freeze node is
1961
                  --  at the same nesting level as the node itself.
1962
 
1963
                  Process_Declarations (Actions (Decl), Preprocess);
1964
 
1965
                  --  The freeze node contains a finalization master
1966
 
1967
                  if Preprocess
1968
                    and then Top_Level
1969
                    and then No (Last_Top_Level_Ctrl_Construct)
1970
                    and then Counter_Val > Old_Counter_Val
1971
                  then
1972
                     Last_Top_Level_Ctrl_Construct := Decl;
1973
                  end if;
1974
               end if;
1975
 
1976
            --  Nested package declarations, avoid generics
1977
 
1978
            elsif Nkind (Decl) = N_Package_Declaration then
1979
               Spec    := Specification (Decl);
1980
               Pack_Id := Defining_Unit_Name (Spec);
1981
 
1982
               if Nkind (Pack_Id) = N_Defining_Program_Unit_Name then
1983
                  Pack_Id := Defining_Identifier (Pack_Id);
1984
               end if;
1985
 
1986
               if Ekind (Pack_Id) /= E_Generic_Package then
1987
                  Old_Counter_Val := Counter_Val;
1988
                  Process_Declarations
1989
                    (Private_Declarations (Spec), Preprocess);
1990
                  Process_Declarations
1991
                    (Visible_Declarations (Spec), Preprocess);
1992
 
1993
                  --  Either the visible or the private declarations contain a
1994
                  --  controlled object. The nested package declaration is the
1995
                  --  last such construct.
1996
 
1997
                  if Preprocess
1998
                    and then Top_Level
1999
                    and then No (Last_Top_Level_Ctrl_Construct)
2000
                    and then Counter_Val > Old_Counter_Val
2001
                  then
2002
                     Last_Top_Level_Ctrl_Construct := Decl;
2003
                  end if;
2004
               end if;
2005
 
2006
            --  Nested package bodies, avoid generics
2007
 
2008
            elsif Nkind (Decl) = N_Package_Body then
2009
               Spec := Corresponding_Spec (Decl);
2010
 
2011
               if Ekind (Spec) /= E_Generic_Package then
2012
                  Old_Counter_Val := Counter_Val;
2013
                  Process_Declarations (Declarations (Decl), Preprocess);
2014
 
2015
                  --  The nested package body is the last construct to contain
2016
                  --  a controlled object.
2017
 
2018
                  if Preprocess
2019
                    and then Top_Level
2020
                    and then No (Last_Top_Level_Ctrl_Construct)
2021
                    and then Counter_Val > Old_Counter_Val
2022
                  then
2023
                     Last_Top_Level_Ctrl_Construct := Decl;
2024
                  end if;
2025
               end if;
2026
 
2027
            --  Handle a rare case caused by a controlled transient variable
2028
            --  created as part of a record init proc. The variable is wrapped
2029
            --  in a block, but the block is not associated with a transient
2030
            --  scope.
2031
 
2032
            elsif Nkind (Decl) = N_Block_Statement
2033
              and then Inside_Init_Proc
2034
            then
2035
               Old_Counter_Val := Counter_Val;
2036
 
2037
               if Present (Handled_Statement_Sequence (Decl)) then
2038
                  Process_Declarations
2039
                    (Statements (Handled_Statement_Sequence (Decl)),
2040
                     Preprocess);
2041
               end if;
2042
 
2043
               Process_Declarations (Declarations (Decl), Preprocess);
2044
 
2045
               --  Either the declaration or statement list of the block has a
2046
               --  controlled object.
2047
 
2048
               if Preprocess
2049
                 and then Top_Level
2050
                 and then No (Last_Top_Level_Ctrl_Construct)
2051
                 and then Counter_Val > Old_Counter_Val
2052
               then
2053
                  Last_Top_Level_Ctrl_Construct := Decl;
2054
               end if;
2055
            end if;
2056
 
2057
            Prev_Non_Pragma (Decl);
2058
         end loop;
2059
      end Process_Declarations;
2060
 
2061
      --------------------------------
2062
      -- Process_Object_Declaration --
2063
      --------------------------------
2064
 
2065
      procedure Process_Object_Declaration
2066
        (Decl         : Node_Id;
2067
         Has_No_Init  : Boolean := False;
2068
         Is_Protected : Boolean := False)
2069
      is
2070
         Obj_Id    : constant Entity_Id := Defining_Identifier (Decl);
2071
         Loc       : constant Source_Ptr := Sloc (Decl);
2072
         Body_Ins  : Node_Id;
2073
         Count_Ins : Node_Id;
2074
         Fin_Call  : Node_Id;
2075
         Fin_Stmts : List_Id;
2076
         Inc_Decl  : Node_Id;
2077
         Label     : Node_Id;
2078
         Label_Id  : Entity_Id;
2079
         Obj_Ref   : Node_Id;
2080
         Obj_Typ   : Entity_Id;
2081
 
2082
         function Build_BIP_Cleanup_Stmts (Func_Id : Entity_Id) return Node_Id;
2083
         --  Once it has been established that the current object is in fact a
2084
         --  return object of build-in-place function Func_Id, generate the
2085
         --  following cleanup code:
2086
         --
2087
         --    if BIPallocfrom > Secondary_Stack'Pos
2088
         --      and then BIPfinalizationmaster /= null
2089
         --    then
2090
         --       declare
2091
         --          type Ptr_Typ is access Obj_Typ;
2092
         --          for Ptr_Typ'Storage_Pool
2093
         --            use Base_Pool (BIPfinalizationmaster);
2094
         --       begin
2095
         --          Free (Ptr_Typ (Temp));
2096
         --       end;
2097
         --    end if;
2098
         --
2099
         --  Obj_Typ is the type of the current object, Temp is the original
2100
         --  allocation which Obj_Id renames.
2101
 
2102
         procedure Find_Last_Init
2103
           (Decl        : Node_Id;
2104
            Typ         : Entity_Id;
2105
            Last_Init   : out Node_Id;
2106
            Body_Insert : out Node_Id);
2107
         --  An object declaration has at least one and at most two init calls:
2108
         --  that of the type and the user-defined initialize. Given an object
2109
         --  declaration, Last_Init denotes the last initialization call which
2110
         --  follows the declaration. Body_Insert denotes the place where the
2111
         --  finalizer body could be potentially inserted.
2112
 
2113
         -----------------------------
2114
         -- Build_BIP_Cleanup_Stmts --
2115
         -----------------------------
2116
 
2117
         function Build_BIP_Cleanup_Stmts
2118
           (Func_Id : Entity_Id) return Node_Id
2119
         is
2120
            Decls      : constant List_Id := New_List;
2121
            Fin_Mas_Id : constant Entity_Id :=
2122
                           Build_In_Place_Formal
2123
                             (Func_Id, BIP_Finalization_Master);
2124
            Obj_Typ    : constant Entity_Id := Etype (Func_Id);
2125
            Temp_Id    : constant Entity_Id :=
2126
                           Entity (Prefix (Name (Parent (Obj_Id))));
2127
 
2128
            Cond      : Node_Id;
2129
            Free_Blk  : Node_Id;
2130
            Free_Stmt : Node_Id;
2131
            Pool_Id   : Entity_Id;
2132
            Ptr_Typ   : Entity_Id;
2133
 
2134
         begin
2135
            --  Generate:
2136
            --    Pool_Id renames Base_Pool (BIPfinalizationmaster.all).all;
2137
 
2138
            Pool_Id := Make_Temporary (Loc, 'P');
2139
 
2140
            Append_To (Decls,
2141
              Make_Object_Renaming_Declaration (Loc,
2142
                Defining_Identifier => Pool_Id,
2143
                Subtype_Mark        =>
2144
                  New_Reference_To (RTE (RE_Root_Storage_Pool), Loc),
2145
                Name                =>
2146
                  Make_Explicit_Dereference (Loc,
2147
                    Prefix =>
2148
                      Make_Function_Call (Loc,
2149
                        Name                   =>
2150
                          New_Reference_To (RTE (RE_Base_Pool), Loc),
2151
                        Parameter_Associations => New_List (
2152
                          Make_Explicit_Dereference (Loc,
2153
                            Prefix => New_Reference_To (Fin_Mas_Id, Loc)))))));
2154
 
2155
            --  Create an access type which uses the storage pool of the
2156
            --  caller's finalization master.
2157
 
2158
            --  Generate:
2159
            --    type Ptr_Typ is access Obj_Typ;
2160
 
2161
            Ptr_Typ := Make_Temporary (Loc, 'P');
2162
 
2163
            Append_To (Decls,
2164
              Make_Full_Type_Declaration (Loc,
2165
                Defining_Identifier => Ptr_Typ,
2166
                Type_Definition     =>
2167
                  Make_Access_To_Object_Definition (Loc,
2168
                    Subtype_Indication => New_Reference_To (Obj_Typ, Loc))));
2169
 
2170
            --  Perform minor decoration in order to set the master and the
2171
            --  storage pool attributes.
2172
 
2173
            Set_Ekind (Ptr_Typ, E_Access_Type);
2174
            Set_Finalization_Master     (Ptr_Typ, Fin_Mas_Id);
2175
            Set_Associated_Storage_Pool (Ptr_Typ, Pool_Id);
2176
 
2177
            --  Create an explicit free statement. Note that the free uses the
2178
            --  caller's pool expressed as a renaming.
2179
 
2180
            Free_Stmt :=
2181
              Make_Free_Statement (Loc,
2182
                Expression =>
2183
                  Unchecked_Convert_To (Ptr_Typ,
2184
                    New_Reference_To (Temp_Id, Loc)));
2185
 
2186
            Set_Storage_Pool (Free_Stmt, Pool_Id);
2187
 
2188
            --  Create a block to house the dummy type and the instantiation as
2189
            --  well as to perform the cleanup the temporary.
2190
 
2191
            --  Generate:
2192
            --    declare
2193
            --       <Decls>
2194
            --    begin
2195
            --       Free (Ptr_Typ (Temp_Id));
2196
            --    end;
2197
 
2198
            Free_Blk :=
2199
              Make_Block_Statement (Loc,
2200
                Declarations               => Decls,
2201
                Handled_Statement_Sequence =>
2202
                  Make_Handled_Sequence_Of_Statements (Loc,
2203
                    Statements => New_List (Free_Stmt)));
2204
 
2205
            --  Generate:
2206
            --    if BIPfinalizationmaster /= null then
2207
 
2208
            Cond :=
2209
              Make_Op_Ne (Loc,
2210
                Left_Opnd  => New_Reference_To (Fin_Mas_Id, Loc),
2211
                Right_Opnd => Make_Null (Loc));
2212
 
2213
            --  For constrained or tagged results escalate the condition to
2214
            --  include the allocation format. Generate:
2215
            --
2216
            --    if BIPallocform > Secondary_Stack'Pos
2217
            --      and then BIPfinalizationmaster /= null
2218
            --    then
2219
 
2220
            if not Is_Constrained (Obj_Typ)
2221
              or else Is_Tagged_Type (Obj_Typ)
2222
            then
2223
               declare
2224
                  Alloc : constant Entity_Id :=
2225
                            Build_In_Place_Formal (Func_Id, BIP_Alloc_Form);
2226
               begin
2227
                  Cond :=
2228
                    Make_And_Then (Loc,
2229
                      Left_Opnd  =>
2230
                        Make_Op_Gt (Loc,
2231
                          Left_Opnd  => New_Reference_To (Alloc, Loc),
2232
                          Right_Opnd =>
2233
                            Make_Integer_Literal (Loc,
2234
                              UI_From_Int
2235
                                (BIP_Allocation_Form'Pos (Secondary_Stack)))),
2236
 
2237
                      Right_Opnd => Cond);
2238
               end;
2239
            end if;
2240
 
2241
            --  Generate:
2242
            --    if <Cond> then
2243
            --       <Free_Blk>
2244
            --    end if;
2245
 
2246
            return
2247
              Make_If_Statement (Loc,
2248
                Condition       => Cond,
2249
                Then_Statements => New_List (Free_Blk));
2250
         end Build_BIP_Cleanup_Stmts;
2251
 
2252
         --------------------
2253
         -- Find_Last_Init --
2254
         --------------------
2255
 
2256
         procedure Find_Last_Init
2257
           (Decl        : Node_Id;
2258
            Typ         : Entity_Id;
2259
            Last_Init   : out Node_Id;
2260
            Body_Insert : out Node_Id)
2261
         is
2262
            Nod_1 : Node_Id := Empty;
2263
            Nod_2 : Node_Id := Empty;
2264
            Utyp  : Entity_Id;
2265
 
2266
            function Is_Init_Call
2267
              (N   : Node_Id;
2268
               Typ : Entity_Id) return Boolean;
2269
            --  Given an arbitrary node, determine whether N is a procedure
2270
            --  call and if it is, try to match the name of the call with the
2271
            --  [Deep_]Initialize proc of Typ.
2272
 
2273
            function Next_Suitable_Statement (Stmt : Node_Id) return Node_Id;
2274
            --  Given a statement which is part of a list, return the next
2275
            --  real statement while skipping over dynamic elab checks.
2276
 
2277
            ------------------
2278
            -- Is_Init_Call --
2279
            ------------------
2280
 
2281
            function Is_Init_Call
2282
              (N   : Node_Id;
2283
               Typ : Entity_Id) return Boolean
2284
            is
2285
            begin
2286
               --  A call to [Deep_]Initialize is always direct
2287
 
2288
               if Nkind (N) = N_Procedure_Call_Statement
2289
                 and then Nkind (Name (N)) = N_Identifier
2290
               then
2291
                  declare
2292
                     Call_Ent  : constant Entity_Id := Entity (Name (N));
2293
                     Deep_Init : constant Entity_Id :=
2294
                                   TSS (Typ, TSS_Deep_Initialize);
2295
                     Init      : Entity_Id := Empty;
2296
 
2297
                  begin
2298
                     --  A type may have controlled components but not be
2299
                     --  controlled.
2300
 
2301
                     if Is_Controlled (Typ) then
2302
                        Init := Find_Prim_Op (Typ, Name_Initialize);
2303
 
2304
                        if Present (Init) then
2305
                           Init := Ultimate_Alias (Init);
2306
                        end if;
2307
                     end if;
2308
 
2309
                     return
2310
                       (Present (Deep_Init) and then Call_Ent = Deep_Init)
2311
                         or else
2312
                       (Present (Init)      and then Call_Ent = Init);
2313
                  end;
2314
               end if;
2315
 
2316
               return False;
2317
            end Is_Init_Call;
2318
 
2319
            -----------------------------
2320
            -- Next_Suitable_Statement --
2321
            -----------------------------
2322
 
2323
            function Next_Suitable_Statement (Stmt : Node_Id) return Node_Id is
2324
               Result : Node_Id := Next (Stmt);
2325
 
2326
            begin
2327
               --  Skip over access-before-elaboration checks
2328
 
2329
               if Dynamic_Elaboration_Checks
2330
                 and then Nkind (Result) = N_Raise_Program_Error
2331
               then
2332
                  Result := Next (Result);
2333
               end if;
2334
 
2335
               return Result;
2336
            end Next_Suitable_Statement;
2337
 
2338
         --  Start of processing for Find_Last_Init
2339
 
2340
         begin
2341
            Last_Init   := Decl;
2342
            Body_Insert := Empty;
2343
 
2344
            --  Object renamings and objects associated with controlled
2345
            --  function results do not have initialization calls.
2346
 
2347
            if Has_No_Init then
2348
               return;
2349
            end if;
2350
 
2351
            if Is_Concurrent_Type (Typ) then
2352
               Utyp := Corresponding_Record_Type (Typ);
2353
            else
2354
               Utyp := Typ;
2355
            end if;
2356
 
2357
            if Is_Private_Type (Utyp)
2358
              and then Present (Full_View (Utyp))
2359
            then
2360
               Utyp := Full_View (Utyp);
2361
            end if;
2362
 
2363
            --  The init procedures are arranged as follows:
2364
 
2365
            --    Object : Controlled_Type;
2366
            --    Controlled_TypeIP (Object);
2367
            --    [[Deep_]Initialize (Object);]
2368
 
2369
            --  where the user-defined initialize may be optional or may appear
2370
            --  inside a block when abort deferral is needed.
2371
 
2372
            Nod_1 := Next_Suitable_Statement (Decl);
2373
            if Present (Nod_1) then
2374
               Nod_2 := Next_Suitable_Statement (Nod_1);
2375
 
2376
               --  The statement following an object declaration is always a
2377
               --  call to the type init proc.
2378
 
2379
               Last_Init := Nod_1;
2380
            end if;
2381
 
2382
            --  Optional user-defined init or deep init processing
2383
 
2384
            if Present (Nod_2) then
2385
 
2386
               --  The statement following the type init proc may be a block
2387
               --  statement in cases where abort deferral is required.
2388
 
2389
               if Nkind (Nod_2) = N_Block_Statement then
2390
                  declare
2391
                     HSS  : constant Node_Id :=
2392
                              Handled_Statement_Sequence (Nod_2);
2393
                     Stmt : Node_Id;
2394
 
2395
                  begin
2396
                     if Present (HSS)
2397
                       and then Present (Statements (HSS))
2398
                     then
2399
                        Stmt := First (Statements (HSS));
2400
 
2401
                        --  Examine individual block statements and locate the
2402
                        --  call to [Deep_]Initialze.
2403
 
2404
                        while Present (Stmt) loop
2405
                           if Is_Init_Call (Stmt, Utyp) then
2406
                              Last_Init   := Stmt;
2407
                              Body_Insert := Nod_2;
2408
 
2409
                              exit;
2410
                           end if;
2411
 
2412
                           Next (Stmt);
2413
                        end loop;
2414
                     end if;
2415
                  end;
2416
 
2417
               elsif Is_Init_Call (Nod_2, Utyp) then
2418
                  Last_Init := Nod_2;
2419
               end if;
2420
            end if;
2421
         end Find_Last_Init;
2422
 
2423
      --  Start of processing for Process_Object_Declaration
2424
 
2425
      begin
2426
         Obj_Ref := New_Reference_To (Obj_Id, Loc);
2427
         Obj_Typ := Base_Type (Etype (Obj_Id));
2428
 
2429
         --  Handle access types
2430
 
2431
         if Is_Access_Type (Obj_Typ) then
2432
            Obj_Ref := Make_Explicit_Dereference (Loc, Obj_Ref);
2433
            Obj_Typ := Directly_Designated_Type (Obj_Typ);
2434
         end if;
2435
 
2436
         Set_Etype (Obj_Ref, Obj_Typ);
2437
 
2438
         --  Set a new value for the state counter and insert the statement
2439
         --  after the object declaration. Generate:
2440
         --
2441
         --    Counter := <value>;
2442
 
2443
         Inc_Decl :=
2444
           Make_Assignment_Statement (Loc,
2445
             Name       => New_Reference_To (Counter_Id, Loc),
2446
             Expression => Make_Integer_Literal (Loc, Counter_Val));
2447
 
2448
         --  Insert the counter after all initialization has been done. The
2449
         --  place of insertion depends on the context. When dealing with a
2450
         --  controlled function, the counter is inserted directly after the
2451
         --  declaration because such objects lack init calls.
2452
 
2453
         Find_Last_Init (Decl, Obj_Typ, Count_Ins, Body_Ins);
2454
 
2455
         Insert_After (Count_Ins, Inc_Decl);
2456
         Analyze (Inc_Decl);
2457
 
2458
         --  If the current declaration is the last in the list, the finalizer
2459
         --  body needs to be inserted after the set counter statement for the
2460
         --  current object declaration. This is complicated by the fact that
2461
         --  the set counter statement may appear in abort deferred block. In
2462
         --  that case, the proper insertion place is after the block.
2463
 
2464
         if No (Finalizer_Insert_Nod) then
2465
 
2466
            --  Insertion after an abort deffered block
2467
 
2468
            if Present (Body_Ins) then
2469
               Finalizer_Insert_Nod := Body_Ins;
2470
            else
2471
               Finalizer_Insert_Nod := Inc_Decl;
2472
            end if;
2473
         end if;
2474
 
2475
         --  Create the associated label with this object, generate:
2476
         --
2477
         --    L<counter> : label;
2478
 
2479
         Label_Id :=
2480
           Make_Identifier (Loc, New_External_Name ('L', Counter_Val));
2481
         Set_Entity
2482
           (Label_Id, Make_Defining_Identifier (Loc, Chars (Label_Id)));
2483
         Label := Make_Label (Loc, Label_Id);
2484
 
2485
         Prepend_To (Finalizer_Decls,
2486
           Make_Implicit_Label_Declaration (Loc,
2487
             Defining_Identifier => Entity (Label_Id),
2488
             Label_Construct     => Label));
2489
 
2490
         --  Create the associated jump with this object, generate:
2491
         --
2492
         --    when <counter> =>
2493
         --       goto L<counter>;
2494
 
2495
         Prepend_To (Jump_Alts,
2496
           Make_Case_Statement_Alternative (Loc,
2497
             Discrete_Choices => New_List (
2498
               Make_Integer_Literal (Loc, Counter_Val)),
2499
             Statements       => New_List (
2500
               Make_Goto_Statement (Loc,
2501
                 Name => New_Reference_To (Entity (Label_Id), Loc)))));
2502
 
2503
         --  Insert the jump destination, generate:
2504
         --
2505
         --     <<L<counter>>>
2506
 
2507
         Append_To (Finalizer_Stmts, Label);
2508
 
2509
         --  Processing for simple protected objects. Such objects require
2510
         --  manual finalization of their lock managers.
2511
 
2512
         if Is_Protected then
2513
            Fin_Stmts := No_List;
2514
 
2515
            if Is_Simple_Protected_Type (Obj_Typ) then
2516
               Fin_Call := Cleanup_Protected_Object (Decl, Obj_Ref);
2517
 
2518
               if Present (Fin_Call) then
2519
                  Fin_Stmts := New_List (Fin_Call);
2520
               end if;
2521
 
2522
            elsif Has_Simple_Protected_Object (Obj_Typ) then
2523
               if Is_Record_Type (Obj_Typ) then
2524
                  Fin_Stmts := Cleanup_Record (Decl, Obj_Ref, Obj_Typ);
2525
               elsif Is_Array_Type (Obj_Typ) then
2526
                  Fin_Stmts := Cleanup_Array (Decl, Obj_Ref, Obj_Typ);
2527
               end if;
2528
            end if;
2529
 
2530
            --  Generate:
2531
            --    begin
2532
            --       System.Tasking.Protected_Objects.Finalize_Protection
2533
            --         (Obj._object);
2534
 
2535
            --    exception
2536
            --       when others =>
2537
            --          null;
2538
            --    end;
2539
 
2540
            if Present (Fin_Stmts) then
2541
               Append_To (Finalizer_Stmts,
2542
                 Make_Block_Statement (Loc,
2543
                   Handled_Statement_Sequence =>
2544
                     Make_Handled_Sequence_Of_Statements (Loc,
2545
                       Statements         => Fin_Stmts,
2546
 
2547
                       Exception_Handlers => New_List (
2548
                         Make_Exception_Handler (Loc,
2549
                           Exception_Choices => New_List (
2550
                             Make_Others_Choice (Loc)),
2551
 
2552
                           Statements     => New_List (
2553
                             Make_Null_Statement (Loc)))))));
2554
            end if;
2555
 
2556
         --  Processing for regular controlled objects
2557
 
2558
         else
2559
            --  Generate:
2560
            --    [Deep_]Finalize (Obj);  --  No_Exception_Propagation
2561
 
2562
            --    begin                   --  Exception handlers allowed
2563
            --       [Deep_]Finalize (Obj);
2564
 
2565
            --    exception
2566
            --       when Id : others =>
2567
            --          if not Raised then
2568
            --             Raised := True;
2569
            --             Save_Occurrence (E, Id);
2570
            --          end if;
2571
            --    end;
2572
 
2573
            Fin_Call :=
2574
              Make_Final_Call (
2575
                Obj_Ref => Obj_Ref,
2576
                Typ     => Obj_Typ);
2577
 
2578
            if Exceptions_OK then
2579
               Fin_Stmts := New_List (
2580
                 Make_Block_Statement (Loc,
2581
                   Handled_Statement_Sequence =>
2582
                     Make_Handled_Sequence_Of_Statements (Loc,
2583
                       Statements => New_List (Fin_Call),
2584
 
2585
                    Exception_Handlers => New_List (
2586
                      Build_Exception_Handler
2587
                        (Finalizer_Data, For_Package)))));
2588
 
2589
            --  When exception handlers are prohibited, the finalization call
2590
            --  appears unprotected. Any exception raised during finalization
2591
            --  will bypass the circuitry which ensures the cleanup of all
2592
            --  remaining objects.
2593
 
2594
            else
2595
               Fin_Stmts := New_List (Fin_Call);
2596
            end if;
2597
 
2598
            --  If we are dealing with a return object of a build-in-place
2599
            --  function, generate the following cleanup statements:
2600
 
2601
            --    if BIPallocfrom > Secondary_Stack'Pos
2602
            --      and then BIPfinalizationmaster /= null
2603
            --    then
2604
            --       declare
2605
            --          type Ptr_Typ is access Obj_Typ;
2606
            --          for Ptr_Typ'Storage_Pool use
2607
            --                Base_Pool (BIPfinalizationmaster.all).all;
2608
            --       begin
2609
            --          Free (Ptr_Typ (Temp));
2610
            --       end;
2611
            --    end if;
2612
            --
2613
            --  The generated code effectively detaches the temporary from the
2614
            --  caller finalization master and deallocates the object. This is
2615
            --  disabled on .NET/JVM because pools are not supported.
2616
 
2617
            if VM_Target = No_VM and then Is_Return_Object (Obj_Id) then
2618
               declare
2619
                  Func_Id : constant Entity_Id := Enclosing_Function (Obj_Id);
2620
               begin
2621
                  if Is_Build_In_Place_Function (Func_Id)
2622
                    and then Needs_BIP_Finalization_Master (Func_Id)
2623
                  then
2624
                     Append_To (Fin_Stmts, Build_BIP_Cleanup_Stmts (Func_Id));
2625
                  end if;
2626
               end;
2627
            end if;
2628
 
2629
            if Ekind_In (Obj_Id, E_Constant, E_Variable)
2630
              and then Present (Return_Flag_Or_Transient_Decl (Obj_Id))
2631
            then
2632
               --  Return objects use a flag to aid their potential
2633
               --  finalization when the enclosing function fails to return
2634
               --  properly. Generate:
2635
 
2636
               --    if not Flag then
2637
               --       <object finalization statements>
2638
               --    end if;
2639
 
2640
               if Is_Return_Object (Obj_Id) then
2641
                  Fin_Stmts := New_List (
2642
                    Make_If_Statement (Loc,
2643
                      Condition     =>
2644
                        Make_Op_Not (Loc,
2645
                          Right_Opnd =>
2646
                            New_Reference_To
2647
                              (Return_Flag_Or_Transient_Decl (Obj_Id), Loc)),
2648
 
2649
                    Then_Statements => Fin_Stmts));
2650
 
2651
               --  Temporaries created for the purpose of "exporting" a
2652
               --  controlled transient out of an Expression_With_Actions (EWA)
2653
               --  need guards. The following illustrates the usage of such
2654
               --  temporaries.
2655
 
2656
               --    Access_Typ : access [all] Obj_Typ;
2657
               --    Temp       : Access_Typ := null;
2658
               --    <Counter>  := ...;
2659
 
2660
               --    do
2661
               --       Ctrl_Trans : [access [all]] Obj_Typ := ...;
2662
               --       Temp := Access_Typ (Ctrl_Trans);  --  when a pointer
2663
               --         <or>
2664
               --       Temp := Ctrl_Trans'Unchecked_Access;
2665
               --    in ... end;
2666
 
2667
               --  The finalization machinery does not process EWA nodes as
2668
               --  this may lead to premature finalization of expressions. Note
2669
               --  that Temp is marked as being properly initialized regardless
2670
               --  of whether the initialization of Ctrl_Trans succeeded. Since
2671
               --  a failed initialization may leave Temp with a value of null,
2672
               --  add a guard to handle this case:
2673
 
2674
               --    if Obj /= null then
2675
               --       <object finalization statements>
2676
               --    end if;
2677
 
2678
               else
2679
                  pragma Assert
2680
                    (Nkind (Return_Flag_Or_Transient_Decl (Obj_Id)) =
2681
                       N_Object_Declaration);
2682
 
2683
                  Fin_Stmts := New_List (
2684
                    Make_If_Statement (Loc,
2685
                      Condition       =>
2686
                        Make_Op_Ne (Loc,
2687
                          Left_Opnd  => New_Reference_To (Obj_Id, Loc),
2688
                          Right_Opnd => Make_Null (Loc)),
2689
 
2690
                      Then_Statements => Fin_Stmts));
2691
               end if;
2692
            end if;
2693
         end if;
2694
 
2695
         Append_List_To (Finalizer_Stmts, Fin_Stmts);
2696
 
2697
         --  Since the declarations are examined in reverse, the state counter
2698
         --  must be decremented in order to keep with the true position of
2699
         --  objects.
2700
 
2701
         Counter_Val := Counter_Val - 1;
2702
      end Process_Object_Declaration;
2703
 
2704
      -------------------------------------
2705
      -- Process_Tagged_Type_Declaration --
2706
      -------------------------------------
2707
 
2708
      procedure Process_Tagged_Type_Declaration (Decl : Node_Id) is
2709
         Typ    : constant Entity_Id := Defining_Identifier (Decl);
2710
         DT_Ptr : constant Entity_Id :=
2711
                    Node (First_Elmt (Access_Disp_Table (Typ)));
2712
      begin
2713
         --  Generate:
2714
         --    Ada.Tags.Unregister_Tag (<Typ>P);
2715
 
2716
         Append_To (Tagged_Type_Stmts,
2717
           Make_Procedure_Call_Statement (Loc,
2718
             Name                   =>
2719
               New_Reference_To (RTE (RE_Unregister_Tag), Loc),
2720
             Parameter_Associations => New_List (
2721
               New_Reference_To (DT_Ptr, Loc))));
2722
      end Process_Tagged_Type_Declaration;
2723
 
2724
   --  Start of processing for Build_Finalizer
2725
 
2726
   begin
2727
      Fin_Id := Empty;
2728
 
2729
      --  Do not perform this expansion in Alfa mode because it is not
2730
      --  necessary.
2731
 
2732
      if Alfa_Mode then
2733
         return;
2734
      end if;
2735
 
2736
      --  Step 1: Extract all lists which may contain controlled objects or
2737
      --  library-level tagged types.
2738
 
2739
      if For_Package_Spec then
2740
         Decls      := Visible_Declarations (Specification (N));
2741
         Priv_Decls := Private_Declarations (Specification (N));
2742
 
2743
         --  Retrieve the package spec id
2744
 
2745
         Spec_Id := Defining_Unit_Name (Specification (N));
2746
 
2747
         if Nkind (Spec_Id) = N_Defining_Program_Unit_Name then
2748
            Spec_Id := Defining_Identifier (Spec_Id);
2749
         end if;
2750
 
2751
      --  Accept statement, block, entry body, package body, protected body,
2752
      --  subprogram body or task body.
2753
 
2754
      else
2755
         Decls := Declarations (N);
2756
         HSS   := Handled_Statement_Sequence (N);
2757
 
2758
         if Present (HSS) then
2759
            if Present (Statements (HSS)) then
2760
               Stmts := Statements (HSS);
2761
            end if;
2762
 
2763
            if Present (At_End_Proc (HSS)) then
2764
               Prev_At_End := At_End_Proc (HSS);
2765
            end if;
2766
         end if;
2767
 
2768
         --  Retrieve the package spec id for package bodies
2769
 
2770
         if For_Package_Body then
2771
            Spec_Id := Corresponding_Spec (N);
2772
         end if;
2773
      end if;
2774
 
2775
      --  Do not process nested packages since those are handled by the
2776
      --  enclosing scope's finalizer. Do not process non-expanded package
2777
      --  instantiations since those will be re-analyzed and re-expanded.
2778
 
2779
      if For_Package
2780
        and then
2781
          (not Is_Library_Level_Entity (Spec_Id)
2782
 
2783
             --  Nested packages are considered to be library level entities,
2784
             --  but do not need to be processed separately. True library level
2785
             --  packages have a scope value of 1.
2786
 
2787
             or else Scope_Depth_Value (Spec_Id) /= Uint_1
2788
             or else (Is_Generic_Instance (Spec_Id)
2789
                       and then Package_Instantiation (Spec_Id) /= N))
2790
      then
2791
         return;
2792
      end if;
2793
 
2794
      --  Step 2: Object [pre]processing
2795
 
2796
      if For_Package then
2797
 
2798
         --  Preprocess the visible declarations now in order to obtain the
2799
         --  correct number of controlled object by the time the private
2800
         --  declarations are processed.
2801
 
2802
         Process_Declarations (Decls, Preprocess => True, Top_Level => True);
2803
 
2804
         --  From all the possible contexts, only package specifications may
2805
         --  have private declarations.
2806
 
2807
         if For_Package_Spec then
2808
            Process_Declarations
2809
              (Priv_Decls, Preprocess => True, Top_Level => True);
2810
         end if;
2811
 
2812
         --  The current context may lack controlled objects, but require some
2813
         --  other form of completion (task termination for instance). In such
2814
         --  cases, the finalizer must be created and carry the additional
2815
         --  statements.
2816
 
2817
         if Acts_As_Clean or Has_Ctrl_Objs or Has_Tagged_Types then
2818
            Build_Components;
2819
         end if;
2820
 
2821
         --  The preprocessing has determined that the context has controlled
2822
         --  objects or library-level tagged types.
2823
 
2824
         if Has_Ctrl_Objs or Has_Tagged_Types then
2825
 
2826
            --  Private declarations are processed first in order to preserve
2827
            --  possible dependencies between public and private objects.
2828
 
2829
            if For_Package_Spec then
2830
               Process_Declarations (Priv_Decls);
2831
            end if;
2832
 
2833
            Process_Declarations (Decls);
2834
         end if;
2835
 
2836
      --  Non-package case
2837
 
2838
      else
2839
         --  Preprocess both declarations and statements
2840
 
2841
         Process_Declarations (Decls, Preprocess => True, Top_Level => True);
2842
         Process_Declarations (Stmts, Preprocess => True, Top_Level => True);
2843
 
2844
         --  At this point it is known that N has controlled objects. Ensure
2845
         --  that N has a declarative list since the finalizer spec will be
2846
         --  attached to it.
2847
 
2848
         if Has_Ctrl_Objs and then No (Decls) then
2849
            Set_Declarations (N, New_List);
2850
            Decls      := Declarations (N);
2851
            Spec_Decls := Decls;
2852
         end if;
2853
 
2854
         --  The current context may lack controlled objects, but require some
2855
         --  other form of completion (task termination for instance). In such
2856
         --  cases, the finalizer must be created and carry the additional
2857
         --  statements.
2858
 
2859
         if Acts_As_Clean or Has_Ctrl_Objs or Has_Tagged_Types then
2860
            Build_Components;
2861
         end if;
2862
 
2863
         if Has_Ctrl_Objs or Has_Tagged_Types then
2864
            Process_Declarations (Stmts);
2865
            Process_Declarations (Decls);
2866
         end if;
2867
      end if;
2868
 
2869
      --  Step 3: Finalizer creation
2870
 
2871
      if Acts_As_Clean or Has_Ctrl_Objs or Has_Tagged_Types then
2872
         Create_Finalizer;
2873
      end if;
2874
   end Build_Finalizer;
2875
 
2876
   --------------------------
2877
   -- Build_Finalizer_Call --
2878
   --------------------------
2879
 
2880
   procedure Build_Finalizer_Call (N : Node_Id; Fin_Id : Entity_Id) is
2881
      Is_Prot_Body : constant Boolean :=
2882
                       Nkind (N) = N_Subprogram_Body
2883
                         and then Is_Protected_Subprogram_Body (N);
2884
      --  Determine whether N denotes the protected version of a subprogram
2885
      --  which belongs to a protected type.
2886
 
2887
      Loc : constant Source_Ptr := Sloc (N);
2888
      HSS : Node_Id;
2889
 
2890
   begin
2891
      --  Do not perform this expansion in Alfa mode because we do not create
2892
      --  finalizers in the first place.
2893
 
2894
      if Alfa_Mode then
2895
         return;
2896
      end if;
2897
 
2898
      --  The At_End handler should have been assimilated by the finalizer
2899
 
2900
      HSS := Handled_Statement_Sequence (N);
2901
      pragma Assert (No (At_End_Proc (HSS)));
2902
 
2903
      --  If the construct to be cleaned up is a protected subprogram body, the
2904
      --  finalizer call needs to be associated with the block which wraps the
2905
      --  unprotected version of the subprogram. The following illustrates this
2906
      --  scenario:
2907
 
2908
      --     procedure Prot_SubpP is
2909
      --        procedure finalizer is
2910
      --        begin
2911
      --           Service_Entries (Prot_Obj);
2912
      --           Abort_Undefer;
2913
      --        end finalizer;
2914
 
2915
      --     begin
2916
      --        . . .
2917
      --        begin
2918
      --           Prot_SubpN (Prot_Obj);
2919
      --        at end
2920
      --           finalizer;
2921
      --        end;
2922
      --     end Prot_SubpP;
2923
 
2924
      if Is_Prot_Body then
2925
         HSS := Handled_Statement_Sequence (Last (Statements (HSS)));
2926
 
2927
      --  An At_End handler and regular exception handlers cannot coexist in
2928
      --  the same statement sequence. Wrap the original statements in a block.
2929
 
2930
      elsif Present (Exception_Handlers (HSS)) then
2931
         declare
2932
            End_Lab : constant Node_Id := End_Label (HSS);
2933
            Block   : Node_Id;
2934
 
2935
         begin
2936
            Block :=
2937
              Make_Block_Statement (Loc, Handled_Statement_Sequence => HSS);
2938
 
2939
            Set_Handled_Statement_Sequence (N,
2940
              Make_Handled_Sequence_Of_Statements (Loc, New_List (Block)));
2941
 
2942
            HSS := Handled_Statement_Sequence (N);
2943
            Set_End_Label (HSS, End_Lab);
2944
         end;
2945
      end if;
2946
 
2947
      Set_At_End_Proc (HSS, New_Reference_To (Fin_Id, Loc));
2948
 
2949
      Analyze (At_End_Proc (HSS));
2950
      Expand_At_End_Handler (HSS, Empty);
2951
   end Build_Finalizer_Call;
2952
 
2953
   ---------------------
2954
   -- Build_Late_Proc --
2955
   ---------------------
2956
 
2957
   procedure Build_Late_Proc (Typ : Entity_Id; Nam : Name_Id) is
2958
   begin
2959
      for Final_Prim in Name_Of'Range loop
2960
         if Name_Of (Final_Prim) = Nam then
2961
            Set_TSS (Typ,
2962
              Make_Deep_Proc
2963
                (Prim  => Final_Prim,
2964
                 Typ   => Typ,
2965
                 Stmts => Make_Deep_Record_Body (Final_Prim, Typ)));
2966
         end if;
2967
      end loop;
2968
   end Build_Late_Proc;
2969
 
2970
   -------------------------------
2971
   -- Build_Object_Declarations --
2972
   -------------------------------
2973
 
2974
   procedure Build_Object_Declarations
2975
     (Data        : out Finalization_Exception_Data;
2976
      Decls       : List_Id;
2977
      Loc         : Source_Ptr;
2978
      For_Package : Boolean := False)
2979
   is
2980
      A_Expr : Node_Id;
2981
      E_Decl : Node_Id;
2982
 
2983
   begin
2984
      pragma Assert (Decls /= No_List);
2985
 
2986
      --  Always set the proper location as it may be needed even when
2987
      --  exception propagation is forbidden.
2988
 
2989
      Data.Loc := Loc;
2990
 
2991
      if Restriction_Active (No_Exception_Propagation) then
2992
         Data.Abort_Id  := Empty;
2993
         Data.E_Id      := Empty;
2994
         Data.Raised_Id := Empty;
2995
         return;
2996
      end if;
2997
 
2998
      Data.Abort_Id  := Make_Temporary (Loc, 'A');
2999
      Data.E_Id      := Make_Temporary (Loc, 'E');
3000
      Data.Raised_Id := Make_Temporary (Loc, 'R');
3001
 
3002
      --  In certain scenarios, finalization can be triggered by an abort. If
3003
      --  the finalization itself fails and raises an exception, the resulting
3004
      --  Program_Error must be supressed and replaced by an abort signal. In
3005
      --  order to detect this scenario, save the state of entry into the
3006
      --  finalization code.
3007
 
3008
      --  No need to do this for VM case, since VM version of Ada.Exceptions
3009
      --  does not include routine Raise_From_Controlled_Operation which is the
3010
      --  the sole user of flag Abort.
3011
 
3012
      --  This is not needed for library-level finalizers as they are called
3013
      --  by the environment task and cannot be aborted.
3014
 
3015
      if Abort_Allowed
3016
        and then VM_Target = No_VM
3017
        and then not For_Package
3018
      then
3019
         A_Expr := New_Reference_To (RTE (RE_Triggered_By_Abort), Loc);
3020
 
3021
      --  No abort, .NET/JVM or library-level finalizers
3022
 
3023
      else
3024
         A_Expr := New_Reference_To (Standard_False, Loc);
3025
      end if;
3026
 
3027
      --  Generate:
3028
      --    Abort_Id : constant Boolean := <A_Expr>;
3029
 
3030
      Append_To (Decls,
3031
        Make_Object_Declaration (Loc,
3032
          Defining_Identifier => Data.Abort_Id,
3033
          Constant_Present    => True,
3034
          Object_Definition   => New_Reference_To (Standard_Boolean, Loc),
3035
          Expression          => A_Expr));
3036
 
3037
      --  Generate:
3038
      --    E_Id : Exception_Occurrence;
3039
 
3040
      E_Decl :=
3041
        Make_Object_Declaration (Loc,
3042
          Defining_Identifier => Data.E_Id,
3043
          Object_Definition   =>
3044
            New_Reference_To (RTE (RE_Exception_Occurrence), Loc));
3045
      Set_No_Initialization (E_Decl);
3046
 
3047
      Append_To (Decls, E_Decl);
3048
 
3049
      --  Generate:
3050
      --    Raised_Id : Boolean := False;
3051
 
3052
      Append_To (Decls,
3053
        Make_Object_Declaration (Loc,
3054
          Defining_Identifier => Data.Raised_Id,
3055
          Object_Definition   => New_Reference_To (Standard_Boolean, Loc),
3056
          Expression          => New_Reference_To (Standard_False, Loc)));
3057
   end Build_Object_Declarations;
3058
 
3059
   ---------------------------
3060
   -- Build_Raise_Statement --
3061
   ---------------------------
3062
 
3063
   function Build_Raise_Statement
3064
     (Data : Finalization_Exception_Data) return Node_Id
3065
   is
3066
      Stmt : Node_Id;
3067
 
3068
   begin
3069
      --  Standard run-time and .NET/JVM targets use the specialized routine
3070
      --  Raise_From_Controlled_Operation.
3071
 
3072
      if RTE_Available (RE_Raise_From_Controlled_Operation) then
3073
         Stmt :=
3074
           Make_Procedure_Call_Statement (Data.Loc,
3075
              Name                   =>
3076
                New_Reference_To
3077
                  (RTE (RE_Raise_From_Controlled_Operation), Data.Loc),
3078
              Parameter_Associations =>
3079
                New_List (New_Reference_To (Data.E_Id, Data.Loc)));
3080
 
3081
      --  Restricted run-time: exception messages are not supported and hence
3082
      --  Raise_From_Controlled_Operation is not supported. Raise Program_Error
3083
      --  instead.
3084
 
3085
      else
3086
         Stmt :=
3087
           Make_Raise_Program_Error (Data.Loc,
3088
             Reason => PE_Finalize_Raised_Exception);
3089
      end if;
3090
 
3091
      --  Generate:
3092
      --    if Raised_Id and then not Abort_Id then
3093
      --       Raise_From_Controlled_Operation (E_Id);
3094
      --         <or>
3095
      --       raise Program_Error;  --  restricted runtime
3096
      --    end if;
3097
 
3098
      return
3099
        Make_If_Statement (Data.Loc,
3100
          Condition       =>
3101
            Make_And_Then (Data.Loc,
3102
              Left_Opnd  => New_Reference_To (Data.Raised_Id, Data.Loc),
3103
              Right_Opnd =>
3104
                Make_Op_Not (Data.Loc,
3105
                  Right_Opnd => New_Reference_To (Data.Abort_Id, Data.Loc))),
3106
 
3107
          Then_Statements => New_List (Stmt));
3108
   end Build_Raise_Statement;
3109
 
3110
   -----------------------------
3111
   -- Build_Record_Deep_Procs --
3112
   -----------------------------
3113
 
3114
   procedure Build_Record_Deep_Procs (Typ : Entity_Id) is
3115
   begin
3116
      Set_TSS (Typ,
3117
        Make_Deep_Proc
3118
          (Prim  => Initialize_Case,
3119
           Typ   => Typ,
3120
           Stmts => Make_Deep_Record_Body (Initialize_Case, Typ)));
3121
 
3122
      if not Is_Immutably_Limited_Type (Typ) then
3123
         Set_TSS (Typ,
3124
           Make_Deep_Proc
3125
             (Prim  => Adjust_Case,
3126
              Typ   => Typ,
3127
              Stmts => Make_Deep_Record_Body (Adjust_Case, Typ)));
3128
      end if;
3129
 
3130
      --  Do not generate Deep_Finalize and Finalize_Address if finalization is
3131
      --  suppressed since these routine will not be used.
3132
 
3133
      if not Restriction_Active (No_Finalization) then
3134
         Set_TSS (Typ,
3135
           Make_Deep_Proc
3136
             (Prim  => Finalize_Case,
3137
              Typ   => Typ,
3138
              Stmts => Make_Deep_Record_Body (Finalize_Case, Typ)));
3139
 
3140
         --  Create TSS primitive Finalize_Address for non-VM targets. JVM and
3141
         --  .NET do not support address arithmetic and unchecked conversions.
3142
 
3143
         if VM_Target = No_VM then
3144
            Set_TSS (Typ,
3145
              Make_Deep_Proc
3146
                (Prim  => Address_Case,
3147
                 Typ   => Typ,
3148
                 Stmts => Make_Deep_Record_Body (Address_Case, Typ)));
3149
         end if;
3150
      end if;
3151
   end Build_Record_Deep_Procs;
3152
 
3153
   -------------------
3154
   -- Cleanup_Array --
3155
   -------------------
3156
 
3157
   function Cleanup_Array
3158
     (N    : Node_Id;
3159
      Obj  : Node_Id;
3160
      Typ  : Entity_Id) return List_Id
3161
   is
3162
      Loc        : constant Source_Ptr := Sloc (N);
3163
      Index_List : constant List_Id := New_List;
3164
 
3165
      function Free_Component return List_Id;
3166
      --  Generate the code to finalize the task or protected  subcomponents
3167
      --  of a single component of the array.
3168
 
3169
      function Free_One_Dimension (Dim : Int) return List_Id;
3170
      --  Generate a loop over one dimension of the array
3171
 
3172
      --------------------
3173
      -- Free_Component --
3174
      --------------------
3175
 
3176
      function Free_Component return List_Id is
3177
         Stmts : List_Id := New_List;
3178
         Tsk   : Node_Id;
3179
         C_Typ : constant Entity_Id := Component_Type (Typ);
3180
 
3181
      begin
3182
         --  Component type is known to contain tasks or protected objects
3183
 
3184
         Tsk :=
3185
           Make_Indexed_Component (Loc,
3186
             Prefix        => Duplicate_Subexpr_No_Checks (Obj),
3187
             Expressions   => Index_List);
3188
 
3189
         Set_Etype (Tsk, C_Typ);
3190
 
3191
         if Is_Task_Type (C_Typ) then
3192
            Append_To (Stmts, Cleanup_Task (N, Tsk));
3193
 
3194
         elsif Is_Simple_Protected_Type (C_Typ) then
3195
            Append_To (Stmts, Cleanup_Protected_Object (N, Tsk));
3196
 
3197
         elsif Is_Record_Type (C_Typ) then
3198
            Stmts := Cleanup_Record (N, Tsk, C_Typ);
3199
 
3200
         elsif Is_Array_Type (C_Typ) then
3201
            Stmts := Cleanup_Array (N, Tsk, C_Typ);
3202
         end if;
3203
 
3204
         return Stmts;
3205
      end Free_Component;
3206
 
3207
      ------------------------
3208
      -- Free_One_Dimension --
3209
      ------------------------
3210
 
3211
      function Free_One_Dimension (Dim : Int) return List_Id is
3212
         Index : Entity_Id;
3213
 
3214
      begin
3215
         if Dim > Number_Dimensions (Typ) then
3216
            return Free_Component;
3217
 
3218
         --  Here we generate the required loop
3219
 
3220
         else
3221
            Index := Make_Temporary (Loc, 'J');
3222
            Append (New_Reference_To (Index, Loc), Index_List);
3223
 
3224
            return New_List (
3225
              Make_Implicit_Loop_Statement (N,
3226
                Identifier       => Empty,
3227
                Iteration_Scheme =>
3228
                  Make_Iteration_Scheme (Loc,
3229
                    Loop_Parameter_Specification =>
3230
                      Make_Loop_Parameter_Specification (Loc,
3231
                        Defining_Identifier         => Index,
3232
                        Discrete_Subtype_Definition =>
3233
                          Make_Attribute_Reference (Loc,
3234
                            Prefix          => Duplicate_Subexpr (Obj),
3235
                            Attribute_Name  => Name_Range,
3236
                            Expressions     => New_List (
3237
                              Make_Integer_Literal (Loc, Dim))))),
3238
                Statements       =>  Free_One_Dimension (Dim + 1)));
3239
         end if;
3240
      end Free_One_Dimension;
3241
 
3242
   --  Start of processing for Cleanup_Array
3243
 
3244
   begin
3245
      return Free_One_Dimension (1);
3246
   end Cleanup_Array;
3247
 
3248
   --------------------
3249
   -- Cleanup_Record --
3250
   --------------------
3251
 
3252
   function Cleanup_Record
3253
     (N    : Node_Id;
3254
      Obj  : Node_Id;
3255
      Typ  : Entity_Id) return List_Id
3256
   is
3257
      Loc   : constant Source_Ptr := Sloc (N);
3258
      Tsk   : Node_Id;
3259
      Comp  : Entity_Id;
3260
      Stmts : constant List_Id    := New_List;
3261
      U_Typ : constant Entity_Id  := Underlying_Type (Typ);
3262
 
3263
   begin
3264
      if Has_Discriminants (U_Typ)
3265
        and then Nkind (Parent (U_Typ)) = N_Full_Type_Declaration
3266
        and then
3267
          Nkind (Type_Definition (Parent (U_Typ))) = N_Record_Definition
3268
        and then
3269
          Present
3270
            (Variant_Part (Component_List (Type_Definition (Parent (U_Typ)))))
3271
      then
3272
         --  For now, do not attempt to free a component that may appear in a
3273
         --  variant, and instead issue a warning. Doing this "properly" would
3274
         --  require building a case statement and would be quite a mess. Note
3275
         --  that the RM only requires that free "work" for the case of a task
3276
         --  access value, so already we go way beyond this in that we deal
3277
         --  with the array case and non-discriminated record cases.
3278
 
3279
         Error_Msg_N
3280
           ("task/protected object in variant record will not be freed?", N);
3281
         return New_List (Make_Null_Statement (Loc));
3282
      end if;
3283
 
3284
      Comp := First_Component (Typ);
3285
      while Present (Comp) loop
3286
         if Has_Task (Etype (Comp))
3287
           or else Has_Simple_Protected_Object (Etype (Comp))
3288
         then
3289
            Tsk :=
3290
              Make_Selected_Component (Loc,
3291
                Prefix        => Duplicate_Subexpr_No_Checks (Obj),
3292
                Selector_Name => New_Occurrence_Of (Comp, Loc));
3293
            Set_Etype (Tsk, Etype (Comp));
3294
 
3295
            if Is_Task_Type (Etype (Comp)) then
3296
               Append_To (Stmts, Cleanup_Task (N, Tsk));
3297
 
3298
            elsif Is_Simple_Protected_Type (Etype (Comp)) then
3299
               Append_To (Stmts, Cleanup_Protected_Object (N, Tsk));
3300
 
3301
            elsif Is_Record_Type (Etype (Comp)) then
3302
 
3303
               --  Recurse, by generating the prefix of the argument to
3304
               --  the eventual cleanup call.
3305
 
3306
               Append_List_To (Stmts, Cleanup_Record (N, Tsk, Etype (Comp)));
3307
 
3308
            elsif Is_Array_Type (Etype (Comp)) then
3309
               Append_List_To (Stmts, Cleanup_Array (N, Tsk, Etype (Comp)));
3310
            end if;
3311
         end if;
3312
 
3313
         Next_Component (Comp);
3314
      end loop;
3315
 
3316
      return Stmts;
3317
   end Cleanup_Record;
3318
 
3319
   ------------------------------
3320
   -- Cleanup_Protected_Object --
3321
   ------------------------------
3322
 
3323
   function Cleanup_Protected_Object
3324
     (N   : Node_Id;
3325
      Ref : Node_Id) return Node_Id
3326
   is
3327
      Loc : constant Source_Ptr := Sloc (N);
3328
 
3329
   begin
3330
      --  For restricted run-time libraries (Ravenscar), tasks are
3331
      --  non-terminating, and protected objects can only appear at library
3332
      --  level, so we do not want finalization of protected objects.
3333
 
3334
      if Restricted_Profile then
3335
         return Empty;
3336
 
3337
      else
3338
         return
3339
           Make_Procedure_Call_Statement (Loc,
3340
             Name                   =>
3341
               New_Reference_To (RTE (RE_Finalize_Protection), Loc),
3342
             Parameter_Associations => New_List (Concurrent_Ref (Ref)));
3343
      end if;
3344
   end Cleanup_Protected_Object;
3345
 
3346
   ------------------
3347
   -- Cleanup_Task --
3348
   ------------------
3349
 
3350
   function Cleanup_Task
3351
     (N   : Node_Id;
3352
      Ref : Node_Id) return Node_Id
3353
   is
3354
      Loc  : constant Source_Ptr := Sloc (N);
3355
 
3356
   begin
3357
      --  For restricted run-time libraries (Ravenscar), tasks are
3358
      --  non-terminating and they can only appear at library level, so we do
3359
      --  not want finalization of task objects.
3360
 
3361
      if Restricted_Profile then
3362
         return Empty;
3363
 
3364
      else
3365
         return
3366
           Make_Procedure_Call_Statement (Loc,
3367
             Name                   =>
3368
               New_Reference_To (RTE (RE_Free_Task), Loc),
3369
             Parameter_Associations => New_List (Concurrent_Ref (Ref)));
3370
      end if;
3371
   end Cleanup_Task;
3372
 
3373
   ------------------------------
3374
   -- Check_Visibly_Controlled --
3375
   ------------------------------
3376
 
3377
   procedure Check_Visibly_Controlled
3378
     (Prim : Final_Primitives;
3379
      Typ  : Entity_Id;
3380
      E    : in out Entity_Id;
3381
      Cref : in out Node_Id)
3382
   is
3383
      Parent_Type : Entity_Id;
3384
      Op          : Entity_Id;
3385
 
3386
   begin
3387
      if Is_Derived_Type (Typ)
3388
        and then Comes_From_Source (E)
3389
        and then not Present (Overridden_Operation (E))
3390
      then
3391
         --  We know that the explicit operation on the type does not override
3392
         --  the inherited operation of the parent, and that the derivation
3393
         --  is from a private type that is not visibly controlled.
3394
 
3395
         Parent_Type := Etype (Typ);
3396
         Op := Find_Prim_Op (Parent_Type, Name_Of (Prim));
3397
 
3398
         if Present (Op) then
3399
            E := Op;
3400
 
3401
            --  Wrap the object to be initialized into the proper
3402
            --  unchecked conversion, to be compatible with the operation
3403
            --  to be called.
3404
 
3405
            if Nkind (Cref) = N_Unchecked_Type_Conversion then
3406
               Cref := Unchecked_Convert_To (Parent_Type, Expression (Cref));
3407
            else
3408
               Cref := Unchecked_Convert_To (Parent_Type, Cref);
3409
            end if;
3410
         end if;
3411
      end if;
3412
   end Check_Visibly_Controlled;
3413
 
3414
   -------------------------------
3415
   -- CW_Or_Has_Controlled_Part --
3416
   -------------------------------
3417
 
3418
   function CW_Or_Has_Controlled_Part (T : Entity_Id) return Boolean is
3419
   begin
3420
      return Is_Class_Wide_Type (T) or else Needs_Finalization (T);
3421
   end CW_Or_Has_Controlled_Part;
3422
 
3423
   ------------------
3424
   -- Convert_View --
3425
   ------------------
3426
 
3427
   function Convert_View
3428
     (Proc : Entity_Id;
3429
      Arg  : Node_Id;
3430
      Ind  : Pos := 1) return Node_Id
3431
   is
3432
      Fent : Entity_Id := First_Entity (Proc);
3433
      Ftyp : Entity_Id;
3434
      Atyp : Entity_Id;
3435
 
3436
   begin
3437
      for J in 2 .. Ind loop
3438
         Next_Entity (Fent);
3439
      end loop;
3440
 
3441
      Ftyp := Etype (Fent);
3442
 
3443
      if Nkind_In (Arg, N_Type_Conversion, N_Unchecked_Type_Conversion) then
3444
         Atyp := Entity (Subtype_Mark (Arg));
3445
      else
3446
         Atyp := Etype (Arg);
3447
      end if;
3448
 
3449
      if Is_Abstract_Subprogram (Proc) and then Is_Tagged_Type (Ftyp) then
3450
         return Unchecked_Convert_To (Class_Wide_Type (Ftyp), Arg);
3451
 
3452
      elsif Ftyp /= Atyp
3453
        and then Present (Atyp)
3454
        and then (Is_Private_Type (Ftyp) or else Is_Private_Type (Atyp))
3455
        and then Base_Type (Underlying_Type (Atyp)) =
3456
                 Base_Type (Underlying_Type (Ftyp))
3457
      then
3458
         return Unchecked_Convert_To (Ftyp, Arg);
3459
 
3460
      --  If the argument is already a conversion, as generated by
3461
      --  Make_Init_Call, set the target type to the type of the formal
3462
      --  directly, to avoid spurious typing problems.
3463
 
3464
      elsif Nkind_In (Arg, N_Unchecked_Type_Conversion, N_Type_Conversion)
3465
        and then not Is_Class_Wide_Type (Atyp)
3466
      then
3467
         Set_Subtype_Mark (Arg, New_Occurrence_Of (Ftyp, Sloc (Arg)));
3468
         Set_Etype (Arg, Ftyp);
3469
         return Arg;
3470
 
3471
      else
3472
         return Arg;
3473
      end if;
3474
   end Convert_View;
3475
 
3476
   ------------------------
3477
   -- Enclosing_Function --
3478
   ------------------------
3479
 
3480
   function Enclosing_Function (E : Entity_Id) return Entity_Id is
3481
      Func_Id : Entity_Id;
3482
 
3483
   begin
3484
      Func_Id := E;
3485
      while Present (Func_Id)
3486
        and then Func_Id /= Standard_Standard
3487
      loop
3488
         if Ekind (Func_Id) = E_Function then
3489
            return Func_Id;
3490
         end if;
3491
 
3492
         Func_Id := Scope (Func_Id);
3493
      end loop;
3494
 
3495
      return Empty;
3496
   end Enclosing_Function;
3497
 
3498
   -------------------------------
3499
   -- Establish_Transient_Scope --
3500
   -------------------------------
3501
 
3502
   --  This procedure is called each time a transient block has to be inserted
3503
   --  that is to say for each call to a function with unconstrained or tagged
3504
   --  result. It creates a new scope on the stack scope in order to enclose
3505
   --  all transient variables generated
3506
 
3507
   procedure Establish_Transient_Scope (N : Node_Id; Sec_Stack : Boolean) is
3508
      Loc       : constant Source_Ptr := Sloc (N);
3509
      Wrap_Node : Node_Id;
3510
 
3511
   begin
3512
      --  Do not create a transient scope if we are already inside one
3513
 
3514
      for S in reverse Scope_Stack.First .. Scope_Stack.Last loop
3515
         if Scope_Stack.Table (S).Is_Transient then
3516
            if Sec_Stack then
3517
               Set_Uses_Sec_Stack (Scope_Stack.Table (S).Entity);
3518
            end if;
3519
 
3520
            return;
3521
 
3522
         --  If we have encountered Standard there are no enclosing
3523
         --  transient scopes.
3524
 
3525
         elsif Scope_Stack.Table (S).Entity = Standard_Standard then
3526
            exit;
3527
         end if;
3528
      end loop;
3529
 
3530
      Wrap_Node := Find_Node_To_Be_Wrapped (N);
3531
 
3532
      --  Case of no wrap node, false alert, no transient scope needed
3533
 
3534
      if No (Wrap_Node) then
3535
         null;
3536
 
3537
      --  If the node to wrap is an iteration_scheme, the expression is
3538
      --  one of the bounds, and the expansion will make an explicit
3539
      --  declaration for it (see Analyze_Iteration_Scheme, sem_ch5.adb),
3540
      --  so do not apply any transformations here.
3541
 
3542
      elsif Nkind (Wrap_Node) = N_Iteration_Scheme then
3543
         null;
3544
 
3545
      --  In formal verification mode, if the node to wrap is a pragma check,
3546
      --  this node and enclosed expression are not expanded, so do not apply
3547
      --  any transformations here.
3548
 
3549
      elsif Alfa_Mode
3550
        and then Nkind (Wrap_Node) = N_Pragma
3551
        and then Get_Pragma_Id (Wrap_Node) = Pragma_Check
3552
      then
3553
         null;
3554
 
3555
      else
3556
         Push_Scope (New_Internal_Entity (E_Block, Current_Scope, Loc, 'B'));
3557
         Set_Scope_Is_Transient;
3558
 
3559
         if Sec_Stack then
3560
            Set_Uses_Sec_Stack (Current_Scope);
3561
            Check_Restriction (No_Secondary_Stack, N);
3562
         end if;
3563
 
3564
         Set_Etype (Current_Scope, Standard_Void_Type);
3565
         Set_Node_To_Be_Wrapped (Wrap_Node);
3566
 
3567
         if Debug_Flag_W then
3568
            Write_Str ("    <Transient>");
3569
            Write_Eol;
3570
         end if;
3571
      end if;
3572
   end Establish_Transient_Scope;
3573
 
3574
   ----------------------------
3575
   -- Expand_Cleanup_Actions --
3576
   ----------------------------
3577
 
3578
   procedure Expand_Cleanup_Actions (N : Node_Id) is
3579
      Scop : constant Entity_Id := Current_Scope;
3580
 
3581
      Is_Asynchronous_Call : constant Boolean :=
3582
                               Nkind (N) = N_Block_Statement
3583
                                 and then Is_Asynchronous_Call_Block (N);
3584
      Is_Master            : constant Boolean :=
3585
                               Nkind (N) /= N_Entry_Body
3586
                                 and then Is_Task_Master (N);
3587
      Is_Protected_Body    : constant Boolean :=
3588
                               Nkind (N) = N_Subprogram_Body
3589
                                 and then Is_Protected_Subprogram_Body (N);
3590
      Is_Task_Allocation   : constant Boolean :=
3591
                               Nkind (N) = N_Block_Statement
3592
                                 and then Is_Task_Allocation_Block (N);
3593
      Is_Task_Body         : constant Boolean :=
3594
                               Nkind (Original_Node (N)) = N_Task_Body;
3595
      Needs_Sec_Stack_Mark : constant Boolean :=
3596
                               Uses_Sec_Stack (Scop)
3597
                                 and then
3598
                                   not Sec_Stack_Needed_For_Return (Scop)
3599
                                 and then VM_Target = No_VM;
3600
 
3601
      Actions_Required     : constant Boolean :=
3602
                               Requires_Cleanup_Actions (N)
3603
                                 or else Is_Asynchronous_Call
3604
                                 or else Is_Master
3605
                                 or else Is_Protected_Body
3606
                                 or else Is_Task_Allocation
3607
                                 or else Is_Task_Body
3608
                                 or else Needs_Sec_Stack_Mark;
3609
 
3610
      HSS : Node_Id := Handled_Statement_Sequence (N);
3611
      Loc : Source_Ptr;
3612
 
3613
      procedure Wrap_HSS_In_Block;
3614
      --  Move HSS inside a new block along with the original exception
3615
      --  handlers. Make the newly generated block the sole statement of HSS.
3616
 
3617
      -----------------------
3618
      -- Wrap_HSS_In_Block --
3619
      -----------------------
3620
 
3621
      procedure Wrap_HSS_In_Block is
3622
         Block   : Node_Id;
3623
         End_Lab : Node_Id;
3624
 
3625
      begin
3626
         --  Preserve end label to provide proper cross-reference information
3627
 
3628
         End_Lab := End_Label (HSS);
3629
         Block :=
3630
           Make_Block_Statement (Loc,
3631
             Handled_Statement_Sequence => HSS);
3632
 
3633
         Set_Handled_Statement_Sequence (N,
3634
           Make_Handled_Sequence_Of_Statements (Loc, New_List (Block)));
3635
         HSS := Handled_Statement_Sequence (N);
3636
 
3637
         Set_First_Real_Statement (HSS, Block);
3638
         Set_End_Label (HSS, End_Lab);
3639
 
3640
         --  Comment needed here, see RH for 1.306 ???
3641
 
3642
         if Nkind (N) = N_Subprogram_Body then
3643
            Set_Has_Nested_Block_With_Handler (Scop);
3644
         end if;
3645
      end Wrap_HSS_In_Block;
3646
 
3647
   --  Start of processing for Expand_Cleanup_Actions
3648
 
3649
   begin
3650
      --  The current construct does not need any form of servicing
3651
 
3652
      if not Actions_Required then
3653
         return;
3654
 
3655
      --  If the current node is a rewritten task body and the descriptors have
3656
      --  not been delayed (due to some nested instantiations), do not generate
3657
      --  redundant cleanup actions.
3658
 
3659
      elsif Is_Task_Body
3660
        and then Nkind (N) = N_Subprogram_Body
3661
        and then not Delay_Subprogram_Descriptors (Corresponding_Spec (N))
3662
      then
3663
         return;
3664
      end if;
3665
 
3666
      declare
3667
         Decls     : List_Id := Declarations (N);
3668
         Fin_Id    : Entity_Id;
3669
         Mark      : Entity_Id := Empty;
3670
         New_Decls : List_Id;
3671
         Old_Poll  : Boolean;
3672
 
3673
      begin
3674
         --  If we are generating expanded code for debugging purposes, use the
3675
         --  Sloc of the point of insertion for the cleanup code. The Sloc will
3676
         --  be updated subsequently to reference the proper line in .dg files.
3677
         --  If we are not debugging generated code, use No_Location instead,
3678
         --  so that no debug information is generated for the cleanup code.
3679
         --  This makes the behavior of the NEXT command in GDB monotonic, and
3680
         --  makes the placement of breakpoints more accurate.
3681
 
3682
         if Debug_Generated_Code then
3683
            Loc := Sloc (Scop);
3684
         else
3685
            Loc := No_Location;
3686
         end if;
3687
 
3688
         --  Set polling off. The finalization and cleanup code is executed
3689
         --  with aborts deferred.
3690
 
3691
         Old_Poll := Polling_Required;
3692
         Polling_Required := False;
3693
 
3694
         --  A task activation call has already been built for a task
3695
         --  allocation block.
3696
 
3697
         if not Is_Task_Allocation then
3698
            Build_Task_Activation_Call (N);
3699
         end if;
3700
 
3701
         if Is_Master then
3702
            Establish_Task_Master (N);
3703
         end if;
3704
 
3705
         New_Decls := New_List;
3706
 
3707
         --  If secondary stack is in use, generate:
3708
         --
3709
         --    Mnn : constant Mark_Id := SS_Mark;
3710
 
3711
         --  Suppress calls to SS_Mark and SS_Release if VM_Target, since the
3712
         --  secondary stack is never used on a VM.
3713
 
3714
         if Needs_Sec_Stack_Mark then
3715
            Mark := Make_Temporary (Loc, 'M');
3716
 
3717
            Append_To (New_Decls,
3718
              Make_Object_Declaration (Loc,
3719
                Defining_Identifier => Mark,
3720
                Object_Definition   =>
3721
                  New_Reference_To (RTE (RE_Mark_Id), Loc),
3722
                Expression          =>
3723
                  Make_Function_Call (Loc,
3724
                    Name => New_Reference_To (RTE (RE_SS_Mark), Loc))));
3725
 
3726
            Set_Uses_Sec_Stack (Scop, False);
3727
         end if;
3728
 
3729
         --  If exception handlers are present, wrap the sequence of statements
3730
         --  in a block since it is not possible to have exception handlers and
3731
         --  an At_End handler in the same construct.
3732
 
3733
         if Present (Exception_Handlers (HSS)) then
3734
            Wrap_HSS_In_Block;
3735
 
3736
         --  Ensure that the First_Real_Statement field is set
3737
 
3738
         elsif No (First_Real_Statement (HSS)) then
3739
            Set_First_Real_Statement (HSS, First (Statements (HSS)));
3740
         end if;
3741
 
3742
         --  Do not move the Activation_Chain declaration in the context of
3743
         --  task allocation blocks. Task allocation blocks use _chain in their
3744
         --  cleanup handlers and gigi complains if it is declared in the
3745
         --  sequence of statements of the scope that declares the handler.
3746
 
3747
         if Is_Task_Allocation then
3748
            declare
3749
               Chain : constant Entity_Id := Activation_Chain_Entity (N);
3750
               Decl  : Node_Id;
3751
 
3752
            begin
3753
               Decl := First (Decls);
3754
               while Nkind (Decl) /= N_Object_Declaration
3755
                 or else Defining_Identifier (Decl) /= Chain
3756
               loop
3757
                  Next (Decl);
3758
 
3759
                  --  A task allocation block should always include a _chain
3760
                  --  declaration.
3761
 
3762
                  pragma Assert (Present (Decl));
3763
               end loop;
3764
 
3765
               Remove (Decl);
3766
               Prepend_To (New_Decls, Decl);
3767
            end;
3768
         end if;
3769
 
3770
         --  Ensure the presence of a declaration list in order to successfully
3771
         --  append all original statements to it.
3772
 
3773
         if No (Decls) then
3774
            Set_Declarations (N, New_List);
3775
            Decls := Declarations (N);
3776
         end if;
3777
 
3778
         --  Move the declarations into the sequence of statements in order to
3779
         --  have them protected by the At_End handler. It may seem weird to
3780
         --  put declarations in the sequence of statement but in fact nothing
3781
         --  forbids that at the tree level.
3782
 
3783
         Append_List_To (Decls, Statements (HSS));
3784
         Set_Statements (HSS, Decls);
3785
 
3786
         --  Reset the Sloc of the handled statement sequence to properly
3787
         --  reflect the new initial "statement" in the sequence.
3788
 
3789
         Set_Sloc (HSS, Sloc (First (Decls)));
3790
 
3791
         --  The declarations of finalizer spec and auxiliary variables replace
3792
         --  the old declarations that have been moved inward.
3793
 
3794
         Set_Declarations (N, New_Decls);
3795
         Analyze_Declarations (New_Decls);
3796
 
3797
         --  Generate finalization calls for all controlled objects appearing
3798
         --  in the statements of N. Add context specific cleanup for various
3799
         --  constructs.
3800
 
3801
         Build_Finalizer
3802
           (N           => N,
3803
            Clean_Stmts => Build_Cleanup_Statements (N),
3804
            Mark_Id     => Mark,
3805
            Top_Decls   => New_Decls,
3806
            Defer_Abort => Nkind (Original_Node (N)) = N_Task_Body
3807
                             or else Is_Master,
3808
            Fin_Id      => Fin_Id);
3809
 
3810
         if Present (Fin_Id) then
3811
            Build_Finalizer_Call (N, Fin_Id);
3812
         end if;
3813
 
3814
         --  Restore saved polling mode
3815
 
3816
         Polling_Required := Old_Poll;
3817
      end;
3818
   end Expand_Cleanup_Actions;
3819
 
3820
   ---------------------------
3821
   -- Expand_N_Package_Body --
3822
   ---------------------------
3823
 
3824
   --  Add call to Activate_Tasks if body is an activator (actual processing
3825
   --  is in chapter 9).
3826
 
3827
   --  Generate subprogram descriptor for elaboration routine
3828
 
3829
   --  Encode entity names in package body
3830
 
3831
   procedure Expand_N_Package_Body (N : Node_Id) is
3832
      Spec_Ent : constant Entity_Id := Corresponding_Spec (N);
3833
      Fin_Id   : Entity_Id;
3834
 
3835
   begin
3836
      --  This is done only for non-generic packages
3837
 
3838
      if Ekind (Spec_Ent) = E_Package then
3839
         Push_Scope (Corresponding_Spec (N));
3840
 
3841
         --  Build dispatch tables of library level tagged types
3842
 
3843
         if Tagged_Type_Expansion
3844
           and then Is_Library_Level_Entity (Spec_Ent)
3845
         then
3846
            Build_Static_Dispatch_Tables (N);
3847
         end if;
3848
 
3849
         Build_Task_Activation_Call (N);
3850
         Pop_Scope;
3851
      end if;
3852
 
3853
      Set_Elaboration_Flag (N, Corresponding_Spec (N));
3854
      Set_In_Package_Body (Spec_Ent, False);
3855
 
3856
      --  Set to encode entity names in package body before gigi is called
3857
 
3858
      Qualify_Entity_Names (N);
3859
 
3860
      if Ekind (Spec_Ent) /= E_Generic_Package then
3861
         Build_Finalizer
3862
           (N           => N,
3863
            Clean_Stmts => No_List,
3864
            Mark_Id     => Empty,
3865
            Top_Decls   => No_List,
3866
            Defer_Abort => False,
3867
            Fin_Id      => Fin_Id);
3868
 
3869
         if Present (Fin_Id) then
3870
            declare
3871
               Body_Ent : Node_Id := Defining_Unit_Name (N);
3872
 
3873
            begin
3874
               if Nkind (Body_Ent) = N_Defining_Program_Unit_Name then
3875
                  Body_Ent := Defining_Identifier (Body_Ent);
3876
               end if;
3877
 
3878
               Set_Finalizer (Body_Ent, Fin_Id);
3879
            end;
3880
         end if;
3881
      end if;
3882
   end Expand_N_Package_Body;
3883
 
3884
   ----------------------------------
3885
   -- Expand_N_Package_Declaration --
3886
   ----------------------------------
3887
 
3888
   --  Add call to Activate_Tasks if there are tasks declared and the package
3889
   --  has no body. Note that in Ada 83 this may result in premature activation
3890
   --  of some tasks, given that we cannot tell whether a body will eventually
3891
   --  appear.
3892
 
3893
   procedure Expand_N_Package_Declaration (N : Node_Id) is
3894
      Id     : constant Entity_Id := Defining_Entity (N);
3895
      Spec   : constant Node_Id   := Specification (N);
3896
      Decls  : List_Id;
3897
      Fin_Id : Entity_Id;
3898
 
3899
      No_Body : Boolean := False;
3900
      --  True in the case of a package declaration that is a compilation
3901
      --  unit and for which no associated body will be compiled in this
3902
      --  compilation.
3903
 
3904
   begin
3905
      --  Case of a package declaration other than a compilation unit
3906
 
3907
      if Nkind (Parent (N)) /= N_Compilation_Unit then
3908
         null;
3909
 
3910
      --  Case of a compilation unit that does not require a body
3911
 
3912
      elsif not Body_Required (Parent (N))
3913
        and then not Unit_Requires_Body (Id)
3914
      then
3915
         No_Body := True;
3916
 
3917
      --  Special case of generating calling stubs for a remote call interface
3918
      --  package: even though the package declaration requires one, the body
3919
      --  won't be processed in this compilation (so any stubs for RACWs
3920
      --  declared in the package must be generated here, along with the spec).
3921
 
3922
      elsif Parent (N) = Cunit (Main_Unit)
3923
        and then Is_Remote_Call_Interface (Id)
3924
        and then Distribution_Stub_Mode = Generate_Caller_Stub_Body
3925
      then
3926
         No_Body := True;
3927
      end if;
3928
 
3929
      --  For a nested instance, delay processing until freeze point
3930
 
3931
      if Has_Delayed_Freeze (Id)
3932
        and then Nkind (Parent (N)) /= N_Compilation_Unit
3933
      then
3934
         return;
3935
      end if;
3936
 
3937
      --  For a package declaration that implies no associated body, generate
3938
      --  task activation call and RACW supporting bodies now (since we won't
3939
      --  have a specific separate compilation unit for that).
3940
 
3941
      if No_Body then
3942
         Push_Scope (Id);
3943
 
3944
         if Has_RACW (Id) then
3945
 
3946
            --  Generate RACW subprogram bodies
3947
 
3948
            Decls := Private_Declarations (Spec);
3949
 
3950
            if No (Decls) then
3951
               Decls := Visible_Declarations (Spec);
3952
            end if;
3953
 
3954
            if No (Decls) then
3955
               Decls := New_List;
3956
               Set_Visible_Declarations (Spec, Decls);
3957
            end if;
3958
 
3959
            Append_RACW_Bodies (Decls, Id);
3960
            Analyze_List (Decls);
3961
         end if;
3962
 
3963
         if Present (Activation_Chain_Entity (N)) then
3964
 
3965
            --  Generate task activation call as last step of elaboration
3966
 
3967
            Build_Task_Activation_Call (N);
3968
         end if;
3969
 
3970
         Pop_Scope;
3971
      end if;
3972
 
3973
      --  Build dispatch tables of library level tagged types
3974
 
3975
      if Tagged_Type_Expansion
3976
        and then (Is_Compilation_Unit (Id)
3977
                   or else (Is_Generic_Instance (Id)
3978
                             and then Is_Library_Level_Entity (Id)))
3979
      then
3980
         Build_Static_Dispatch_Tables (N);
3981
      end if;
3982
 
3983
      --  Note: it is not necessary to worry about generating a subprogram
3984
      --  descriptor, since the only way to get exception handlers into a
3985
      --  package spec is to include instantiations, and that would cause
3986
      --  generation of subprogram descriptors to be delayed in any case.
3987
 
3988
      --  Set to encode entity names in package spec before gigi is called
3989
 
3990
      Qualify_Entity_Names (N);
3991
 
3992
      if Ekind (Id) /= E_Generic_Package then
3993
         Build_Finalizer
3994
           (N           => N,
3995
            Clean_Stmts => No_List,
3996
            Mark_Id     => Empty,
3997
            Top_Decls   => No_List,
3998
            Defer_Abort => False,
3999
            Fin_Id      => Fin_Id);
4000
 
4001
         Set_Finalizer (Id, Fin_Id);
4002
      end if;
4003
   end Expand_N_Package_Declaration;
4004
 
4005
   -----------------------------
4006
   -- Find_Node_To_Be_Wrapped --
4007
   -----------------------------
4008
 
4009
   function Find_Node_To_Be_Wrapped (N : Node_Id) return Node_Id is
4010
      P          : Node_Id;
4011
      The_Parent : Node_Id;
4012
 
4013
   begin
4014
      The_Parent := N;
4015
      loop
4016
         P := The_Parent;
4017
         pragma Assert (P /= Empty);
4018
         The_Parent := Parent (P);
4019
 
4020
         case Nkind (The_Parent) is
4021
 
4022
            --  Simple statement can be wrapped
4023
 
4024
            when N_Pragma =>
4025
               return The_Parent;
4026
 
4027
            --  Usually assignments are good candidate for wrapping except
4028
            --  when they have been generated as part of a controlled aggregate
4029
            --  where the wrapping should take place more globally.
4030
 
4031
            when N_Assignment_Statement =>
4032
               if No_Ctrl_Actions (The_Parent) then
4033
                  null;
4034
               else
4035
                  return The_Parent;
4036
               end if;
4037
 
4038
            --  An entry call statement is a special case if it occurs in the
4039
            --  context of a Timed_Entry_Call. In this case we wrap the entire
4040
            --  timed entry call.
4041
 
4042
            when N_Entry_Call_Statement     |
4043
                 N_Procedure_Call_Statement =>
4044
               if Nkind (Parent (The_Parent)) = N_Entry_Call_Alternative
4045
                 and then Nkind_In (Parent (Parent (The_Parent)),
4046
                                    N_Timed_Entry_Call,
4047
                                    N_Conditional_Entry_Call)
4048
               then
4049
                  return Parent (Parent (The_Parent));
4050
               else
4051
                  return The_Parent;
4052
               end if;
4053
 
4054
            --  Object declarations are also a boundary for the transient scope
4055
            --  even if they are not really wrapped. For further details, see
4056
            --  Wrap_Transient_Declaration.
4057
 
4058
            when N_Object_Declaration          |
4059
                 N_Object_Renaming_Declaration |
4060
                 N_Subtype_Declaration         =>
4061
               return The_Parent;
4062
 
4063
            --  The expression itself is to be wrapped if its parent is a
4064
            --  compound statement or any other statement where the expression
4065
            --  is known to be scalar
4066
 
4067
            when N_Accept_Alternative               |
4068
                 N_Attribute_Definition_Clause      |
4069
                 N_Case_Statement                   |
4070
                 N_Code_Statement                   |
4071
                 N_Delay_Alternative                |
4072
                 N_Delay_Until_Statement            |
4073
                 N_Delay_Relative_Statement         |
4074
                 N_Discriminant_Association         |
4075
                 N_Elsif_Part                       |
4076
                 N_Entry_Body_Formal_Part           |
4077
                 N_Exit_Statement                   |
4078
                 N_If_Statement                     |
4079
                 N_Iteration_Scheme                 |
4080
                 N_Terminate_Alternative            =>
4081
               return P;
4082
 
4083
            when N_Attribute_Reference =>
4084
 
4085
               if Is_Procedure_Attribute_Name
4086
                    (Attribute_Name (The_Parent))
4087
               then
4088
                  return The_Parent;
4089
               end if;
4090
 
4091
            --  A raise statement can be wrapped. This will arise when the
4092
            --  expression in a raise_with_expression uses the secondary
4093
            --  stack, for example.
4094
 
4095
            when N_Raise_Statement =>
4096
               return The_Parent;
4097
 
4098
            --  If the expression is within the iteration scheme of a loop,
4099
            --  we must create a declaration for it, followed by an assignment
4100
            --  in order to have a usable statement to wrap.
4101
 
4102
            when N_Loop_Parameter_Specification =>
4103
               return Parent (The_Parent);
4104
 
4105
            --  The following nodes contains "dummy calls" which don't need to
4106
            --  be wrapped.
4107
 
4108
            when N_Parameter_Specification     |
4109
                 N_Discriminant_Specification  |
4110
                 N_Component_Declaration       =>
4111
               return Empty;
4112
 
4113
            --  The return statement is not to be wrapped when the function
4114
            --  itself needs wrapping at the outer-level
4115
 
4116
            when N_Simple_Return_Statement =>
4117
               declare
4118
                  Applies_To : constant Entity_Id :=
4119
                                 Return_Applies_To
4120
                                   (Return_Statement_Entity (The_Parent));
4121
                  Return_Type : constant Entity_Id := Etype (Applies_To);
4122
               begin
4123
                  if Requires_Transient_Scope (Return_Type) then
4124
                     return Empty;
4125
                  else
4126
                     return The_Parent;
4127
                  end if;
4128
               end;
4129
 
4130
            --  If we leave a scope without having been able to find a node to
4131
            --  wrap, something is going wrong but this can happen in error
4132
            --  situation that are not detected yet (such as a dynamic string
4133
            --  in a pragma export)
4134
 
4135
            when N_Subprogram_Body     |
4136
                 N_Package_Declaration |
4137
                 N_Package_Body        |
4138
                 N_Block_Statement     =>
4139
               return Empty;
4140
 
4141
            --  Otherwise continue the search
4142
 
4143
            when others =>
4144
               null;
4145
         end case;
4146
      end loop;
4147
   end Find_Node_To_Be_Wrapped;
4148
 
4149
   -------------------------------------
4150
   -- Get_Global_Pool_For_Access_Type --
4151
   -------------------------------------
4152
 
4153
   function Get_Global_Pool_For_Access_Type (T : Entity_Id) return Entity_Id is
4154
   begin
4155
      --  Access types whose size is smaller than System.Address size can exist
4156
      --  only on VMS. We can't use the usual global pool which returns an
4157
      --  object of type Address as truncation will make it invalid. To handle
4158
      --  this case, VMS has a dedicated global pool that returns addresses
4159
      --  that fit into 32 bit accesses.
4160
 
4161
      if Opt.True_VMS_Target and then Esize (T) = 32 then
4162
         return RTE (RE_Global_Pool_32_Object);
4163
      else
4164
         return RTE (RE_Global_Pool_Object);
4165
      end if;
4166
   end Get_Global_Pool_For_Access_Type;
4167
 
4168
   ----------------------------------
4169
   -- Has_New_Controlled_Component --
4170
   ----------------------------------
4171
 
4172
   function Has_New_Controlled_Component (E : Entity_Id) return Boolean is
4173
      Comp : Entity_Id;
4174
 
4175
   begin
4176
      if not Is_Tagged_Type (E) then
4177
         return Has_Controlled_Component (E);
4178
      elsif not Is_Derived_Type (E) then
4179
         return Has_Controlled_Component (E);
4180
      end if;
4181
 
4182
      Comp := First_Component (E);
4183
      while Present (Comp) loop
4184
         if Chars (Comp) = Name_uParent then
4185
            null;
4186
 
4187
         elsif Scope (Original_Record_Component (Comp)) = E
4188
           and then Needs_Finalization (Etype (Comp))
4189
         then
4190
            return True;
4191
         end if;
4192
 
4193
         Next_Component (Comp);
4194
      end loop;
4195
 
4196
      return False;
4197
   end Has_New_Controlled_Component;
4198
 
4199
   ---------------------------------
4200
   -- Has_Simple_Protected_Object --
4201
   ---------------------------------
4202
 
4203
   function Has_Simple_Protected_Object (T : Entity_Id) return Boolean is
4204
   begin
4205
      if Has_Task (T) then
4206
         return False;
4207
 
4208
      elsif Is_Simple_Protected_Type (T) then
4209
         return True;
4210
 
4211
      elsif Is_Array_Type (T) then
4212
         return Has_Simple_Protected_Object (Component_Type (T));
4213
 
4214
      elsif Is_Record_Type (T) then
4215
         declare
4216
            Comp : Entity_Id;
4217
 
4218
         begin
4219
            Comp := First_Component (T);
4220
            while Present (Comp) loop
4221
               if Has_Simple_Protected_Object (Etype (Comp)) then
4222
                  return True;
4223
               end if;
4224
 
4225
               Next_Component (Comp);
4226
            end loop;
4227
 
4228
            return False;
4229
         end;
4230
 
4231
      else
4232
         return False;
4233
      end if;
4234
   end Has_Simple_Protected_Object;
4235
 
4236
   ------------------------------------
4237
   -- Insert_Actions_In_Scope_Around --
4238
   ------------------------------------
4239
 
4240
   procedure Insert_Actions_In_Scope_Around (N : Node_Id) is
4241
      SE     : Scope_Stack_Entry renames Scope_Stack.Table (Scope_Stack.Last);
4242
      After  : List_Id renames SE.Actions_To_Be_Wrapped_After;
4243
      Before : List_Id renames SE.Actions_To_Be_Wrapped_Before;
4244
 
4245
      procedure Process_Transient_Objects
4246
        (First_Object : Node_Id;
4247
         Last_Object  : Node_Id;
4248
         Related_Node : Node_Id);
4249
      --  First_Object and Last_Object define a list which contains potential
4250
      --  controlled transient objects. Finalization flags are inserted before
4251
      --  First_Object and finalization calls are inserted after Last_Object.
4252
      --  Related_Node is the node for which transient objects have been
4253
      --  created.
4254
 
4255
      -------------------------------
4256
      -- Process_Transient_Objects --
4257
      -------------------------------
4258
 
4259
      procedure Process_Transient_Objects
4260
        (First_Object : Node_Id;
4261
         Last_Object  : Node_Id;
4262
         Related_Node : Node_Id)
4263
      is
4264
         Requires_Hooking : constant Boolean :=
4265
                              Nkind_In (N, N_Function_Call,
4266
                                           N_Procedure_Call_Statement);
4267
 
4268
         Built     : Boolean := False;
4269
         Desig_Typ : Entity_Id;
4270
         Fin_Block : Node_Id;
4271
         Fin_Data  : Finalization_Exception_Data;
4272
         Fin_Decls : List_Id;
4273
         Last_Fin  : Node_Id := Empty;
4274
         Loc       : Source_Ptr;
4275
         Obj_Id    : Entity_Id;
4276
         Obj_Ref   : Node_Id;
4277
         Obj_Typ   : Entity_Id;
4278
         Stmt      : Node_Id;
4279
         Stmts     : List_Id;
4280
         Temp_Id   : Entity_Id;
4281
 
4282
      begin
4283
         --  Examine all objects in the list First_Object .. Last_Object
4284
 
4285
         Stmt := First_Object;
4286
         while Present (Stmt) loop
4287
            if Nkind (Stmt) = N_Object_Declaration
4288
              and then Analyzed (Stmt)
4289
              and then Is_Finalizable_Transient (Stmt, N)
4290
 
4291
              --  Do not process the node to be wrapped since it will be
4292
              --  handled by the enclosing finalizer.
4293
 
4294
              and then Stmt /= Related_Node
4295
            then
4296
               Loc       := Sloc (Stmt);
4297
               Obj_Id    := Defining_Identifier (Stmt);
4298
               Obj_Typ   := Base_Type (Etype (Obj_Id));
4299
               Desig_Typ := Obj_Typ;
4300
 
4301
               Set_Is_Processed_Transient (Obj_Id);
4302
 
4303
               --  Handle access types
4304
 
4305
               if Is_Access_Type (Desig_Typ) then
4306
                  Desig_Typ := Available_View (Designated_Type (Desig_Typ));
4307
               end if;
4308
 
4309
               --  Create the necessary entities and declarations the first
4310
               --  time around.
4311
 
4312
               if not Built then
4313
                  Fin_Decls := New_List;
4314
 
4315
                  Build_Object_Declarations (Fin_Data, Fin_Decls, Loc);
4316
                  Insert_List_Before_And_Analyze (First_Object, Fin_Decls);
4317
 
4318
                  Built := True;
4319
               end if;
4320
 
4321
               --  Transient variables associated with subprogram calls need
4322
               --  extra processing. These variables are usually created right
4323
               --  before the call and finalized immediately after the call.
4324
               --  If an exception occurs during the call, the clean up code
4325
               --  is skipped due to the sudden change in control and the
4326
               --  transient is never finalized.
4327
 
4328
               --  To handle this case, such variables are "exported" to the
4329
               --  enclosing sequence of statements where their corresponding
4330
               --  "hooks" are picked up by the finalization machinery.
4331
 
4332
               if Requires_Hooking then
4333
                  declare
4334
                     Expr   : Node_Id;
4335
                     Ptr_Id : Entity_Id;
4336
 
4337
                  begin
4338
                     --  Step 1: Create an access type which provides a
4339
                     --  reference to the transient object. Generate:
4340
 
4341
                     --    Ann : access [all] <Desig_Typ>;
4342
 
4343
                     Ptr_Id := Make_Temporary (Loc, 'A');
4344
 
4345
                     Insert_Action (Stmt,
4346
                       Make_Full_Type_Declaration (Loc,
4347
                         Defining_Identifier => Ptr_Id,
4348
                         Type_Definition     =>
4349
                           Make_Access_To_Object_Definition (Loc,
4350
                             All_Present        =>
4351
                               Ekind (Obj_Typ) = E_General_Access_Type,
4352
                             Subtype_Indication =>
4353
                               New_Reference_To (Desig_Typ, Loc))));
4354
 
4355
                     --  Step 2: Create a temporary which acts as a hook to
4356
                     --  the transient object. Generate:
4357
 
4358
                     --    Temp : Ptr_Id := null;
4359
 
4360
                     Temp_Id := Make_Temporary (Loc, 'T');
4361
 
4362
                     Insert_Action (Stmt,
4363
                       Make_Object_Declaration (Loc,
4364
                         Defining_Identifier => Temp_Id,
4365
                         Object_Definition   =>
4366
                           New_Reference_To (Ptr_Id, Loc)));
4367
 
4368
                     --  Mark the temporary as a transient hook. This signals
4369
                     --  the machinery in Build_Finalizer to recognize this
4370
                     --  special case.
4371
 
4372
                     Set_Return_Flag_Or_Transient_Decl (Temp_Id, Stmt);
4373
 
4374
                     --  Step 3: Hook the transient object to the temporary
4375
 
4376
                     if Is_Access_Type (Obj_Typ) then
4377
                        Expr :=
4378
                          Convert_To (Ptr_Id, New_Reference_To (Obj_Id, Loc));
4379
                     else
4380
                        Expr :=
4381
                          Make_Attribute_Reference (Loc,
4382
                            Prefix         => New_Reference_To (Obj_Id, Loc),
4383
                            Attribute_Name => Name_Unrestricted_Access);
4384
                     end if;
4385
 
4386
                     --  Generate:
4387
                     --    Temp := Ptr_Id (Obj_Id);
4388
                     --      <or>
4389
                     --    Temp := Obj_Id'Unrestricted_Access;
4390
 
4391
                     Insert_After_And_Analyze (Stmt,
4392
                       Make_Assignment_Statement (Loc,
4393
                         Name       => New_Reference_To (Temp_Id, Loc),
4394
                         Expression => Expr));
4395
                  end;
4396
               end if;
4397
 
4398
               Stmts := New_List;
4399
 
4400
               --  The transient object is about to be finalized by the clean
4401
               --  up code following the subprogram call. In order to avoid
4402
               --  double finalization, clear the hook.
4403
 
4404
               --  Generate:
4405
               --    Temp := null;
4406
 
4407
               if Requires_Hooking then
4408
                  Append_To (Stmts,
4409
                    Make_Assignment_Statement (Loc,
4410
                      Name       => New_Reference_To (Temp_Id, Loc),
4411
                      Expression => Make_Null (Loc)));
4412
               end if;
4413
 
4414
               --  Generate:
4415
               --    [Deep_]Finalize (Obj_Ref);
4416
 
4417
               Obj_Ref := New_Reference_To (Obj_Id, Loc);
4418
 
4419
               if Is_Access_Type (Obj_Typ) then
4420
                  Obj_Ref := Make_Explicit_Dereference (Loc, Obj_Ref);
4421
               end if;
4422
 
4423
               Append_To (Stmts,
4424
                 Make_Final_Call (Obj_Ref => Obj_Ref, Typ => Desig_Typ));
4425
 
4426
               --  Generate:
4427
               --    [Temp := null;]
4428
               --    begin
4429
               --       [Deep_]Finalize (Obj_Ref);
4430
 
4431
               --    exception
4432
               --       when others =>
4433
               --          if not Raised then
4434
               --             Raised := True;
4435
               --             Save_Occurrence
4436
               --               (Enn, Get_Current_Excep.all.all);
4437
               --          end if;
4438
               --    end;
4439
 
4440
               Fin_Block :=
4441
                 Make_Block_Statement (Loc,
4442
                   Handled_Statement_Sequence =>
4443
                     Make_Handled_Sequence_Of_Statements (Loc,
4444
                       Statements => Stmts,
4445
                       Exception_Handlers => New_List (
4446
                         Build_Exception_Handler (Fin_Data))));
4447
 
4448
               Insert_After_And_Analyze (Last_Object, Fin_Block);
4449
 
4450
               --  The raise statement must be inserted after all the
4451
               --  finalization blocks.
4452
 
4453
               if No (Last_Fin) then
4454
                  Last_Fin := Fin_Block;
4455
               end if;
4456
 
4457
            --  When the associated node is an array object, the expander may
4458
            --  sometimes generate a loop and create transient objects inside
4459
            --  the loop.
4460
 
4461
            elsif Nkind (Related_Node) = N_Object_Declaration
4462
              and then Is_Array_Type
4463
                         (Base_Type
4464
                           (Etype (Defining_Identifier (Related_Node))))
4465
              and then Nkind (Stmt) = N_Loop_Statement
4466
            then
4467
               declare
4468
                  Block_HSS : Node_Id := First (Statements (Stmt));
4469
 
4470
               begin
4471
                  --  The loop statements may have been wrapped in a block by
4472
                  --  Process_Statements_For_Controlled_Objects, inspect the
4473
                  --  handled sequence of statements.
4474
 
4475
                  if Nkind (Block_HSS) = N_Block_Statement
4476
                    and then No (Next (Block_HSS))
4477
                  then
4478
                     Block_HSS := Handled_Statement_Sequence (Block_HSS);
4479
 
4480
                     Process_Transient_Objects
4481
                       (First_Object => First (Statements (Block_HSS)),
4482
                        Last_Object  => Last (Statements (Block_HSS)),
4483
                        Related_Node => Related_Node);
4484
 
4485
                  --  Inspect the statements of the loop
4486
 
4487
                  else
4488
                     Process_Transient_Objects
4489
                       (First_Object => First (Statements (Stmt)),
4490
                        Last_Object  => Last (Statements (Stmt)),
4491
                        Related_Node => Related_Node);
4492
                  end if;
4493
               end;
4494
 
4495
            --  Terminate the scan after the last object has been processed
4496
 
4497
            elsif Stmt = Last_Object then
4498
               exit;
4499
            end if;
4500
 
4501
            Next (Stmt);
4502
         end loop;
4503
 
4504
         --  Generate:
4505
         --    if Raised and then not Abort then
4506
         --       Raise_From_Controlled_Operation (E);
4507
         --    end if;
4508
 
4509
         if Built
4510
           and then Present (Last_Fin)
4511
         then
4512
            Insert_After_And_Analyze (Last_Fin,
4513
              Build_Raise_Statement (Fin_Data));
4514
         end if;
4515
      end Process_Transient_Objects;
4516
 
4517
   --  Start of processing for Insert_Actions_In_Scope_Around
4518
 
4519
   begin
4520
      if No (Before) and then No (After) then
4521
         return;
4522
      end if;
4523
 
4524
      declare
4525
         Node_To_Wrap  : constant Node_Id := Node_To_Be_Wrapped;
4526
         First_Obj  : Node_Id;
4527
         Last_Obj   : Node_Id;
4528
         Target     : Node_Id;
4529
 
4530
      begin
4531
         --  If the node to be wrapped is the trigger of an asynchronous
4532
         --  select, it is not part of a statement list. The actions must be
4533
         --  inserted before the select itself, which is part of some list of
4534
         --  statements. Note that the triggering alternative includes the
4535
         --  triggering statement and an optional statement list. If the node
4536
         --  to be wrapped is part of that list, the normal insertion applies.
4537
 
4538
         if Nkind (Parent (Node_To_Wrap)) = N_Triggering_Alternative
4539
           and then not Is_List_Member (Node_To_Wrap)
4540
         then
4541
            Target := Parent (Parent (Node_To_Wrap));
4542
         else
4543
            Target := N;
4544
         end if;
4545
 
4546
         First_Obj := Target;
4547
         Last_Obj  := Target;
4548
 
4549
         --  Add all actions associated with a transient scope into the main
4550
         --  tree. There are several scenarios here:
4551
 
4552
         --       +--- Before ----+        +----- After ---+
4553
         --    1) First_Obj ....... Target ........ Last_Obj
4554
 
4555
         --    2) First_Obj ....... Target
4556
 
4557
         --    3)                   Target ........ Last_Obj
4558
 
4559
         if Present (Before) then
4560
 
4561
            --  Flag declarations are inserted before the first object
4562
 
4563
            First_Obj := First (Before);
4564
 
4565
            Insert_List_Before (Target, Before);
4566
         end if;
4567
 
4568
         if Present (After) then
4569
 
4570
            --  Finalization calls are inserted after the last object
4571
 
4572
            Last_Obj := Last (After);
4573
 
4574
            Insert_List_After (Target, After);
4575
         end if;
4576
 
4577
         --  Check for transient controlled objects associated with Target and
4578
         --  generate the appropriate finalization actions for them.
4579
 
4580
         Process_Transient_Objects
4581
           (First_Object => First_Obj,
4582
            Last_Object  => Last_Obj,
4583
            Related_Node => Target);
4584
 
4585
         --  Reset the action lists
4586
 
4587
         if Present (Before) then
4588
            Before := No_List;
4589
         end if;
4590
 
4591
         if Present (After) then
4592
            After := No_List;
4593
         end if;
4594
      end;
4595
   end Insert_Actions_In_Scope_Around;
4596
 
4597
   ------------------------------
4598
   -- Is_Simple_Protected_Type --
4599
   ------------------------------
4600
 
4601
   function Is_Simple_Protected_Type (T : Entity_Id) return Boolean is
4602
   begin
4603
      return
4604
        Is_Protected_Type (T)
4605
          and then not Has_Entries (T)
4606
          and then Is_RTE (Find_Protection_Type (T), RE_Protection);
4607
   end Is_Simple_Protected_Type;
4608
 
4609
   -----------------------
4610
   -- Make_Adjust_Call --
4611
   -----------------------
4612
 
4613
   function Make_Adjust_Call
4614
     (Obj_Ref    : Node_Id;
4615
      Typ        : Entity_Id;
4616
      For_Parent : Boolean := False) return Node_Id
4617
   is
4618
      Loc    : constant Source_Ptr := Sloc (Obj_Ref);
4619
      Adj_Id : Entity_Id := Empty;
4620
      Ref    : Node_Id   := Obj_Ref;
4621
      Utyp   : Entity_Id;
4622
 
4623
   begin
4624
      --  Recover the proper type which contains Deep_Adjust
4625
 
4626
      if Is_Class_Wide_Type (Typ) then
4627
         Utyp := Root_Type (Typ);
4628
      else
4629
         Utyp := Typ;
4630
      end if;
4631
 
4632
      Utyp := Underlying_Type (Base_Type (Utyp));
4633
      Set_Assignment_OK (Ref);
4634
 
4635
      --  Deal with non-tagged derivation of private views
4636
 
4637
      if Is_Untagged_Derivation (Typ) then
4638
         Utyp := Underlying_Type (Root_Type (Base_Type (Typ)));
4639
         Ref  := Unchecked_Convert_To (Utyp, Ref);
4640
         Set_Assignment_OK (Ref);
4641
      end if;
4642
 
4643
      --  When dealing with the completion of a private type, use the base
4644
      --  type instead.
4645
 
4646
      if Utyp /= Base_Type (Utyp) then
4647
         pragma Assert (Is_Private_Type (Typ));
4648
 
4649
         Utyp := Base_Type (Utyp);
4650
         Ref  := Unchecked_Convert_To (Utyp, Ref);
4651
      end if;
4652
 
4653
      --  Select the appropriate version of adjust
4654
 
4655
      if For_Parent then
4656
         if Has_Controlled_Component (Utyp) then
4657
            Adj_Id := Find_Prim_Op (Utyp, TSS_Deep_Adjust);
4658
         end if;
4659
 
4660
      --  Class-wide types, interfaces and types with controlled components
4661
 
4662
      elsif Is_Class_Wide_Type (Typ)
4663
        or else Is_Interface (Typ)
4664
        or else Has_Controlled_Component (Utyp)
4665
      then
4666
         if Is_Tagged_Type (Utyp) then
4667
            Adj_Id := Find_Prim_Op (Utyp, TSS_Deep_Adjust);
4668
         else
4669
            Adj_Id := TSS (Utyp, TSS_Deep_Adjust);
4670
         end if;
4671
 
4672
      --  Derivations from [Limited_]Controlled
4673
 
4674
      elsif Is_Controlled (Utyp) then
4675
         if Has_Controlled_Component (Utyp) then
4676
            Adj_Id := Find_Prim_Op (Utyp, TSS_Deep_Adjust);
4677
         else
4678
            Adj_Id := Find_Prim_Op (Utyp, Name_Of (Adjust_Case));
4679
         end if;
4680
 
4681
      --  Tagged types
4682
 
4683
      elsif Is_Tagged_Type (Utyp) then
4684
         Adj_Id := Find_Prim_Op (Utyp, TSS_Deep_Adjust);
4685
 
4686
      else
4687
         raise Program_Error;
4688
      end if;
4689
 
4690
      if Present (Adj_Id) then
4691
 
4692
         --  If the object is unanalyzed, set its expected type for use in
4693
         --  Convert_View in case an additional conversion is needed.
4694
 
4695
         if No (Etype (Ref))
4696
           and then Nkind (Ref) /= N_Unchecked_Type_Conversion
4697
         then
4698
            Set_Etype (Ref, Typ);
4699
         end if;
4700
 
4701
         --  The object reference may need another conversion depending on the
4702
         --  type of the formal and that of the actual.
4703
 
4704
         if not Is_Class_Wide_Type (Typ) then
4705
            Ref := Convert_View (Adj_Id, Ref);
4706
         end if;
4707
 
4708
         return Make_Call (Loc, Adj_Id, New_Copy_Tree (Ref), For_Parent);
4709
      else
4710
         return Empty;
4711
      end if;
4712
   end Make_Adjust_Call;
4713
 
4714
   ----------------------
4715
   -- Make_Attach_Call --
4716
   ----------------------
4717
 
4718
   function Make_Attach_Call
4719
     (Obj_Ref : Node_Id;
4720
      Ptr_Typ : Entity_Id) return Node_Id
4721
   is
4722
      pragma Assert (VM_Target /= No_VM);
4723
 
4724
      Loc : constant Source_Ptr := Sloc (Obj_Ref);
4725
   begin
4726
      return
4727
        Make_Procedure_Call_Statement (Loc,
4728
          Name                   =>
4729
            New_Reference_To (RTE (RE_Attach), Loc),
4730
          Parameter_Associations => New_List (
4731
            New_Reference_To (Finalization_Master (Ptr_Typ), Loc),
4732
            Unchecked_Convert_To (RTE (RE_Root_Controlled_Ptr), Obj_Ref)));
4733
   end Make_Attach_Call;
4734
 
4735
   ----------------------
4736
   -- Make_Detach_Call --
4737
   ----------------------
4738
 
4739
   function Make_Detach_Call (Obj_Ref : Node_Id) return Node_Id is
4740
      Loc : constant Source_Ptr := Sloc (Obj_Ref);
4741
 
4742
   begin
4743
      return
4744
        Make_Procedure_Call_Statement (Loc,
4745
          Name                   =>
4746
            New_Reference_To (RTE (RE_Detach), Loc),
4747
          Parameter_Associations => New_List (
4748
            Unchecked_Convert_To (RTE (RE_Root_Controlled_Ptr), Obj_Ref)));
4749
   end Make_Detach_Call;
4750
 
4751
   ---------------
4752
   -- Make_Call --
4753
   ---------------
4754
 
4755
   function Make_Call
4756
     (Loc        : Source_Ptr;
4757
      Proc_Id    : Entity_Id;
4758
      Param      : Node_Id;
4759
      For_Parent : Boolean := False) return Node_Id
4760
   is
4761
      Params : constant List_Id := New_List (Param);
4762
 
4763
   begin
4764
      --  When creating a call to Deep_Finalize for a _parent field of a
4765
      --  derived type, disable the invocation of the nested Finalize by giving
4766
      --  the corresponding flag a False value.
4767
 
4768
      if For_Parent then
4769
         Append_To (Params, New_Reference_To (Standard_False, Loc));
4770
      end if;
4771
 
4772
      return
4773
        Make_Procedure_Call_Statement (Loc,
4774
          Name                   => New_Reference_To (Proc_Id, Loc),
4775
          Parameter_Associations => Params);
4776
   end Make_Call;
4777
 
4778
   --------------------------
4779
   -- Make_Deep_Array_Body --
4780
   --------------------------
4781
 
4782
   function Make_Deep_Array_Body
4783
     (Prim : Final_Primitives;
4784
      Typ  : Entity_Id) return List_Id
4785
   is
4786
      function Build_Adjust_Or_Finalize_Statements
4787
        (Typ : Entity_Id) return List_Id;
4788
      --  Create the statements necessary to adjust or finalize an array of
4789
      --  controlled elements. Generate:
4790
      --
4791
      --    declare
4792
      --       Abort  : constant Boolean := Triggered_By_Abort;
4793
      --         <or>
4794
      --       Abort  : constant Boolean := False;  --  no abort
4795
      --
4796
      --       E      : Exception_Occurrence;
4797
      --       Raised : Boolean := False;
4798
      --
4799
      --    begin
4800
      --       for J1 in [reverse] Typ'First (1) .. Typ'Last (1) loop
4801
      --                 ^--  in the finalization case
4802
      --          ...
4803
      --          for Jn in [reverse] Typ'First (n) .. Typ'Last (n) loop
4804
      --             begin
4805
      --                [Deep_]Adjust / Finalize (V (J1, ..., Jn));
4806
      --
4807
      --             exception
4808
      --                when others =>
4809
      --                   if not Raised then
4810
      --                      Raised := True;
4811
      --                      Save_Occurrence (E, Get_Current_Excep.all.all);
4812
      --                   end if;
4813
      --             end;
4814
      --          end loop;
4815
      --          ...
4816
      --       end loop;
4817
      --
4818
      --       if Raised and then not Abort then
4819
      --          Raise_From_Controlled_Operation (E);
4820
      --       end if;
4821
      --    end;
4822
 
4823
      function Build_Initialize_Statements (Typ : Entity_Id) return List_Id;
4824
      --  Create the statements necessary to initialize an array of controlled
4825
      --  elements. Include a mechanism to carry out partial finalization if an
4826
      --  exception occurs. Generate:
4827
      --
4828
      --    declare
4829
      --       Counter : Integer := 0;
4830
      --
4831
      --    begin
4832
      --       for J1 in V'Range (1) loop
4833
      --          ...
4834
      --          for JN in V'Range (N) loop
4835
      --             begin
4836
      --                [Deep_]Initialize (V (J1, ..., JN));
4837
      --
4838
      --                Counter := Counter + 1;
4839
      --
4840
      --             exception
4841
      --                when others =>
4842
      --                   declare
4843
      --                      Abort  : constant Boolean := Triggered_By_Abort;
4844
      --                        <or>
4845
      --                      Abort  : constant Boolean := False; --  no abort
4846
      --                      E      : Exception_Occurence;
4847
      --                      Raised : Boolean := False;
4848
 
4849
      --                   begin
4850
      --                      Counter :=
4851
      --                        V'Length (1) *
4852
      --                        V'Length (2) *
4853
      --                        ...
4854
      --                        V'Length (N) - Counter;
4855
 
4856
      --                      for F1 in reverse V'Range (1) loop
4857
      --                         ...
4858
      --                         for FN in reverse V'Range (N) loop
4859
      --                            if Counter > 0 then
4860
      --                               Counter := Counter - 1;
4861
      --                            else
4862
      --                               begin
4863
      --                                  [Deep_]Finalize (V (F1, ..., FN));
4864
 
4865
      --                               exception
4866
      --                                  when others =>
4867
      --                                     if not Raised then
4868
      --                                        Raised := True;
4869
      --                                        Save_Occurrence (E,
4870
      --                                          Get_Current_Excep.all.all);
4871
      --                                     end if;
4872
      --                               end;
4873
      --                            end if;
4874
      --                         end loop;
4875
      --                         ...
4876
      --                      end loop;
4877
      --                   end;
4878
      --
4879
      --                   if Raised and then not Abort then
4880
      --                      Raise_From_Controlled_Operation (E);
4881
      --                   end if;
4882
      --
4883
      --                   raise;
4884
      --             end;
4885
      --          end loop;
4886
      --       end loop;
4887
      --    end;
4888
 
4889
      function New_References_To
4890
        (L   : List_Id;
4891
         Loc : Source_Ptr) return List_Id;
4892
      --  Given a list of defining identifiers, return a list of references to
4893
      --  the original identifiers, in the same order as they appear.
4894
 
4895
      -----------------------------------------
4896
      -- Build_Adjust_Or_Finalize_Statements --
4897
      -----------------------------------------
4898
 
4899
      function Build_Adjust_Or_Finalize_Statements
4900
        (Typ : Entity_Id) return List_Id
4901
      is
4902
         Comp_Typ        : constant Entity_Id  := Component_Type (Typ);
4903
         Index_List      : constant List_Id    := New_List;
4904
         Loc             : constant Source_Ptr := Sloc (Typ);
4905
         Num_Dims        : constant Int        := Number_Dimensions (Typ);
4906
         Finalizer_Decls : List_Id := No_List;
4907
         Finalizer_Data  : Finalization_Exception_Data;
4908
         Call            : Node_Id;
4909
         Comp_Ref        : Node_Id;
4910
         Core_Loop       : Node_Id;
4911
         Dim             : Int;
4912
         J               : Entity_Id;
4913
         Loop_Id         : Entity_Id;
4914
         Stmts           : List_Id;
4915
 
4916
         Exceptions_OK : constant Boolean :=
4917
                           not Restriction_Active (No_Exception_Propagation);
4918
 
4919
         procedure Build_Indices;
4920
         --  Generate the indices used in the dimension loops
4921
 
4922
         -------------------
4923
         -- Build_Indices --
4924
         -------------------
4925
 
4926
         procedure Build_Indices is
4927
         begin
4928
            --  Generate the following identifiers:
4929
            --    Jnn  -  for initialization
4930
 
4931
            for Dim in 1 .. Num_Dims loop
4932
               Append_To (Index_List,
4933
                 Make_Defining_Identifier (Loc, New_External_Name ('J', Dim)));
4934
            end loop;
4935
         end Build_Indices;
4936
 
4937
      --  Start of processing for Build_Adjust_Or_Finalize_Statements
4938
 
4939
      begin
4940
         Finalizer_Decls := New_List;
4941
 
4942
         Build_Indices;
4943
         Build_Object_Declarations (Finalizer_Data, Finalizer_Decls, Loc);
4944
 
4945
         Comp_Ref :=
4946
           Make_Indexed_Component (Loc,
4947
             Prefix      => Make_Identifier (Loc, Name_V),
4948
             Expressions => New_References_To (Index_List, Loc));
4949
         Set_Etype (Comp_Ref, Comp_Typ);
4950
 
4951
         --  Generate:
4952
         --    [Deep_]Adjust (V (J1, ..., JN))
4953
 
4954
         if Prim = Adjust_Case then
4955
            Call := Make_Adjust_Call (Obj_Ref => Comp_Ref, Typ => Comp_Typ);
4956
 
4957
         --  Generate:
4958
         --    [Deep_]Finalize (V (J1, ..., JN))
4959
 
4960
         else pragma Assert (Prim = Finalize_Case);
4961
            Call := Make_Final_Call (Obj_Ref => Comp_Ref, Typ => Comp_Typ);
4962
         end if;
4963
 
4964
         --  Generate the block which houses the adjust or finalize call:
4965
 
4966
         --    <adjust or finalize call>;  --  No_Exception_Propagation
4967
 
4968
         --    begin                       --  Exception handlers allowed
4969
         --       <adjust or finalize call>
4970
 
4971
         --    exception
4972
         --       when others =>
4973
         --          if not Raised then
4974
         --             Raised := True;
4975
         --             Save_Occurrence (E, Get_Current_Excep.all.all);
4976
         --          end if;
4977
         --    end;
4978
 
4979
         if Exceptions_OK then
4980
            Core_Loop :=
4981
              Make_Block_Statement (Loc,
4982
                Handled_Statement_Sequence =>
4983
                  Make_Handled_Sequence_Of_Statements (Loc,
4984
                    Statements         => New_List (Call),
4985
                    Exception_Handlers => New_List (
4986
                      Build_Exception_Handler (Finalizer_Data))));
4987
         else
4988
            Core_Loop := Call;
4989
         end if;
4990
 
4991
         --  Generate the dimension loops starting from the innermost one
4992
 
4993
         --    for Jnn in [reverse] V'Range (Dim) loop
4994
         --       <core loop>
4995
         --    end loop;
4996
 
4997
         J := Last (Index_List);
4998
         Dim := Num_Dims;
4999
         while Present (J) and then Dim > 0 loop
5000
            Loop_Id := J;
5001
            Prev (J);
5002
            Remove (Loop_Id);
5003
 
5004
            Core_Loop :=
5005
              Make_Loop_Statement (Loc,
5006
                Iteration_Scheme =>
5007
                  Make_Iteration_Scheme (Loc,
5008
                    Loop_Parameter_Specification =>
5009
                      Make_Loop_Parameter_Specification (Loc,
5010
                        Defining_Identifier         => Loop_Id,
5011
                        Discrete_Subtype_Definition =>
5012
                          Make_Attribute_Reference (Loc,
5013
                            Prefix         => Make_Identifier (Loc, Name_V),
5014
                            Attribute_Name => Name_Range,
5015
                            Expressions    => New_List (
5016
                              Make_Integer_Literal (Loc, Dim))),
5017
 
5018
                        Reverse_Present => Prim = Finalize_Case)),
5019
 
5020
                Statements => New_List (Core_Loop),
5021
                End_Label  => Empty);
5022
 
5023
            Dim := Dim - 1;
5024
         end loop;
5025
 
5026
         --  Generate the block which contains the core loop, the declarations
5027
         --  of the abort flag, the exception occurrence, the raised flag and
5028
         --  the conditional raise:
5029
 
5030
         --    declare
5031
         --       Abort  : constant Boolean := Triggered_By_Abort;
5032
         --         <or>
5033
         --       Abort  : constant Boolean := False;  --  no abort
5034
 
5035
         --       E      : Exception_Occurrence;
5036
         --       Raised : Boolean := False;
5037
 
5038
         --    begin
5039
         --       <core loop>
5040
 
5041
         --       if Raised and then not Abort then  --  Expection handlers OK
5042
         --          Raise_From_Controlled_Operation (E);
5043
         --       end if;
5044
         --    end;
5045
 
5046
         Stmts := New_List (Core_Loop);
5047
 
5048
         if Exceptions_OK then
5049
            Append_To (Stmts,
5050
              Build_Raise_Statement (Finalizer_Data));
5051
         end if;
5052
 
5053
         return
5054
           New_List (
5055
             Make_Block_Statement (Loc,
5056
               Declarations               =>
5057
                 Finalizer_Decls,
5058
               Handled_Statement_Sequence =>
5059
                 Make_Handled_Sequence_Of_Statements (Loc, Stmts)));
5060
      end Build_Adjust_Or_Finalize_Statements;
5061
 
5062
      ---------------------------------
5063
      -- Build_Initialize_Statements --
5064
      ---------------------------------
5065
 
5066
      function Build_Initialize_Statements (Typ : Entity_Id) return List_Id is
5067
         Comp_Typ        : constant Entity_Id  := Component_Type (Typ);
5068
         Final_List      : constant List_Id    := New_List;
5069
         Index_List      : constant List_Id    := New_List;
5070
         Loc             : constant Source_Ptr := Sloc (Typ);
5071
         Num_Dims        : constant Int        := Number_Dimensions (Typ);
5072
         Counter_Id      : Entity_Id;
5073
         Dim             : Int;
5074
         F               : Node_Id;
5075
         Fin_Stmt        : Node_Id;
5076
         Final_Block     : Node_Id;
5077
         Final_Loop      : Node_Id;
5078
         Finalizer_Data  : Finalization_Exception_Data;
5079
         Finalizer_Decls : List_Id := No_List;
5080
         Init_Loop       : Node_Id;
5081
         J               : Node_Id;
5082
         Loop_Id         : Node_Id;
5083
         Stmts           : List_Id;
5084
 
5085
         Exceptions_OK : constant Boolean :=
5086
                           not Restriction_Active (No_Exception_Propagation);
5087
 
5088
         function Build_Counter_Assignment return Node_Id;
5089
         --  Generate the following assignment:
5090
         --    Counter := V'Length (1) *
5091
         --               ...
5092
         --               V'Length (N) - Counter;
5093
 
5094
         function Build_Finalization_Call return Node_Id;
5095
         --  Generate a deep finalization call for an array element
5096
 
5097
         procedure Build_Indices;
5098
         --  Generate the initialization and finalization indices used in the
5099
         --  dimension loops.
5100
 
5101
         function Build_Initialization_Call return Node_Id;
5102
         --  Generate a deep initialization call for an array element
5103
 
5104
         ------------------------------
5105
         -- Build_Counter_Assignment --
5106
         ------------------------------
5107
 
5108
         function Build_Counter_Assignment return Node_Id is
5109
            Dim  : Int;
5110
            Expr : Node_Id;
5111
 
5112
         begin
5113
            --  Start from the first dimension and generate:
5114
            --    V'Length (1)
5115
 
5116
            Dim := 1;
5117
            Expr :=
5118
              Make_Attribute_Reference (Loc,
5119
                Prefix         => Make_Identifier (Loc, Name_V),
5120
                Attribute_Name => Name_Length,
5121
                Expressions    => New_List (Make_Integer_Literal (Loc, Dim)));
5122
 
5123
            --  Process the rest of the dimensions, generate:
5124
            --    Expr * V'Length (N)
5125
 
5126
            Dim := Dim + 1;
5127
            while Dim <= Num_Dims loop
5128
               Expr :=
5129
                 Make_Op_Multiply (Loc,
5130
                   Left_Opnd  => Expr,
5131
                   Right_Opnd =>
5132
                     Make_Attribute_Reference (Loc,
5133
                       Prefix         => Make_Identifier (Loc, Name_V),
5134
                       Attribute_Name => Name_Length,
5135
                       Expressions    => New_List (
5136
                         Make_Integer_Literal (Loc, Dim))));
5137
 
5138
               Dim := Dim + 1;
5139
            end loop;
5140
 
5141
            --  Generate:
5142
            --    Counter := Expr - Counter;
5143
 
5144
            return
5145
              Make_Assignment_Statement (Loc,
5146
                Name       => New_Reference_To (Counter_Id, Loc),
5147
                Expression =>
5148
                  Make_Op_Subtract (Loc,
5149
                    Left_Opnd  => Expr,
5150
                    Right_Opnd => New_Reference_To (Counter_Id, Loc)));
5151
         end Build_Counter_Assignment;
5152
 
5153
         -----------------------------
5154
         -- Build_Finalization_Call --
5155
         -----------------------------
5156
 
5157
         function Build_Finalization_Call return Node_Id is
5158
            Comp_Ref : constant Node_Id :=
5159
                         Make_Indexed_Component (Loc,
5160
                           Prefix      => Make_Identifier (Loc, Name_V),
5161
                           Expressions => New_References_To (Final_List, Loc));
5162
 
5163
         begin
5164
            Set_Etype (Comp_Ref, Comp_Typ);
5165
 
5166
            --  Generate:
5167
            --    [Deep_]Finalize (V);
5168
 
5169
            return Make_Final_Call (Obj_Ref => Comp_Ref, Typ => Comp_Typ);
5170
         end Build_Finalization_Call;
5171
 
5172
         -------------------
5173
         -- Build_Indices --
5174
         -------------------
5175
 
5176
         procedure Build_Indices is
5177
         begin
5178
            --  Generate the following identifiers:
5179
            --    Jnn  -  for initialization
5180
            --    Fnn  -  for finalization
5181
 
5182
            for Dim in 1 .. Num_Dims loop
5183
               Append_To (Index_List,
5184
                 Make_Defining_Identifier (Loc, New_External_Name ('J', Dim)));
5185
 
5186
               Append_To (Final_List,
5187
                 Make_Defining_Identifier (Loc, New_External_Name ('F', Dim)));
5188
            end loop;
5189
         end Build_Indices;
5190
 
5191
         -------------------------------
5192
         -- Build_Initialization_Call --
5193
         -------------------------------
5194
 
5195
         function Build_Initialization_Call return Node_Id is
5196
            Comp_Ref : constant Node_Id :=
5197
                         Make_Indexed_Component (Loc,
5198
                           Prefix      => Make_Identifier (Loc, Name_V),
5199
                           Expressions => New_References_To (Index_List, Loc));
5200
 
5201
         begin
5202
            Set_Etype (Comp_Ref, Comp_Typ);
5203
 
5204
            --  Generate:
5205
            --    [Deep_]Initialize (V (J1, ..., JN));
5206
 
5207
            return Make_Init_Call (Obj_Ref => Comp_Ref, Typ => Comp_Typ);
5208
         end Build_Initialization_Call;
5209
 
5210
      --  Start of processing for Build_Initialize_Statements
5211
 
5212
      begin
5213
         Counter_Id := Make_Temporary (Loc, 'C');
5214
         Finalizer_Decls := New_List;
5215
 
5216
         Build_Indices;
5217
         Build_Object_Declarations (Finalizer_Data, Finalizer_Decls, Loc);
5218
 
5219
         --  Generate the block which houses the finalization call, the index
5220
         --  guard and the handler which triggers Program_Error later on.
5221
 
5222
         --    if Counter > 0 then
5223
         --       Counter := Counter - 1;
5224
         --    else
5225
         --       [Deep_]Finalize (V (F1, ..., FN));  --  No_Except_Propagation
5226
 
5227
         --       begin                               --  Exceptions allowed
5228
         --          [Deep_]Finalize (V (F1, ..., FN));
5229
         --       exception
5230
         --          when others =>
5231
         --             if not Raised then
5232
         --                Raised := True;
5233
         --                Save_Occurrence (E, Get_Current_Excep.all.all);
5234
         --             end if;
5235
         --       end;
5236
         --    end if;
5237
 
5238
         if Exceptions_OK then
5239
            Fin_Stmt :=
5240
              Make_Block_Statement (Loc,
5241
                Handled_Statement_Sequence =>
5242
                  Make_Handled_Sequence_Of_Statements (Loc,
5243
                    Statements         => New_List (Build_Finalization_Call),
5244
                    Exception_Handlers => New_List (
5245
                      Build_Exception_Handler (Finalizer_Data))));
5246
         else
5247
            Fin_Stmt := Build_Finalization_Call;
5248
         end if;
5249
 
5250
         --  This is the core of the loop, the dimension iterators are added
5251
         --  one by one in reverse.
5252
 
5253
         Final_Loop :=
5254
           Make_If_Statement (Loc,
5255
             Condition =>
5256
               Make_Op_Gt (Loc,
5257
                 Left_Opnd  => New_Reference_To (Counter_Id, Loc),
5258
                 Right_Opnd => Make_Integer_Literal (Loc, 0)),
5259
 
5260
             Then_Statements => New_List (
5261
               Make_Assignment_Statement (Loc,
5262
                 Name       => New_Reference_To (Counter_Id, Loc),
5263
                 Expression =>
5264
                   Make_Op_Subtract (Loc,
5265
                     Left_Opnd  => New_Reference_To (Counter_Id, Loc),
5266
                     Right_Opnd => Make_Integer_Literal (Loc, 1)))),
5267
 
5268
             Else_Statements => New_List (Fin_Stmt));
5269
 
5270
         --  Generate all finalization loops starting from the innermost
5271
         --  dimension.
5272
 
5273
         --    for Fnn in reverse V'Range (Dim) loop
5274
         --       <final loop>
5275
         --    end loop;
5276
 
5277
         F := Last (Final_List);
5278
         Dim := Num_Dims;
5279
         while Present (F) and then Dim > 0 loop
5280
            Loop_Id := F;
5281
            Prev (F);
5282
            Remove (Loop_Id);
5283
 
5284
            Final_Loop :=
5285
              Make_Loop_Statement (Loc,
5286
                Iteration_Scheme =>
5287
                  Make_Iteration_Scheme (Loc,
5288
                    Loop_Parameter_Specification =>
5289
                      Make_Loop_Parameter_Specification (Loc,
5290
                        Defining_Identifier => Loop_Id,
5291
                        Discrete_Subtype_Definition =>
5292
                          Make_Attribute_Reference (Loc,
5293
                            Prefix         => Make_Identifier (Loc, Name_V),
5294
                            Attribute_Name => Name_Range,
5295
                            Expressions    => New_List (
5296
                              Make_Integer_Literal (Loc, Dim))),
5297
 
5298
                        Reverse_Present => True)),
5299
 
5300
                Statements => New_List (Final_Loop),
5301
                End_Label => Empty);
5302
 
5303
            Dim := Dim - 1;
5304
         end loop;
5305
 
5306
         --  Generate the block which contains the finalization loops, the
5307
         --  declarations of the abort flag, the exception occurrence, the
5308
         --  raised flag and the conditional raise.
5309
 
5310
         --    declare
5311
         --       Abort  : constant Boolean := Triggered_By_Abort;
5312
         --         <or>
5313
         --       Abort  : constant Boolean := False;  --  no abort
5314
 
5315
         --       E      : Exception_Occurrence;
5316
         --       Raised : Boolean := False;
5317
 
5318
         --    begin
5319
         --       Counter :=
5320
         --         V'Length (1) *
5321
         --         ...
5322
         --         V'Length (N) - Counter;
5323
 
5324
         --       <final loop>
5325
 
5326
         --       if Raised and then not Abort then  --  Exception handlers OK
5327
         --          Raise_From_Controlled_Operation (E);
5328
         --       end if;
5329
 
5330
         --       raise;  --  Exception handlers OK
5331
         --    end;
5332
 
5333
         Stmts := New_List (Build_Counter_Assignment, Final_Loop);
5334
 
5335
         if Exceptions_OK then
5336
            Append_To (Stmts,
5337
              Build_Raise_Statement (Finalizer_Data));
5338
            Append_To (Stmts, Make_Raise_Statement (Loc));
5339
         end if;
5340
 
5341
         Final_Block :=
5342
           Make_Block_Statement (Loc,
5343
             Declarations               =>
5344
               Finalizer_Decls,
5345
             Handled_Statement_Sequence =>
5346
               Make_Handled_Sequence_Of_Statements (Loc, Statements => Stmts));
5347
 
5348
         --  Generate the block which contains the initialization call and
5349
         --  the partial finalization code.
5350
 
5351
         --    begin
5352
         --       [Deep_]Initialize (V (J1, ..., JN));
5353
 
5354
         --       Counter := Counter + 1;
5355
 
5356
         --    exception
5357
         --       when others =>
5358
         --          <finalization code>
5359
         --    end;
5360
 
5361
         Init_Loop :=
5362
           Make_Block_Statement (Loc,
5363
             Handled_Statement_Sequence =>
5364
               Make_Handled_Sequence_Of_Statements (Loc,
5365
                 Statements         => New_List (Build_Initialization_Call),
5366
                 Exception_Handlers => New_List (
5367
                   Make_Exception_Handler (Loc,
5368
                     Exception_Choices => New_List (Make_Others_Choice (Loc)),
5369
                     Statements        => New_List (Final_Block)))));
5370
 
5371
         Append_To (Statements (Handled_Statement_Sequence (Init_Loop)),
5372
           Make_Assignment_Statement (Loc,
5373
             Name       => New_Reference_To (Counter_Id, Loc),
5374
             Expression =>
5375
               Make_Op_Add (Loc,
5376
                 Left_Opnd  => New_Reference_To (Counter_Id, Loc),
5377
                 Right_Opnd => Make_Integer_Literal (Loc, 1))));
5378
 
5379
         --  Generate all initialization loops starting from the innermost
5380
         --  dimension.
5381
 
5382
         --    for Jnn in V'Range (Dim) loop
5383
         --       <init loop>
5384
         --    end loop;
5385
 
5386
         J := Last (Index_List);
5387
         Dim := Num_Dims;
5388
         while Present (J) and then Dim > 0 loop
5389
            Loop_Id := J;
5390
            Prev (J);
5391
            Remove (Loop_Id);
5392
 
5393
            Init_Loop :=
5394
              Make_Loop_Statement (Loc,
5395
                Iteration_Scheme =>
5396
                  Make_Iteration_Scheme (Loc,
5397
                    Loop_Parameter_Specification =>
5398
                      Make_Loop_Parameter_Specification (Loc,
5399
                        Defining_Identifier => Loop_Id,
5400
                        Discrete_Subtype_Definition =>
5401
                          Make_Attribute_Reference (Loc,
5402
                            Prefix         => Make_Identifier (Loc, Name_V),
5403
                            Attribute_Name => Name_Range,
5404
                            Expressions    => New_List (
5405
                              Make_Integer_Literal (Loc, Dim))))),
5406
 
5407
                Statements => New_List (Init_Loop),
5408
                End_Label => Empty);
5409
 
5410
            Dim := Dim - 1;
5411
         end loop;
5412
 
5413
         --  Generate the block which contains the counter variable and the
5414
         --  initialization loops.
5415
 
5416
         --    declare
5417
         --       Counter : Integer := 0;
5418
         --    begin
5419
         --       <init loop>
5420
         --    end;
5421
 
5422
         return
5423
           New_List (
5424
             Make_Block_Statement (Loc,
5425
               Declarations               => New_List (
5426
                 Make_Object_Declaration (Loc,
5427
                   Defining_Identifier => Counter_Id,
5428
                   Object_Definition   =>
5429
                     New_Reference_To (Standard_Integer, Loc),
5430
                   Expression          => Make_Integer_Literal (Loc, 0))),
5431
 
5432
               Handled_Statement_Sequence =>
5433
                 Make_Handled_Sequence_Of_Statements (Loc,
5434
                   Statements => New_List (Init_Loop))));
5435
      end Build_Initialize_Statements;
5436
 
5437
      -----------------------
5438
      -- New_References_To --
5439
      -----------------------
5440
 
5441
      function New_References_To
5442
        (L   : List_Id;
5443
         Loc : Source_Ptr) return List_Id
5444
      is
5445
         Refs : constant List_Id := New_List;
5446
         Id   : Node_Id;
5447
 
5448
      begin
5449
         Id := First (L);
5450
         while Present (Id) loop
5451
            Append_To (Refs, New_Reference_To (Id, Loc));
5452
            Next (Id);
5453
         end loop;
5454
 
5455
         return Refs;
5456
      end New_References_To;
5457
 
5458
   --  Start of processing for Make_Deep_Array_Body
5459
 
5460
   begin
5461
      case Prim is
5462
         when Address_Case =>
5463
            return Make_Finalize_Address_Stmts (Typ);
5464
 
5465
         when Adjust_Case   |
5466
              Finalize_Case =>
5467
            return Build_Adjust_Or_Finalize_Statements (Typ);
5468
 
5469
         when Initialize_Case =>
5470
            return Build_Initialize_Statements (Typ);
5471
      end case;
5472
   end Make_Deep_Array_Body;
5473
 
5474
   --------------------
5475
   -- Make_Deep_Proc --
5476
   --------------------
5477
 
5478
   function Make_Deep_Proc
5479
     (Prim  : Final_Primitives;
5480
      Typ   : Entity_Id;
5481
      Stmts : List_Id) return Entity_Id
5482
   is
5483
      Loc     : constant Source_Ptr := Sloc (Typ);
5484
      Formals : List_Id;
5485
      Proc_Id : Entity_Id;
5486
 
5487
   begin
5488
      --  Create the object formal, generate:
5489
      --    V : System.Address
5490
 
5491
      if Prim = Address_Case then
5492
         Formals := New_List (
5493
           Make_Parameter_Specification (Loc,
5494
             Defining_Identifier => Make_Defining_Identifier (Loc, Name_V),
5495
             Parameter_Type      => New_Reference_To (RTE (RE_Address), Loc)));
5496
 
5497
      --  Default case
5498
 
5499
      else
5500
         --  V : in out Typ
5501
 
5502
         Formals := New_List (
5503
           Make_Parameter_Specification (Loc,
5504
             Defining_Identifier => Make_Defining_Identifier (Loc, Name_V),
5505
             In_Present          => True,
5506
             Out_Present         => True,
5507
             Parameter_Type      => New_Reference_To (Typ, Loc)));
5508
 
5509
         --  F : Boolean := True
5510
 
5511
         if Prim = Adjust_Case
5512
           or else Prim = Finalize_Case
5513
         then
5514
            Append_To (Formals,
5515
              Make_Parameter_Specification (Loc,
5516
                Defining_Identifier => Make_Defining_Identifier (Loc, Name_F),
5517
                Parameter_Type      =>
5518
                  New_Reference_To (Standard_Boolean, Loc),
5519
                Expression          =>
5520
                  New_Reference_To (Standard_True, Loc)));
5521
         end if;
5522
      end if;
5523
 
5524
      Proc_Id :=
5525
        Make_Defining_Identifier (Loc,
5526
          Chars => Make_TSS_Name (Typ, Deep_Name_Of (Prim)));
5527
 
5528
      --  Generate:
5529
      --    procedure Deep_Initialize / Adjust / Finalize (V : in out <typ>) is
5530
      --    begin
5531
      --       <stmts>
5532
      --    exception                --  Finalize and Adjust cases only
5533
      --       raise Program_Error;
5534
      --    end Deep_Initialize / Adjust / Finalize;
5535
 
5536
      --       or
5537
 
5538
      --    procedure Finalize_Address (V : System.Address) is
5539
      --    begin
5540
      --       <stmts>
5541
      --    end Finalize_Address;
5542
 
5543
      Discard_Node (
5544
        Make_Subprogram_Body (Loc,
5545
          Specification =>
5546
            Make_Procedure_Specification (Loc,
5547
              Defining_Unit_Name       => Proc_Id,
5548
              Parameter_Specifications => Formals),
5549
 
5550
          Declarations => Empty_List,
5551
 
5552
          Handled_Statement_Sequence =>
5553
            Make_Handled_Sequence_Of_Statements (Loc, Statements => Stmts)));
5554
 
5555
      return Proc_Id;
5556
   end Make_Deep_Proc;
5557
 
5558
   ---------------------------
5559
   -- Make_Deep_Record_Body --
5560
   ---------------------------
5561
 
5562
   function Make_Deep_Record_Body
5563
     (Prim     : Final_Primitives;
5564
      Typ      : Entity_Id;
5565
      Is_Local : Boolean := False) return List_Id
5566
   is
5567
      function Build_Adjust_Statements (Typ : Entity_Id) return List_Id;
5568
      --  Build the statements necessary to adjust a record type. The type may
5569
      --  have discriminants and contain variant parts. Generate:
5570
      --
5571
      --    begin
5572
      --       begin
5573
      --          [Deep_]Adjust (V.Comp_1);
5574
      --       exception
5575
      --          when Id : others =>
5576
      --             if not Raised then
5577
      --                Raised := True;
5578
      --                Save_Occurrence (E, Get_Current_Excep.all.all);
5579
      --             end if;
5580
      --       end;
5581
      --       .  .  .
5582
      --       begin
5583
      --          [Deep_]Adjust (V.Comp_N);
5584
      --       exception
5585
      --          when Id : others =>
5586
      --             if not Raised then
5587
      --                Raised := True;
5588
      --                Save_Occurrence (E, Get_Current_Excep.all.all);
5589
      --             end if;
5590
      --       end;
5591
      --
5592
      --       begin
5593
      --          Deep_Adjust (V._parent, False);  --  If applicable
5594
      --       exception
5595
      --          when Id : others =>
5596
      --             if not Raised then
5597
      --                Raised := True;
5598
      --                Save_Occurrence (E, Get_Current_Excep.all.all);
5599
      --             end if;
5600
      --       end;
5601
      --
5602
      --       if F then
5603
      --          begin
5604
      --             Adjust (V);  --  If applicable
5605
      --          exception
5606
      --             when others =>
5607
      --                if not Raised then
5608
      --                   Raised := True;
5609
      --                   Save_Occurence (E, Get_Current_Excep.all.all);
5610
      --                end if;
5611
      --          end;
5612
      --       end if;
5613
      --
5614
      --       if Raised and then not Abort then
5615
      --          Raise_From_Controlled_Operation (E);
5616
      --       end if;
5617
      --    end;
5618
 
5619
      function Build_Finalize_Statements (Typ : Entity_Id) return List_Id;
5620
      --  Build the statements necessary to finalize a record type. The type
5621
      --  may have discriminants and contain variant parts. Generate:
5622
      --
5623
      --    declare
5624
      --       Abort  : constant Boolean := Triggered_By_Abort;
5625
      --         <or>
5626
      --       Abort  : constant Boolean := False;  --  no abort
5627
      --       E      : Exception_Occurence;
5628
      --       Raised : Boolean := False;
5629
      --
5630
      --    begin
5631
      --       if F then
5632
      --          begin
5633
      --             Finalize (V);  --  If applicable
5634
      --          exception
5635
      --             when others =>
5636
      --                if not Raised then
5637
      --                   Raised := True;
5638
      --                   Save_Occurence (E, Get_Current_Excep.all.all);
5639
      --                end if;
5640
      --          end;
5641
      --       end if;
5642
      --
5643
      --       case Variant_1 is
5644
      --          when Value_1 =>
5645
      --             case State_Counter_N =>  --  If Is_Local is enabled
5646
      --                when N =>                 .
5647
      --                   goto LN;               .
5648
      --                ...                       .
5649
      --                when 1 =>                 .
5650
      --                   goto L1;               .
5651
      --                when others =>            .
5652
      --                   goto L0;               .
5653
      --             end case;                    .
5654
      --
5655
      --             <<LN>>                   --  If Is_Local is enabled
5656
      --             begin
5657
      --                [Deep_]Finalize (V.Comp_N);
5658
      --             exception
5659
      --                when others =>
5660
      --                   if not Raised then
5661
      --                      Raised := True;
5662
      --                      Save_Occurence (E, Get_Current_Excep.all.all);
5663
      --                   end if;
5664
      --             end;
5665
      --             .  .  .
5666
      --             <<L1>>
5667
      --             begin
5668
      --                [Deep_]Finalize (V.Comp_1);
5669
      --             exception
5670
      --                when others =>
5671
      --                   if not Raised then
5672
      --                      Raised := True;
5673
      --                      Save_Occurence (E, Get_Current_Excep.all.all);
5674
      --                   end if;
5675
      --             end;
5676
      --             <<L0>>
5677
      --       end case;
5678
      --
5679
      --       case State_Counter_1 =>  --  If Is_Local is enabled
5680
      --          when M =>                 .
5681
      --             goto LM;               .
5682
      --       ...
5683
      --
5684
      --       begin
5685
      --          Deep_Finalize (V._parent, False);  --  If applicable
5686
      --       exception
5687
      --          when Id : others =>
5688
      --             if not Raised then
5689
      --                Raised := True;
5690
      --                Save_Occurrence (E, Get_Current_Excep.all.all);
5691
      --             end if;
5692
      --       end;
5693
      --
5694
      --       if Raised and then not Abort then
5695
      --          Raise_From_Controlled_Operation (E);
5696
      --       end if;
5697
      --    end;
5698
 
5699
      function Parent_Field_Type (Typ : Entity_Id) return Entity_Id;
5700
      --  Given a derived tagged type Typ, traverse all components, find field
5701
      --  _parent and return its type.
5702
 
5703
      procedure Preprocess_Components
5704
        (Comps     : Node_Id;
5705
         Num_Comps : out Int;
5706
         Has_POC   : out Boolean);
5707
      --  Examine all components in component list Comps, count all controlled
5708
      --  components and determine whether at least one of them is per-object
5709
      --  constrained. Component _parent is always skipped.
5710
 
5711
      -----------------------------
5712
      -- Build_Adjust_Statements --
5713
      -----------------------------
5714
 
5715
      function Build_Adjust_Statements (Typ : Entity_Id) return List_Id is
5716
         Loc             : constant Source_Ptr := Sloc (Typ);
5717
         Typ_Def         : constant Node_Id := Type_Definition (Parent (Typ));
5718
         Bod_Stmts       : List_Id;
5719
         Finalizer_Data  : Finalization_Exception_Data;
5720
         Finalizer_Decls : List_Id := No_List;
5721
         Rec_Def         : Node_Id;
5722
         Var_Case        : Node_Id;
5723
 
5724
         Exceptions_OK : constant Boolean :=
5725
                           not Restriction_Active (No_Exception_Propagation);
5726
 
5727
         function Process_Component_List_For_Adjust
5728
           (Comps : Node_Id) return List_Id;
5729
         --  Build all necessary adjust statements for a single component list
5730
 
5731
         ---------------------------------------
5732
         -- Process_Component_List_For_Adjust --
5733
         ---------------------------------------
5734
 
5735
         function Process_Component_List_For_Adjust
5736
           (Comps : Node_Id) return List_Id
5737
         is
5738
            Stmts     : constant List_Id := New_List;
5739
            Decl      : Node_Id;
5740
            Decl_Id   : Entity_Id;
5741
            Decl_Typ  : Entity_Id;
5742
            Has_POC   : Boolean;
5743
            Num_Comps : Int;
5744
 
5745
            procedure Process_Component_For_Adjust (Decl : Node_Id);
5746
            --  Process the declaration of a single controlled component
5747
 
5748
            ----------------------------------
5749
            -- Process_Component_For_Adjust --
5750
            ----------------------------------
5751
 
5752
            procedure Process_Component_For_Adjust (Decl : Node_Id) is
5753
               Id       : constant Entity_Id := Defining_Identifier (Decl);
5754
               Typ      : constant Entity_Id := Etype (Id);
5755
               Adj_Stmt : Node_Id;
5756
 
5757
            begin
5758
               --  Generate:
5759
               --    [Deep_]Adjust (V.Id);  --  No_Exception_Propagation
5760
 
5761
               --    begin                  --  Exception handlers allowed
5762
               --       [Deep_]Adjust (V.Id);
5763
               --    exception
5764
               --       when others =>
5765
               --          if not Raised then
5766
               --             Raised := True;
5767
               --             Save_Occurrence (E, Get_Current_Excep.all.all);
5768
               --          end if;
5769
               --    end;
5770
 
5771
               Adj_Stmt :=
5772
                 Make_Adjust_Call (
5773
                   Obj_Ref =>
5774
                     Make_Selected_Component (Loc,
5775
                       Prefix        => Make_Identifier (Loc, Name_V),
5776
                       Selector_Name => Make_Identifier (Loc, Chars (Id))),
5777
                   Typ     => Typ);
5778
 
5779
               if Exceptions_OK then
5780
                  Adj_Stmt :=
5781
                    Make_Block_Statement (Loc,
5782
                      Handled_Statement_Sequence =>
5783
                        Make_Handled_Sequence_Of_Statements (Loc,
5784
                          Statements         => New_List (Adj_Stmt),
5785
                          Exception_Handlers => New_List (
5786
                            Build_Exception_Handler (Finalizer_Data))));
5787
               end if;
5788
 
5789
               Append_To (Stmts, Adj_Stmt);
5790
            end Process_Component_For_Adjust;
5791
 
5792
         --  Start of processing for Process_Component_List_For_Adjust
5793
 
5794
         begin
5795
            --  Perform an initial check, determine the number of controlled
5796
            --  components in the current list and whether at least one of them
5797
            --  is per-object constrained.
5798
 
5799
            Preprocess_Components (Comps, Num_Comps, Has_POC);
5800
 
5801
            --  The processing in this routine is done in the following order:
5802
            --    1) Regular components
5803
            --    2) Per-object constrained components
5804
            --    3) Variant parts
5805
 
5806
            if Num_Comps > 0 then
5807
 
5808
               --  Process all regular components in order of declarations
5809
 
5810
               Decl := First_Non_Pragma (Component_Items (Comps));
5811
               while Present (Decl) loop
5812
                  Decl_Id  := Defining_Identifier (Decl);
5813
                  Decl_Typ := Etype (Decl_Id);
5814
 
5815
                  --  Skip _parent as well as per-object constrained components
5816
 
5817
                  if Chars (Decl_Id) /= Name_uParent
5818
                    and then Needs_Finalization (Decl_Typ)
5819
                  then
5820
                     if Has_Access_Constraint (Decl_Id)
5821
                       and then No (Expression (Decl))
5822
                     then
5823
                        null;
5824
                     else
5825
                        Process_Component_For_Adjust (Decl);
5826
                     end if;
5827
                  end if;
5828
 
5829
                  Next_Non_Pragma (Decl);
5830
               end loop;
5831
 
5832
               --  Process all per-object constrained components in order of
5833
               --  declarations.
5834
 
5835
               if Has_POC then
5836
                  Decl := First_Non_Pragma (Component_Items (Comps));
5837
                  while Present (Decl) loop
5838
                     Decl_Id  := Defining_Identifier (Decl);
5839
                     Decl_Typ := Etype (Decl_Id);
5840
 
5841
                     --  Skip _parent
5842
 
5843
                     if Chars (Decl_Id) /= Name_uParent
5844
                       and then Needs_Finalization (Decl_Typ)
5845
                       and then Has_Access_Constraint (Decl_Id)
5846
                       and then No (Expression (Decl))
5847
                     then
5848
                        Process_Component_For_Adjust (Decl);
5849
                     end if;
5850
 
5851
                     Next_Non_Pragma (Decl);
5852
                  end loop;
5853
               end if;
5854
            end if;
5855
 
5856
            --  Process all variants, if any
5857
 
5858
            Var_Case := Empty;
5859
            if Present (Variant_Part (Comps)) then
5860
               declare
5861
                  Var_Alts : constant List_Id := New_List;
5862
                  Var      : Node_Id;
5863
 
5864
               begin
5865
                  Var := First_Non_Pragma (Variants (Variant_Part (Comps)));
5866
                  while Present (Var) loop
5867
 
5868
                     --  Generate:
5869
                     --     when <discrete choices> =>
5870
                     --        <adjust statements>
5871
 
5872
                     Append_To (Var_Alts,
5873
                       Make_Case_Statement_Alternative (Loc,
5874
                         Discrete_Choices =>
5875
                           New_Copy_List (Discrete_Choices (Var)),
5876
                         Statements       =>
5877
                           Process_Component_List_For_Adjust (
5878
                             Component_List (Var))));
5879
 
5880
                     Next_Non_Pragma (Var);
5881
                  end loop;
5882
 
5883
                  --  Generate:
5884
                  --     case V.<discriminant> is
5885
                  --        when <discrete choices 1> =>
5886
                  --           <adjust statements 1>
5887
                  --        ...
5888
                  --        when <discrete choices N> =>
5889
                  --           <adjust statements N>
5890
                  --     end case;
5891
 
5892
                  Var_Case :=
5893
                    Make_Case_Statement (Loc,
5894
                      Expression =>
5895
                        Make_Selected_Component (Loc,
5896
                          Prefix        => Make_Identifier (Loc, Name_V),
5897
                          Selector_Name =>
5898
                            Make_Identifier (Loc,
5899
                              Chars => Chars (Name (Variant_Part (Comps))))),
5900
                      Alternatives => Var_Alts);
5901
               end;
5902
            end if;
5903
 
5904
            --  Add the variant case statement to the list of statements
5905
 
5906
            if Present (Var_Case) then
5907
               Append_To (Stmts, Var_Case);
5908
            end if;
5909
 
5910
            --  If the component list did not have any controlled components
5911
            --  nor variants, return null.
5912
 
5913
            if Is_Empty_List (Stmts) then
5914
               Append_To (Stmts, Make_Null_Statement (Loc));
5915
            end if;
5916
 
5917
            return Stmts;
5918
         end Process_Component_List_For_Adjust;
5919
 
5920
      --  Start of processing for Build_Adjust_Statements
5921
 
5922
      begin
5923
         Finalizer_Decls := New_List;
5924
         Build_Object_Declarations (Finalizer_Data, Finalizer_Decls, Loc);
5925
 
5926
         if Nkind (Typ_Def) = N_Derived_Type_Definition then
5927
            Rec_Def := Record_Extension_Part (Typ_Def);
5928
         else
5929
            Rec_Def := Typ_Def;
5930
         end if;
5931
 
5932
         --  Create an adjust sequence for all record components
5933
 
5934
         if Present (Component_List (Rec_Def)) then
5935
            Bod_Stmts :=
5936
              Process_Component_List_For_Adjust (Component_List (Rec_Def));
5937
         end if;
5938
 
5939
         --  A derived record type must adjust all inherited components. This
5940
         --  action poses the following problem:
5941
 
5942
         --    procedure Deep_Adjust (Obj : in out Parent_Typ) is
5943
         --    begin
5944
         --       Adjust (Obj);
5945
         --       ...
5946
 
5947
         --    procedure Deep_Adjust (Obj : in out Derived_Typ) is
5948
         --    begin
5949
         --       Deep_Adjust (Obj._parent);
5950
         --       ...
5951
         --       Adjust (Obj);
5952
         --       ...
5953
 
5954
         --  Adjusting the derived type will invoke Adjust of the parent and
5955
         --  then that of the derived type. This is undesirable because both
5956
         --  routines may modify shared components. Only the Adjust of the
5957
         --  derived type should be invoked.
5958
 
5959
         --  To prevent this double adjustment of shared components,
5960
         --  Deep_Adjust uses a flag to control the invocation of Adjust:
5961
 
5962
         --    procedure Deep_Adjust
5963
         --      (Obj  : in out Some_Type;
5964
         --       Flag : Boolean := True)
5965
         --    is
5966
         --    begin
5967
         --       if Flag then
5968
         --          Adjust (Obj);
5969
         --       end if;
5970
         --       ...
5971
 
5972
         --  When Deep_Adjust is invokes for field _parent, a value of False is
5973
         --  provided for the flag:
5974
 
5975
         --    Deep_Adjust (Obj._parent, False);
5976
 
5977
         if Is_Tagged_Type (Typ) and then Is_Derived_Type (Typ) then
5978
            declare
5979
               Par_Typ  : constant Entity_Id := Parent_Field_Type (Typ);
5980
               Adj_Stmt : Node_Id;
5981
               Call     : Node_Id;
5982
 
5983
            begin
5984
               if Needs_Finalization (Par_Typ) then
5985
                  Call :=
5986
                    Make_Adjust_Call
5987
                      (Obj_Ref    =>
5988
                         Make_Selected_Component (Loc,
5989
                           Prefix        => Make_Identifier (Loc, Name_V),
5990
                           Selector_Name =>
5991
                             Make_Identifier (Loc, Name_uParent)),
5992
                       Typ        => Par_Typ,
5993
                       For_Parent => True);
5994
 
5995
                  --  Generate:
5996
                  --    Deep_Adjust (V._parent, False);  --  No_Except_Propagat
5997
 
5998
                  --    begin                            --  Exceptions OK
5999
                  --       Deep_Adjust (V._parent, False);
6000
                  --    exception
6001
                  --       when Id : others =>
6002
                  --          if not Raised then
6003
                  --             Raised := True;
6004
                  --             Save_Occurrence (E,
6005
                  --               Get_Current_Excep.all.all);
6006
                  --          end if;
6007
                  --    end;
6008
 
6009
                  if Present (Call) then
6010
                     Adj_Stmt := Call;
6011
 
6012
                     if Exceptions_OK then
6013
                        Adj_Stmt :=
6014
                          Make_Block_Statement (Loc,
6015
                            Handled_Statement_Sequence =>
6016
                              Make_Handled_Sequence_Of_Statements (Loc,
6017
                                Statements         => New_List (Adj_Stmt),
6018
                                Exception_Handlers => New_List (
6019
                                  Build_Exception_Handler (Finalizer_Data))));
6020
                     end if;
6021
 
6022
                     Prepend_To (Bod_Stmts, Adj_Stmt);
6023
                  end if;
6024
               end if;
6025
            end;
6026
         end if;
6027
 
6028
         --  Adjust the object. This action must be performed last after all
6029
         --  components have been adjusted.
6030
 
6031
         if Is_Controlled (Typ) then
6032
            declare
6033
               Adj_Stmt : Node_Id;
6034
               Proc     : Entity_Id;
6035
 
6036
            begin
6037
               Proc := Find_Prim_Op (Typ, Name_Adjust);
6038
 
6039
               --  Generate:
6040
               --    if F then
6041
               --       Adjust (V);  --  No_Exception_Propagation
6042
 
6043
               --       begin        --  Exception handlers allowed
6044
               --          Adjust (V);
6045
               --       exception
6046
               --          when others =>
6047
               --             if not Raised then
6048
               --                Raised := True;
6049
               --                Save_Occurrence (E,
6050
               --                  Get_Current_Excep.all.all);
6051
               --             end if;
6052
               --       end;
6053
               --    end if;
6054
 
6055
               if Present (Proc) then
6056
                  Adj_Stmt :=
6057
                    Make_Procedure_Call_Statement (Loc,
6058
                      Name                   => New_Reference_To (Proc, Loc),
6059
                      Parameter_Associations => New_List (
6060
                        Make_Identifier (Loc, Name_V)));
6061
 
6062
                  if Exceptions_OK then
6063
                     Adj_Stmt :=
6064
                       Make_Block_Statement (Loc,
6065
                         Handled_Statement_Sequence =>
6066
                           Make_Handled_Sequence_Of_Statements (Loc,
6067
                             Statements         => New_List (Adj_Stmt),
6068
                             Exception_Handlers => New_List (
6069
                               Build_Exception_Handler
6070
                                 (Finalizer_Data))));
6071
                  end if;
6072
 
6073
                  Append_To (Bod_Stmts,
6074
                    Make_If_Statement (Loc,
6075
                      Condition       => Make_Identifier (Loc, Name_F),
6076
                      Then_Statements => New_List (Adj_Stmt)));
6077
               end if;
6078
            end;
6079
         end if;
6080
 
6081
         --  At this point either all adjustment statements have been generated
6082
         --  or the type is not controlled.
6083
 
6084
         if Is_Empty_List (Bod_Stmts) then
6085
            Append_To (Bod_Stmts, Make_Null_Statement (Loc));
6086
 
6087
            return Bod_Stmts;
6088
 
6089
         --  Generate:
6090
         --    declare
6091
         --       Abort  : constant Boolean := Triggered_By_Abort;
6092
         --         <or>
6093
         --       Abort  : constant Boolean := False;  --  no abort
6094
 
6095
         --       E      : Exception_Occurence;
6096
         --       Raised : Boolean := False;
6097
 
6098
         --    begin
6099
         --       <adjust statements>
6100
 
6101
         --       if Raised and then not Abort then
6102
         --          Raise_From_Controlled_Operation (E);
6103
         --       end if;
6104
         --    end;
6105
 
6106
         else
6107
            if Exceptions_OK then
6108
               Append_To (Bod_Stmts,
6109
                 Build_Raise_Statement (Finalizer_Data));
6110
            end if;
6111
 
6112
            return
6113
              New_List (
6114
                Make_Block_Statement (Loc,
6115
                  Declarations               =>
6116
                    Finalizer_Decls,
6117
                  Handled_Statement_Sequence =>
6118
                    Make_Handled_Sequence_Of_Statements (Loc, Bod_Stmts)));
6119
         end if;
6120
      end Build_Adjust_Statements;
6121
 
6122
      -------------------------------
6123
      -- Build_Finalize_Statements --
6124
      -------------------------------
6125
 
6126
      function Build_Finalize_Statements (Typ : Entity_Id) return List_Id is
6127
         Loc             : constant Source_Ptr := Sloc (Typ);
6128
         Typ_Def         : constant Node_Id := Type_Definition (Parent (Typ));
6129
         Bod_Stmts       : List_Id;
6130
         Counter         : Int := 0;
6131
         Finalizer_Data  : Finalization_Exception_Data;
6132
         Finalizer_Decls : List_Id := No_List;
6133
         Rec_Def         : Node_Id;
6134
         Var_Case        : Node_Id;
6135
 
6136
         Exceptions_OK : constant Boolean :=
6137
                           not Restriction_Active (No_Exception_Propagation);
6138
 
6139
         function Process_Component_List_For_Finalize
6140
           (Comps : Node_Id) return List_Id;
6141
         --  Build all necessary finalization statements for a single component
6142
         --  list. The statements may include a jump circuitry if flag Is_Local
6143
         --  is enabled.
6144
 
6145
         -----------------------------------------
6146
         -- Process_Component_List_For_Finalize --
6147
         -----------------------------------------
6148
 
6149
         function Process_Component_List_For_Finalize
6150
           (Comps : Node_Id) return List_Id
6151
         is
6152
            Alts       : List_Id;
6153
            Counter_Id : Entity_Id;
6154
            Decl       : Node_Id;
6155
            Decl_Id    : Entity_Id;
6156
            Decl_Typ   : Entity_Id;
6157
            Decls      : List_Id;
6158
            Has_POC    : Boolean;
6159
            Jump_Block : Node_Id;
6160
            Label      : Node_Id;
6161
            Label_Id   : Entity_Id;
6162
            Num_Comps  : Int;
6163
            Stmts      : List_Id;
6164
 
6165
            procedure Process_Component_For_Finalize
6166
              (Decl  : Node_Id;
6167
               Alts  : List_Id;
6168
               Decls : List_Id;
6169
               Stmts : List_Id);
6170
            --  Process the declaration of a single controlled component. If
6171
            --  flag Is_Local is enabled, create the corresponding label and
6172
            --  jump circuitry. Alts is the list of case alternatives, Decls
6173
            --  is the top level declaration list where labels are declared
6174
            --  and Stmts is the list of finalization actions.
6175
 
6176
            ------------------------------------
6177
            -- Process_Component_For_Finalize --
6178
            ------------------------------------
6179
 
6180
            procedure Process_Component_For_Finalize
6181
              (Decl  : Node_Id;
6182
               Alts  : List_Id;
6183
               Decls : List_Id;
6184
               Stmts : List_Id)
6185
            is
6186
               Id       : constant Entity_Id := Defining_Identifier (Decl);
6187
               Typ      : constant Entity_Id := Etype (Id);
6188
               Fin_Stmt : Node_Id;
6189
 
6190
            begin
6191
               if Is_Local then
6192
                  declare
6193
                     Label    : Node_Id;
6194
                     Label_Id : Entity_Id;
6195
 
6196
                  begin
6197
                     --  Generate:
6198
                     --    LN : label;
6199
 
6200
                     Label_Id :=
6201
                       Make_Identifier (Loc,
6202
                         Chars => New_External_Name ('L', Num_Comps));
6203
                     Set_Entity (Label_Id,
6204
                       Make_Defining_Identifier (Loc, Chars (Label_Id)));
6205
                     Label := Make_Label (Loc, Label_Id);
6206
 
6207
                     Append_To (Decls,
6208
                       Make_Implicit_Label_Declaration (Loc,
6209
                         Defining_Identifier => Entity (Label_Id),
6210
                         Label_Construct     => Label));
6211
 
6212
                     --  Generate:
6213
                     --    when N =>
6214
                     --      goto LN;
6215
 
6216
                     Append_To (Alts,
6217
                       Make_Case_Statement_Alternative (Loc,
6218
                         Discrete_Choices => New_List (
6219
                           Make_Integer_Literal (Loc, Num_Comps)),
6220
 
6221
                         Statements => New_List (
6222
                           Make_Goto_Statement (Loc,
6223
                             Name =>
6224
                               New_Reference_To (Entity (Label_Id), Loc)))));
6225
 
6226
                     --  Generate:
6227
                     --    <<LN>>
6228
 
6229
                     Append_To (Stmts, Label);
6230
 
6231
                     --  Decrease the number of components to be processed.
6232
                     --  This action yields a new Label_Id in future calls.
6233
 
6234
                     Num_Comps := Num_Comps - 1;
6235
                  end;
6236
               end if;
6237
 
6238
               --  Generate:
6239
               --    [Deep_]Finalize (V.Id);  --  No_Exception_Propagation
6240
 
6241
               --    begin                    --  Exception handlers allowed
6242
               --       [Deep_]Finalize (V.Id);
6243
               --    exception
6244
               --       when others =>
6245
               --          if not Raised then
6246
               --             Raised := True;
6247
               --             Save_Occurrence (E,
6248
               --               Get_Current_Excep.all.all);
6249
               --          end if;
6250
               --    end;
6251
 
6252
               Fin_Stmt :=
6253
                 Make_Final_Call
6254
                   (Obj_Ref =>
6255
                      Make_Selected_Component (Loc,
6256
                        Prefix        => Make_Identifier (Loc, Name_V),
6257
                        Selector_Name => Make_Identifier (Loc, Chars (Id))),
6258
                    Typ     => Typ);
6259
 
6260
               if not Restriction_Active (No_Exception_Propagation) then
6261
                  Fin_Stmt :=
6262
                    Make_Block_Statement (Loc,
6263
                      Handled_Statement_Sequence =>
6264
                        Make_Handled_Sequence_Of_Statements (Loc,
6265
                          Statements         => New_List (Fin_Stmt),
6266
                          Exception_Handlers => New_List (
6267
                            Build_Exception_Handler (Finalizer_Data))));
6268
               end if;
6269
 
6270
               Append_To (Stmts, Fin_Stmt);
6271
            end Process_Component_For_Finalize;
6272
 
6273
         --  Start of processing for Process_Component_List_For_Finalize
6274
 
6275
         begin
6276
            --  Perform an initial check, look for controlled and per-object
6277
            --  constrained components.
6278
 
6279
            Preprocess_Components (Comps, Num_Comps, Has_POC);
6280
 
6281
            --  Create a state counter to service the current component list.
6282
            --  This step is performed before the variants are inspected in
6283
            --  order to generate the same state counter names as those from
6284
            --  Build_Initialize_Statements.
6285
 
6286
            if Num_Comps > 0
6287
              and then Is_Local
6288
            then
6289
               Counter := Counter + 1;
6290
 
6291
               Counter_Id :=
6292
                 Make_Defining_Identifier (Loc,
6293
                   Chars => New_External_Name ('C', Counter));
6294
            end if;
6295
 
6296
            --  Process the component in the following order:
6297
            --    1) Variants
6298
            --    2) Per-object constrained components
6299
            --    3) Regular components
6300
 
6301
            --  Start with the variant parts
6302
 
6303
            Var_Case := Empty;
6304
            if Present (Variant_Part (Comps)) then
6305
               declare
6306
                  Var_Alts : constant List_Id := New_List;
6307
                  Var      : Node_Id;
6308
 
6309
               begin
6310
                  Var := First_Non_Pragma (Variants (Variant_Part (Comps)));
6311
                  while Present (Var) loop
6312
 
6313
                     --  Generate:
6314
                     --     when <discrete choices> =>
6315
                     --        <finalize statements>
6316
 
6317
                     Append_To (Var_Alts,
6318
                       Make_Case_Statement_Alternative (Loc,
6319
                         Discrete_Choices =>
6320
                           New_Copy_List (Discrete_Choices (Var)),
6321
                         Statements =>
6322
                           Process_Component_List_For_Finalize (
6323
                             Component_List (Var))));
6324
 
6325
                     Next_Non_Pragma (Var);
6326
                  end loop;
6327
 
6328
                  --  Generate:
6329
                  --     case V.<discriminant> is
6330
                  --        when <discrete choices 1> =>
6331
                  --           <finalize statements 1>
6332
                  --        ...
6333
                  --        when <discrete choices N> =>
6334
                  --           <finalize statements N>
6335
                  --     end case;
6336
 
6337
                  Var_Case :=
6338
                    Make_Case_Statement (Loc,
6339
                      Expression =>
6340
                        Make_Selected_Component (Loc,
6341
                          Prefix        => Make_Identifier (Loc, Name_V),
6342
                          Selector_Name =>
6343
                            Make_Identifier (Loc,
6344
                              Chars => Chars (Name (Variant_Part (Comps))))),
6345
                      Alternatives => Var_Alts);
6346
               end;
6347
            end if;
6348
 
6349
            --  The current component list does not have a single controlled
6350
            --  component, however it may contain variants. Return the case
6351
            --  statement for the variants or nothing.
6352
 
6353
            if Num_Comps = 0 then
6354
               if Present (Var_Case) then
6355
                  return New_List (Var_Case);
6356
               else
6357
                  return New_List (Make_Null_Statement (Loc));
6358
               end if;
6359
            end if;
6360
 
6361
            --  Prepare all lists
6362
 
6363
            Alts  := New_List;
6364
            Decls := New_List;
6365
            Stmts := New_List;
6366
 
6367
            --  Process all per-object constrained components in reverse order
6368
 
6369
            if Has_POC then
6370
               Decl := Last_Non_Pragma (Component_Items (Comps));
6371
               while Present (Decl) loop
6372
                  Decl_Id  := Defining_Identifier (Decl);
6373
                  Decl_Typ := Etype (Decl_Id);
6374
 
6375
                  --  Skip _parent
6376
 
6377
                  if Chars (Decl_Id) /= Name_uParent
6378
                    and then Needs_Finalization (Decl_Typ)
6379
                    and then Has_Access_Constraint (Decl_Id)
6380
                    and then No (Expression (Decl))
6381
                  then
6382
                     Process_Component_For_Finalize (Decl, Alts, Decls, Stmts);
6383
                  end if;
6384
 
6385
                  Prev_Non_Pragma (Decl);
6386
               end loop;
6387
            end if;
6388
 
6389
            --  Process the rest of the components in reverse order
6390
 
6391
            Decl := Last_Non_Pragma (Component_Items (Comps));
6392
            while Present (Decl) loop
6393
               Decl_Id  := Defining_Identifier (Decl);
6394
               Decl_Typ := Etype (Decl_Id);
6395
 
6396
               --  Skip _parent
6397
 
6398
               if Chars (Decl_Id) /= Name_uParent
6399
                 and then Needs_Finalization (Decl_Typ)
6400
               then
6401
                  --  Skip per-object constrained components since they were
6402
                  --  handled in the above step.
6403
 
6404
                  if Has_Access_Constraint (Decl_Id)
6405
                    and then No (Expression (Decl))
6406
                  then
6407
                     null;
6408
                  else
6409
                     Process_Component_For_Finalize (Decl, Alts, Decls, Stmts);
6410
                  end if;
6411
               end if;
6412
 
6413
               Prev_Non_Pragma (Decl);
6414
            end loop;
6415
 
6416
            --  Generate:
6417
            --    declare
6418
            --       LN : label;        --  If Is_Local is enabled
6419
            --       ...                    .
6420
            --       L0 : label;            .
6421
 
6422
            --    begin                     .
6423
            --       case CounterX is       .
6424
            --          when N =>           .
6425
            --             goto LN;         .
6426
            --          ...                 .
6427
            --          when 1 =>           .
6428
            --             goto L1;         .
6429
            --          when others =>      .
6430
            --             goto L0;         .
6431
            --       end case;              .
6432
 
6433
            --       <<LN>>             --  If Is_Local is enabled
6434
            --          begin
6435
            --             [Deep_]Finalize (V.CompY);
6436
            --          exception
6437
            --             when Id : others =>
6438
            --                if not Raised then
6439
            --                   Raised := True;
6440
            --                   Save_Occurrence (E,
6441
            --                     Get_Current_Excep.all.all);
6442
            --                end if;
6443
            --          end;
6444
            --       ...
6445
            --       <<L0>>  --  If Is_Local is enabled
6446
            --    end;
6447
 
6448
            if Is_Local then
6449
 
6450
               --  Add the declaration of default jump location L0, its
6451
               --  corresponding alternative and its place in the statements.
6452
 
6453
               Label_Id := Make_Identifier (Loc, New_External_Name ('L', 0));
6454
               Set_Entity (Label_Id,
6455
                 Make_Defining_Identifier (Loc, Chars (Label_Id)));
6456
               Label := Make_Label (Loc, Label_Id);
6457
 
6458
               Append_To (Decls,          --  declaration
6459
                 Make_Implicit_Label_Declaration (Loc,
6460
                   Defining_Identifier => Entity (Label_Id),
6461
                   Label_Construct     => Label));
6462
 
6463
               Append_To (Alts,           --  alternative
6464
                 Make_Case_Statement_Alternative (Loc,
6465
                   Discrete_Choices => New_List (
6466
                     Make_Others_Choice (Loc)),
6467
 
6468
                   Statements => New_List (
6469
                     Make_Goto_Statement (Loc,
6470
                       Name => New_Reference_To (Entity (Label_Id), Loc)))));
6471
 
6472
               Append_To (Stmts, Label);  --  statement
6473
 
6474
               --  Create the jump block
6475
 
6476
               Prepend_To (Stmts,
6477
                 Make_Case_Statement (Loc,
6478
                   Expression   => Make_Identifier (Loc, Chars (Counter_Id)),
6479
                   Alternatives => Alts));
6480
            end if;
6481
 
6482
            Jump_Block :=
6483
              Make_Block_Statement (Loc,
6484
                Declarations               => Decls,
6485
                Handled_Statement_Sequence =>
6486
                  Make_Handled_Sequence_Of_Statements (Loc, Stmts));
6487
 
6488
            if Present (Var_Case) then
6489
               return New_List (Var_Case, Jump_Block);
6490
            else
6491
               return New_List (Jump_Block);
6492
            end if;
6493
         end Process_Component_List_For_Finalize;
6494
 
6495
      --  Start of processing for Build_Finalize_Statements
6496
 
6497
      begin
6498
         Finalizer_Decls := New_List;
6499
         Build_Object_Declarations (Finalizer_Data, Finalizer_Decls, Loc);
6500
 
6501
         if Nkind (Typ_Def) = N_Derived_Type_Definition then
6502
            Rec_Def := Record_Extension_Part (Typ_Def);
6503
         else
6504
            Rec_Def := Typ_Def;
6505
         end if;
6506
 
6507
         --  Create a finalization sequence for all record components
6508
 
6509
         if Present (Component_List (Rec_Def)) then
6510
            Bod_Stmts :=
6511
              Process_Component_List_For_Finalize (Component_List (Rec_Def));
6512
         end if;
6513
 
6514
         --  A derived record type must finalize all inherited components. This
6515
         --  action poses the following problem:
6516
 
6517
         --    procedure Deep_Finalize (Obj : in out Parent_Typ) is
6518
         --    begin
6519
         --       Finalize (Obj);
6520
         --       ...
6521
 
6522
         --    procedure Deep_Finalize (Obj : in out Derived_Typ) is
6523
         --    begin
6524
         --       Deep_Finalize (Obj._parent);
6525
         --       ...
6526
         --       Finalize (Obj);
6527
         --       ...
6528
 
6529
         --  Finalizing the derived type will invoke Finalize of the parent and
6530
         --  then that of the derived type. This is undesirable because both
6531
         --  routines may modify shared components. Only the Finalize of the
6532
         --  derived type should be invoked.
6533
 
6534
         --  To prevent this double adjustment of shared components,
6535
         --  Deep_Finalize uses a flag to control the invocation of Finalize:
6536
 
6537
         --    procedure Deep_Finalize
6538
         --      (Obj  : in out Some_Type;
6539
         --       Flag : Boolean := True)
6540
         --    is
6541
         --    begin
6542
         --       if Flag then
6543
         --          Finalize (Obj);
6544
         --       end if;
6545
         --       ...
6546
 
6547
         --  When Deep_Finalize is invokes for field _parent, a value of False
6548
         --  is provided for the flag:
6549
 
6550
         --    Deep_Finalize (Obj._parent, False);
6551
 
6552
         if Is_Tagged_Type (Typ)
6553
           and then Is_Derived_Type (Typ)
6554
         then
6555
            declare
6556
               Par_Typ  : constant Entity_Id := Parent_Field_Type (Typ);
6557
               Call     : Node_Id;
6558
               Fin_Stmt : Node_Id;
6559
 
6560
            begin
6561
               if Needs_Finalization (Par_Typ) then
6562
                  Call :=
6563
                    Make_Final_Call
6564
                      (Obj_Ref    =>
6565
                         Make_Selected_Component (Loc,
6566
                           Prefix        => Make_Identifier (Loc, Name_V),
6567
                           Selector_Name =>
6568
                             Make_Identifier (Loc, Name_uParent)),
6569
                       Typ        => Par_Typ,
6570
                       For_Parent => True);
6571
 
6572
                  --  Generate:
6573
                  --    Deep_Finalize (V._parent, False);  --  No_Except_Propag
6574
 
6575
                  --    begin                              --  Exceptions OK
6576
                  --       Deep_Finalize (V._parent, False);
6577
                  --    exception
6578
                  --       when Id : others =>
6579
                  --          if not Raised then
6580
                  --             Raised := True;
6581
                  --             Save_Occurrence (E,
6582
                  --               Get_Current_Excep.all.all);
6583
                  --          end if;
6584
                  --    end;
6585
 
6586
                  if Present (Call) then
6587
                     Fin_Stmt := Call;
6588
 
6589
                     if Exceptions_OK then
6590
                        Fin_Stmt :=
6591
                          Make_Block_Statement (Loc,
6592
                            Handled_Statement_Sequence =>
6593
                              Make_Handled_Sequence_Of_Statements (Loc,
6594
                                Statements         => New_List (Fin_Stmt),
6595
                                Exception_Handlers => New_List (
6596
                                  Build_Exception_Handler
6597
                                    (Finalizer_Data))));
6598
                     end if;
6599
 
6600
                     Append_To (Bod_Stmts, Fin_Stmt);
6601
                  end if;
6602
               end if;
6603
            end;
6604
         end if;
6605
 
6606
         --  Finalize the object. This action must be performed first before
6607
         --  all components have been finalized.
6608
 
6609
         if Is_Controlled (Typ)
6610
           and then not Is_Local
6611
         then
6612
            declare
6613
               Fin_Stmt : Node_Id;
6614
               Proc     : Entity_Id;
6615
 
6616
            begin
6617
               Proc := Find_Prim_Op (Typ, Name_Finalize);
6618
 
6619
               --  Generate:
6620
               --    if F then
6621
               --       Finalize (V);  --  No_Exception_Propagation
6622
 
6623
               --       begin
6624
               --          Finalize (V);
6625
               --       exception
6626
               --          when others =>
6627
               --             if not Raised then
6628
               --                Raised := True;
6629
               --                Save_Occurrence (E,
6630
               --                  Get_Current_Excep.all.all);
6631
               --             end if;
6632
               --       end;
6633
               --    end if;
6634
 
6635
               if Present (Proc) then
6636
                  Fin_Stmt :=
6637
                    Make_Procedure_Call_Statement (Loc,
6638
                      Name                   => New_Reference_To (Proc, Loc),
6639
                      Parameter_Associations => New_List (
6640
                        Make_Identifier (Loc, Name_V)));
6641
 
6642
                  if Exceptions_OK then
6643
                     Fin_Stmt :=
6644
                       Make_Block_Statement (Loc,
6645
                         Handled_Statement_Sequence =>
6646
                           Make_Handled_Sequence_Of_Statements (Loc,
6647
                             Statements         => New_List (Fin_Stmt),
6648
                             Exception_Handlers => New_List (
6649
                               Build_Exception_Handler
6650
                                 (Finalizer_Data))));
6651
                  end if;
6652
 
6653
                  Prepend_To (Bod_Stmts,
6654
                    Make_If_Statement (Loc,
6655
                      Condition       => Make_Identifier (Loc, Name_F),
6656
                      Then_Statements => New_List (Fin_Stmt)));
6657
               end if;
6658
            end;
6659
         end if;
6660
 
6661
         --  At this point either all finalization statements have been
6662
         --  generated or the type is not controlled.
6663
 
6664
         if No (Bod_Stmts) then
6665
            return New_List (Make_Null_Statement (Loc));
6666
 
6667
         --  Generate:
6668
         --    declare
6669
         --       Abort  : constant Boolean := Triggered_By_Abort;
6670
         --         <or>
6671
         --       Abort  : constant Boolean := False;  --  no abort
6672
 
6673
         --       E      : Exception_Occurence;
6674
         --       Raised : Boolean := False;
6675
 
6676
         --    begin
6677
         --       <finalize statements>
6678
 
6679
         --       if Raised and then not Abort then
6680
         --          Raise_From_Controlled_Operation (E);
6681
         --       end if;
6682
         --    end;
6683
 
6684
         else
6685
            if Exceptions_OK then
6686
               Append_To (Bod_Stmts,
6687
                 Build_Raise_Statement (Finalizer_Data));
6688
            end if;
6689
 
6690
            return
6691
              New_List (
6692
                Make_Block_Statement (Loc,
6693
                  Declarations               =>
6694
                    Finalizer_Decls,
6695
                  Handled_Statement_Sequence =>
6696
                    Make_Handled_Sequence_Of_Statements (Loc, Bod_Stmts)));
6697
         end if;
6698
      end Build_Finalize_Statements;
6699
 
6700
      -----------------------
6701
      -- Parent_Field_Type --
6702
      -----------------------
6703
 
6704
      function Parent_Field_Type (Typ : Entity_Id) return Entity_Id is
6705
         Field : Entity_Id;
6706
 
6707
      begin
6708
         Field := First_Entity (Typ);
6709
         while Present (Field) loop
6710
            if Chars (Field) = Name_uParent then
6711
               return Etype (Field);
6712
            end if;
6713
 
6714
            Next_Entity (Field);
6715
         end loop;
6716
 
6717
         --  A derived tagged type should always have a parent field
6718
 
6719
         raise Program_Error;
6720
      end Parent_Field_Type;
6721
 
6722
      ---------------------------
6723
      -- Preprocess_Components --
6724
      ---------------------------
6725
 
6726
      procedure Preprocess_Components
6727
        (Comps     : Node_Id;
6728
         Num_Comps : out Int;
6729
         Has_POC   : out Boolean)
6730
      is
6731
         Decl : Node_Id;
6732
         Id   : Entity_Id;
6733
         Typ  : Entity_Id;
6734
 
6735
      begin
6736
         Num_Comps := 0;
6737
         Has_POC   := False;
6738
 
6739
         Decl := First_Non_Pragma (Component_Items (Comps));
6740
         while Present (Decl) loop
6741
            Id  := Defining_Identifier (Decl);
6742
            Typ := Etype (Id);
6743
 
6744
            --  Skip field _parent
6745
 
6746
            if Chars (Id) /= Name_uParent
6747
              and then Needs_Finalization (Typ)
6748
            then
6749
               Num_Comps := Num_Comps + 1;
6750
 
6751
               if Has_Access_Constraint (Id)
6752
                 and then No (Expression (Decl))
6753
               then
6754
                  Has_POC := True;
6755
               end if;
6756
            end if;
6757
 
6758
            Next_Non_Pragma (Decl);
6759
         end loop;
6760
      end Preprocess_Components;
6761
 
6762
   --  Start of processing for Make_Deep_Record_Body
6763
 
6764
   begin
6765
      case Prim is
6766
         when Address_Case =>
6767
            return Make_Finalize_Address_Stmts (Typ);
6768
 
6769
         when Adjust_Case =>
6770
            return Build_Adjust_Statements (Typ);
6771
 
6772
         when Finalize_Case =>
6773
            return Build_Finalize_Statements (Typ);
6774
 
6775
         when Initialize_Case =>
6776
            declare
6777
               Loc : constant Source_Ptr := Sloc (Typ);
6778
 
6779
            begin
6780
               if Is_Controlled (Typ) then
6781
                  return New_List (
6782
                    Make_Procedure_Call_Statement (Loc,
6783
                      Name                   =>
6784
                        New_Reference_To
6785
                          (Find_Prim_Op (Typ, Name_Of (Prim)), Loc),
6786
                      Parameter_Associations => New_List (
6787
                        Make_Identifier (Loc, Name_V))));
6788
               else
6789
                  return Empty_List;
6790
               end if;
6791
            end;
6792
      end case;
6793
   end Make_Deep_Record_Body;
6794
 
6795
   ----------------------
6796
   -- Make_Final_Call --
6797
   ----------------------
6798
 
6799
   function Make_Final_Call
6800
     (Obj_Ref    : Node_Id;
6801
      Typ        : Entity_Id;
6802
      For_Parent : Boolean := False) return Node_Id
6803
   is
6804
      Loc    : constant Source_Ptr := Sloc (Obj_Ref);
6805
      Atyp   : Entity_Id;
6806
      Fin_Id : Entity_Id := Empty;
6807
      Ref    : Node_Id;
6808
      Utyp   : Entity_Id;
6809
 
6810
   begin
6811
      --  Recover the proper type which contains [Deep_]Finalize
6812
 
6813
      if Is_Class_Wide_Type (Typ) then
6814
         Utyp := Root_Type (Typ);
6815
         Atyp := Utyp;
6816
         Ref  := Obj_Ref;
6817
 
6818
      elsif Is_Concurrent_Type (Typ) then
6819
         Utyp := Corresponding_Record_Type (Typ);
6820
         Atyp := Empty;
6821
         Ref  := Convert_Concurrent (Obj_Ref, Typ);
6822
 
6823
      elsif Is_Private_Type (Typ)
6824
        and then Present (Full_View (Typ))
6825
        and then Is_Concurrent_Type (Full_View (Typ))
6826
      then
6827
         Utyp := Corresponding_Record_Type (Full_View (Typ));
6828
         Atyp := Typ;
6829
         Ref  := Convert_Concurrent (Obj_Ref, Full_View (Typ));
6830
 
6831
      else
6832
         Utyp := Typ;
6833
         Atyp := Typ;
6834
         Ref  := Obj_Ref;
6835
      end if;
6836
 
6837
      Utyp := Underlying_Type (Base_Type (Utyp));
6838
      Set_Assignment_OK (Ref);
6839
 
6840
      --  Deal with non-tagged derivation of private views. If the parent type
6841
      --  is a protected type, Deep_Finalize is found on the corresponding
6842
      --  record of the ancestor.
6843
 
6844
      if Is_Untagged_Derivation (Typ) then
6845
         if Is_Protected_Type (Typ) then
6846
            Utyp := Corresponding_Record_Type (Root_Type (Base_Type (Typ)));
6847
         else
6848
            Utyp := Underlying_Type (Root_Type (Base_Type (Typ)));
6849
 
6850
            if Is_Protected_Type (Utyp) then
6851
               Utyp := Corresponding_Record_Type (Utyp);
6852
            end if;
6853
         end if;
6854
 
6855
         Ref := Unchecked_Convert_To (Utyp, Ref);
6856
         Set_Assignment_OK (Ref);
6857
      end if;
6858
 
6859
      --  Deal with derived private types which do not inherit primitives from
6860
      --  their parents. In this case, [Deep_]Finalize can be found in the full
6861
      --  view of the parent type.
6862
 
6863
      if Is_Tagged_Type (Utyp)
6864
        and then Is_Derived_Type (Utyp)
6865
        and then Is_Empty_Elmt_List (Primitive_Operations (Utyp))
6866
        and then Is_Private_Type (Etype (Utyp))
6867
        and then Present (Full_View (Etype (Utyp)))
6868
      then
6869
         Utyp := Full_View (Etype (Utyp));
6870
         Ref  := Unchecked_Convert_To (Utyp, Ref);
6871
         Set_Assignment_OK (Ref);
6872
      end if;
6873
 
6874
      --  When dealing with the completion of a private type, use the base type
6875
      --  instead.
6876
 
6877
      if Utyp /= Base_Type (Utyp) then
6878
         pragma Assert (Present (Atyp) and then Is_Private_Type (Atyp));
6879
 
6880
         Utyp := Base_Type (Utyp);
6881
         Ref  := Unchecked_Convert_To (Utyp, Ref);
6882
         Set_Assignment_OK (Ref);
6883
      end if;
6884
 
6885
      --  Select the appropriate version of Finalize
6886
 
6887
      if For_Parent then
6888
         if Has_Controlled_Component (Utyp) then
6889
            Fin_Id := Find_Prim_Op (Utyp, TSS_Deep_Finalize);
6890
         end if;
6891
 
6892
      --  Class-wide types, interfaces and types with controlled components
6893
 
6894
      elsif Is_Class_Wide_Type (Typ)
6895
        or else Is_Interface (Typ)
6896
        or else Has_Controlled_Component (Utyp)
6897
      then
6898
         if Is_Tagged_Type (Utyp) then
6899
            Fin_Id := Find_Prim_Op (Utyp, TSS_Deep_Finalize);
6900
         else
6901
            Fin_Id := TSS (Utyp, TSS_Deep_Finalize);
6902
         end if;
6903
 
6904
      --  Derivations from [Limited_]Controlled
6905
 
6906
      elsif Is_Controlled (Utyp) then
6907
         if Has_Controlled_Component (Utyp) then
6908
            Fin_Id := Find_Prim_Op (Utyp, TSS_Deep_Finalize);
6909
         else
6910
            Fin_Id := Find_Prim_Op (Utyp, Name_Of (Finalize_Case));
6911
         end if;
6912
 
6913
      --  Tagged types
6914
 
6915
      elsif Is_Tagged_Type (Utyp) then
6916
         Fin_Id := Find_Prim_Op (Utyp, TSS_Deep_Finalize);
6917
 
6918
      else
6919
         raise Program_Error;
6920
      end if;
6921
 
6922
      if Present (Fin_Id) then
6923
 
6924
         --  When finalizing a class-wide object, do not convert to the root
6925
         --  type in order to produce a dispatching call.
6926
 
6927
         if Is_Class_Wide_Type (Typ) then
6928
            null;
6929
 
6930
         --  Ensure that a finalization routine is at least decorated in order
6931
         --  to inspect the object parameter.
6932
 
6933
         elsif Analyzed (Fin_Id)
6934
           or else Ekind (Fin_Id) = E_Procedure
6935
         then
6936
            --  In certain cases, such as the creation of Stream_Read, the
6937
            --  visible entity of the type is its full view. Since Stream_Read
6938
            --  will have to create an object of type Typ, the local object
6939
            --  will be finalzed by the scope finalizer generated later on. The
6940
            --  object parameter of Deep_Finalize will always use the private
6941
            --  view of the type. To avoid such a clash between a private and a
6942
            --  full view, perform an unchecked conversion of the object
6943
            --  reference to the private view.
6944
 
6945
            declare
6946
               Formal_Typ : constant Entity_Id :=
6947
                              Etype (First_Formal (Fin_Id));
6948
            begin
6949
               if Is_Private_Type (Formal_Typ)
6950
                 and then Present (Full_View (Formal_Typ))
6951
                 and then Full_View (Formal_Typ) = Utyp
6952
               then
6953
                  Ref := Unchecked_Convert_To (Formal_Typ, Ref);
6954
               end if;
6955
            end;
6956
 
6957
            Ref := Convert_View (Fin_Id, Ref);
6958
         end if;
6959
 
6960
         return Make_Call (Loc, Fin_Id, New_Copy_Tree (Ref), For_Parent);
6961
      else
6962
         return Empty;
6963
      end if;
6964
   end Make_Final_Call;
6965
 
6966
   --------------------------------
6967
   -- Make_Finalize_Address_Body --
6968
   --------------------------------
6969
 
6970
   procedure Make_Finalize_Address_Body (Typ : Entity_Id) is
6971
      Is_Task : constant Boolean :=
6972
                  Ekind (Typ) = E_Record_Type
6973
                    and then Is_Concurrent_Record_Type (Typ)
6974
                    and then Ekind (Corresponding_Concurrent_Type (Typ)) =
6975
                               E_Task_Type;
6976
      Loc     : constant Source_Ptr := Sloc (Typ);
6977
      Proc_Id : Entity_Id;
6978
      Stmts   : List_Id;
6979
 
6980
   begin
6981
      --  The corresponding records of task types are not controlled by design.
6982
      --  For the sake of completeness, create an empty Finalize_Address to be
6983
      --  used in task class-wide allocations.
6984
 
6985
      if Is_Task then
6986
         null;
6987
 
6988
      --  Nothing to do if the type is not controlled or it already has a
6989
      --  TSS entry for Finalize_Address. Skip class-wide subtypes which do not
6990
      --  come from source. These are usually generated for completeness and
6991
      --  do not need the Finalize_Address primitive.
6992
 
6993
      elsif not Needs_Finalization (Typ)
6994
        or else Is_Abstract_Type (Typ)
6995
        or else Present (TSS (Typ, TSS_Finalize_Address))
6996
        or else
6997
          (Is_Class_Wide_Type (Typ)
6998
            and then Ekind (Root_Type (Typ)) = E_Record_Subtype
6999
            and then not Comes_From_Source (Root_Type (Typ)))
7000
      then
7001
         return;
7002
      end if;
7003
 
7004
      Proc_Id :=
7005
        Make_Defining_Identifier (Loc,
7006
          Make_TSS_Name (Typ, TSS_Finalize_Address));
7007
 
7008
      --  Generate:
7009
 
7010
      --    procedure <Typ>FD (V : System.Address) is
7011
      --    begin
7012
      --       null;                            --  for tasks
7013
 
7014
      --       declare                          --  for all other types
7015
      --          type Pnn is access all Typ;
7016
      --          for Pnn'Storage_Size use 0;
7017
      --       begin
7018
      --          [Deep_]Finalize (Pnn (V).all);
7019
      --       end;
7020
      --    end TypFD;
7021
 
7022
      if Is_Task then
7023
         Stmts := New_List (Make_Null_Statement (Loc));
7024
      else
7025
         Stmts := Make_Finalize_Address_Stmts (Typ);
7026
      end if;
7027
 
7028
      Discard_Node (
7029
        Make_Subprogram_Body (Loc,
7030
          Specification =>
7031
            Make_Procedure_Specification (Loc,
7032
              Defining_Unit_Name => Proc_Id,
7033
 
7034
              Parameter_Specifications => New_List (
7035
                Make_Parameter_Specification (Loc,
7036
                  Defining_Identifier =>
7037
                    Make_Defining_Identifier (Loc, Name_V),
7038
                  Parameter_Type =>
7039
                    New_Reference_To (RTE (RE_Address), Loc)))),
7040
 
7041
          Declarations => No_List,
7042
 
7043
          Handled_Statement_Sequence =>
7044
            Make_Handled_Sequence_Of_Statements (Loc,
7045
              Statements => Stmts)));
7046
 
7047
      Set_TSS (Typ, Proc_Id);
7048
   end Make_Finalize_Address_Body;
7049
 
7050
   ---------------------------------
7051
   -- Make_Finalize_Address_Stmts --
7052
   ---------------------------------
7053
 
7054
   function Make_Finalize_Address_Stmts (Typ : Entity_Id) return List_Id is
7055
      Loc      : constant Source_Ptr := Sloc (Typ);
7056
      Ptr_Typ  : constant Entity_Id  := Make_Temporary (Loc, 'P');
7057
      Decls    : List_Id;
7058
      Desg_Typ : Entity_Id;
7059
      Obj_Expr : Node_Id;
7060
 
7061
   begin
7062
      if Is_Array_Type (Typ) then
7063
         if Is_Constrained (First_Subtype (Typ)) then
7064
            Desg_Typ := First_Subtype (Typ);
7065
         else
7066
            Desg_Typ := Base_Type (Typ);
7067
         end if;
7068
 
7069
      --  Class-wide types of constrained root types
7070
 
7071
      elsif Is_Class_Wide_Type (Typ)
7072
        and then Has_Discriminants (Root_Type (Typ))
7073
        and then not
7074
          Is_Empty_Elmt_List (Discriminant_Constraint (Root_Type (Typ)))
7075
      then
7076
         declare
7077
            Parent_Typ : Entity_Id;
7078
 
7079
         begin
7080
            --  Climb the parent type chain looking for a non-constrained type
7081
 
7082
            Parent_Typ := Root_Type (Typ);
7083
            while Parent_Typ /= Etype (Parent_Typ)
7084
              and then Has_Discriminants (Parent_Typ)
7085
              and then not
7086
                Is_Empty_Elmt_List (Discriminant_Constraint (Parent_Typ))
7087
            loop
7088
               Parent_Typ := Etype (Parent_Typ);
7089
            end loop;
7090
 
7091
            --  Handle views created for tagged types with unknown
7092
            --  discriminants.
7093
 
7094
            if Is_Underlying_Record_View (Parent_Typ) then
7095
               Parent_Typ := Underlying_Record_View (Parent_Typ);
7096
            end if;
7097
 
7098
            Desg_Typ := Class_Wide_Type (Underlying_Type (Parent_Typ));
7099
         end;
7100
 
7101
      --  General case
7102
 
7103
      else
7104
         Desg_Typ := Typ;
7105
      end if;
7106
 
7107
      --  Generate:
7108
      --    type Ptr_Typ is access all Typ;
7109
      --    for Ptr_Typ'Storage_Size use 0;
7110
 
7111
      Decls := New_List (
7112
        Make_Full_Type_Declaration (Loc,
7113
          Defining_Identifier => Ptr_Typ,
7114
          Type_Definition     =>
7115
            Make_Access_To_Object_Definition (Loc,
7116
              All_Present        => True,
7117
              Subtype_Indication => New_Reference_To (Desg_Typ, Loc))),
7118
 
7119
        Make_Attribute_Definition_Clause (Loc,
7120
          Name       => New_Reference_To (Ptr_Typ, Loc),
7121
          Chars      => Name_Storage_Size,
7122
          Expression => Make_Integer_Literal (Loc, 0)));
7123
 
7124
      Obj_Expr := Make_Identifier (Loc, Name_V);
7125
 
7126
      --  Unconstrained arrays require special processing in order to retrieve
7127
      --  the elements. To achieve this, we have to skip the dope vector which
7128
      --  lays in front of the elements and then use a thin pointer to perform
7129
      --  the address-to-access conversion.
7130
 
7131
      if Is_Array_Type (Typ)
7132
        and then not Is_Constrained (First_Subtype (Typ))
7133
      then
7134
         declare
7135
            Dope_Id : Entity_Id;
7136
 
7137
         begin
7138
            --  Ensure that Ptr_Typ a thin pointer, generate:
7139
            --    for Ptr_Typ'Size use System.Address'Size;
7140
 
7141
            Append_To (Decls,
7142
              Make_Attribute_Definition_Clause (Loc,
7143
                Name       => New_Reference_To (Ptr_Typ, Loc),
7144
                Chars      => Name_Size,
7145
                Expression =>
7146
                  Make_Integer_Literal (Loc, System_Address_Size)));
7147
 
7148
            --  Generate:
7149
            --    Dnn : constant Storage_Offset :=
7150
            --            Desg_Typ'Descriptor_Size / Storage_Unit;
7151
 
7152
            Dope_Id := Make_Temporary (Loc, 'D');
7153
 
7154
            Append_To (Decls,
7155
              Make_Object_Declaration (Loc,
7156
                Defining_Identifier => Dope_Id,
7157
                Constant_Present    => True,
7158
                Object_Definition   =>
7159
                  New_Reference_To (RTE (RE_Storage_Offset), Loc),
7160
                Expression          =>
7161
                  Make_Op_Divide (Loc,
7162
                    Left_Opnd  =>
7163
                      Make_Attribute_Reference (Loc,
7164
                        Prefix         => New_Reference_To (Desg_Typ, Loc),
7165
                        Attribute_Name => Name_Descriptor_Size),
7166
                    Right_Opnd =>
7167
                      Make_Integer_Literal (Loc, System_Storage_Unit))));
7168
 
7169
            --  Shift the address from the start of the dope vector to the
7170
            --  start of the elements:
7171
            --
7172
            --    V + Dnn
7173
            --
7174
            --  Note that this is done through a wrapper routine since RTSfind
7175
            --  cannot retrieve operations with string names of the form "+".
7176
 
7177
            Obj_Expr :=
7178
              Make_Function_Call (Loc,
7179
                Name                   =>
7180
                  New_Reference_To (RTE (RE_Add_Offset_To_Address), Loc),
7181
                Parameter_Associations => New_List (
7182
                  Obj_Expr,
7183
                  New_Reference_To (Dope_Id, Loc)));
7184
         end;
7185
      end if;
7186
 
7187
      --  Create the block and the finalization call
7188
 
7189
      return New_List (
7190
        Make_Block_Statement (Loc,
7191
          Declarations => Decls,
7192
 
7193
          Handled_Statement_Sequence =>
7194
            Make_Handled_Sequence_Of_Statements (Loc,
7195
              Statements => New_List (
7196
                Make_Final_Call (
7197
                  Obj_Ref =>
7198
                    Make_Explicit_Dereference (Loc,
7199
                      Prefix => Unchecked_Convert_To (Ptr_Typ, Obj_Expr)),
7200
                  Typ => Desg_Typ)))));
7201
   end Make_Finalize_Address_Stmts;
7202
 
7203
   -------------------------------------
7204
   -- Make_Handler_For_Ctrl_Operation --
7205
   -------------------------------------
7206
 
7207
   --  Generate:
7208
 
7209
   --    when E : others =>
7210
   --      Raise_From_Controlled_Operation (E);
7211
 
7212
   --  or:
7213
 
7214
   --    when others =>
7215
   --      raise Program_Error [finalize raised exception];
7216
 
7217
   --  depending on whether Raise_From_Controlled_Operation is available
7218
 
7219
   function Make_Handler_For_Ctrl_Operation
7220
     (Loc : Source_Ptr) return Node_Id
7221
   is
7222
      E_Occ : Entity_Id;
7223
      --  Choice parameter (for the first case above)
7224
 
7225
      Raise_Node : Node_Id;
7226
      --  Procedure call or raise statement
7227
 
7228
   begin
7229
      --  Standard run-time, .NET/JVM targets: add choice parameter E and pass
7230
      --  it to Raise_From_Controlled_Operation so that the original exception
7231
      --  name and message can be recorded in the exception message for
7232
      --  Program_Error.
7233
 
7234
      if RTE_Available (RE_Raise_From_Controlled_Operation) then
7235
         E_Occ := Make_Defining_Identifier (Loc, Name_E);
7236
         Raise_Node :=
7237
           Make_Procedure_Call_Statement (Loc,
7238
             Name                   =>
7239
               New_Reference_To
7240
                 (RTE (RE_Raise_From_Controlled_Operation), Loc),
7241
             Parameter_Associations => New_List (
7242
               New_Reference_To (E_Occ, Loc)));
7243
 
7244
      --  Restricted run-time: exception messages are not supported
7245
 
7246
      else
7247
         E_Occ := Empty;
7248
         Raise_Node :=
7249
           Make_Raise_Program_Error (Loc,
7250
             Reason => PE_Finalize_Raised_Exception);
7251
      end if;
7252
 
7253
      return
7254
        Make_Implicit_Exception_Handler (Loc,
7255
          Exception_Choices => New_List (Make_Others_Choice (Loc)),
7256
          Choice_Parameter  => E_Occ,
7257
          Statements        => New_List (Raise_Node));
7258
   end Make_Handler_For_Ctrl_Operation;
7259
 
7260
   --------------------
7261
   -- Make_Init_Call --
7262
   --------------------
7263
 
7264
   function Make_Init_Call
7265
     (Obj_Ref : Node_Id;
7266
      Typ     : Entity_Id) return Node_Id
7267
   is
7268
      Loc     : constant Source_Ptr := Sloc (Obj_Ref);
7269
      Is_Conc : Boolean;
7270
      Proc    : Entity_Id;
7271
      Ref     : Node_Id;
7272
      Utyp    : Entity_Id;
7273
 
7274
   begin
7275
      --  Deal with the type and object reference. Depending on the context, an
7276
      --  object reference may need several conversions.
7277
 
7278
      if Is_Concurrent_Type (Typ) then
7279
         Is_Conc := True;
7280
         Utyp    := Corresponding_Record_Type (Typ);
7281
         Ref     := Convert_Concurrent (Obj_Ref, Typ);
7282
 
7283
      elsif Is_Private_Type (Typ)
7284
        and then Present (Full_View (Typ))
7285
        and then Is_Concurrent_Type (Underlying_Type (Typ))
7286
      then
7287
         Is_Conc := True;
7288
         Utyp    := Corresponding_Record_Type (Underlying_Type (Typ));
7289
         Ref     := Convert_Concurrent (Obj_Ref, Underlying_Type (Typ));
7290
 
7291
      else
7292
         Is_Conc := False;
7293
         Utyp    := Typ;
7294
         Ref     := Obj_Ref;
7295
      end if;
7296
 
7297
      Set_Assignment_OK (Ref);
7298
 
7299
      Utyp := Underlying_Type (Base_Type (Utyp));
7300
 
7301
      --  Deal with non-tagged derivation of private views
7302
 
7303
      if Is_Untagged_Derivation (Typ)
7304
        and then not Is_Conc
7305
      then
7306
         Utyp := Underlying_Type (Root_Type (Base_Type (Typ)));
7307
         Ref  := Unchecked_Convert_To (Utyp, Ref);
7308
 
7309
         --  The following is to prevent problems with UC see 1.156 RH ???
7310
 
7311
         Set_Assignment_OK (Ref);
7312
      end if;
7313
 
7314
      --  If the underlying_type is a subtype, then we are dealing with the
7315
      --  completion of a private type. We need to access the base type and
7316
      --  generate a conversion to it.
7317
 
7318
      if Utyp /= Base_Type (Utyp) then
7319
         pragma Assert (Is_Private_Type (Typ));
7320
         Utyp := Base_Type (Utyp);
7321
         Ref  := Unchecked_Convert_To (Utyp, Ref);
7322
      end if;
7323
 
7324
      --  Select the appropriate version of initialize
7325
 
7326
      if Has_Controlled_Component (Utyp) then
7327
         Proc := TSS (Utyp, Deep_Name_Of (Initialize_Case));
7328
      else
7329
         Proc := Find_Prim_Op (Utyp, Name_Of (Initialize_Case));
7330
         Check_Visibly_Controlled (Initialize_Case, Typ, Proc, Ref);
7331
      end if;
7332
 
7333
      --  The object reference may need another conversion depending on the
7334
      --  type of the formal and that of the actual.
7335
 
7336
      Ref := Convert_View (Proc, Ref);
7337
 
7338
      --  Generate:
7339
      --    [Deep_]Initialize (Ref);
7340
 
7341
      return
7342
        Make_Procedure_Call_Statement (Loc,
7343
          Name =>
7344
            New_Reference_To (Proc, Loc),
7345
          Parameter_Associations => New_List (Ref));
7346
   end Make_Init_Call;
7347
 
7348
   ------------------------------
7349
   -- Make_Local_Deep_Finalize --
7350
   ------------------------------
7351
 
7352
   function Make_Local_Deep_Finalize
7353
     (Typ : Entity_Id;
7354
      Nam : Entity_Id) return Node_Id
7355
   is
7356
      Loc : constant Source_Ptr := Sloc (Typ);
7357
      Formals : List_Id;
7358
 
7359
   begin
7360
      Formals := New_List (
7361
 
7362
         --  V : in out Typ
7363
 
7364
        Make_Parameter_Specification (Loc,
7365
          Defining_Identifier => Make_Defining_Identifier (Loc, Name_V),
7366
          In_Present          => True,
7367
          Out_Present         => True,
7368
          Parameter_Type      => New_Reference_To (Typ, Loc)),
7369
 
7370
         --  F : Boolean := True
7371
 
7372
        Make_Parameter_Specification (Loc,
7373
          Defining_Identifier => Make_Defining_Identifier (Loc, Name_F),
7374
          Parameter_Type      => New_Reference_To (Standard_Boolean, Loc),
7375
          Expression          => New_Reference_To (Standard_True, Loc)));
7376
 
7377
      --  Add the necessary number of counters to represent the initialization
7378
      --  state of an object.
7379
 
7380
      return
7381
        Make_Subprogram_Body (Loc,
7382
          Specification =>
7383
            Make_Procedure_Specification (Loc,
7384
              Defining_Unit_Name       => Nam,
7385
              Parameter_Specifications => Formals),
7386
 
7387
          Declarations => No_List,
7388
 
7389
          Handled_Statement_Sequence =>
7390
            Make_Handled_Sequence_Of_Statements (Loc,
7391
              Statements => Make_Deep_Record_Body (Finalize_Case, Typ, True)));
7392
   end Make_Local_Deep_Finalize;
7393
 
7394
   ------------------------------------
7395
   -- Make_Set_Finalize_Address_Call --
7396
   ------------------------------------
7397
 
7398
   function Make_Set_Finalize_Address_Call
7399
     (Loc     : Source_Ptr;
7400
      Typ     : Entity_Id;
7401
      Ptr_Typ : Entity_Id) return Node_Id
7402
   is
7403
      Desig_Typ   : constant Entity_Id :=
7404
                      Available_View (Designated_Type (Ptr_Typ));
7405
      Fin_Mas_Id  : constant Entity_Id := Finalization_Master (Ptr_Typ);
7406
      Fin_Mas_Ref : Node_Id;
7407
      Utyp        : Entity_Id;
7408
 
7409
   begin
7410
      --  If the context is a class-wide allocator, we use the class-wide type
7411
      --  to obtain the proper Finalize_Address routine.
7412
 
7413
      if Is_Class_Wide_Type (Desig_Typ) then
7414
         Utyp := Desig_Typ;
7415
 
7416
      else
7417
         Utyp := Typ;
7418
 
7419
         if Is_Private_Type (Utyp) and then Present (Full_View (Utyp)) then
7420
            Utyp := Full_View (Utyp);
7421
         end if;
7422
 
7423
         if Is_Concurrent_Type (Utyp) then
7424
            Utyp := Corresponding_Record_Type (Utyp);
7425
         end if;
7426
      end if;
7427
 
7428
      Utyp := Underlying_Type (Base_Type (Utyp));
7429
 
7430
      --  Deal with non-tagged derivation of private views. If the parent is
7431
      --  now known to be protected, the finalization routine is the one
7432
      --  defined on the corresponding record of the ancestor (corresponding
7433
      --  records do not automatically inherit operations, but maybe they
7434
      --  should???)
7435
 
7436
      if Is_Untagged_Derivation (Typ) then
7437
         if Is_Protected_Type (Typ) then
7438
            Utyp := Corresponding_Record_Type (Root_Type (Base_Type (Typ)));
7439
         else
7440
            Utyp := Underlying_Type (Root_Type (Base_Type (Typ)));
7441
 
7442
            if Is_Protected_Type (Utyp) then
7443
               Utyp := Corresponding_Record_Type (Utyp);
7444
            end if;
7445
         end if;
7446
      end if;
7447
 
7448
      --  If the underlying_type is a subtype, we are dealing with the
7449
      --  completion of a private type. We need to access the base type and
7450
      --  generate a conversion to it.
7451
 
7452
      if Utyp /= Base_Type (Utyp) then
7453
         pragma Assert (Is_Private_Type (Typ));
7454
 
7455
         Utyp := Base_Type (Utyp);
7456
      end if;
7457
 
7458
      Fin_Mas_Ref := New_Occurrence_Of (Fin_Mas_Id, Loc);
7459
 
7460
      --  If the call is from a build-in-place function, the Master parameter
7461
      --  is actually a pointer. Dereference it for the call.
7462
 
7463
      if Is_Access_Type (Etype (Fin_Mas_Id)) then
7464
         Fin_Mas_Ref := Make_Explicit_Dereference (Loc, Fin_Mas_Ref);
7465
      end if;
7466
 
7467
      --  Generate:
7468
      --    Set_Finalize_Address (<Ptr_Typ>FM, <Utyp>FD'Unrestricted_Access);
7469
 
7470
      return
7471
        Make_Procedure_Call_Statement (Loc,
7472
          Name                   =>
7473
            New_Reference_To (RTE (RE_Set_Finalize_Address), Loc),
7474
          Parameter_Associations => New_List (
7475
            Fin_Mas_Ref,
7476
            Make_Attribute_Reference (Loc,
7477
              Prefix         =>
7478
                New_Reference_To (TSS (Utyp, TSS_Finalize_Address), Loc),
7479
              Attribute_Name => Name_Unrestricted_Access)));
7480
   end Make_Set_Finalize_Address_Call;
7481
 
7482
   --------------------------
7483
   -- Make_Transient_Block --
7484
   --------------------------
7485
 
7486
   function Make_Transient_Block
7487
     (Loc    : Source_Ptr;
7488
      Action : Node_Id;
7489
      Par    : Node_Id) return Node_Id
7490
   is
7491
      Decls  : constant List_Id := New_List;
7492
      Instrs : constant List_Id := New_List (Action);
7493
      Block  : Node_Id;
7494
      Insert : Node_Id;
7495
 
7496
   begin
7497
      --  Case where only secondary stack use is involved
7498
 
7499
      if VM_Target = No_VM
7500
        and then Uses_Sec_Stack (Current_Scope)
7501
        and then Nkind (Action) /= N_Simple_Return_Statement
7502
        and then Nkind (Par) /= N_Exception_Handler
7503
      then
7504
         declare
7505
            S : Entity_Id;
7506
 
7507
         begin
7508
            S := Scope (Current_Scope);
7509
            loop
7510
               --  At the outer level, no need to release the sec stack
7511
 
7512
               if S = Standard_Standard then
7513
                  Set_Uses_Sec_Stack (Current_Scope, False);
7514
                  exit;
7515
 
7516
               --  In a function, only release the sec stack if the function
7517
               --  does not return on the sec stack otherwise the result may
7518
               --  be lost. The caller is responsible for releasing.
7519
 
7520
               elsif Ekind (S) = E_Function then
7521
                  Set_Uses_Sec_Stack (Current_Scope, False);
7522
 
7523
                  if not Requires_Transient_Scope (Etype (S)) then
7524
                     Set_Uses_Sec_Stack (S, True);
7525
                     Check_Restriction (No_Secondary_Stack, Action);
7526
                  end if;
7527
 
7528
                  exit;
7529
 
7530
               --  In a loop or entry we should install a block encompassing
7531
               --  all the construct. For now just release right away.
7532
 
7533
               elsif Ekind_In (S, E_Entry, E_Loop) then
7534
                  exit;
7535
 
7536
               --  In a procedure or a block, we release on exit of the
7537
               --  procedure or block. ??? memory leak can be created by
7538
               --  recursive calls.
7539
 
7540
               elsif Ekind_In (S, E_Block, E_Procedure) then
7541
                  Set_Uses_Sec_Stack (S, True);
7542
                  Check_Restriction (No_Secondary_Stack, Action);
7543
                  Set_Uses_Sec_Stack (Current_Scope, False);
7544
                  exit;
7545
 
7546
               else
7547
                  S := Scope (S);
7548
               end if;
7549
            end loop;
7550
         end;
7551
      end if;
7552
 
7553
      --  Create the transient block. Set the parent now since the block itself
7554
      --  is not part of the tree.
7555
 
7556
      Block :=
7557
        Make_Block_Statement (Loc,
7558
          Identifier                 => New_Reference_To (Current_Scope, Loc),
7559
          Declarations               => Decls,
7560
          Handled_Statement_Sequence =>
7561
            Make_Handled_Sequence_Of_Statements (Loc, Statements => Instrs),
7562
          Has_Created_Identifier     => True);
7563
      Set_Parent (Block, Par);
7564
 
7565
      --  Insert actions stuck in the transient scopes as well as all freezing
7566
      --  nodes needed by those actions.
7567
 
7568
      Insert_Actions_In_Scope_Around (Action);
7569
 
7570
      Insert := Prev (Action);
7571
      if Present (Insert) then
7572
         Freeze_All (First_Entity (Current_Scope), Insert);
7573
      end if;
7574
 
7575
      --  When the transient scope was established, we pushed the entry for the
7576
      --  transient scope onto the scope stack, so that the scope was active
7577
      --  for the installation of finalizable entities etc. Now we must remove
7578
      --  this entry, since we have constructed a proper block.
7579
 
7580
      Pop_Scope;
7581
 
7582
      return Block;
7583
   end Make_Transient_Block;
7584
 
7585
   ------------------------
7586
   -- Node_To_Be_Wrapped --
7587
   ------------------------
7588
 
7589
   function Node_To_Be_Wrapped return Node_Id is
7590
   begin
7591
      return Scope_Stack.Table (Scope_Stack.Last).Node_To_Be_Wrapped;
7592
   end Node_To_Be_Wrapped;
7593
 
7594
   ----------------------------
7595
   -- Set_Node_To_Be_Wrapped --
7596
   ----------------------------
7597
 
7598
   procedure Set_Node_To_Be_Wrapped (N : Node_Id) is
7599
   begin
7600
      Scope_Stack.Table (Scope_Stack.Last).Node_To_Be_Wrapped := N;
7601
   end Set_Node_To_Be_Wrapped;
7602
 
7603
   ----------------------------------
7604
   -- Store_After_Actions_In_Scope --
7605
   ----------------------------------
7606
 
7607
   procedure Store_After_Actions_In_Scope (L : List_Id) is
7608
      SE : Scope_Stack_Entry renames Scope_Stack.Table (Scope_Stack.Last);
7609
 
7610
   begin
7611
      if Present (SE.Actions_To_Be_Wrapped_After) then
7612
         Insert_List_Before_And_Analyze (
7613
          First (SE.Actions_To_Be_Wrapped_After), L);
7614
 
7615
      else
7616
         SE.Actions_To_Be_Wrapped_After := L;
7617
 
7618
         if Is_List_Member (SE.Node_To_Be_Wrapped) then
7619
            Set_Parent (L, Parent (SE.Node_To_Be_Wrapped));
7620
         else
7621
            Set_Parent (L, SE.Node_To_Be_Wrapped);
7622
         end if;
7623
 
7624
         Analyze_List (L);
7625
      end if;
7626
   end Store_After_Actions_In_Scope;
7627
 
7628
   -----------------------------------
7629
   -- Store_Before_Actions_In_Scope --
7630
   -----------------------------------
7631
 
7632
   procedure Store_Before_Actions_In_Scope (L : List_Id) is
7633
      SE : Scope_Stack_Entry renames Scope_Stack.Table (Scope_Stack.Last);
7634
 
7635
   begin
7636
      if Present (SE.Actions_To_Be_Wrapped_Before) then
7637
         Insert_List_After_And_Analyze (
7638
           Last (SE.Actions_To_Be_Wrapped_Before), L);
7639
 
7640
      else
7641
         SE.Actions_To_Be_Wrapped_Before := L;
7642
 
7643
         if Is_List_Member (SE.Node_To_Be_Wrapped) then
7644
            Set_Parent (L, Parent (SE.Node_To_Be_Wrapped));
7645
         else
7646
            Set_Parent (L, SE.Node_To_Be_Wrapped);
7647
         end if;
7648
 
7649
         Analyze_List (L);
7650
      end if;
7651
   end Store_Before_Actions_In_Scope;
7652
 
7653
   --------------------------------
7654
   -- Wrap_Transient_Declaration --
7655
   --------------------------------
7656
 
7657
   --  If a transient scope has been established during the processing of the
7658
   --  Expression of an Object_Declaration, it is not possible to wrap the
7659
   --  declaration into a transient block as usual case, otherwise the object
7660
   --  would be itself declared in the wrong scope. Therefore, all entities (if
7661
   --  any) defined in the transient block are moved to the proper enclosing
7662
   --  scope, furthermore, if they are controlled variables they are finalized
7663
   --  right after the declaration. The finalization list of the transient
7664
   --  scope is defined as a renaming of the enclosing one so during their
7665
   --  initialization they will be attached to the proper finalization list.
7666
   --  For instance, the following declaration :
7667
 
7668
   --        X : Typ := F (G (A), G (B));
7669
 
7670
   --  (where G(A) and G(B) return controlled values, expanded as _v1 and _v2)
7671
   --  is expanded into :
7672
 
7673
   --    X : Typ := [ complex Expression-Action ];
7674
   --    [Deep_]Finalize (_v1);
7675
   --    [Deep_]Finalize (_v2);
7676
 
7677
   procedure Wrap_Transient_Declaration (N : Node_Id) is
7678
      Encl_S  : Entity_Id;
7679
      S       : Entity_Id;
7680
      Uses_SS : Boolean;
7681
 
7682
   begin
7683
      S := Current_Scope;
7684
      Encl_S := Scope (S);
7685
 
7686
      --  Insert Actions kept in the Scope stack
7687
 
7688
      Insert_Actions_In_Scope_Around (N);
7689
 
7690
      --  If the declaration is consuming some secondary stack, mark the
7691
      --  enclosing scope appropriately.
7692
 
7693
      Uses_SS := Uses_Sec_Stack (S);
7694
      Pop_Scope;
7695
 
7696
      --  Put the local entities back in the enclosing scope, and set the
7697
      --  Is_Public flag appropriately.
7698
 
7699
      Transfer_Entities (S, Encl_S);
7700
 
7701
      --  Mark the enclosing dynamic scope so that the sec stack will be
7702
      --  released upon its exit unless this is a function that returns on
7703
      --  the sec stack in which case this will be done by the caller.
7704
 
7705
      if VM_Target = No_VM and then Uses_SS then
7706
         S := Enclosing_Dynamic_Scope (S);
7707
 
7708
         if Ekind (S) = E_Function
7709
           and then Requires_Transient_Scope (Etype (S))
7710
         then
7711
            null;
7712
         else
7713
            Set_Uses_Sec_Stack (S);
7714
            Check_Restriction (No_Secondary_Stack, N);
7715
         end if;
7716
      end if;
7717
   end Wrap_Transient_Declaration;
7718
 
7719
   -------------------------------
7720
   -- Wrap_Transient_Expression --
7721
   -------------------------------
7722
 
7723
   procedure Wrap_Transient_Expression (N : Node_Id) is
7724
      Expr : constant Node_Id    := Relocate_Node (N);
7725
      Loc  : constant Source_Ptr := Sloc (N);
7726
      Temp : constant Entity_Id  := Make_Temporary (Loc, 'E', N);
7727
      Typ  : constant Entity_Id  := Etype (N);
7728
 
7729
   begin
7730
      --  Generate:
7731
 
7732
      --    Temp : Typ;
7733
      --    declare
7734
      --       M : constant Mark_Id := SS_Mark;
7735
      --       procedure Finalizer is ...  (See Build_Finalizer)
7736
 
7737
      --    begin
7738
      --       Temp := <Expr>;
7739
      --
7740
      --    at end
7741
      --       Finalizer;
7742
      --    end;
7743
 
7744
      Insert_Actions (N, New_List (
7745
        Make_Object_Declaration (Loc,
7746
          Defining_Identifier => Temp,
7747
          Object_Definition   => New_Reference_To (Typ, Loc)),
7748
 
7749
        Make_Transient_Block (Loc,
7750
          Action =>
7751
            Make_Assignment_Statement (Loc,
7752
              Name       => New_Reference_To (Temp, Loc),
7753
              Expression => Expr),
7754
          Par    => Parent (N))));
7755
 
7756
      Rewrite (N, New_Reference_To (Temp, Loc));
7757
      Analyze_And_Resolve (N, Typ);
7758
   end Wrap_Transient_Expression;
7759
 
7760
   ------------------------------
7761
   -- Wrap_Transient_Statement --
7762
   ------------------------------
7763
 
7764
   procedure Wrap_Transient_Statement (N : Node_Id) is
7765
      Loc      : constant Source_Ptr := Sloc (N);
7766
      New_Stmt : constant Node_Id    := Relocate_Node (N);
7767
 
7768
   begin
7769
      --  Generate:
7770
      --    declare
7771
      --       M : constant Mark_Id := SS_Mark;
7772
      --       procedure Finalizer is ...  (See Build_Finalizer)
7773
      --
7774
      --    begin
7775
      --       <New_Stmt>;
7776
      --
7777
      --    at end
7778
      --       Finalizer;
7779
      --    end;
7780
 
7781
      Rewrite (N,
7782
        Make_Transient_Block (Loc,
7783
          Action => New_Stmt,
7784
          Par    => Parent (N)));
7785
 
7786
      --  With the scope stack back to normal, we can call analyze on the
7787
      --  resulting block. At this point, the transient scope is being
7788
      --  treated like a perfectly normal scope, so there is nothing
7789
      --  special about it.
7790
 
7791
      --  Note: Wrap_Transient_Statement is called with the node already
7792
      --  analyzed (i.e. Analyzed (N) is True). This is important, since
7793
      --  otherwise we would get a recursive processing of the node when
7794
      --  we do this Analyze call.
7795
 
7796
      Analyze (N);
7797
   end Wrap_Transient_Statement;
7798
 
7799
end Exp_Ch7;

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