PR c++/86728 - C variadic generic lambda.
[official-gcc.git] / gcc / ada / sem_ch9.adb
blob09195560f483cd6f9d8659f65d6e718507beb35b
1 ------------------------------------------------------------------------------
2 -- --
3 -- GNAT COMPILER COMPONENTS --
4 -- --
5 -- S E M _ C H 9 --
6 -- --
7 -- B o d y --
8 -- --
9 -- Copyright (C) 1992-2018, 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 ------------------------------------------------------------------------------
26 with Aspects; use Aspects;
27 with Atree; use Atree;
28 with Checks; use Checks;
29 with Contracts; use Contracts;
30 with Debug; use Debug;
31 with Einfo; use Einfo;
32 with Errout; use Errout;
33 with Exp_Ch9; use Exp_Ch9;
34 with Elists; use Elists;
35 with Freeze; use Freeze;
36 with Layout; use Layout;
37 with Lib; use Lib;
38 with Lib.Xref; use Lib.Xref;
39 with Namet; use Namet;
40 with Nlists; use Nlists;
41 with Nmake; use Nmake;
42 with Opt; use Opt;
43 with Restrict; use Restrict;
44 with Rident; use Rident;
45 with Rtsfind; use Rtsfind;
46 with Sem; use Sem;
47 with Sem_Aux; use Sem_Aux;
48 with Sem_Ch3; use Sem_Ch3;
49 with Sem_Ch5; use Sem_Ch5;
50 with Sem_Ch6; use Sem_Ch6;
51 with Sem_Ch8; use Sem_Ch8;
52 with Sem_Ch13; use Sem_Ch13;
53 with Sem_Elab; use Sem_Elab;
54 with Sem_Eval; use Sem_Eval;
55 with Sem_Prag; use Sem_Prag;
56 with Sem_Res; use Sem_Res;
57 with Sem_Type; use Sem_Type;
58 with Sem_Util; use Sem_Util;
59 with Sem_Warn; use Sem_Warn;
60 with Snames; use Snames;
61 with Stand; use Stand;
62 with Sinfo; use Sinfo;
63 with Style;
64 with Tbuild; use Tbuild;
65 with Uintp; use Uintp;
67 package body Sem_Ch9 is
69 -----------------------
70 -- Local Subprograms --
71 -----------------------
73 function Allows_Lock_Free_Implementation
74 (N : Node_Id;
75 Lock_Free_Given : Boolean := False) return Boolean;
76 -- This routine returns True iff N satisfies the following list of lock-
77 -- free restrictions for protected type declaration and protected body:
79 -- 1) Protected type declaration
80 -- May not contain entries
81 -- Protected subprogram declarations may not have non-elementary
82 -- parameters.
84 -- 2) Protected Body
85 -- Each protected subprogram body within N must satisfy:
86 -- May reference only one protected component
87 -- May not reference non-constant entities outside the protected
88 -- subprogram scope.
89 -- May not contain address representation items, allocators and
90 -- quantified expressions.
91 -- May not contain delay, goto, loop and procedure call
92 -- statements.
93 -- May not contain exported and imported entities
94 -- May not dereference access values
95 -- Function calls and attribute references must be static
97 -- If Lock_Free_Given is True, an error message is issued when False is
98 -- returned.
100 procedure Check_Max_Entries (D : Node_Id; R : All_Parameter_Restrictions);
101 -- Given either a protected definition or a task definition in D, check
102 -- the corresponding restriction parameter identifier R, and if it is set,
103 -- count the entries (checking the static requirement), and compare with
104 -- the given maximum.
106 procedure Check_Interfaces (N : Node_Id; T : Entity_Id);
107 -- N is an N_Protected_Type_Declaration or N_Task_Type_Declaration node.
108 -- Complete decoration of T and check legality of the covered interfaces.
110 procedure Check_Triggering_Statement
111 (Trigger : Node_Id;
112 Error_Node : Node_Id;
113 Is_Dispatching : out Boolean);
114 -- Examine the triggering statement of a select statement, conditional or
115 -- timed entry call. If Trigger is a dispatching call, return its status
116 -- in Is_Dispatching and check whether the primitive belongs to a limited
117 -- interface. If it does not, emit an error at Error_Node.
119 function Find_Concurrent_Spec (Body_Id : Entity_Id) return Entity_Id;
120 -- Find entity in corresponding task or protected declaration. Use full
121 -- view if first declaration was for an incomplete type.
123 -------------------------------------
124 -- Allows_Lock_Free_Implementation --
125 -------------------------------------
127 function Allows_Lock_Free_Implementation
128 (N : Node_Id;
129 Lock_Free_Given : Boolean := False) return Boolean
131 Errors_Count : Nat := 0;
132 -- Errors_Count is a count of errors detected by the compiler so far
133 -- when Lock_Free_Given is True.
135 begin
136 pragma Assert (Nkind_In (N, N_Protected_Type_Declaration,
137 N_Protected_Body));
139 -- The lock-free implementation is currently enabled through a debug
140 -- flag. When Lock_Free_Given is True, an aspect Lock_Free forces the
141 -- lock-free implementation. In that case, the debug flag is not needed.
143 if not Lock_Free_Given and then not Debug_Flag_9 then
144 return False;
145 end if;
147 -- Get the number of errors detected by the compiler so far
149 if Lock_Free_Given then
150 Errors_Count := Serious_Errors_Detected;
151 end if;
153 -- Protected type declaration case
155 if Nkind (N) = N_Protected_Type_Declaration then
156 declare
157 Pdef : constant Node_Id := Protected_Definition (N);
158 Priv_Decls : constant List_Id := Private_Declarations (Pdef);
159 Vis_Decls : constant List_Id := Visible_Declarations (Pdef);
160 Decl : Node_Id;
162 begin
163 -- Examine the visible and the private declarations
165 Decl := First (Vis_Decls);
166 while Present (Decl) loop
168 -- Entries and entry families are not allowed by the lock-free
169 -- restrictions.
171 if Nkind (Decl) = N_Entry_Declaration then
172 if Lock_Free_Given then
173 Error_Msg_N
174 ("entry not allowed when Lock_Free given", Decl);
175 else
176 return False;
177 end if;
179 -- Non-elementary parameters in protected procedure are not
180 -- allowed by the lock-free restrictions.
182 elsif Nkind (Decl) = N_Subprogram_Declaration
183 and then
184 Nkind (Specification (Decl)) = N_Procedure_Specification
185 and then
186 Present (Parameter_Specifications (Specification (Decl)))
187 then
188 declare
189 Par_Specs : constant List_Id :=
190 Parameter_Specifications
191 (Specification (Decl));
193 Par : Node_Id;
195 begin
196 Par := First (Par_Specs);
197 while Present (Par) loop
198 if not Is_Elementary_Type
199 (Etype (Defining_Identifier (Par)))
200 then
201 if Lock_Free_Given then
202 Error_Msg_NE
203 ("non-elementary parameter& not allowed "
204 & "when Lock_Free given",
205 Par, Defining_Identifier (Par));
206 else
207 return False;
208 end if;
209 end if;
211 Next (Par);
212 end loop;
213 end;
214 end if;
216 -- Examine private declarations after visible declarations
218 if No (Next (Decl))
219 and then List_Containing (Decl) = Vis_Decls
220 then
221 Decl := First (Priv_Decls);
222 else
223 Next (Decl);
224 end if;
225 end loop;
226 end;
228 -- Protected body case
230 else
231 Protected_Body_Case : declare
232 Decls : constant List_Id := Declarations (N);
233 Pid : constant Entity_Id := Corresponding_Spec (N);
234 Prot_Typ_Decl : constant Node_Id := Parent (Pid);
235 Prot_Def : constant Node_Id :=
236 Protected_Definition (Prot_Typ_Decl);
237 Priv_Decls : constant List_Id :=
238 Private_Declarations (Prot_Def);
239 Decl : Node_Id;
241 function Satisfies_Lock_Free_Requirements
242 (Sub_Body : Node_Id) return Boolean;
243 -- Return True if protected subprogram body Sub_Body satisfies all
244 -- requirements of a lock-free implementation.
246 --------------------------------------
247 -- Satisfies_Lock_Free_Requirements --
248 --------------------------------------
250 function Satisfies_Lock_Free_Requirements
251 (Sub_Body : Node_Id) return Boolean
253 Is_Procedure : constant Boolean :=
254 Ekind (Corresponding_Spec (Sub_Body)) =
255 E_Procedure;
256 -- Indicates if Sub_Body is a procedure body
258 Comp : Entity_Id := Empty;
259 -- Track the current component which the body references
261 Errors_Count : Nat := 0;
262 -- Errors_Count is a count of errors detected by the compiler
263 -- so far when Lock_Free_Given is True.
265 function Check_Node (N : Node_Id) return Traverse_Result;
266 -- Check that node N meets the lock free restrictions
268 ----------------
269 -- Check_Node --
270 ----------------
272 function Check_Node (N : Node_Id) return Traverse_Result is
273 Kind : constant Node_Kind := Nkind (N);
275 -- The following function belongs in sem_eval ???
277 function Is_Static_Function (Attr : Node_Id) return Boolean;
278 -- Given an attribute reference node Attr, return True if
279 -- Attr denotes a static function according to the rules in
280 -- (RM 4.9 (22)).
282 ------------------------
283 -- Is_Static_Function --
284 ------------------------
286 function Is_Static_Function
287 (Attr : Node_Id) return Boolean
289 Para : Node_Id;
291 begin
292 pragma Assert (Nkind (Attr) = N_Attribute_Reference);
294 case Attribute_Name (Attr) is
295 when Name_Max
296 | Name_Min
297 | Name_Pred
298 | Name_Succ
299 | Name_Value
300 | Name_Wide_Value
301 | Name_Wide_Wide_Value
303 -- A language-defined attribute denotes a static
304 -- function if the prefix denotes a static scalar
305 -- subtype, and if the parameter and result types
306 -- are scalar (RM 4.9 (22)).
308 if Is_Scalar_Type (Etype (Attr))
309 and then Is_Scalar_Type (Etype (Prefix (Attr)))
310 and then
311 Is_OK_Static_Subtype (Etype (Prefix (Attr)))
312 then
313 Para := First (Expressions (Attr));
315 while Present (Para) loop
316 if not Is_Scalar_Type (Etype (Para)) then
317 return False;
318 end if;
320 Next (Para);
321 end loop;
323 return True;
325 else
326 return False;
327 end if;
329 when others =>
330 return False;
331 end case;
332 end Is_Static_Function;
334 -- Start of processing for Check_Node
336 begin
337 if Is_Procedure then
338 -- Allocators restricted
340 if Kind = N_Allocator then
341 if Lock_Free_Given then
342 Error_Msg_N ("allocator not allowed", N);
343 return Skip;
344 end if;
346 return Abandon;
348 -- Aspects Address, Export and Import restricted
350 elsif Kind = N_Aspect_Specification then
351 declare
352 Asp_Name : constant Name_Id :=
353 Chars (Identifier (N));
354 Asp_Id : constant Aspect_Id :=
355 Get_Aspect_Id (Asp_Name);
357 begin
358 if Asp_Id = Aspect_Address or else
359 Asp_Id = Aspect_Export or else
360 Asp_Id = Aspect_Import
361 then
362 Error_Msg_Name_1 := Asp_Name;
364 if Lock_Free_Given then
365 Error_Msg_N ("aspect% not allowed", N);
366 return Skip;
367 end if;
369 return Abandon;
370 end if;
371 end;
373 -- Address attribute definition clause restricted
375 elsif Kind = N_Attribute_Definition_Clause
376 and then Get_Attribute_Id (Chars (N)) =
377 Attribute_Address
378 then
379 Error_Msg_Name_1 := Chars (N);
381 if Lock_Free_Given then
382 if From_Aspect_Specification (N) then
383 Error_Msg_N ("aspect% not allowed", N);
384 else
385 Error_Msg_N ("% clause not allowed", N);
386 end if;
388 return Skip;
389 end if;
391 return Abandon;
393 -- Non-static Attribute references that don't denote a
394 -- static function restricted.
396 elsif Kind = N_Attribute_Reference
397 and then not Is_OK_Static_Expression (N)
398 and then not Is_Static_Function (N)
399 then
400 if Lock_Free_Given then
401 Error_Msg_N
402 ("non-static attribute reference not allowed", N);
403 return Skip;
404 end if;
406 return Abandon;
408 -- Delay statements restricted
410 elsif Kind in N_Delay_Statement then
411 if Lock_Free_Given then
412 Error_Msg_N ("delay not allowed", N);
413 return Skip;
414 end if;
416 return Abandon;
418 -- Dereferences of access values restricted
420 elsif Kind = N_Explicit_Dereference
421 or else (Kind = N_Selected_Component
422 and then Is_Access_Type (Etype (Prefix (N))))
423 then
424 if Lock_Free_Given then
425 Error_Msg_N
426 ("dereference of access value not allowed", N);
427 return Skip;
428 end if;
430 return Abandon;
432 -- Non-static function calls restricted
434 elsif Kind = N_Function_Call
435 and then not Is_OK_Static_Expression (N)
436 then
437 if Lock_Free_Given then
438 Error_Msg_N
439 ("non-static function call not allowed", N);
440 return Skip;
441 end if;
443 return Abandon;
445 -- Goto statements restricted
447 elsif Kind = N_Goto_Statement then
448 if Lock_Free_Given then
449 Error_Msg_N ("goto statement not allowed", N);
450 return Skip;
451 end if;
453 return Abandon;
455 -- References
457 elsif Kind = N_Identifier
458 and then Present (Entity (N))
459 then
460 declare
461 Id : constant Entity_Id := Entity (N);
462 Sub_Id : constant Entity_Id :=
463 Corresponding_Spec (Sub_Body);
465 begin
466 -- Prohibit references to non-constant entities
467 -- outside the protected subprogram scope.
469 if Ekind (Id) in Assignable_Kind
470 and then not
471 Scope_Within_Or_Same (Scope (Id), Sub_Id)
472 and then not
473 Scope_Within_Or_Same
474 (Scope (Id),
475 Protected_Body_Subprogram (Sub_Id))
476 then
477 if Lock_Free_Given then
478 Error_Msg_NE
479 ("reference to global variable& not " &
480 "allowed", N, Id);
481 return Skip;
482 end if;
484 return Abandon;
485 end if;
486 end;
488 -- Loop statements restricted
490 elsif Kind = N_Loop_Statement then
491 if Lock_Free_Given then
492 Error_Msg_N ("loop not allowed", N);
493 return Skip;
494 end if;
496 return Abandon;
498 -- Pragmas Export and Import restricted
500 elsif Kind = N_Pragma then
501 declare
502 Prag_Name : constant Name_Id :=
503 Pragma_Name (N);
504 Prag_Id : constant Pragma_Id :=
505 Get_Pragma_Id (Prag_Name);
507 begin
508 if Prag_Id = Pragma_Export
509 or else Prag_Id = Pragma_Import
510 then
511 Error_Msg_Name_1 := Prag_Name;
513 if Lock_Free_Given then
514 if From_Aspect_Specification (N) then
515 Error_Msg_N ("aspect% not allowed", N);
516 else
517 Error_Msg_N ("pragma% not allowed", N);
518 end if;
520 return Skip;
521 end if;
523 return Abandon;
524 end if;
525 end;
527 -- Procedure call statements restricted
529 elsif Kind = N_Procedure_Call_Statement then
530 if Lock_Free_Given then
531 Error_Msg_N ("procedure call not allowed", N);
532 return Skip;
533 end if;
535 return Abandon;
537 -- Quantified expression restricted. Note that we have
538 -- to check the original node as well, since at this
539 -- stage, it may have been rewritten.
541 elsif Kind = N_Quantified_Expression
542 or else
543 Nkind (Original_Node (N)) = N_Quantified_Expression
544 then
545 if Lock_Free_Given then
546 Error_Msg_N
547 ("quantified expression not allowed", N);
548 return Skip;
549 end if;
551 return Abandon;
552 end if;
553 end if;
555 -- A protected subprogram (function or procedure) may
556 -- reference only one component of the protected type, plus
557 -- the type of the component must support atomic operation.
559 if Kind = N_Identifier
560 and then Present (Entity (N))
561 then
562 declare
563 Id : constant Entity_Id := Entity (N);
564 Comp_Decl : Node_Id;
565 Comp_Id : Entity_Id := Empty;
566 Comp_Type : Entity_Id;
568 begin
569 if Ekind (Id) = E_Component then
570 Comp_Id := Id;
572 elsif Ekind_In (Id, E_Constant, E_Variable)
573 and then Present (Prival_Link (Id))
574 then
575 Comp_Id := Prival_Link (Id);
576 end if;
578 if Present (Comp_Id) then
579 Comp_Decl := Parent (Comp_Id);
580 Comp_Type := Etype (Comp_Id);
582 if Nkind (Comp_Decl) = N_Component_Declaration
583 and then Is_List_Member (Comp_Decl)
584 and then List_Containing (Comp_Decl) = Priv_Decls
585 then
586 -- Skip generic types since, in that case, we
587 -- will not build a body anyway (in the generic
588 -- template), and the size in the template may
589 -- have a fake value.
591 if not Is_Generic_Type (Comp_Type) then
593 -- Make sure the protected component type has
594 -- size and alignment fields set at this
595 -- point whenever this is possible.
597 Layout_Type (Comp_Type);
599 if not
600 Support_Atomic_Primitives (Comp_Type)
601 then
602 if Lock_Free_Given then
603 Error_Msg_NE
604 ("type of& must support atomic " &
605 "operations",
606 N, Comp_Id);
607 return Skip;
608 end if;
610 return Abandon;
611 end if;
612 end if;
614 -- Check if another protected component has
615 -- already been accessed by the subprogram body.
617 if No (Comp) then
618 Comp := Comp_Id;
620 elsif Comp /= Comp_Id then
621 if Lock_Free_Given then
622 Error_Msg_N
623 ("only one protected component allowed",
625 return Skip;
626 end if;
628 return Abandon;
629 end if;
630 end if;
631 end if;
632 end;
633 end if;
635 return OK;
636 end Check_Node;
638 function Check_All_Nodes is new Traverse_Func (Check_Node);
640 -- Start of processing for Satisfies_Lock_Free_Requirements
642 begin
643 -- Get the number of errors detected by the compiler so far
645 if Lock_Free_Given then
646 Errors_Count := Serious_Errors_Detected;
647 end if;
649 if Check_All_Nodes (Sub_Body) = OK
650 and then (not Lock_Free_Given
651 or else Errors_Count = Serious_Errors_Detected)
652 then
653 -- Establish a relation between the subprogram body and the
654 -- unique protected component it references.
656 if Present (Comp) then
657 Lock_Free_Subprogram_Table.Append
658 (Lock_Free_Subprogram'(Sub_Body, Comp));
659 end if;
661 return True;
662 else
663 return False;
664 end if;
665 end Satisfies_Lock_Free_Requirements;
667 -- Start of processing for Protected_Body_Case
669 begin
670 Decl := First (Decls);
671 while Present (Decl) loop
672 if Nkind (Decl) = N_Subprogram_Body
673 and then not Satisfies_Lock_Free_Requirements (Decl)
674 then
675 if Lock_Free_Given then
676 Error_Msg_N
677 ("illegal body when Lock_Free given", Decl);
678 else
679 return False;
680 end if;
681 end if;
683 Next (Decl);
684 end loop;
685 end Protected_Body_Case;
686 end if;
688 -- When Lock_Free is given, check if no error has been detected during
689 -- the process.
691 if Lock_Free_Given
692 and then Errors_Count /= Serious_Errors_Detected
693 then
694 return False;
695 end if;
697 return True;
698 end Allows_Lock_Free_Implementation;
700 -----------------------------
701 -- Analyze_Abort_Statement --
702 -----------------------------
704 procedure Analyze_Abort_Statement (N : Node_Id) is
705 T_Name : Node_Id;
707 begin
708 Tasking_Used := True;
709 Check_SPARK_05_Restriction ("abort statement is not allowed", N);
711 T_Name := First (Names (N));
712 while Present (T_Name) loop
713 Analyze (T_Name);
715 if Is_Task_Type (Etype (T_Name))
716 or else (Ada_Version >= Ada_2005
717 and then Ekind (Etype (T_Name)) = E_Class_Wide_Type
718 and then Is_Interface (Etype (T_Name))
719 and then Is_Task_Interface (Etype (T_Name)))
720 then
721 Resolve (T_Name);
722 else
723 if Ada_Version >= Ada_2005 then
724 Error_Msg_N ("expect task name or task interface class-wide "
725 & "object for ABORT", T_Name);
726 else
727 Error_Msg_N ("expect task name for ABORT", T_Name);
728 end if;
730 return;
731 end if;
733 Next (T_Name);
734 end loop;
736 Check_Restriction (No_Abort_Statements, N);
737 Check_Potentially_Blocking_Operation (N);
738 end Analyze_Abort_Statement;
740 --------------------------------
741 -- Analyze_Accept_Alternative --
742 --------------------------------
744 procedure Analyze_Accept_Alternative (N : Node_Id) is
745 begin
746 Tasking_Used := True;
748 if Present (Pragmas_Before (N)) then
749 Analyze_List (Pragmas_Before (N));
750 end if;
752 if Present (Condition (N)) then
753 Analyze_And_Resolve (Condition (N), Any_Boolean);
754 end if;
756 Analyze (Accept_Statement (N));
758 if Is_Non_Empty_List (Statements (N)) then
759 Analyze_Statements (Statements (N));
760 end if;
761 end Analyze_Accept_Alternative;
763 ------------------------------
764 -- Analyze_Accept_Statement --
765 ------------------------------
767 procedure Analyze_Accept_Statement (N : Node_Id) is
768 Nam : constant Entity_Id := Entry_Direct_Name (N);
769 Formals : constant List_Id := Parameter_Specifications (N);
770 Index : constant Node_Id := Entry_Index (N);
771 Stats : constant Node_Id := Handled_Statement_Sequence (N);
772 Accept_Id : Entity_Id;
773 Entry_Nam : Entity_Id;
774 E : Entity_Id;
775 Kind : Entity_Kind;
776 Task_Nam : Entity_Id := Empty; -- initialize to prevent warning
778 begin
779 Tasking_Used := True;
780 Check_SPARK_05_Restriction ("accept statement is not allowed", N);
782 -- Entry name is initialized to Any_Id. It should get reset to the
783 -- matching entry entity. An error is signalled if it is not reset.
785 Entry_Nam := Any_Id;
787 for J in reverse 0 .. Scope_Stack.Last loop
788 Task_Nam := Scope_Stack.Table (J).Entity;
789 exit when Ekind (Etype (Task_Nam)) = E_Task_Type;
790 Kind := Ekind (Task_Nam);
792 if Kind /= E_Block and then Kind /= E_Loop
793 and then not Is_Entry (Task_Nam)
794 then
795 Error_Msg_N ("enclosing body of accept must be a task", N);
796 return;
797 end if;
798 end loop;
800 if Ekind (Etype (Task_Nam)) /= E_Task_Type then
801 Error_Msg_N ("invalid context for accept statement", N);
802 return;
803 end if;
805 -- In order to process the parameters, we create a defining identifier
806 -- that can be used as the name of the scope. The name of the accept
807 -- statement itself is not a defining identifier, and we cannot use
808 -- its name directly because the task may have any number of accept
809 -- statements for the same entry.
811 if Present (Index) then
812 Accept_Id := New_Internal_Entity
813 (E_Entry_Family, Current_Scope, Sloc (N), 'E');
814 else
815 Accept_Id := New_Internal_Entity
816 (E_Entry, Current_Scope, Sloc (N), 'E');
817 end if;
819 Set_Etype (Accept_Id, Standard_Void_Type);
820 Set_Accept_Address (Accept_Id, New_Elmt_List);
822 if Present (Formals) then
823 Push_Scope (Accept_Id);
824 Process_Formals (Formals, N);
825 Create_Extra_Formals (Accept_Id);
826 End_Scope;
827 end if;
829 -- We set the default expressions processed flag because we don't need
830 -- default expression functions. This is really more like body entity
831 -- than a spec entity anyway.
833 Set_Default_Expressions_Processed (Accept_Id);
835 E := First_Entity (Etype (Task_Nam));
836 while Present (E) loop
837 if Chars (E) = Chars (Nam)
838 and then (Ekind (E) = Ekind (Accept_Id))
839 and then Type_Conformant (Accept_Id, E)
840 then
841 Entry_Nam := E;
842 exit;
843 end if;
845 Next_Entity (E);
846 end loop;
848 if Entry_Nam = Any_Id then
849 Error_Msg_N ("no entry declaration matches accept statement", N);
850 return;
851 else
852 Set_Entity (Nam, Entry_Nam);
853 Generate_Reference (Entry_Nam, Nam, 'b', Set_Ref => False);
854 Style.Check_Identifier (Nam, Entry_Nam);
855 end if;
857 -- Verify that the entry is not hidden by a procedure declared in the
858 -- current block (pathological but possible).
860 if Current_Scope /= Task_Nam then
861 declare
862 E1 : Entity_Id;
864 begin
865 E1 := First_Entity (Current_Scope);
866 while Present (E1) loop
867 if Ekind (E1) = E_Procedure
868 and then Chars (E1) = Chars (Entry_Nam)
869 and then Type_Conformant (E1, Entry_Nam)
870 then
871 Error_Msg_N ("entry name is not visible", N);
872 end if;
874 Next_Entity (E1);
875 end loop;
876 end;
877 end if;
879 Set_Convention (Accept_Id, Convention (Entry_Nam));
880 Check_Fully_Conformant (Accept_Id, Entry_Nam, N);
882 for J in reverse 0 .. Scope_Stack.Last loop
883 exit when Task_Nam = Scope_Stack.Table (J).Entity;
885 if Entry_Nam = Scope_Stack.Table (J).Entity then
886 Error_Msg_N ("duplicate accept statement for same entry", N);
887 end if;
888 end loop;
890 declare
891 P : Node_Id := N;
892 begin
893 loop
894 P := Parent (P);
895 case Nkind (P) is
896 when N_Compilation_Unit
897 | N_Task_Body
899 exit;
901 when N_Asynchronous_Select =>
902 Error_Msg_N
903 ("accept statements are not allowed within an "
904 & "asynchronous select inner to the enclosing task body",
906 exit;
908 when others =>
909 null;
910 end case;
911 end loop;
912 end;
914 if Ekind (E) = E_Entry_Family then
915 if No (Index) then
916 Error_Msg_N ("missing entry index in accept for entry family", N);
917 else
918 Analyze_And_Resolve (Index, Entry_Index_Type (E));
919 Apply_Range_Check (Index, Entry_Index_Type (E));
920 end if;
922 elsif Present (Index) then
923 Error_Msg_N ("invalid entry index in accept for simple entry", N);
924 end if;
926 -- If label declarations present, analyze them. They are declared in the
927 -- enclosing task, but their enclosing scope is the entry itself, so
928 -- that goto's to the label are recognized as local to the accept.
930 if Present (Declarations (N)) then
931 declare
932 Decl : Node_Id;
933 Id : Entity_Id;
935 begin
936 Decl := First (Declarations (N));
937 while Present (Decl) loop
938 Analyze (Decl);
940 pragma Assert
941 (Nkind (Decl) = N_Implicit_Label_Declaration);
943 Id := Defining_Identifier (Decl);
944 Set_Enclosing_Scope (Id, Entry_Nam);
945 Next (Decl);
946 end loop;
947 end;
948 end if;
950 -- If statements are present, they must be analyzed in the context of
951 -- the entry, so that references to formals are correctly resolved. We
952 -- also have to add the declarations that are required by the expansion
953 -- of the accept statement in this case if expansion active.
955 -- In the case of a select alternative of a selective accept, the
956 -- expander references the address declaration even if there is no
957 -- statement list.
959 -- We also need to create the renaming declarations for the local
960 -- variables that will replace references to the formals within the
961 -- accept statement.
963 Exp_Ch9.Expand_Accept_Declarations (N, Entry_Nam);
965 -- Set Never_Set_In_Source and clear Is_True_Constant/Current_Value
966 -- fields on all entry formals (this loop ignores all other entities).
967 -- Reset Referenced, Referenced_As_xxx and Has_Pragma_Unreferenced as
968 -- well, so that we can post accurate warnings on each accept statement
969 -- for the same entry.
971 E := First_Entity (Entry_Nam);
972 while Present (E) loop
973 if Is_Formal (E) then
974 Set_Never_Set_In_Source (E, True);
975 Set_Is_True_Constant (E, False);
976 Set_Current_Value (E, Empty);
977 Set_Referenced (E, False);
978 Set_Referenced_As_LHS (E, False);
979 Set_Referenced_As_Out_Parameter (E, False);
980 Set_Has_Pragma_Unreferenced (E, False);
981 end if;
983 Next_Entity (E);
984 end loop;
986 -- Analyze statements if present
988 if Present (Stats) then
989 Push_Scope (Entry_Nam);
990 Install_Declarations (Entry_Nam);
992 Set_Actual_Subtypes (N, Current_Scope);
994 Analyze (Stats);
995 Process_End_Label (Handled_Statement_Sequence (N), 't', Entry_Nam);
996 End_Scope;
997 end if;
999 -- Some warning checks
1001 Check_Potentially_Blocking_Operation (N);
1002 Check_References (Entry_Nam, N);
1003 Set_Entry_Accepted (Entry_Nam);
1004 end Analyze_Accept_Statement;
1006 ---------------------------------
1007 -- Analyze_Asynchronous_Select --
1008 ---------------------------------
1010 procedure Analyze_Asynchronous_Select (N : Node_Id) is
1011 Is_Disp_Select : Boolean := False;
1012 Trigger : Node_Id;
1014 begin
1015 Tasking_Used := True;
1016 Check_SPARK_05_Restriction ("select statement is not allowed", N);
1017 Check_Restriction (Max_Asynchronous_Select_Nesting, N);
1018 Check_Restriction (No_Select_Statements, N);
1020 if Ada_Version >= Ada_2005 then
1021 Trigger := Triggering_Statement (Triggering_Alternative (N));
1023 Analyze (Trigger);
1025 -- Ada 2005 (AI-345): Check for a potential dispatching select
1027 Check_Triggering_Statement (Trigger, N, Is_Disp_Select);
1028 end if;
1030 -- Ada 2005 (AI-345): The expansion of the dispatching asynchronous
1031 -- select will have to duplicate the triggering statements. Postpone
1032 -- the analysis of the statements till expansion. Analyze only if the
1033 -- expander is disabled in order to catch any semantic errors.
1035 if Is_Disp_Select then
1036 if not Expander_Active then
1037 Analyze_Statements (Statements (Abortable_Part (N)));
1038 Analyze (Triggering_Alternative (N));
1039 end if;
1041 -- Analyze the statements. We analyze statements in the abortable part,
1042 -- because this is the section that is executed first, and that way our
1043 -- remembering of saved values and checks is accurate.
1045 else
1046 Analyze_Statements (Statements (Abortable_Part (N)));
1047 Analyze (Triggering_Alternative (N));
1048 end if;
1049 end Analyze_Asynchronous_Select;
1051 ------------------------------------
1052 -- Analyze_Conditional_Entry_Call --
1053 ------------------------------------
1055 procedure Analyze_Conditional_Entry_Call (N : Node_Id) is
1056 Trigger : constant Node_Id :=
1057 Entry_Call_Statement (Entry_Call_Alternative (N));
1058 Is_Disp_Select : Boolean := False;
1060 begin
1061 Tasking_Used := True;
1062 Check_SPARK_05_Restriction ("select statement is not allowed", N);
1063 Check_Restriction (No_Select_Statements, N);
1065 -- Ada 2005 (AI-345): The trigger may be a dispatching call
1067 if Ada_Version >= Ada_2005 then
1068 Analyze (Trigger);
1069 Check_Triggering_Statement (Trigger, N, Is_Disp_Select);
1070 end if;
1072 if List_Length (Else_Statements (N)) = 1
1073 and then Nkind (First (Else_Statements (N))) in N_Delay_Statement
1074 then
1075 Error_Msg_N
1076 ("suspicious form of conditional entry call??!", N);
1077 Error_Msg_N
1078 ("\`SELECT OR` may be intended rather than `SELECT ELSE`??!", N);
1079 end if;
1081 -- Postpone the analysis of the statements till expansion. Analyze only
1082 -- if the expander is disabled in order to catch any semantic errors.
1084 if Is_Disp_Select then
1085 if not Expander_Active then
1086 Analyze (Entry_Call_Alternative (N));
1087 Analyze_Statements (Else_Statements (N));
1088 end if;
1090 -- Regular select analysis
1092 else
1093 Analyze (Entry_Call_Alternative (N));
1094 Analyze_Statements (Else_Statements (N));
1095 end if;
1096 end Analyze_Conditional_Entry_Call;
1098 --------------------------------
1099 -- Analyze_Delay_Alternative --
1100 --------------------------------
1102 procedure Analyze_Delay_Alternative (N : Node_Id) is
1103 Expr : Node_Id;
1104 Typ : Entity_Id;
1106 begin
1107 Tasking_Used := True;
1108 Check_Restriction (No_Delay, N);
1110 if Present (Pragmas_Before (N)) then
1111 Analyze_List (Pragmas_Before (N));
1112 end if;
1114 if Nkind_In (Parent (N), N_Selective_Accept, N_Timed_Entry_Call) then
1115 Expr := Expression (Delay_Statement (N));
1117 -- Defer full analysis until the statement is expanded, to insure
1118 -- that generated code does not move past the guard. The delay
1119 -- expression is only evaluated if the guard is open.
1121 if Nkind (Delay_Statement (N)) = N_Delay_Relative_Statement then
1122 Preanalyze_And_Resolve (Expr, Standard_Duration);
1123 else
1124 Preanalyze_And_Resolve (Expr);
1125 end if;
1127 Typ := First_Subtype (Etype (Expr));
1129 if Nkind (Delay_Statement (N)) = N_Delay_Until_Statement
1130 and then not Is_RTE (Typ, RO_CA_Time)
1131 and then not Is_RTE (Typ, RO_RT_Time)
1132 then
1133 Error_Msg_N ("expect Time types for `DELAY UNTIL`", Expr);
1134 end if;
1136 Check_Restriction (No_Fixed_Point, Expr);
1138 else
1139 Analyze (Delay_Statement (N));
1140 end if;
1142 if Present (Condition (N)) then
1143 Analyze_And_Resolve (Condition (N), Any_Boolean);
1144 end if;
1146 if Is_Non_Empty_List (Statements (N)) then
1147 Analyze_Statements (Statements (N));
1148 end if;
1149 end Analyze_Delay_Alternative;
1151 ----------------------------
1152 -- Analyze_Delay_Relative --
1153 ----------------------------
1155 procedure Analyze_Delay_Relative (N : Node_Id) is
1156 E : constant Node_Id := Expression (N);
1158 begin
1159 Tasking_Used := True;
1160 Check_SPARK_05_Restriction ("delay statement is not allowed", N);
1161 Check_Restriction (No_Relative_Delay, N);
1162 Check_Restriction (No_Delay, N);
1163 Check_Potentially_Blocking_Operation (N);
1164 Analyze_And_Resolve (E, Standard_Duration);
1165 Check_Restriction (No_Fixed_Point, E);
1167 -- In SPARK mode the relative delay statement introduces an implicit
1168 -- dependency on the Ada.Real_Time.Clock_Time abstract state, so we must
1169 -- force the loading of the Ada.Real_Time package.
1171 if GNATprove_Mode then
1172 SPARK_Implicit_Load (RO_RT_Time);
1173 end if;
1174 end Analyze_Delay_Relative;
1176 -------------------------
1177 -- Analyze_Delay_Until --
1178 -------------------------
1180 procedure Analyze_Delay_Until (N : Node_Id) is
1181 E : constant Node_Id := Expression (N);
1182 Typ : Entity_Id;
1184 begin
1185 Tasking_Used := True;
1186 Check_SPARK_05_Restriction ("delay statement is not allowed", N);
1187 Check_Restriction (No_Delay, N);
1188 Check_Potentially_Blocking_Operation (N);
1189 Analyze_And_Resolve (E);
1190 Typ := First_Subtype (Etype (E));
1192 if not Is_RTE (Typ, RO_CA_Time) and then
1193 not Is_RTE (Typ, RO_RT_Time)
1194 then
1195 Error_Msg_N ("expect Time types for `DELAY UNTIL`", E);
1196 end if;
1197 end Analyze_Delay_Until;
1199 ------------------------
1200 -- Analyze_Entry_Body --
1201 ------------------------
1203 procedure Analyze_Entry_Body (N : Node_Id) is
1204 Id : constant Entity_Id := Defining_Identifier (N);
1205 Decls : constant List_Id := Declarations (N);
1206 Stats : constant Node_Id := Handled_Statement_Sequence (N);
1207 Formals : constant Node_Id := Entry_Body_Formal_Part (N);
1208 P_Type : constant Entity_Id := Current_Scope;
1209 E : Entity_Id;
1210 Entry_Name : Entity_Id;
1212 begin
1213 -- An entry body freezes the contract of the nearest enclosing package
1214 -- body and all other contracts encountered in the same declarative part
1215 -- up to and excluding the entry body. This ensures that any annotations
1216 -- referenced by the contract of an entry or subprogram body declared
1217 -- within the current protected body are available.
1219 Freeze_Previous_Contracts (N);
1221 Tasking_Used := True;
1223 -- Entry_Name is initialized to Any_Id. It should get reset to the
1224 -- matching entry entity. An error is signalled if it is not reset.
1226 Entry_Name := Any_Id;
1228 Analyze (Formals);
1230 if Present (Entry_Index_Specification (Formals)) then
1231 Set_Ekind (Id, E_Entry_Family);
1232 else
1233 Set_Ekind (Id, E_Entry);
1234 end if;
1236 Set_Etype (Id, Standard_Void_Type);
1237 Set_Scope (Id, Current_Scope);
1238 Set_Accept_Address (Id, New_Elmt_List);
1240 -- Set the SPARK_Mode from the current context (may be overwritten later
1241 -- with an explicit pragma).
1243 Set_SPARK_Pragma (Id, SPARK_Mode_Pragma);
1244 Set_SPARK_Pragma_Inherited (Id);
1246 -- Analyze any aspect specifications that appear on the entry body
1248 if Has_Aspects (N) then
1249 Analyze_Aspects_On_Subprogram_Body_Or_Stub (N);
1250 end if;
1252 E := First_Entity (P_Type);
1253 while Present (E) loop
1254 if Chars (E) = Chars (Id)
1255 and then (Ekind (E) = Ekind (Id))
1256 and then Type_Conformant (Id, E)
1257 then
1258 Entry_Name := E;
1259 Set_Convention (Id, Convention (E));
1260 Set_Corresponding_Body (Parent (E), Id);
1261 Check_Fully_Conformant (Id, E, N);
1263 if Ekind (Id) = E_Entry_Family then
1264 if not Fully_Conformant_Discrete_Subtypes (
1265 Discrete_Subtype_Definition (Parent (E)),
1266 Discrete_Subtype_Definition
1267 (Entry_Index_Specification (Formals)))
1268 then
1269 Error_Msg_N
1270 ("index not fully conformant with previous declaration",
1271 Discrete_Subtype_Definition
1272 (Entry_Index_Specification (Formals)));
1274 else
1275 -- The elaboration of the entry body does not recompute the
1276 -- bounds of the index, which may have side effects. Inherit
1277 -- the bounds from the entry declaration. This is critical
1278 -- if the entry has a per-object constraint. If a bound is
1279 -- given by a discriminant, it must be reanalyzed in order
1280 -- to capture the discriminal of the current entry, rather
1281 -- than that of the protected type.
1283 declare
1284 Index_Spec : constant Node_Id :=
1285 Entry_Index_Specification (Formals);
1287 Def : constant Node_Id :=
1288 New_Copy_Tree
1289 (Discrete_Subtype_Definition (Parent (E)));
1291 begin
1292 if Nkind
1293 (Original_Node
1294 (Discrete_Subtype_Definition (Index_Spec))) = N_Range
1295 then
1296 Set_Etype (Def, Empty);
1297 Set_Analyzed (Def, False);
1299 -- Keep the original subtree to ensure a properly
1300 -- formed tree (e.g. for ASIS use).
1302 Rewrite
1303 (Discrete_Subtype_Definition (Index_Spec), Def);
1305 Set_Analyzed (Low_Bound (Def), False);
1306 Set_Analyzed (High_Bound (Def), False);
1308 if Denotes_Discriminant (Low_Bound (Def)) then
1309 Set_Entity (Low_Bound (Def), Empty);
1310 end if;
1312 if Denotes_Discriminant (High_Bound (Def)) then
1313 Set_Entity (High_Bound (Def), Empty);
1314 end if;
1316 Analyze (Def);
1317 Make_Index (Def, Index_Spec);
1318 Set_Etype
1319 (Defining_Identifier (Index_Spec), Etype (Def));
1320 end if;
1321 end;
1322 end if;
1323 end if;
1325 exit;
1326 end if;
1328 Next_Entity (E);
1329 end loop;
1331 if Entry_Name = Any_Id then
1332 Error_Msg_N ("no entry declaration matches entry body", N);
1333 return;
1335 elsif Has_Completion (Entry_Name) then
1336 Error_Msg_N ("duplicate entry body", N);
1337 return;
1339 else
1340 Set_Has_Completion (Entry_Name);
1341 Generate_Reference (Entry_Name, Id, 'b', Set_Ref => False);
1342 Style.Check_Identifier (Id, Entry_Name);
1343 end if;
1345 Exp_Ch9.Expand_Entry_Barrier (N, Entry_Name);
1346 Push_Scope (Entry_Name);
1348 Install_Declarations (Entry_Name);
1349 Set_Actual_Subtypes (N, Current_Scope);
1351 -- The entity for the protected subprogram corresponding to the entry
1352 -- has been created. We retain the name of this entity in the entry
1353 -- body, for use when the corresponding subprogram body is created.
1354 -- Note that entry bodies have no Corresponding_Spec, and there is no
1355 -- easy link back in the tree between the entry body and the entity for
1356 -- the entry itself, which is why we must propagate some attributes
1357 -- explicitly from spec to body.
1359 Set_Protected_Body_Subprogram
1360 (Id, Protected_Body_Subprogram (Entry_Name));
1362 Set_Entry_Parameters_Type
1363 (Id, Entry_Parameters_Type (Entry_Name));
1365 -- Add a declaration for the Protection object, renaming declarations
1366 -- for the discriminals and privals and finally a declaration for the
1367 -- entry family index (if applicable).
1369 if Expander_Active
1370 and then Is_Protected_Type (P_Type)
1371 then
1372 Install_Private_Data_Declarations
1373 (Sloc (N), Entry_Name, P_Type, N, Decls);
1374 end if;
1376 if Present (Decls) then
1377 Analyze_Declarations (Decls);
1378 Inspect_Deferred_Constant_Completion (Decls);
1379 end if;
1381 -- Process the contract of the subprogram body after all declarations
1382 -- have been analyzed. This ensures that any contract-related pragmas
1383 -- are available through the N_Contract node of the body.
1385 Analyze_Entry_Or_Subprogram_Body_Contract (Id);
1387 if Present (Stats) then
1388 Analyze (Stats);
1389 end if;
1391 -- Check for unreferenced variables etc. Before the Check_References
1392 -- call, we transfer Never_Set_In_Source and Referenced flags from
1393 -- parameters in the spec to the corresponding entities in the body,
1394 -- since we want the warnings on the body entities. Note that we do not
1395 -- have to transfer Referenced_As_LHS, since that flag can only be set
1396 -- for simple variables, but we include Has_Pragma_Unreferenced,
1397 -- which may have been specified for a formal in the body.
1399 -- At the same time, we set the flags on the spec entities to suppress
1400 -- any warnings on the spec formals, since we also scan the spec.
1401 -- Finally, we propagate the Entry_Component attribute to the body
1402 -- formals, for use in the renaming declarations created later for the
1403 -- formals (see exp_ch9.Add_Formal_Renamings).
1405 declare
1406 E1 : Entity_Id;
1407 E2 : Entity_Id;
1409 begin
1410 E1 := First_Entity (Entry_Name);
1411 while Present (E1) loop
1412 E2 := First_Entity (Id);
1413 while Present (E2) loop
1414 exit when Chars (E1) = Chars (E2);
1415 Next_Entity (E2);
1416 end loop;
1418 -- If no matching body entity, then we already had a detected
1419 -- error of some kind, so just don't worry about these warnings.
1421 if No (E2) then
1422 goto Continue;
1423 end if;
1425 if Ekind (E1) = E_Out_Parameter then
1426 Set_Never_Set_In_Source (E2, Never_Set_In_Source (E1));
1427 Set_Never_Set_In_Source (E1, False);
1428 end if;
1430 Set_Referenced (E2, Referenced (E1));
1431 Set_Referenced (E1);
1432 Set_Has_Pragma_Unreferenced (E2, Has_Pragma_Unreferenced (E1));
1433 Set_Entry_Component (E2, Entry_Component (E1));
1435 <<Continue>>
1436 Next_Entity (E1);
1437 end loop;
1439 Check_References (Id);
1440 end;
1442 -- We still need to check references for the spec, since objects
1443 -- declared in the body are chained (in the First_Entity sense) to
1444 -- the spec rather than the body in the case of entries.
1446 Check_References (Entry_Name);
1448 -- Process the end label, and terminate the scope
1450 Process_End_Label (Handled_Statement_Sequence (N), 't', Entry_Name);
1451 Update_Use_Clause_Chain;
1452 End_Scope;
1454 -- If this is an entry family, remove the loop created to provide
1455 -- a scope for the entry index.
1457 if Ekind (Id) = E_Entry_Family
1458 and then Present (Entry_Index_Specification (Formals))
1459 then
1460 End_Scope;
1461 end if;
1462 end Analyze_Entry_Body;
1464 ------------------------------------
1465 -- Analyze_Entry_Body_Formal_Part --
1466 ------------------------------------
1468 procedure Analyze_Entry_Body_Formal_Part (N : Node_Id) is
1469 Id : constant Entity_Id := Defining_Identifier (Parent (N));
1470 Index : constant Node_Id := Entry_Index_Specification (N);
1471 Formals : constant List_Id := Parameter_Specifications (N);
1473 begin
1474 Tasking_Used := True;
1476 if Present (Index) then
1477 Analyze (Index);
1479 -- The entry index functions like a loop variable, thus it is known
1480 -- to have a valid value.
1482 Set_Is_Known_Valid (Defining_Identifier (Index));
1483 end if;
1485 if Present (Formals) then
1486 Set_Scope (Id, Current_Scope);
1487 Push_Scope (Id);
1488 Process_Formals (Formals, Parent (N));
1489 End_Scope;
1490 end if;
1491 end Analyze_Entry_Body_Formal_Part;
1493 ------------------------------------
1494 -- Analyze_Entry_Call_Alternative --
1495 ------------------------------------
1497 procedure Analyze_Entry_Call_Alternative (N : Node_Id) is
1498 Call : constant Node_Id := Entry_Call_Statement (N);
1500 begin
1501 Tasking_Used := True;
1502 Check_SPARK_05_Restriction ("entry call is not allowed", N);
1504 if Present (Pragmas_Before (N)) then
1505 Analyze_List (Pragmas_Before (N));
1506 end if;
1508 if Nkind (Call) = N_Attribute_Reference then
1510 -- Possibly a stream attribute, but definitely illegal. Other
1511 -- illegalities, such as procedure calls, are diagnosed after
1512 -- resolution.
1514 Error_Msg_N ("entry call alternative requires an entry call", Call);
1515 return;
1516 end if;
1518 Analyze (Call);
1520 -- An indirect call in this context is illegal. A procedure call that
1521 -- does not involve a renaming of an entry is illegal as well, but this
1522 -- and other semantic errors are caught during resolution.
1524 if Nkind (Call) = N_Explicit_Dereference then
1525 Error_Msg_N
1526 ("entry call or dispatching primitive of interface required ", N);
1527 end if;
1529 if Is_Non_Empty_List (Statements (N)) then
1530 Analyze_Statements (Statements (N));
1531 end if;
1532 end Analyze_Entry_Call_Alternative;
1534 -------------------------------
1535 -- Analyze_Entry_Declaration --
1536 -------------------------------
1538 procedure Analyze_Entry_Declaration (N : Node_Id) is
1539 D_Sdef : constant Node_Id := Discrete_Subtype_Definition (N);
1540 Def_Id : constant Entity_Id := Defining_Identifier (N);
1541 Formals : constant List_Id := Parameter_Specifications (N);
1543 begin
1544 Generate_Definition (Def_Id);
1546 Tasking_Used := True;
1548 -- Case of no discrete subtype definition
1550 if No (D_Sdef) then
1551 Set_Ekind (Def_Id, E_Entry);
1553 -- Processing for discrete subtype definition present
1555 else
1556 Enter_Name (Def_Id);
1557 Set_Ekind (Def_Id, E_Entry_Family);
1558 Analyze (D_Sdef);
1559 Make_Index (D_Sdef, N, Def_Id);
1561 -- Check subtype with predicate in entry family
1563 Bad_Predicated_Subtype_Use
1564 ("subtype& has predicate, not allowed in entry family",
1565 D_Sdef, Etype (D_Sdef));
1567 -- Check entry family static bounds outside allowed limits
1569 -- Note: originally this check was not performed here, but in that
1570 -- case the check happens deep in the expander, and the message is
1571 -- posted at the wrong location, and omitted in -gnatc mode.
1572 -- If the type of the entry index is a generic formal, no check
1573 -- is possible. In an instance, the check is not static and a run-
1574 -- time exception will be raised if the bounds are unreasonable.
1576 declare
1577 PEI : constant Entity_Id := RTE (RE_Protected_Entry_Index);
1578 LB : constant Uint := Expr_Value (Type_Low_Bound (PEI));
1579 UB : constant Uint := Expr_Value (Type_High_Bound (PEI));
1581 LBR : Node_Id;
1582 UBR : Node_Id;
1584 begin
1586 -- No bounds checking if the type is generic or if previous error.
1587 -- In an instance the check is dynamic.
1589 if Is_Generic_Type (Etype (D_Sdef))
1590 or else In_Instance
1591 or else Error_Posted (D_Sdef)
1592 then
1593 goto Skip_LB;
1595 elsif Nkind (D_Sdef) = N_Range then
1596 LBR := Low_Bound (D_Sdef);
1598 elsif Is_Entity_Name (D_Sdef)
1599 and then Is_Type (Entity (D_Sdef))
1600 then
1601 LBR := Type_Low_Bound (Entity (D_Sdef));
1603 else
1604 goto Skip_LB;
1605 end if;
1607 if Is_OK_Static_Expression (LBR)
1608 and then Expr_Value (LBR) < LB
1609 then
1610 Error_Msg_Uint_1 := LB;
1611 Error_Msg_N ("entry family low bound must be '>'= ^!", D_Sdef);
1612 end if;
1614 <<Skip_LB>>
1615 if Is_Generic_Type (Etype (D_Sdef))
1616 or else In_Instance
1617 or else Error_Posted (D_Sdef)
1618 then
1619 goto Skip_UB;
1621 elsif Nkind (D_Sdef) = N_Range then
1622 UBR := High_Bound (D_Sdef);
1624 elsif Is_Entity_Name (D_Sdef)
1625 and then Is_Type (Entity (D_Sdef))
1626 then
1627 UBR := Type_High_Bound (Entity (D_Sdef));
1629 else
1630 goto Skip_UB;
1631 end if;
1633 if Is_OK_Static_Expression (UBR)
1634 and then Expr_Value (UBR) > UB
1635 then
1636 Error_Msg_Uint_1 := UB;
1637 Error_Msg_N ("entry family high bound must be '<'= ^!", D_Sdef);
1638 end if;
1640 <<Skip_UB>>
1641 null;
1642 end;
1643 end if;
1645 -- Decorate Def_Id
1647 Set_Etype (Def_Id, Standard_Void_Type);
1648 Set_Convention (Def_Id, Convention_Entry);
1649 Set_Accept_Address (Def_Id, New_Elmt_List);
1651 -- Set the SPARK_Mode from the current context (may be overwritten later
1652 -- with an explicit pragma). Task entries are excluded because they are
1653 -- not completed by entry bodies.
1655 if Ekind (Current_Scope) = E_Protected_Type then
1656 Set_SPARK_Pragma (Def_Id, SPARK_Mode_Pragma);
1657 Set_SPARK_Pragma_Inherited (Def_Id);
1658 end if;
1660 -- Preserve relevant elaboration-related attributes of the context which
1661 -- are no longer available or very expensive to recompute once analysis,
1662 -- resolution, and expansion are over.
1664 Mark_Elaboration_Attributes
1665 (N_Id => Def_Id,
1666 Checks => True,
1667 Warnings => True);
1669 -- Process formals
1671 if Present (Formals) then
1672 Set_Scope (Def_Id, Current_Scope);
1673 Push_Scope (Def_Id);
1674 Process_Formals (Formals, N);
1675 Create_Extra_Formals (Def_Id);
1676 End_Scope;
1677 end if;
1679 if Ekind (Def_Id) = E_Entry then
1680 New_Overloaded_Entity (Def_Id);
1681 end if;
1683 Generate_Reference_To_Formals (Def_Id);
1685 if Has_Aspects (N) then
1686 Analyze_Aspect_Specifications (N, Def_Id);
1687 end if;
1688 end Analyze_Entry_Declaration;
1690 ---------------------------------------
1691 -- Analyze_Entry_Index_Specification --
1692 ---------------------------------------
1694 -- The Defining_Identifier of the entry index specification is local to the
1695 -- entry body, but it must be available in the entry barrier which is
1696 -- evaluated outside of the entry body. The index is eventually renamed as
1697 -- a run-time object, so its visibility is strictly a front-end concern. In
1698 -- order to make it available to the barrier, we create an additional
1699 -- scope, as for a loop, whose only declaration is the index name. This
1700 -- loop is not attached to the tree and does not appear as an entity local
1701 -- to the protected type, so its existence need only be known to routines
1702 -- that process entry families.
1704 procedure Analyze_Entry_Index_Specification (N : Node_Id) is
1705 Iden : constant Node_Id := Defining_Identifier (N);
1706 Def : constant Node_Id := Discrete_Subtype_Definition (N);
1707 Loop_Id : constant Entity_Id := Make_Temporary (Sloc (N), 'L');
1709 begin
1710 Tasking_Used := True;
1711 Analyze (Def);
1713 -- There is no elaboration of the entry index specification. Therefore,
1714 -- if the index is a range, it is not resolved and expanded, but the
1715 -- bounds are inherited from the entry declaration, and reanalyzed.
1716 -- See Analyze_Entry_Body.
1718 if Nkind (Def) /= N_Range then
1719 Make_Index (Def, N);
1720 end if;
1722 Set_Ekind (Loop_Id, E_Loop);
1723 Set_Scope (Loop_Id, Current_Scope);
1724 Push_Scope (Loop_Id);
1725 Enter_Name (Iden);
1726 Set_Ekind (Iden, E_Entry_Index_Parameter);
1727 Set_Etype (Iden, Etype (Def));
1728 end Analyze_Entry_Index_Specification;
1730 ----------------------------
1731 -- Analyze_Protected_Body --
1732 ----------------------------
1734 procedure Analyze_Protected_Body (N : Node_Id) is
1735 Body_Id : constant Entity_Id := Defining_Identifier (N);
1736 Last_E : Entity_Id;
1738 Spec_Id : Entity_Id;
1739 -- This is initially the entity of the protected object or protected
1740 -- type involved, but is replaced by the protected type always in the
1741 -- case of a single protected declaration, since this is the proper
1742 -- scope to be used.
1744 Ref_Id : Entity_Id;
1745 -- This is the entity of the protected object or protected type
1746 -- involved, and is the entity used for cross-reference purposes (it
1747 -- differs from Spec_Id in the case of a single protected object, since
1748 -- Spec_Id is set to the protected type in this case).
1750 function Lock_Free_Disabled return Boolean;
1751 -- This routine returns False if the protected object has a Lock_Free
1752 -- aspect specification or a Lock_Free pragma that turns off the
1753 -- lock-free implementation (e.g. whose expression is False).
1755 ------------------------
1756 -- Lock_Free_Disabled --
1757 ------------------------
1759 function Lock_Free_Disabled return Boolean is
1760 Ritem : constant Node_Id :=
1761 Get_Rep_Item
1762 (Spec_Id, Name_Lock_Free, Check_Parents => False);
1764 begin
1765 if Present (Ritem) then
1767 -- Pragma with one argument
1769 if Nkind (Ritem) = N_Pragma
1770 and then Present (Pragma_Argument_Associations (Ritem))
1771 then
1772 return
1773 Is_False
1774 (Static_Boolean
1775 (Expression
1776 (First (Pragma_Argument_Associations (Ritem)))));
1778 -- Aspect Specification with expression present
1780 elsif Nkind (Ritem) = N_Aspect_Specification
1781 and then Present (Expression (Ritem))
1782 then
1783 return Is_False (Static_Boolean (Expression (Ritem)));
1785 -- Otherwise, return False
1787 else
1788 return False;
1789 end if;
1790 end if;
1792 return False;
1793 end Lock_Free_Disabled;
1795 -- Start of processing for Analyze_Protected_Body
1797 begin
1798 -- A protected body freezes the contract of the nearest enclosing
1799 -- package body and all other contracts encountered in the same
1800 -- declarative part up to and excluding the protected body. This
1801 -- ensures that any annotations referenced by the contract of an
1802 -- entry or subprogram body declared within the current protected
1803 -- body are available.
1805 Freeze_Previous_Contracts (N);
1807 Tasking_Used := True;
1808 Set_Ekind (Body_Id, E_Protected_Body);
1809 Set_Etype (Body_Id, Standard_Void_Type);
1810 Spec_Id := Find_Concurrent_Spec (Body_Id);
1812 if Present (Spec_Id) and then Ekind (Spec_Id) = E_Protected_Type then
1813 null;
1815 elsif Present (Spec_Id)
1816 and then Ekind (Etype (Spec_Id)) = E_Protected_Type
1817 and then not Comes_From_Source (Etype (Spec_Id))
1818 then
1819 null;
1821 else
1822 Error_Msg_N ("missing specification for protected body", Body_Id);
1823 return;
1824 end if;
1826 Ref_Id := Spec_Id;
1827 Generate_Reference (Ref_Id, Body_Id, 'b', Set_Ref => False);
1828 Style.Check_Identifier (Body_Id, Spec_Id);
1830 -- The declarations are always attached to the type
1832 if Ekind (Spec_Id) /= E_Protected_Type then
1833 Spec_Id := Etype (Spec_Id);
1834 end if;
1836 if Has_Aspects (N) then
1837 Analyze_Aspect_Specifications (N, Body_Id);
1838 end if;
1840 Push_Scope (Spec_Id);
1841 Set_Corresponding_Spec (N, Spec_Id);
1842 Set_Corresponding_Body (Parent (Spec_Id), Body_Id);
1843 Set_Has_Completion (Spec_Id);
1844 Install_Declarations (Spec_Id);
1845 Expand_Protected_Body_Declarations (N, Spec_Id);
1846 Last_E := Last_Entity (Spec_Id);
1848 Analyze_Declarations (Declarations (N));
1850 -- For visibility purposes, all entities in the body are private. Set
1851 -- First_Private_Entity accordingly, if there was no private part in the
1852 -- protected declaration.
1854 if No (First_Private_Entity (Spec_Id)) then
1855 if Present (Last_E) then
1856 Set_First_Private_Entity (Spec_Id, Next_Entity (Last_E));
1857 else
1858 Set_First_Private_Entity (Spec_Id, First_Entity (Spec_Id));
1859 end if;
1860 end if;
1862 Check_Completion (Body_Id);
1863 Check_References (Spec_Id);
1864 Process_End_Label (N, 't', Ref_Id);
1865 Update_Use_Clause_Chain;
1866 End_Scope;
1868 -- When a Lock_Free aspect specification/pragma forces the lock-free
1869 -- implementation, verify the protected body meets all the restrictions,
1870 -- otherwise Allows_Lock_Free_Implementation issues an error message.
1872 if Uses_Lock_Free (Spec_Id) then
1873 if not Allows_Lock_Free_Implementation (N, True) then
1874 return;
1875 end if;
1877 -- In other cases, if there is no aspect specification/pragma that
1878 -- disables the lock-free implementation, check both the protected
1879 -- declaration and body satisfy the lock-free restrictions.
1881 elsif not Lock_Free_Disabled
1882 and then Allows_Lock_Free_Implementation (Parent (Spec_Id))
1883 and then Allows_Lock_Free_Implementation (N)
1884 then
1885 Set_Uses_Lock_Free (Spec_Id);
1886 end if;
1887 end Analyze_Protected_Body;
1889 ----------------------------------
1890 -- Analyze_Protected_Definition --
1891 ----------------------------------
1893 procedure Analyze_Protected_Definition (N : Node_Id) is
1894 E : Entity_Id;
1895 L : Entity_Id;
1897 procedure Undelay_Itypes (T : Entity_Id);
1898 -- Itypes created for the private components of a protected type
1899 -- do not receive freeze nodes, because there is no scope in which
1900 -- they can be elaborated, and they can depend on discriminants of
1901 -- the enclosed protected type. Given that the components can be
1902 -- composite types with inner components, we traverse recursively
1903 -- the private components of the protected type, and indicate that
1904 -- all itypes within are frozen. This ensures that no freeze nodes
1905 -- will be generated for them. In the case of itypes that are access
1906 -- types we need to complete their representation by calling layout,
1907 -- which would otherwise be invoked when freezing a type.
1909 -- On the other hand, components of the corresponding record are
1910 -- frozen (or receive itype references) as for other records.
1912 --------------------
1913 -- Undelay_Itypes --
1914 --------------------
1916 procedure Undelay_Itypes (T : Entity_Id) is
1917 Comp : Entity_Id;
1919 begin
1920 if Is_Protected_Type (T) then
1921 Comp := First_Private_Entity (T);
1922 elsif Is_Record_Type (T) then
1923 Comp := First_Entity (T);
1924 else
1925 return;
1926 end if;
1928 while Present (Comp) loop
1929 if Is_Type (Comp)
1930 and then Is_Itype (Comp)
1931 then
1932 Set_Has_Delayed_Freeze (Comp, False);
1933 Set_Is_Frozen (Comp);
1935 if Is_Access_Type (Comp) then
1936 Layout_Type (Comp);
1937 end if;
1939 if Is_Record_Type (Comp)
1940 or else Is_Protected_Type (Comp)
1941 then
1942 Undelay_Itypes (Comp);
1943 end if;
1944 end if;
1946 Next_Entity (Comp);
1947 end loop;
1948 end Undelay_Itypes;
1950 -- Start of processing for Analyze_Protected_Definition
1952 begin
1953 Tasking_Used := True;
1954 Check_SPARK_05_Restriction ("protected definition is not allowed", N);
1955 Analyze_Declarations (Visible_Declarations (N));
1957 if Present (Private_Declarations (N))
1958 and then not Is_Empty_List (Private_Declarations (N))
1959 then
1960 L := Last_Entity (Current_Scope);
1961 Analyze_Declarations (Private_Declarations (N));
1963 if Present (L) then
1964 Set_First_Private_Entity (Current_Scope, Next_Entity (L));
1965 else
1966 Set_First_Private_Entity (Current_Scope,
1967 First_Entity (Current_Scope));
1968 end if;
1969 end if;
1971 E := First_Entity (Current_Scope);
1972 while Present (E) loop
1973 if Ekind_In (E, E_Function, E_Procedure) then
1974 Set_Convention (E, Convention_Protected);
1975 else
1976 Propagate_Concurrent_Flags (Current_Scope, Etype (E));
1977 end if;
1979 Next_Entity (E);
1980 end loop;
1982 Undelay_Itypes (Current_Scope);
1984 Check_Max_Entries (N, Max_Protected_Entries);
1985 Process_End_Label (N, 'e', Current_Scope);
1986 end Analyze_Protected_Definition;
1988 ----------------------------------------
1989 -- Analyze_Protected_Type_Declaration --
1990 ----------------------------------------
1992 procedure Analyze_Protected_Type_Declaration (N : Node_Id) is
1993 Def_Id : constant Entity_Id := Defining_Identifier (N);
1994 E : Entity_Id;
1995 T : Entity_Id;
1997 begin
1998 if No_Run_Time_Mode then
1999 Error_Msg_CRT ("protected type", N);
2001 if Has_Aspects (N) then
2002 Analyze_Aspect_Specifications (N, Def_Id);
2003 end if;
2005 return;
2006 end if;
2008 Tasking_Used := True;
2009 Check_Restriction (No_Protected_Types, N);
2011 T := Find_Type_Name (N);
2013 -- In the case of an incomplete type, use the full view, unless it's not
2014 -- present (as can occur for an incomplete view from a limited with).
2016 if Ekind (T) = E_Incomplete_Type and then Present (Full_View (T)) then
2017 T := Full_View (T);
2018 Set_Completion_Referenced (T);
2019 end if;
2021 Set_Ekind (T, E_Protected_Type);
2022 Set_Is_First_Subtype (T);
2023 Init_Size_Align (T);
2024 Set_Etype (T, T);
2025 Set_Has_Delayed_Freeze (T);
2026 Set_Stored_Constraint (T, No_Elist);
2028 -- Mark this type as a protected type for the sake of restrictions,
2029 -- unless the protected type is declared in a private part of a package
2030 -- of the runtime. With this exception, the Suspension_Object from
2031 -- Ada.Synchronous_Task_Control can be implemented using a protected
2032 -- object without triggering violations of No_Local_Protected_Objects
2033 -- when the user locally declares such an object. This may look like a
2034 -- trick, but the user doesn't have to know how Suspension_Object is
2035 -- implemented.
2037 if In_Private_Part (Current_Scope)
2038 and then Is_Internal_Unit (Current_Sem_Unit)
2039 then
2040 Set_Has_Protected (T, False);
2041 else
2042 Set_Has_Protected (T);
2043 end if;
2045 -- Set the SPARK_Mode from the current context (may be overwritten later
2046 -- with an explicit pragma).
2048 Set_SPARK_Pragma (T, SPARK_Mode_Pragma);
2049 Set_SPARK_Aux_Pragma (T, SPARK_Mode_Pragma);
2050 Set_SPARK_Pragma_Inherited (T);
2051 Set_SPARK_Aux_Pragma_Inherited (T);
2053 Push_Scope (T);
2055 if Ada_Version >= Ada_2005 then
2056 Check_Interfaces (N, T);
2057 end if;
2059 if Present (Discriminant_Specifications (N)) then
2060 if Has_Discriminants (T) then
2062 -- Install discriminants. Also, verify conformance of
2063 -- discriminants of previous and current view. ???
2065 Install_Declarations (T);
2066 else
2067 Process_Discriminants (N);
2068 end if;
2069 end if;
2071 Set_Is_Constrained (T, not Has_Discriminants (T));
2073 -- If aspects are present, analyze them now. They can make references to
2074 -- the discriminants of the type, but not to any components.
2076 if Has_Aspects (N) then
2078 -- The protected type is the full view of a private type. Analyze the
2079 -- aspects with the entity of the private type to ensure that after
2080 -- both views are exchanged, the aspect are actually associated with
2081 -- the full view.
2083 if T /= Def_Id and then Is_Private_Type (Def_Id) then
2084 Analyze_Aspect_Specifications (N, T);
2085 else
2086 Analyze_Aspect_Specifications (N, Def_Id);
2087 end if;
2088 end if;
2090 Analyze (Protected_Definition (N));
2092 -- In the case where the protected type is declared at a nested level
2093 -- and the No_Local_Protected_Objects restriction applies, issue a
2094 -- warning that objects of the type will violate the restriction.
2096 if Restriction_Check_Required (No_Local_Protected_Objects)
2097 and then not Is_Library_Level_Entity (T)
2098 and then Comes_From_Source (T)
2099 then
2100 Error_Msg_Sloc := Restrictions_Loc (No_Local_Protected_Objects);
2102 if Error_Msg_Sloc = No_Location then
2103 Error_Msg_N
2104 ("objects of this type will violate " &
2105 "`No_Local_Protected_Objects`??", N);
2106 else
2107 Error_Msg_N
2108 ("objects of this type will violate " &
2109 "`No_Local_Protected_Objects`#??", N);
2110 end if;
2111 end if;
2113 -- Protected types with entries are controlled (because of the
2114 -- Protection component if nothing else), same for any protected type
2115 -- with interrupt handlers. Note that we need to analyze the protected
2116 -- definition to set Has_Entries and such.
2118 if (Abort_Allowed or else Restriction_Active (No_Entry_Queue) = False
2119 or else Number_Entries (T) > 1)
2120 and then not Restricted_Profile
2121 and then
2122 (Has_Entries (T)
2123 or else Has_Interrupt_Handler (T)
2124 or else Has_Attach_Handler (T))
2125 then
2126 Set_Has_Controlled_Component (T, True);
2127 end if;
2129 -- The Ekind of components is E_Void during analysis to detect illegal
2130 -- uses. Now it can be set correctly.
2132 E := First_Entity (Current_Scope);
2133 while Present (E) loop
2134 if Ekind (E) = E_Void then
2135 Set_Ekind (E, E_Component);
2136 Init_Component_Location (E);
2137 end if;
2139 Next_Entity (E);
2140 end loop;
2142 End_Scope;
2144 -- When a Lock_Free aspect forces the lock-free implementation, check N
2145 -- meets all the lock-free restrictions. Otherwise, an error message is
2146 -- issued by Allows_Lock_Free_Implementation.
2148 if Uses_Lock_Free (Defining_Identifier (N)) then
2150 -- Complain when there is an explicit aspect/pragma Priority (or
2151 -- Interrupt_Priority) while the lock-free implementation is forced
2152 -- by an aspect/pragma.
2154 declare
2155 Id : constant Entity_Id := Defining_Identifier (Original_Node (N));
2156 -- The warning must be issued on the original identifier in order
2157 -- to deal properly with the case of a single protected object.
2159 Prio_Item : constant Node_Id :=
2160 Get_Rep_Item (Def_Id, Name_Priority, False);
2162 begin
2163 if Present (Prio_Item) then
2165 -- Aspect case
2167 if Nkind (Prio_Item) = N_Aspect_Specification
2168 or else From_Aspect_Specification (Prio_Item)
2169 then
2170 Error_Msg_Name_1 := Chars (Identifier (Prio_Item));
2171 Error_Msg_NE
2172 ("aspect% for & has no effect when Lock_Free given??",
2173 Prio_Item, Id);
2175 -- Pragma case
2177 else
2178 Error_Msg_Name_1 := Pragma_Name (Prio_Item);
2179 Error_Msg_NE
2180 ("pragma% for & has no effect when Lock_Free given??",
2181 Prio_Item, Id);
2182 end if;
2183 end if;
2184 end;
2186 if not Allows_Lock_Free_Implementation (N, Lock_Free_Given => True)
2187 then
2188 return;
2189 end if;
2190 end if;
2192 -- If the Attach_Handler aspect is specified or the Interrupt_Handler
2193 -- aspect is True, then the initial ceiling priority must be in the
2194 -- range of System.Interrupt_Priority. It is therefore recommanded
2195 -- to use the Interrupt_Priority aspect instead of the Priority aspect.
2197 if Has_Interrupt_Handler (T) or else Has_Attach_Handler (T) then
2198 declare
2199 Prio_Item : constant Node_Id :=
2200 Get_Rep_Item (Def_Id, Name_Priority, False);
2202 begin
2203 if Present (Prio_Item) then
2205 -- Aspect case
2207 if (Nkind (Prio_Item) = N_Aspect_Specification
2208 or else From_Aspect_Specification (Prio_Item))
2209 and then Chars (Identifier (Prio_Item)) = Name_Priority
2210 then
2211 Error_Msg_N
2212 ("aspect Interrupt_Priority is preferred in presence of "
2213 & "handlers??", Prio_Item);
2215 -- Pragma case
2217 elsif Nkind (Prio_Item) = N_Pragma
2218 and then Pragma_Name (Prio_Item) = Name_Priority
2219 then
2220 Error_Msg_N
2221 ("pragma Interrupt_Priority is preferred in presence of "
2222 & "handlers??", Prio_Item);
2223 end if;
2224 end if;
2225 end;
2226 end if;
2228 -- Case of a completion of a private declaration
2230 if T /= Def_Id and then Is_Private_Type (Def_Id) then
2232 -- Deal with preelaborable initialization. Note that this processing
2233 -- is done by Process_Full_View, but as can be seen below, in this
2234 -- case the call to Process_Full_View is skipped if any serious
2235 -- errors have occurred, and we don't want to lose this check.
2237 if Known_To_Have_Preelab_Init (Def_Id) then
2238 Set_Must_Have_Preelab_Init (T);
2239 end if;
2241 -- Propagate Default_Initial_Condition-related attributes from the
2242 -- private type to the protected type.
2244 Propagate_DIC_Attributes (T, From_Typ => Def_Id);
2246 -- Propagate invariant-related attributes from the private type to
2247 -- the protected type.
2249 Propagate_Invariant_Attributes (T, From_Typ => Def_Id);
2251 -- Create corresponding record now, because some private dependents
2252 -- may be subtypes of the partial view.
2254 -- Skip if errors are present, to prevent cascaded messages
2256 if Serious_Errors_Detected = 0
2258 -- Also skip if expander is not active
2260 and then Expander_Active
2261 then
2262 Expand_N_Protected_Type_Declaration (N);
2263 Process_Full_View (N, T, Def_Id);
2264 end if;
2265 end if;
2267 -- In GNATprove mode, force the loading of a Interrupt_Priority, which
2268 -- is required for the ceiling priority protocol checks triggered by
2269 -- calls originating from protected subprograms and entries.
2271 if GNATprove_Mode then
2272 SPARK_Implicit_Load (RE_Interrupt_Priority);
2273 end if;
2274 end Analyze_Protected_Type_Declaration;
2276 ---------------------
2277 -- Analyze_Requeue --
2278 ---------------------
2280 procedure Analyze_Requeue (N : Node_Id) is
2281 Count : Natural := 0;
2282 Entry_Name : Node_Id := Name (N);
2283 Entry_Id : Entity_Id;
2284 I : Interp_Index;
2285 Is_Disp_Req : Boolean;
2286 It : Interp;
2287 Enclosing : Entity_Id;
2288 Target_Obj : Node_Id := Empty;
2289 Req_Scope : Entity_Id;
2290 Outer_Ent : Entity_Id;
2291 Synch_Type : Entity_Id := Empty;
2293 begin
2294 -- Preserve relevant elaboration-related attributes of the context which
2295 -- are no longer available or very expensive to recompute once analysis,
2296 -- resolution, and expansion are over.
2298 Mark_Elaboration_Attributes
2299 (N_Id => N,
2300 Checks => True,
2301 Modes => True,
2302 Warnings => True);
2304 Tasking_Used := True;
2305 Check_SPARK_05_Restriction ("requeue statement is not allowed", N);
2306 Check_Restriction (No_Requeue_Statements, N);
2307 Check_Unreachable_Code (N);
2309 Enclosing := Empty;
2310 for J in reverse 0 .. Scope_Stack.Last loop
2311 Enclosing := Scope_Stack.Table (J).Entity;
2312 exit when Is_Entry (Enclosing);
2314 if not Ekind_In (Enclosing, E_Block, E_Loop) then
2315 Error_Msg_N ("requeue must appear within accept or entry body", N);
2316 return;
2317 end if;
2318 end loop;
2320 Analyze (Entry_Name);
2322 if Etype (Entry_Name) = Any_Type then
2323 return;
2324 end if;
2326 if Nkind (Entry_Name) = N_Selected_Component then
2327 Target_Obj := Prefix (Entry_Name);
2328 Entry_Name := Selector_Name (Entry_Name);
2329 end if;
2331 -- If an explicit target object is given then we have to check the
2332 -- restrictions of 9.5.4(6).
2334 if Present (Target_Obj) then
2336 -- Locate containing concurrent unit and determine enclosing entry
2337 -- body or outermost enclosing accept statement within the unit.
2339 Outer_Ent := Empty;
2340 for S in reverse 0 .. Scope_Stack.Last loop
2341 Req_Scope := Scope_Stack.Table (S).Entity;
2343 exit when Ekind (Req_Scope) in Task_Kind
2344 or else Ekind (Req_Scope) in Protected_Kind;
2346 if Is_Entry (Req_Scope) then
2347 Outer_Ent := Req_Scope;
2348 end if;
2349 end loop;
2351 pragma Assert (Present (Outer_Ent));
2353 -- Check that the accessibility level of the target object is not
2354 -- greater or equal to the outermost enclosing accept statement (or
2355 -- entry body) unless it is a parameter of the innermost enclosing
2356 -- accept statement (or entry body).
2358 if Object_Access_Level (Target_Obj) >= Scope_Depth (Outer_Ent)
2359 and then
2360 (not Is_Entity_Name (Target_Obj)
2361 or else not Is_Formal (Entity (Target_Obj))
2362 or else Enclosing /= Scope (Entity (Target_Obj)))
2363 then
2364 Error_Msg_N
2365 ("target object has invalid level for requeue", Target_Obj);
2366 end if;
2367 end if;
2369 -- Overloaded case, find right interpretation
2371 if Is_Overloaded (Entry_Name) then
2372 Entry_Id := Empty;
2374 -- Loop over candidate interpretations and filter out any that are
2375 -- not parameterless, are not type conformant, are not entries, or
2376 -- do not come from source.
2378 Get_First_Interp (Entry_Name, I, It);
2379 while Present (It.Nam) loop
2381 -- Note: we test type conformance here, not subtype conformance.
2382 -- Subtype conformance will be tested later on, but it is better
2383 -- for error output in some cases not to do that here.
2385 if (No (First_Formal (It.Nam))
2386 or else (Type_Conformant (Enclosing, It.Nam)))
2387 and then Ekind (It.Nam) = E_Entry
2388 then
2389 -- Ada 2005 (AI-345): Since protected and task types have
2390 -- primitive entry wrappers, we only consider source entries.
2392 if Comes_From_Source (It.Nam) then
2393 Count := Count + 1;
2394 Entry_Id := It.Nam;
2395 else
2396 Remove_Interp (I);
2397 end if;
2398 end if;
2400 Get_Next_Interp (I, It);
2401 end loop;
2403 if Count = 0 then
2404 Error_Msg_N ("no entry matches context", N);
2405 return;
2407 elsif Count > 1 then
2408 Error_Msg_N ("ambiguous entry name in requeue", N);
2409 return;
2411 else
2412 Set_Is_Overloaded (Entry_Name, False);
2413 Set_Entity (Entry_Name, Entry_Id);
2414 end if;
2416 -- Non-overloaded cases
2418 -- For the case of a reference to an element of an entry family, the
2419 -- Entry_Name is an indexed component.
2421 elsif Nkind (Entry_Name) = N_Indexed_Component then
2423 -- Requeue to an entry out of the body
2425 if Nkind (Prefix (Entry_Name)) = N_Selected_Component then
2426 Entry_Id := Entity (Selector_Name (Prefix (Entry_Name)));
2428 -- Requeue from within the body itself
2430 elsif Nkind (Prefix (Entry_Name)) = N_Identifier then
2431 Entry_Id := Entity (Prefix (Entry_Name));
2433 else
2434 Error_Msg_N ("invalid entry_name specified", N);
2435 return;
2436 end if;
2438 -- If we had a requeue of the form REQUEUE A (B), then the parser
2439 -- accepted it (because it could have been a requeue on an entry index.
2440 -- If A turns out not to be an entry family, then the analysis of A (B)
2441 -- turned it into a function call.
2443 elsif Nkind (Entry_Name) = N_Function_Call then
2444 Error_Msg_N
2445 ("arguments not allowed in requeue statement",
2446 First (Parameter_Associations (Entry_Name)));
2447 return;
2449 -- Normal case of no entry family, no argument
2451 else
2452 Entry_Id := Entity (Entry_Name);
2453 end if;
2455 -- Ada 2012 (AI05-0030): Potential dispatching requeue statement. The
2456 -- target type must be a concurrent interface class-wide type and the
2457 -- target must be a procedure, flagged by pragma Implemented. The
2458 -- target may be an access to class-wide type, in which case it must
2459 -- be dereferenced.
2461 if Present (Target_Obj) then
2462 Synch_Type := Etype (Target_Obj);
2464 if Is_Access_Type (Synch_Type) then
2465 Synch_Type := Designated_Type (Synch_Type);
2466 end if;
2467 end if;
2469 Is_Disp_Req :=
2470 Ada_Version >= Ada_2012
2471 and then Present (Target_Obj)
2472 and then Is_Class_Wide_Type (Synch_Type)
2473 and then Is_Concurrent_Interface (Synch_Type)
2474 and then Ekind (Entry_Id) = E_Procedure
2475 and then Has_Rep_Pragma (Entry_Id, Name_Implemented);
2477 -- Resolve entry, and check that it is subtype conformant with the
2478 -- enclosing construct if this construct has formals (RM 9.5.4(5)).
2479 -- Ada 2005 (AI05-0030): Do not emit an error for this specific case.
2481 if not Is_Entry (Entry_Id)
2482 and then not Is_Disp_Req
2483 then
2484 Error_Msg_N ("expect entry name in requeue statement", Name (N));
2486 elsif Ekind (Entry_Id) = E_Entry_Family
2487 and then Nkind (Entry_Name) /= N_Indexed_Component
2488 then
2489 Error_Msg_N ("missing index for entry family component", Name (N));
2491 else
2492 Resolve_Entry (Name (N));
2493 Generate_Reference (Entry_Id, Entry_Name);
2495 if Present (First_Formal (Entry_Id)) then
2497 -- Ada 2012 (AI05-0030): Perform type conformance after skipping
2498 -- the first parameter of Entry_Id since it is the interface
2499 -- controlling formal.
2501 if Ada_Version >= Ada_2012 and then Is_Disp_Req then
2502 declare
2503 Enclosing_Formal : Entity_Id;
2504 Target_Formal : Entity_Id;
2506 begin
2507 Enclosing_Formal := First_Formal (Enclosing);
2508 Target_Formal := Next_Formal (First_Formal (Entry_Id));
2509 while Present (Enclosing_Formal)
2510 and then Present (Target_Formal)
2511 loop
2512 if not Conforming_Types
2513 (T1 => Etype (Enclosing_Formal),
2514 T2 => Etype (Target_Formal),
2515 Ctype => Subtype_Conformant)
2516 then
2517 Error_Msg_Node_2 := Target_Formal;
2518 Error_Msg_NE
2519 ("formal & is not subtype conformant with &" &
2520 "in dispatching requeue", N, Enclosing_Formal);
2521 end if;
2523 Next_Formal (Enclosing_Formal);
2524 Next_Formal (Target_Formal);
2525 end loop;
2526 end;
2527 else
2528 Check_Subtype_Conformant (Enclosing, Entry_Id, Name (N));
2529 end if;
2531 -- Processing for parameters accessed by the requeue
2533 declare
2534 Ent : Entity_Id;
2536 begin
2537 Ent := First_Formal (Enclosing);
2538 while Present (Ent) loop
2540 -- For OUT or IN OUT parameter, the effect of the requeue is
2541 -- to assign the parameter a value on exit from the requeued
2542 -- body, so we can set it as source assigned. We also clear
2543 -- the Is_True_Constant indication. We do not need to clear
2544 -- Current_Value, since the effect of the requeue is to
2545 -- perform an unconditional goto so that any further
2546 -- references will not occur anyway.
2548 if Ekind_In (Ent, E_Out_Parameter, E_In_Out_Parameter) then
2549 Set_Never_Set_In_Source (Ent, False);
2550 Set_Is_True_Constant (Ent, False);
2551 end if;
2553 -- For all parameters, the requeue acts as a reference,
2554 -- since the value of the parameter is passed to the new
2555 -- entry, so we want to suppress unreferenced warnings.
2557 Set_Referenced (Ent);
2558 Next_Formal (Ent);
2559 end loop;
2560 end;
2561 end if;
2562 end if;
2564 -- AI05-0225: the target protected object of a requeue must be a
2565 -- variable. This is a binding interpretation that applies to all
2566 -- versions of the language. Note that the subprogram does not have
2567 -- to be a protected operation: it can be an primitive implemented
2568 -- by entry with a formal that is a protected interface.
2570 if Present (Target_Obj)
2571 and then not Is_Variable (Target_Obj)
2572 then
2573 Error_Msg_N
2574 ("target protected object of requeue must be a variable", N);
2575 end if;
2577 -- A requeue statement is treated as a call for purposes of ABE checks
2578 -- and diagnostics. Annotate the tree by creating a call marker in case
2579 -- the requeue statement is transformed by expansion.
2581 Build_Call_Marker (N);
2582 end Analyze_Requeue;
2584 ------------------------------
2585 -- Analyze_Selective_Accept --
2586 ------------------------------
2588 procedure Analyze_Selective_Accept (N : Node_Id) is
2589 Alts : constant List_Id := Select_Alternatives (N);
2590 Alt : Node_Id;
2592 Accept_Present : Boolean := False;
2593 Terminate_Present : Boolean := False;
2594 Delay_Present : Boolean := False;
2595 Relative_Present : Boolean := False;
2596 Alt_Count : Uint := Uint_0;
2598 begin
2599 Tasking_Used := True;
2600 Check_SPARK_05_Restriction ("select statement is not allowed", N);
2601 Check_Restriction (No_Select_Statements, N);
2603 -- Loop to analyze alternatives
2605 Alt := First (Alts);
2606 while Present (Alt) loop
2607 Alt_Count := Alt_Count + 1;
2608 Analyze (Alt);
2610 if Nkind (Alt) = N_Delay_Alternative then
2611 if Delay_Present then
2613 if Relative_Present /=
2614 (Nkind (Delay_Statement (Alt)) = N_Delay_Relative_Statement)
2615 then
2616 Error_Msg_N
2617 ("delay_until and delay_relative alternatives ", Alt);
2618 Error_Msg_N
2619 ("\cannot appear in the same selective_wait", Alt);
2620 end if;
2622 else
2623 Delay_Present := True;
2624 Relative_Present :=
2625 Nkind (Delay_Statement (Alt)) = N_Delay_Relative_Statement;
2626 end if;
2628 elsif Nkind (Alt) = N_Terminate_Alternative then
2629 if Terminate_Present then
2630 Error_Msg_N ("only one terminate alternative allowed", N);
2631 else
2632 Terminate_Present := True;
2633 Check_Restriction (No_Terminate_Alternatives, N);
2634 end if;
2636 elsif Nkind (Alt) = N_Accept_Alternative then
2637 Accept_Present := True;
2639 -- Check for duplicate accept
2641 declare
2642 Alt1 : Node_Id;
2643 Stm : constant Node_Id := Accept_Statement (Alt);
2644 EDN : constant Node_Id := Entry_Direct_Name (Stm);
2645 Ent : Entity_Id;
2647 begin
2648 if Nkind (EDN) = N_Identifier
2649 and then No (Condition (Alt))
2650 and then Present (Entity (EDN)) -- defend against junk
2651 and then Ekind (Entity (EDN)) = E_Entry
2652 then
2653 Ent := Entity (EDN);
2655 Alt1 := First (Alts);
2656 while Alt1 /= Alt loop
2657 if Nkind (Alt1) = N_Accept_Alternative
2658 and then No (Condition (Alt1))
2659 then
2660 declare
2661 Stm1 : constant Node_Id := Accept_Statement (Alt1);
2662 EDN1 : constant Node_Id := Entry_Direct_Name (Stm1);
2664 begin
2665 if Nkind (EDN1) = N_Identifier then
2666 if Entity (EDN1) = Ent then
2667 Error_Msg_Sloc := Sloc (Stm1);
2668 Error_Msg_N
2669 ("accept duplicates one on line#??", Stm);
2670 exit;
2671 end if;
2672 end if;
2673 end;
2674 end if;
2676 Next (Alt1);
2677 end loop;
2678 end if;
2679 end;
2680 end if;
2682 Next (Alt);
2683 end loop;
2685 Check_Restriction (Max_Select_Alternatives, N, Alt_Count);
2686 Check_Potentially_Blocking_Operation (N);
2688 if Terminate_Present and Delay_Present then
2689 Error_Msg_N ("at most one of terminate or delay alternative", N);
2691 elsif not Accept_Present then
2692 Error_Msg_N
2693 ("select must contain at least one accept alternative", N);
2694 end if;
2696 if Present (Else_Statements (N)) then
2697 if Terminate_Present or Delay_Present then
2698 Error_Msg_N ("else part not allowed with other alternatives", N);
2699 end if;
2701 Analyze_Statements (Else_Statements (N));
2702 end if;
2703 end Analyze_Selective_Accept;
2705 ------------------------------------------
2706 -- Analyze_Single_Protected_Declaration --
2707 ------------------------------------------
2709 procedure Analyze_Single_Protected_Declaration (N : Node_Id) is
2710 Loc : constant Source_Ptr := Sloc (N);
2711 Obj_Id : constant Node_Id := Defining_Identifier (N);
2712 Obj_Decl : Node_Id;
2713 Typ : Entity_Id;
2715 begin
2716 Generate_Definition (Obj_Id);
2717 Tasking_Used := True;
2719 -- A single protected declaration is transformed into a pair of an
2720 -- anonymous protected type and an object of that type. Generate:
2722 -- protected type Typ is ...;
2724 Typ :=
2725 Make_Defining_Identifier (Sloc (Obj_Id),
2726 Chars => New_External_Name (Chars (Obj_Id), 'T'));
2728 Rewrite (N,
2729 Make_Protected_Type_Declaration (Loc,
2730 Defining_Identifier => Typ,
2731 Protected_Definition => Relocate_Node (Protected_Definition (N)),
2732 Interface_List => Interface_List (N)));
2734 -- Use the original defining identifier of the single protected
2735 -- declaration in the generated object declaration to allow for debug
2736 -- information to be attached to it when compiling with -gnatD. The
2737 -- parent of the entity is the new object declaration. The single
2738 -- protected declaration is not used in semantics or code generation,
2739 -- but is scanned when generating debug information, and therefore needs
2740 -- the updated Sloc information from the entity (see Sprint). Generate:
2742 -- Obj : Typ;
2744 Obj_Decl :=
2745 Make_Object_Declaration (Loc,
2746 Defining_Identifier => Obj_Id,
2747 Object_Definition => New_Occurrence_Of (Typ, Loc));
2749 Insert_After (N, Obj_Decl);
2750 Mark_Rewrite_Insertion (Obj_Decl);
2752 -- Relocate aspect Part_Of from the the original single protected
2753 -- declaration to the anonymous object declaration. This emulates the
2754 -- placement of an equivalent source pragma.
2756 Move_Or_Merge_Aspects (N, To => Obj_Decl);
2758 -- Relocate pragma Part_Of from the visible declarations of the original
2759 -- single protected declaration to the anonymous object declaration. The
2760 -- new placement better reflects the role of the pragma.
2762 Relocate_Pragmas_To_Anonymous_Object (N, Obj_Decl);
2764 -- Enter the names of the anonymous protected type and the object before
2765 -- analysis takes places, because the name of the object may be used in
2766 -- its own body.
2768 Enter_Name (Typ);
2769 Set_Ekind (Typ, E_Protected_Type);
2770 Set_Etype (Typ, Typ);
2771 Set_Anonymous_Object (Typ, Obj_Id);
2773 Enter_Name (Obj_Id);
2774 Set_Ekind (Obj_Id, E_Variable);
2775 Set_Etype (Obj_Id, Typ);
2776 Set_SPARK_Pragma (Obj_Id, SPARK_Mode_Pragma);
2777 Set_SPARK_Pragma_Inherited (Obj_Id);
2779 -- Instead of calling Analyze on the new node, call the proper analysis
2780 -- procedure directly. Otherwise the node would be expanded twice, with
2781 -- disastrous result.
2783 Analyze_Protected_Type_Declaration (N);
2785 if Has_Aspects (N) then
2786 Analyze_Aspect_Specifications (N, Obj_Id);
2787 end if;
2788 end Analyze_Single_Protected_Declaration;
2790 -------------------------------------
2791 -- Analyze_Single_Task_Declaration --
2792 -------------------------------------
2794 procedure Analyze_Single_Task_Declaration (N : Node_Id) is
2795 Loc : constant Source_Ptr := Sloc (N);
2796 Obj_Id : constant Node_Id := Defining_Identifier (N);
2797 Obj_Decl : Node_Id;
2798 Typ : Entity_Id;
2800 begin
2801 Generate_Definition (Obj_Id);
2802 Tasking_Used := True;
2804 -- A single task declaration is transformed into a pair of an anonymous
2805 -- task type and an object of that type. Generate:
2807 -- task type Typ is ...;
2809 Typ :=
2810 Make_Defining_Identifier (Sloc (Obj_Id),
2811 Chars => New_External_Name (Chars (Obj_Id), Suffix => "TK"));
2813 Rewrite (N,
2814 Make_Task_Type_Declaration (Loc,
2815 Defining_Identifier => Typ,
2816 Task_Definition => Relocate_Node (Task_Definition (N)),
2817 Interface_List => Interface_List (N)));
2819 -- Use the original defining identifier of the single task declaration
2820 -- in the generated object declaration to allow for debug information
2821 -- to be attached to it when compiling with -gnatD. The parent of the
2822 -- entity is the new object declaration. The single task declaration
2823 -- is not used in semantics or code generation, but is scanned when
2824 -- generating debug information, and therefore needs the updated Sloc
2825 -- information from the entity (see Sprint). Generate:
2827 -- Obj : Typ;
2829 Obj_Decl :=
2830 Make_Object_Declaration (Loc,
2831 Defining_Identifier => Obj_Id,
2832 Object_Definition => New_Occurrence_Of (Typ, Loc));
2834 Insert_After (N, Obj_Decl);
2835 Mark_Rewrite_Insertion (Obj_Decl);
2837 -- Relocate aspects Depends, Global and Part_Of from the original single
2838 -- task declaration to the anonymous object declaration. This emulates
2839 -- the placement of an equivalent source pragma.
2841 Move_Or_Merge_Aspects (N, To => Obj_Decl);
2843 -- Relocate pragmas Depends, Global and Part_Of from the visible
2844 -- declarations of the original single protected declaration to the
2845 -- anonymous object declaration. The new placement better reflects the
2846 -- role of the pragmas.
2848 Relocate_Pragmas_To_Anonymous_Object (N, Obj_Decl);
2850 -- Enter the names of the anonymous task type and the object before
2851 -- analysis takes places, because the name of the object may be used
2852 -- in its own body.
2854 Enter_Name (Typ);
2855 Set_Ekind (Typ, E_Task_Type);
2856 Set_Etype (Typ, Typ);
2857 Set_Anonymous_Object (Typ, Obj_Id);
2859 Enter_Name (Obj_Id);
2860 Set_Ekind (Obj_Id, E_Variable);
2861 Set_Etype (Obj_Id, Typ);
2862 Set_SPARK_Pragma (Obj_Id, SPARK_Mode_Pragma);
2863 Set_SPARK_Pragma_Inherited (Obj_Id);
2865 -- Preserve relevant elaboration-related attributes of the context which
2866 -- are no longer available or very expensive to recompute once analysis,
2867 -- resolution, and expansion are over.
2869 Mark_Elaboration_Attributes
2870 (N_Id => Obj_Id,
2871 Checks => True,
2872 Warnings => True);
2874 -- Instead of calling Analyze on the new node, call the proper analysis
2875 -- procedure directly. Otherwise the node would be expanded twice, with
2876 -- disastrous result.
2878 Analyze_Task_Type_Declaration (N);
2880 if Has_Aspects (N) then
2881 Analyze_Aspect_Specifications (N, Obj_Id);
2882 end if;
2883 end Analyze_Single_Task_Declaration;
2885 -----------------------
2886 -- Analyze_Task_Body --
2887 -----------------------
2889 procedure Analyze_Task_Body (N : Node_Id) is
2890 Body_Id : constant Entity_Id := Defining_Identifier (N);
2891 Decls : constant List_Id := Declarations (N);
2892 HSS : constant Node_Id := Handled_Statement_Sequence (N);
2893 Last_E : Entity_Id;
2895 Spec_Id : Entity_Id;
2896 -- This is initially the entity of the task or task type involved, but
2897 -- is replaced by the task type always in the case of a single task
2898 -- declaration, since this is the proper scope to be used.
2900 Ref_Id : Entity_Id;
2901 -- This is the entity of the task or task type, and is the entity used
2902 -- for cross-reference purposes (it differs from Spec_Id in the case of
2903 -- a single task, since Spec_Id is set to the task type).
2905 begin
2906 -- A task body freezes the contract of the nearest enclosing package
2907 -- body and all other contracts encountered in the same declarative part
2908 -- up to and excluding the task body. This ensures that annotations
2909 -- referenced by the contract of an entry or subprogram body declared
2910 -- within the current protected body are available.
2912 Freeze_Previous_Contracts (N);
2914 Tasking_Used := True;
2915 Set_Scope (Body_Id, Current_Scope);
2916 Set_Ekind (Body_Id, E_Task_Body);
2917 Set_Etype (Body_Id, Standard_Void_Type);
2918 Spec_Id := Find_Concurrent_Spec (Body_Id);
2920 -- The spec is either a task type declaration, or a single task
2921 -- declaration for which we have created an anonymous type.
2923 if Present (Spec_Id) and then Ekind (Spec_Id) = E_Task_Type then
2924 null;
2926 elsif Present (Spec_Id)
2927 and then Ekind (Etype (Spec_Id)) = E_Task_Type
2928 and then not Comes_From_Source (Etype (Spec_Id))
2929 then
2930 null;
2932 else
2933 Error_Msg_N ("missing specification for task body", Body_Id);
2934 return;
2935 end if;
2937 if Has_Completion (Spec_Id)
2938 and then Present (Corresponding_Body (Parent (Spec_Id)))
2939 then
2940 if Nkind (Parent (Spec_Id)) = N_Task_Type_Declaration then
2941 Error_Msg_NE ("duplicate body for task type&", N, Spec_Id);
2942 else
2943 Error_Msg_NE ("duplicate body for task&", N, Spec_Id);
2944 end if;
2945 end if;
2947 Ref_Id := Spec_Id;
2948 Generate_Reference (Ref_Id, Body_Id, 'b', Set_Ref => False);
2949 Style.Check_Identifier (Body_Id, Spec_Id);
2951 -- Deal with case of body of single task (anonymous type was created)
2953 if Ekind (Spec_Id) = E_Variable then
2954 Spec_Id := Etype (Spec_Id);
2955 end if;
2957 -- Set the SPARK_Mode from the current context (may be overwritten later
2958 -- with an explicit pragma).
2960 Set_SPARK_Pragma (Body_Id, SPARK_Mode_Pragma);
2961 Set_SPARK_Pragma_Inherited (Body_Id);
2963 if Has_Aspects (N) then
2964 Analyze_Aspect_Specifications (N, Body_Id);
2965 end if;
2967 Push_Scope (Spec_Id);
2968 Set_Corresponding_Spec (N, Spec_Id);
2969 Set_Corresponding_Body (Parent (Spec_Id), Body_Id);
2970 Set_Has_Completion (Spec_Id);
2971 Install_Declarations (Spec_Id);
2972 Last_E := Last_Entity (Spec_Id);
2974 Analyze_Declarations (Decls);
2975 Inspect_Deferred_Constant_Completion (Decls);
2977 -- For visibility purposes, all entities in the body are private. Set
2978 -- First_Private_Entity accordingly, if there was no private part in the
2979 -- protected declaration.
2981 if No (First_Private_Entity (Spec_Id)) then
2982 if Present (Last_E) then
2983 Set_First_Private_Entity (Spec_Id, Next_Entity (Last_E));
2984 else
2985 Set_First_Private_Entity (Spec_Id, First_Entity (Spec_Id));
2986 end if;
2987 end if;
2989 -- Mark all handlers as not suitable for local raise optimization,
2990 -- since this optimization causes difficulties in a task context.
2992 if Present (Exception_Handlers (HSS)) then
2993 declare
2994 Handlr : Node_Id;
2995 begin
2996 Handlr := First (Exception_Handlers (HSS));
2997 while Present (Handlr) loop
2998 Set_Local_Raise_Not_OK (Handlr);
2999 Next (Handlr);
3000 end loop;
3001 end;
3002 end if;
3004 -- Now go ahead and complete analysis of the task body
3006 Analyze (HSS);
3007 Check_Completion (Body_Id);
3008 Check_References (Body_Id);
3009 Check_References (Spec_Id);
3011 -- Check for entries with no corresponding accept
3013 declare
3014 Ent : Entity_Id;
3016 begin
3017 Ent := First_Entity (Spec_Id);
3018 while Present (Ent) loop
3019 if Is_Entry (Ent)
3020 and then not Entry_Accepted (Ent)
3021 and then Comes_From_Source (Ent)
3022 then
3023 Error_Msg_NE ("no accept for entry &??", N, Ent);
3024 end if;
3026 Next_Entity (Ent);
3027 end loop;
3028 end;
3030 Process_End_Label (HSS, 't', Ref_Id);
3031 Update_Use_Clause_Chain;
3032 End_Scope;
3033 end Analyze_Task_Body;
3035 -----------------------------
3036 -- Analyze_Task_Definition --
3037 -----------------------------
3039 procedure Analyze_Task_Definition (N : Node_Id) is
3040 L : Entity_Id;
3042 begin
3043 Tasking_Used := True;
3044 Check_SPARK_05_Restriction ("task definition is not allowed", N);
3046 if Present (Visible_Declarations (N)) then
3047 Analyze_Declarations (Visible_Declarations (N));
3048 end if;
3050 if Present (Private_Declarations (N)) then
3051 L := Last_Entity (Current_Scope);
3052 Analyze_Declarations (Private_Declarations (N));
3054 if Present (L) then
3055 Set_First_Private_Entity
3056 (Current_Scope, Next_Entity (L));
3057 else
3058 Set_First_Private_Entity
3059 (Current_Scope, First_Entity (Current_Scope));
3060 end if;
3061 end if;
3063 Check_Max_Entries (N, Max_Task_Entries);
3064 Process_End_Label (N, 'e', Current_Scope);
3065 end Analyze_Task_Definition;
3067 -----------------------------------
3068 -- Analyze_Task_Type_Declaration --
3069 -----------------------------------
3071 procedure Analyze_Task_Type_Declaration (N : Node_Id) is
3072 Def_Id : constant Entity_Id := Defining_Identifier (N);
3073 T : Entity_Id;
3075 begin
3076 -- Attempt to use tasking in no run time mode is not allowe. Issue hard
3077 -- error message to disable expansion which leads to crashes.
3079 if Opt.No_Run_Time_Mode then
3080 Error_Msg_N ("tasking not allowed in No_Run_Time mode", N);
3082 -- Otherwise soft check for no tasking restriction
3084 else
3085 Check_Restriction (No_Tasking, N);
3086 end if;
3088 -- Proceed ahead with analysis of task type declaration
3090 Tasking_Used := True;
3092 -- The sequential partition elaboration policy is supported only in the
3093 -- restricted profile.
3095 if Partition_Elaboration_Policy = 'S'
3096 and then not Restricted_Profile
3097 then
3098 Error_Msg_N
3099 ("sequential elaboration supported only in restricted profile", N);
3100 end if;
3102 T := Find_Type_Name (N);
3103 Generate_Definition (T);
3105 -- In the case of an incomplete type, use the full view, unless it's not
3106 -- present (as can occur for an incomplete view from a limited with).
3107 -- Initialize the Corresponding_Record_Type (which overlays the Private
3108 -- Dependents field of the incomplete view).
3110 if Ekind (T) = E_Incomplete_Type then
3111 if Present (Full_View (T)) then
3112 T := Full_View (T);
3113 Set_Completion_Referenced (T);
3115 else
3116 Set_Ekind (T, E_Task_Type);
3117 Set_Corresponding_Record_Type (T, Empty);
3118 end if;
3119 end if;
3121 Set_Ekind (T, E_Task_Type);
3122 Set_Is_First_Subtype (T, True);
3123 Set_Has_Task (T, True);
3124 Init_Size_Align (T);
3125 Set_Etype (T, T);
3126 Set_Has_Delayed_Freeze (T, True);
3127 Set_Stored_Constraint (T, No_Elist);
3129 -- Set the SPARK_Mode from the current context (may be overwritten later
3130 -- with an explicit pragma).
3132 Set_SPARK_Pragma (T, SPARK_Mode_Pragma);
3133 Set_SPARK_Aux_Pragma (T, SPARK_Mode_Pragma);
3134 Set_SPARK_Pragma_Inherited (T);
3135 Set_SPARK_Aux_Pragma_Inherited (T);
3137 -- Preserve relevant elaboration-related attributes of the context which
3138 -- are no longer available or very expensive to recompute once analysis,
3139 -- resolution, and expansion are over.
3141 Mark_Elaboration_Attributes
3142 (N_Id => T,
3143 Checks => True,
3144 Warnings => True);
3146 Push_Scope (T);
3148 if Ada_Version >= Ada_2005 then
3149 Check_Interfaces (N, T);
3150 end if;
3152 if Present (Discriminant_Specifications (N)) then
3153 if Ada_Version = Ada_83 and then Comes_From_Source (N) then
3154 Error_Msg_N ("(Ada 83) task discriminant not allowed!", N);
3155 end if;
3157 if Has_Discriminants (T) then
3159 -- Install discriminants. Also, verify conformance of
3160 -- discriminants of previous and current view. ???
3162 Install_Declarations (T);
3163 else
3164 Process_Discriminants (N);
3165 end if;
3166 end if;
3168 Set_Is_Constrained (T, not Has_Discriminants (T));
3170 if Has_Aspects (N) then
3172 -- The task type is the full view of a private type. Analyze the
3173 -- aspects with the entity of the private type to ensure that after
3174 -- both views are exchanged, the aspect are actually associated with
3175 -- the full view.
3177 if T /= Def_Id and then Is_Private_Type (Def_Id) then
3178 Analyze_Aspect_Specifications (N, T);
3179 else
3180 Analyze_Aspect_Specifications (N, Def_Id);
3181 end if;
3182 end if;
3184 if Present (Task_Definition (N)) then
3185 Analyze_Task_Definition (Task_Definition (N));
3186 end if;
3188 -- In the case where the task type is declared at a nested level and the
3189 -- No_Task_Hierarchy restriction applies, issue a warning that objects
3190 -- of the type will violate the restriction.
3192 if Restriction_Check_Required (No_Task_Hierarchy)
3193 and then not Is_Library_Level_Entity (T)
3194 and then Comes_From_Source (T)
3195 and then not CodePeer_Mode
3196 then
3197 Error_Msg_Sloc := Restrictions_Loc (No_Task_Hierarchy);
3199 if Error_Msg_Sloc = No_Location then
3200 Error_Msg_N
3201 ("objects of this type will violate `No_Task_Hierarchy`??", N);
3202 else
3203 Error_Msg_N
3204 ("objects of this type will violate `No_Task_Hierarchy`#??", N);
3205 end if;
3206 end if;
3208 End_Scope;
3210 -- Case of a completion of a private declaration
3212 if T /= Def_Id and then Is_Private_Type (Def_Id) then
3214 -- Deal with preelaborable initialization. Note that this processing
3215 -- is done by Process_Full_View, but as can be seen below, in this
3216 -- case the call to Process_Full_View is skipped if any serious
3217 -- errors have occurred, and we don't want to lose this check.
3219 if Known_To_Have_Preelab_Init (Def_Id) then
3220 Set_Must_Have_Preelab_Init (T);
3221 end if;
3223 -- Propagate Default_Initial_Condition-related attributes from the
3224 -- private type to the task type.
3226 Propagate_DIC_Attributes (T, From_Typ => Def_Id);
3228 -- Propagate invariant-related attributes from the private type to
3229 -- task type.
3231 Propagate_Invariant_Attributes (T, From_Typ => Def_Id);
3233 -- Create corresponding record now, because some private dependents
3234 -- may be subtypes of the partial view.
3236 -- Skip if errors are present, to prevent cascaded messages
3238 if Serious_Errors_Detected = 0
3240 -- Also skip if expander is not active
3242 and then Expander_Active
3243 then
3244 Expand_N_Task_Type_Declaration (N);
3245 Process_Full_View (N, T, Def_Id);
3246 end if;
3247 end if;
3249 -- In GNATprove mode, force the loading of a Interrupt_Priority, which
3250 -- is required for the ceiling priority protocol checks triggered by
3251 -- calls originating from tasks.
3253 if GNATprove_Mode then
3254 SPARK_Implicit_Load (RE_Interrupt_Priority);
3255 end if;
3256 end Analyze_Task_Type_Declaration;
3258 -----------------------------------
3259 -- Analyze_Terminate_Alternative --
3260 -----------------------------------
3262 procedure Analyze_Terminate_Alternative (N : Node_Id) is
3263 begin
3264 Tasking_Used := True;
3266 if Present (Pragmas_Before (N)) then
3267 Analyze_List (Pragmas_Before (N));
3268 end if;
3270 if Present (Condition (N)) then
3271 Analyze_And_Resolve (Condition (N), Any_Boolean);
3272 end if;
3273 end Analyze_Terminate_Alternative;
3275 ------------------------------
3276 -- Analyze_Timed_Entry_Call --
3277 ------------------------------
3279 procedure Analyze_Timed_Entry_Call (N : Node_Id) is
3280 Trigger : constant Node_Id :=
3281 Entry_Call_Statement (Entry_Call_Alternative (N));
3282 Is_Disp_Select : Boolean := False;
3284 begin
3285 Tasking_Used := True;
3286 Check_SPARK_05_Restriction ("select statement is not allowed", N);
3287 Check_Restriction (No_Select_Statements, N);
3289 -- Ada 2005 (AI-345): The trigger may be a dispatching call
3291 if Ada_Version >= Ada_2005 then
3292 Analyze (Trigger);
3293 Check_Triggering_Statement (Trigger, N, Is_Disp_Select);
3294 end if;
3296 -- Postpone the analysis of the statements till expansion. Analyze only
3297 -- if the expander is disabled in order to catch any semantic errors.
3299 if Is_Disp_Select then
3300 if not Expander_Active then
3301 Analyze (Entry_Call_Alternative (N));
3302 Analyze (Delay_Alternative (N));
3303 end if;
3305 -- Regular select analysis
3307 else
3308 Analyze (Entry_Call_Alternative (N));
3309 Analyze (Delay_Alternative (N));
3310 end if;
3311 end Analyze_Timed_Entry_Call;
3313 ------------------------------------
3314 -- Analyze_Triggering_Alternative --
3315 ------------------------------------
3317 procedure Analyze_Triggering_Alternative (N : Node_Id) is
3318 Trigger : constant Node_Id := Triggering_Statement (N);
3320 begin
3321 Tasking_Used := True;
3323 if Present (Pragmas_Before (N)) then
3324 Analyze_List (Pragmas_Before (N));
3325 end if;
3327 Analyze (Trigger);
3329 if Comes_From_Source (Trigger)
3330 and then Nkind (Trigger) not in N_Delay_Statement
3331 and then Nkind (Trigger) /= N_Entry_Call_Statement
3332 then
3333 if Ada_Version < Ada_2005 then
3334 Error_Msg_N
3335 ("triggering statement must be delay or entry call", Trigger);
3337 -- Ada 2005 (AI-345): If a procedure_call_statement is used for a
3338 -- procedure_or_entry_call, the procedure_name or procedure_prefix
3339 -- of the procedure_call_statement shall denote an entry renamed by a
3340 -- procedure, or (a view of) a primitive subprogram of a limited
3341 -- interface whose first parameter is a controlling parameter.
3343 elsif Nkind (Trigger) = N_Procedure_Call_Statement
3344 and then not Is_Renamed_Entry (Entity (Name (Trigger)))
3345 and then not Is_Controlling_Limited_Procedure
3346 (Entity (Name (Trigger)))
3347 then
3348 Error_Msg_N
3349 ("triggering statement must be procedure or entry call " &
3350 "or delay statement", Trigger);
3351 end if;
3352 end if;
3354 if Is_Non_Empty_List (Statements (N)) then
3355 Analyze_Statements (Statements (N));
3356 end if;
3357 end Analyze_Triggering_Alternative;
3359 -----------------------
3360 -- Check_Max_Entries --
3361 -----------------------
3363 procedure Check_Max_Entries (D : Node_Id; R : All_Parameter_Restrictions) is
3364 Ecount : Uint;
3366 procedure Count (L : List_Id);
3367 -- Count entries in given declaration list
3369 -----------
3370 -- Count --
3371 -----------
3373 procedure Count (L : List_Id) is
3374 D : Node_Id;
3376 begin
3377 if No (L) then
3378 return;
3379 end if;
3381 D := First (L);
3382 while Present (D) loop
3383 if Nkind (D) = N_Entry_Declaration then
3384 declare
3385 DSD : constant Node_Id :=
3386 Discrete_Subtype_Definition (D);
3388 begin
3389 -- If not an entry family, then just one entry
3391 if No (DSD) then
3392 Ecount := Ecount + 1;
3394 -- If entry family with static bounds, count entries
3396 elsif Is_OK_Static_Subtype (Etype (DSD)) then
3397 declare
3398 Lo : constant Uint :=
3399 Expr_Value
3400 (Type_Low_Bound (Etype (DSD)));
3401 Hi : constant Uint :=
3402 Expr_Value
3403 (Type_High_Bound (Etype (DSD)));
3405 begin
3406 if Hi >= Lo then
3407 Ecount := Ecount + Hi - Lo + 1;
3408 end if;
3409 end;
3411 -- Entry family with non-static bounds
3413 else
3414 -- Record an unknown count restriction, and if the
3415 -- restriction is active, post a message or warning.
3417 Check_Restriction (R, D);
3418 end if;
3419 end;
3420 end if;
3422 Next (D);
3423 end loop;
3424 end Count;
3426 -- Start of processing for Check_Max_Entries
3428 begin
3429 Ecount := Uint_0;
3430 Count (Visible_Declarations (D));
3431 Count (Private_Declarations (D));
3433 if Ecount > 0 then
3434 Check_Restriction (R, D, Ecount);
3435 end if;
3436 end Check_Max_Entries;
3438 ----------------------
3439 -- Check_Interfaces --
3440 ----------------------
3442 procedure Check_Interfaces (N : Node_Id; T : Entity_Id) is
3443 Iface : Node_Id;
3444 Iface_Typ : Entity_Id;
3446 begin
3447 pragma Assert
3448 (Nkind_In (N, N_Protected_Type_Declaration, N_Task_Type_Declaration));
3450 if Present (Interface_List (N)) then
3451 Set_Is_Tagged_Type (T);
3453 -- The primitive operations of a tagged synchronized type are placed
3454 -- on the Corresponding_Record for proper dispatching, but are
3455 -- attached to the synchronized type itself when expansion is
3456 -- disabled, for ASIS use.
3458 Set_Direct_Primitive_Operations (T, New_Elmt_List);
3460 Iface := First (Interface_List (N));
3461 while Present (Iface) loop
3462 Iface_Typ := Find_Type_Of_Subtype_Indic (Iface);
3464 if not Is_Interface (Iface_Typ) then
3465 Error_Msg_NE
3466 ("(Ada 2005) & must be an interface", Iface, Iface_Typ);
3468 else
3469 -- Ada 2005 (AI-251): "The declaration of a specific descendant
3470 -- of an interface type freezes the interface type" RM 13.14.
3472 Freeze_Before (N, Etype (Iface));
3474 if Nkind (N) = N_Protected_Type_Declaration then
3476 -- Ada 2005 (AI-345): Protected types can only implement
3477 -- limited, synchronized, or protected interfaces (note that
3478 -- the predicate Is_Limited_Interface includes synchronized
3479 -- and protected interfaces).
3481 if Is_Task_Interface (Iface_Typ) then
3482 Error_Msg_N ("(Ada 2005) protected type cannot implement "
3483 & "a task interface", Iface);
3485 elsif not Is_Limited_Interface (Iface_Typ) then
3486 Error_Msg_N ("(Ada 2005) protected type cannot implement "
3487 & "a non-limited interface", Iface);
3488 end if;
3490 else pragma Assert (Nkind (N) = N_Task_Type_Declaration);
3492 -- Ada 2005 (AI-345): Task types can only implement limited,
3493 -- synchronized, or task interfaces (note that the predicate
3494 -- Is_Limited_Interface includes synchronized and task
3495 -- interfaces).
3497 if Is_Protected_Interface (Iface_Typ) then
3498 Error_Msg_N ("(Ada 2005) task type cannot implement a " &
3499 "protected interface", Iface);
3501 elsif not Is_Limited_Interface (Iface_Typ) then
3502 Error_Msg_N ("(Ada 2005) task type cannot implement a " &
3503 "non-limited interface", Iface);
3504 end if;
3505 end if;
3506 end if;
3508 Next (Iface);
3509 end loop;
3510 end if;
3512 if not Has_Private_Declaration (T) then
3513 return;
3514 end if;
3516 -- Additional checks on full-types associated with private type
3517 -- declarations. Search for the private type declaration.
3519 declare
3520 Full_T_Ifaces : Elist_Id := No_Elist;
3521 Iface : Node_Id;
3522 Priv_T : Entity_Id;
3523 Priv_T_Ifaces : Elist_Id := No_Elist;
3525 begin
3526 Priv_T := First_Entity (Scope (T));
3527 loop
3528 pragma Assert (Present (Priv_T));
3530 if Is_Type (Priv_T) and then Present (Full_View (Priv_T)) then
3531 exit when Full_View (Priv_T) = T;
3532 end if;
3534 Next_Entity (Priv_T);
3535 end loop;
3537 -- In case of synchronized types covering interfaces the private type
3538 -- declaration must be limited.
3540 if Present (Interface_List (N))
3541 and then not Is_Limited_Type (Priv_T)
3542 then
3543 Error_Msg_Sloc := Sloc (Priv_T);
3544 Error_Msg_N ("(Ada 2005) limited type declaration expected for " &
3545 "private type#", T);
3546 end if;
3548 -- RM 7.3 (7.1/2): If the full view has a partial view that is
3549 -- tagged then check RM 7.3 subsidiary rules.
3551 if Is_Tagged_Type (Priv_T)
3552 and then not Error_Posted (N)
3553 then
3554 -- RM 7.3 (7.2/2): The partial view shall be a synchronized tagged
3555 -- type if and only if the full type is a synchronized tagged type
3557 if Is_Synchronized_Tagged_Type (Priv_T)
3558 and then not Is_Synchronized_Tagged_Type (T)
3559 then
3560 Error_Msg_N
3561 ("(Ada 2005) full view must be a synchronized tagged " &
3562 "type (RM 7.3 (7.2/2))", Priv_T);
3564 elsif Is_Synchronized_Tagged_Type (T)
3565 and then not Is_Synchronized_Tagged_Type (Priv_T)
3566 then
3567 Error_Msg_N
3568 ("(Ada 2005) partial view must be a synchronized tagged " &
3569 "type (RM 7.3 (7.2/2))", T);
3570 end if;
3572 -- RM 7.3 (7.3/2): The partial view shall be a descendant of an
3573 -- interface type if and only if the full type is descendant of
3574 -- the interface type.
3576 if Present (Interface_List (N))
3577 or else (Is_Tagged_Type (Priv_T)
3578 and then Has_Interfaces
3579 (Priv_T, Use_Full_View => False))
3580 then
3581 if Is_Tagged_Type (Priv_T) then
3582 Collect_Interfaces
3583 (Priv_T, Priv_T_Ifaces, Use_Full_View => False);
3584 end if;
3586 if Is_Tagged_Type (T) then
3587 Collect_Interfaces (T, Full_T_Ifaces);
3588 end if;
3590 Iface := Find_Hidden_Interface (Priv_T_Ifaces, Full_T_Ifaces);
3592 if Present (Iface) then
3593 Error_Msg_NE
3594 ("interface in partial view& not implemented by full "
3595 & "type (RM-2005 7.3 (7.3/2))", T, Iface);
3596 end if;
3598 Iface := Find_Hidden_Interface (Full_T_Ifaces, Priv_T_Ifaces);
3600 if Present (Iface) then
3601 Error_Msg_NE
3602 ("interface & not implemented by partial " &
3603 "view (RM-2005 7.3 (7.3/2))", T, Iface);
3604 end if;
3605 end if;
3606 end if;
3607 end;
3608 end Check_Interfaces;
3610 --------------------------------
3611 -- Check_Triggering_Statement --
3612 --------------------------------
3614 procedure Check_Triggering_Statement
3615 (Trigger : Node_Id;
3616 Error_Node : Node_Id;
3617 Is_Dispatching : out Boolean)
3619 Param : Node_Id;
3621 begin
3622 Is_Dispatching := False;
3624 -- It is not possible to have a dispatching trigger if we are not in
3625 -- Ada 2005 mode.
3627 if Ada_Version >= Ada_2005
3628 and then Nkind (Trigger) = N_Procedure_Call_Statement
3629 and then Present (Parameter_Associations (Trigger))
3630 then
3631 Param := First (Parameter_Associations (Trigger));
3633 if Is_Controlling_Actual (Param)
3634 and then Is_Interface (Etype (Param))
3635 then
3636 if Is_Limited_Record (Etype (Param)) then
3637 Is_Dispatching := True;
3638 else
3639 Error_Msg_N
3640 ("dispatching operation of limited or synchronized " &
3641 "interface required (RM 9.7.2(3))!", Error_Node);
3642 end if;
3644 elsif Nkind (Trigger) = N_Explicit_Dereference then
3645 Error_Msg_N
3646 ("entry call or dispatching primitive of interface required ",
3647 Trigger);
3648 end if;
3649 end if;
3650 end Check_Triggering_Statement;
3652 --------------------------
3653 -- Find_Concurrent_Spec --
3654 --------------------------
3656 function Find_Concurrent_Spec (Body_Id : Entity_Id) return Entity_Id is
3657 Spec_Id : Entity_Id := Current_Entity_In_Scope (Body_Id);
3659 begin
3660 -- The type may have been given by an incomplete type declaration.
3661 -- Find full view now.
3663 if Present (Spec_Id) and then Ekind (Spec_Id) = E_Incomplete_Type then
3664 Spec_Id := Full_View (Spec_Id);
3665 end if;
3667 return Spec_Id;
3668 end Find_Concurrent_Spec;
3670 --------------------------
3671 -- Install_Declarations --
3672 --------------------------
3674 procedure Install_Declarations (Spec : Entity_Id) is
3675 E : Entity_Id;
3676 Prev : Entity_Id;
3677 begin
3678 E := First_Entity (Spec);
3679 while Present (E) loop
3680 Prev := Current_Entity (E);
3681 Set_Current_Entity (E);
3682 Set_Is_Immediately_Visible (E);
3683 Set_Homonym (E, Prev);
3684 Next_Entity (E);
3685 end loop;
3686 end Install_Declarations;
3688 end Sem_Ch9;