1 ------------------------------------------------------------------------------
3 -- GNAT COMPILER COMPONENTS --
9 -- Copyright (C) 1997-2011, Free Software Foundation, Inc. --
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. --
21 -- GNAT was originally developed by the GNAT team at New York University. --
22 -- Extensive contributions were provided by Ada Core Technologies Inc. --
24 ------------------------------------------------------------------------------
26 with Atree
; use Atree
;
27 with Checks
; use Checks
;
28 with Debug
; use Debug
;
29 with Einfo
; use Einfo
;
30 with Elists
; use Elists
;
31 with Errout
; use Errout
;
32 with Exp_Tss
; use Exp_Tss
;
33 with Exp_Util
; use Exp_Util
;
34 with Expander
; use Expander
;
35 with Fname
; use Fname
;
37 with Lib
.Load
; use Lib
.Load
;
38 with Namet
; use Namet
;
39 with Nlists
; use Nlists
;
40 with Nmake
; use Nmake
;
42 with Output
; use Output
;
43 with Restrict
; use Restrict
;
44 with Rident
; use Rident
;
46 with Sem_Aux
; use Sem_Aux
;
47 with Sem_Cat
; use Sem_Cat
;
48 with Sem_Ch7
; use Sem_Ch7
;
49 with Sem_Ch8
; use Sem_Ch8
;
50 with Sem_Res
; use Sem_Res
;
51 with Sem_Type
; use Sem_Type
;
52 with Sem_Util
; use Sem_Util
;
53 with Sinfo
; use Sinfo
;
54 with Sinput
; use Sinput
;
55 with Snames
; use Snames
;
56 with Stand
; use Stand
;
58 with Tbuild
; use Tbuild
;
59 with Uintp
; use Uintp
;
60 with Uname
; use Uname
;
62 package body Sem_Elab
is
64 -- The following table records the recursive call chain for output in the
65 -- Output routine. Each entry records the call node and the entity of the
66 -- called routine. The number of entries in the table (i.e. the value of
67 -- Elab_Call.Last) indicates the current depth of recursion and is used to
68 -- identify the outer level.
70 type Elab_Call_Entry
is record
75 package Elab_Call
is new Table
.Table
(
76 Table_Component_Type
=> Elab_Call_Entry
,
77 Table_Index_Type
=> Int
,
80 Table_Increment
=> 100,
81 Table_Name
=> "Elab_Call");
83 -- This table is initialized at the start of each outer level call. It
84 -- holds the entities for all subprograms that have been examined for this
85 -- particular outer level call, and is used to prevent both infinite
86 -- recursion, and useless reanalysis of bodies already seen
88 package Elab_Visited
is new Table
.Table
(
89 Table_Component_Type
=> Entity_Id
,
90 Table_Index_Type
=> Int
,
93 Table_Increment
=> 100,
94 Table_Name
=> "Elab_Visited");
96 -- This table stores calls to Check_Internal_Call that are delayed
97 -- until all generics are instantiated, and in particular that all
98 -- generic bodies have been inserted. We need to delay, because we
99 -- need to be able to look through the inserted bodies.
101 type Delay_Element
is record
103 -- The parameter N from the call to Check_Internal_Call. Note that
104 -- this node may get rewritten over the delay period by expansion
105 -- in the call case (but not in the instantiation case).
108 -- The parameter E from the call to Check_Internal_Call
110 Orig_Ent
: Entity_Id
;
111 -- The parameter Orig_Ent from the call to Check_Internal_Call
114 -- The current scope of the call. This is restored when we complete
115 -- the delayed call, so that we do this in the right scope.
117 From_Elab_Code
: Boolean;
118 -- Save indication of whether this call is from elaboration code
120 Outer_Scope
: Entity_Id
;
121 -- Save scope of outer level call
124 package Delay_Check
is new Table
.Table
(
125 Table_Component_Type
=> Delay_Element
,
126 Table_Index_Type
=> Int
,
127 Table_Low_Bound
=> 1,
128 Table_Initial
=> 1000,
129 Table_Increment
=> 100,
130 Table_Name
=> "Delay_Check");
133 -- Top level scope of current scope. Compute this only once at the outer
134 -- level, i.e. for a call to Check_Elab_Call from outside this unit.
136 Outer_Level_Sloc
: Source_Ptr
;
137 -- Save Sloc value for outer level call node for comparisons of source
138 -- locations. A body is too late if it appears after the *outer* level
139 -- call, not the particular call that is being analyzed.
141 From_Elab_Code
: Boolean;
142 -- This flag shows whether the outer level call currently being examined
143 -- is or is not in elaboration code. We are only interested in calls to
144 -- routines in other units if this flag is True.
146 In_Task_Activation
: Boolean := False;
147 -- This flag indicates whether we are performing elaboration checks on
148 -- task procedures, at the point of activation. If true, we do not trace
149 -- internal calls in these procedures, because all local bodies are known
152 Delaying_Elab_Checks
: Boolean := True;
153 -- This is set True till the compilation is complete, including the
154 -- insertion of all instance bodies. Then when Check_Elab_Calls is called,
155 -- the delay table is used to make the delayed calls and this flag is reset
156 -- to False, so that the calls are processed
158 -----------------------
159 -- Local Subprograms --
160 -----------------------
162 -- Note: Outer_Scope in all following specs represents the scope of
163 -- interest of the outer level call. If it is set to Standard_Standard,
164 -- then it means the outer level call was at elaboration level, and that
165 -- thus all calls are of interest. If it was set to some other scope,
166 -- then the original call was an inner call, and we are not interested
167 -- in calls that go outside this scope.
169 procedure Activate_Elaborate_All_Desirable
(N
: Node_Id
; U
: Entity_Id
);
170 -- Analysis of construct N shows that we should set Elaborate_All_Desirable
171 -- for the WITH clause for unit U (which will always be present). A special
172 -- case is when N is a function or procedure instantiation, in which case
173 -- it is sufficient to set Elaborate_Desirable, since in this case there is
174 -- no possibility of transitive elaboration issues.
176 procedure Check_A_Call
179 Outer_Scope
: Entity_Id
;
180 Inter_Unit_Only
: Boolean;
181 Generate_Warnings
: Boolean := True;
182 In_Init_Proc
: Boolean := False);
183 -- This is the internal recursive routine that is called to check for a
184 -- possible elaboration error. The argument N is a subprogram call or
185 -- generic instantiation to be checked, and E is the entity of the called
186 -- subprogram, or instantiated generic unit. The flag Outer_Scope is the
187 -- outer level scope for the original call. Inter_Unit_Only is set if the
188 -- call is only to be checked in the case where it is to another unit (and
189 -- skipped if within a unit). Generate_Warnings is set to False to suppress
190 -- warning messages about missing pragma Elaborate_All's. These messages
191 -- are not wanted for inner calls in the dynamic model. Flag In_Init_Proc
192 -- should be set whenever the current context is a type init proc.
194 procedure Check_Bad_Instantiation
(N
: Node_Id
);
195 -- N is a node for an instantiation (if called with any other node kind,
196 -- Check_Bad_Instantiation ignores the call). This subprogram checks for
197 -- the special case of a generic instantiation of a generic spec in the
198 -- same declarative part as the instantiation where a body is present and
199 -- has not yet been seen. This is an obvious error, but needs to be checked
200 -- specially at the time of the instantiation, since it is a case where we
201 -- cannot insert the body anywhere. If this case is detected, warnings are
202 -- generated, and a raise of Program_Error is inserted. In addition any
203 -- subprograms in the generic spec are stubbed, and the Bad_Instantiation
204 -- flag is set on the instantiation node. The caller in Sem_Ch12 uses this
205 -- flag as an indication that no attempt should be made to insert an
208 procedure Check_Internal_Call
211 Outer_Scope
: Entity_Id
;
212 Orig_Ent
: Entity_Id
);
213 -- N is a function call or procedure statement call node and E is the
214 -- entity of the called function, which is within the current compilation
215 -- unit (where subunits count as part of the parent). This call checks if
216 -- this call, or any call within any accessed body could cause an ABE, and
217 -- if so, outputs a warning. Orig_Ent differs from E only in the case of
218 -- renamings, and points to the original name of the entity. This is used
219 -- for error messages. Outer_Scope is the outer level scope for the
222 procedure Check_Internal_Call_Continue
225 Outer_Scope
: Entity_Id
;
226 Orig_Ent
: Entity_Id
);
227 -- The processing for Check_Internal_Call is divided up into two phases,
228 -- and this represents the second phase. The second phase is delayed if
229 -- Delaying_Elab_Calls is set to True. In this delayed case, the first
230 -- phase makes an entry in the Delay_Check table, which is processed when
231 -- Check_Elab_Calls is called. N, E and Orig_Ent are as for the call to
232 -- Check_Internal_Call. Outer_Scope is the outer level scope for the
235 function Has_Generic_Body
(N
: Node_Id
) return Boolean;
236 -- N is a generic package instantiation node, and this routine determines
237 -- if this package spec does in fact have a generic body. If so, then
238 -- True is returned, otherwise False. Note that this is not at all the
239 -- same as checking if the unit requires a body, since it deals with
240 -- the case of optional bodies accurately (i.e. if a body is optional,
241 -- then it looks to see if a body is actually present). Note: this
242 -- function can only do a fully correct job if in generating code mode
243 -- where all bodies have to be present. If we are operating in semantics
244 -- check only mode, then in some cases of optional bodies, a result of
245 -- False may incorrectly be given. In practice this simply means that
246 -- some cases of warnings for incorrect order of elaboration will only
247 -- be given when generating code, which is not a big problem (and is
248 -- inevitable, given the optional body semantics of Ada).
250 procedure Insert_Elab_Check
(N
: Node_Id
; C
: Node_Id
:= Empty
);
251 -- Given code for an elaboration check (or unconditional raise if the check
252 -- is not needed), inserts the code in the appropriate place. N is the call
253 -- or instantiation node for which the check code is required. C is the
254 -- test whose failure triggers the raise.
256 function Is_Finalization_Procedure
(Id
: Entity_Id
) return Boolean;
257 -- Determine whether entity Id denotes a [Deep_]Finalize procedure
259 procedure Output_Calls
(N
: Node_Id
);
260 -- Outputs chain of calls stored in the Elab_Call table. The caller has
261 -- already generated the main warning message, so the warnings generated
262 -- are all continuation messages. The argument is the call node at which
263 -- the messages are to be placed.
265 function Same_Elaboration_Scope
(Scop1
, Scop2
: Entity_Id
) return Boolean;
266 -- Given two scopes, determine whether they are the same scope from an
267 -- elaboration point of view, i.e. packages and blocks are ignored.
269 procedure Set_C_Scope
;
270 -- On entry C_Scope is set to some scope. On return, C_Scope is reset
271 -- to be the enclosing compilation unit of this scope.
273 procedure Set_Elaboration_Constraint
277 -- The current unit U may depend semantically on some unit P which is not
278 -- in the current context. If there is an elaboration call that reaches P,
279 -- we need to indicate that P requires an Elaborate_All, but this is not
280 -- effective in U's ali file, if there is no with_clause for P. In this
281 -- case we add the Elaborate_All on the unit Q that directly or indirectly
282 -- makes P available. This can happen in two cases:
284 -- a) Q declares a subtype of a type declared in P, and the call is an
285 -- initialization call for an object of that subtype.
287 -- b) Q declares an object of some tagged type whose root type is
288 -- declared in P, and the initialization call uses object notation on
289 -- that object to reach a primitive operation or a classwide operation
292 -- If P appears in the context of U, the current processing is correct.
293 -- Otherwise we must identify these two cases to retrieve Q and place the
294 -- Elaborate_All_Desirable on it.
296 function Spec_Entity
(E
: Entity_Id
) return Entity_Id
;
297 -- Given a compilation unit entity, if it is a spec entity, it is returned
298 -- unchanged. If it is a body entity, then the spec for the corresponding
301 procedure Supply_Bodies
(N
: Node_Id
);
302 -- Given a node, N, that is either a subprogram declaration or a package
303 -- declaration, this procedure supplies dummy bodies for the subprogram
304 -- or for all subprograms in the package. If the given node is not one
305 -- of these two possibilities, then Supply_Bodies does nothing. The
306 -- dummy body contains a single Raise statement.
308 procedure Supply_Bodies
(L
: List_Id
);
309 -- Calls Supply_Bodies for all elements of the given list L
311 function Within
(E1
, E2
: Entity_Id
) return Boolean;
312 -- Given two scopes E1 and E2, returns True if E1 is equal to E2, or is one
313 -- of its contained scopes, False otherwise.
315 function Within_Elaborate_All
(E
: Entity_Id
) return Boolean;
316 -- Before emitting a warning on a scope E for a missing elaborate_all,
317 -- check whether E may be in the context of a directly visible unit U to
318 -- which the pragma applies. This prevents spurious warnings when the
319 -- called entity is renamed within U.
321 --------------------------------------
322 -- Activate_Elaborate_All_Desirable --
323 --------------------------------------
325 procedure Activate_Elaborate_All_Desirable
(N
: Node_Id
; U
: Entity_Id
) is
326 UN
: constant Unit_Number_Type
:= Get_Code_Unit
(N
);
327 CU
: constant Node_Id
:= Cunit
(UN
);
328 UE
: constant Entity_Id
:= Cunit_Entity
(UN
);
329 Unm
: constant Unit_Name_Type
:= Unit_Name
(UN
);
330 CI
: constant List_Id
:= Context_Items
(CU
);
334 procedure Add_To_Context_And_Mark
(Itm
: Node_Id
);
335 -- This procedure is called when the elaborate indication must be
336 -- applied to a unit not in the context of the referencing unit. The
337 -- unit gets added to the context as an implicit with.
339 function In_Withs_Of
(UEs
: Entity_Id
) return Boolean;
340 -- UEs is the spec entity of a unit. If the unit to be marked is
341 -- in the context item list of this unit spec, then the call returns
342 -- True and Itm is left set to point to the relevant N_With_Clause node.
344 procedure Set_Elab_Flag
(Itm
: Node_Id
);
345 -- Sets Elaborate_[All_]Desirable as appropriate on Itm
347 -----------------------------
348 -- Add_To_Context_And_Mark --
349 -----------------------------
351 procedure Add_To_Context_And_Mark
(Itm
: Node_Id
) is
352 CW
: constant Node_Id
:=
353 Make_With_Clause
(Sloc
(Itm
),
357 Set_Library_Unit
(CW
, Library_Unit
(Itm
));
358 Set_Implicit_With
(CW
, True);
360 -- Set elaborate all desirable on copy and then append the copy to
361 -- the list of body with's and we are done.
365 end Add_To_Context_And_Mark
;
371 function In_Withs_Of
(UEs
: Entity_Id
) return Boolean is
372 UNs
: constant Unit_Number_Type
:= Get_Source_Unit
(UEs
);
373 CUs
: constant Node_Id
:= Cunit
(UNs
);
374 CIs
: constant List_Id
:= Context_Items
(CUs
);
378 while Present
(Itm
) loop
379 if Nkind
(Itm
) = N_With_Clause
then
381 Cunit_Entity
(Get_Cunit_Unit_Number
(Library_Unit
(Itm
)));
398 procedure Set_Elab_Flag
(Itm
: Node_Id
) is
400 if Nkind
(N
) in N_Subprogram_Instantiation
then
401 Set_Elaborate_Desirable
(Itm
);
403 Set_Elaborate_All_Desirable
(Itm
);
407 -- Start of processing for Activate_Elaborate_All_Desirable
410 -- Do not set binder indication if expansion is disabled, as when
411 -- compiling a generic unit.
413 if not Expander_Active
then
418 while Present
(Itm
) loop
419 if Nkind
(Itm
) = N_With_Clause
then
420 Ent
:= Cunit_Entity
(Get_Cunit_Unit_Number
(Library_Unit
(Itm
)));
422 -- If we find it, then mark elaborate all desirable and return
433 -- If we fall through then the with clause is not present in the
434 -- current unit. One legitimate possibility is that the with clause
435 -- is present in the spec when we are a body.
437 if Is_Body_Name
(Unm
)
438 and then In_Withs_Of
(Spec_Entity
(UE
))
440 Add_To_Context_And_Mark
(Itm
);
444 -- Similarly, we may be in the spec or body of a child unit, where
445 -- the unit in question is with'ed by some ancestor of the child unit.
447 if Is_Child_Name
(Unm
) then
455 exit when Pkg
= Standard_Standard
;
457 if In_Withs_Of
(Pkg
) then
458 Add_To_Context_And_Mark
(Itm
);
465 -- Here if we do not find with clause on spec or body. We just ignore
466 -- this case, it means that the elaboration involves some other unit
467 -- than the unit being compiled, and will be caught elsewhere.
470 end Activate_Elaborate_All_Desirable
;
476 procedure Check_A_Call
479 Outer_Scope
: Entity_Id
;
480 Inter_Unit_Only
: Boolean;
481 Generate_Warnings
: Boolean := True;
482 In_Init_Proc
: Boolean := False)
484 Loc
: constant Source_Ptr
:= Sloc
(N
);
489 -- Top level scope of entity for called subprogram. This value includes
490 -- following renamings and derivations, so this scope can be in a
491 -- non-visible unit. This is the scope that is to be investigated to
492 -- see whether an elaboration check is required.
495 -- Top level scope of directly called entity for subprogram. This
496 -- differs from E_Scope in the case where renamings or derivations
497 -- are involved, since it does not follow these links. W_Scope is
498 -- generally in a visible unit, and it is this scope that may require
499 -- an Elaborate_All. However, there are some cases (initialization
500 -- calls and calls involving object notation) where W_Scope might not
501 -- be in the context of the current unit, and there is an intermediate
502 -- package that is, in which case the Elaborate_All has to be placed
503 -- on this intermediate package. These special cases are handled in
504 -- Set_Elaboration_Constraint.
506 Body_Acts_As_Spec
: Boolean;
507 -- Set to true if call is to body acting as spec (no separate spec)
509 Inst_Case
: constant Boolean := Nkind
(N
) in N_Generic_Instantiation
;
510 -- Indicates if we have instantiation case
512 Caller_Unit_Internal
: Boolean;
513 Callee_Unit_Internal
: Boolean;
515 Inst_Caller
: Source_Ptr
;
516 Inst_Callee
: Source_Ptr
;
518 Unit_Caller
: Unit_Number_Type
;
519 Unit_Callee
: Unit_Number_Type
;
521 Cunit_SC
: Boolean := False;
522 -- Set to suppress dynamic elaboration checks where one of the
523 -- enclosing scopes has Elaboration_Checks_Suppressed set, or else
524 -- if a pragma Elaborate (_All) applies to that scope, in which case
525 -- warnings on the scope are also suppressed. For the internal case,
526 -- we ignore this flag.
529 -- If the call is known to be within a local Suppress Elaboration
530 -- pragma, nothing to check. This can happen in task bodies.
532 if (Nkind
(N
) = N_Function_Call
533 or else Nkind
(N
) = N_Procedure_Call_Statement
)
534 and then No_Elaboration_Check
(N
)
539 -- Go to parent for derived subprogram, or to original subprogram in the
540 -- case of a renaming (Alias covers both these cases).
544 if (Suppress_Elaboration_Warnings
(Ent
)
545 or else Elaboration_Checks_Suppressed
(Ent
))
546 and then (Inst_Case
or else No
(Alias
(Ent
)))
551 -- Nothing to do for imported entities
553 if Is_Imported
(Ent
) then
557 exit when Inst_Case
or else No
(Alias
(Ent
));
561 Decl
:= Unit_Declaration_Node
(Ent
);
563 if Nkind
(Decl
) = N_Subprogram_Body
then
564 Body_Acts_As_Spec
:= True;
566 elsif Nkind
(Decl
) = N_Subprogram_Declaration
567 or else Nkind
(Decl
) = N_Subprogram_Body_Stub
570 Body_Acts_As_Spec
:= False;
572 -- If we have none of an instantiation, subprogram body or
573 -- subprogram declaration, then it is not a case that we want
574 -- to check. (One case is a call to a generic formal subprogram,
575 -- where we do not want the check in the template).
583 if Elaboration_Checks_Suppressed
(E_Scope
)
584 or else Suppress_Elaboration_Warnings
(E_Scope
)
589 -- Exit when we get to compilation unit, not counting subunits
591 exit when Is_Compilation_Unit
(E_Scope
)
592 and then (Is_Child_Unit
(E_Scope
)
593 or else Scope
(E_Scope
) = Standard_Standard
);
595 -- If we did not find a compilation unit, other than standard,
596 -- then nothing to check (happens in some instantiation cases)
598 if E_Scope
= Standard_Standard
then
601 -- Otherwise move up a scope looking for compilation unit
604 E_Scope
:= Scope
(E_Scope
);
608 -- No checks needed for pure or preelaborated compilation units
610 if Is_Pure
(E_Scope
) or else Is_Preelaborated
(E_Scope
) then
614 -- If the generic entity is within a deeper instance than we are, then
615 -- either the instantiation to which we refer itself caused an ABE, in
616 -- which case that will be handled separately, or else we know that the
617 -- body we need appears as needed at the point of the instantiation.
618 -- However, this assumption is only valid if we are in static mode.
620 if not Dynamic_Elaboration_Checks
621 and then Instantiation_Depth
(Sloc
(Ent
)) >
622 Instantiation_Depth
(Sloc
(N
))
627 -- Do not give a warning for a package with no body
629 if Ekind
(Ent
) = E_Generic_Package
630 and then not Has_Generic_Body
(N
)
635 -- Case of entity is not in current unit (i.e. with'ed unit case)
637 if E_Scope
/= C_Scope
then
639 -- We are only interested in such calls if the outer call was from
640 -- elaboration code, or if we are in Dynamic_Elaboration_Checks mode.
642 if not From_Elab_Code
and then not Dynamic_Elaboration_Checks
then
646 -- Nothing to do if some scope said that no checks were required
652 -- Nothing to do for a generic instance, because in this case the
653 -- checking was at the point of instantiation of the generic However,
654 -- this shortcut is only applicable in static mode.
656 if Is_Generic_Instance
(Ent
) and not Dynamic_Elaboration_Checks
then
660 -- Nothing to do if subprogram with no separate spec. However, a
661 -- call to Deep_Initialize may result in a call to a user-defined
662 -- Initialize procedure, which imposes a body dependency. This
663 -- happens only if the type is controlled and the Initialize
664 -- procedure is not inherited.
666 if Body_Acts_As_Spec
then
667 if Is_TSS
(Ent
, TSS_Deep_Initialize
) then
669 Typ
: constant Entity_Id
:= Etype
(First_Formal
(Ent
));
673 if not Is_Controlled
(Typ
) then
676 Init
:= Find_Prim_Op
(Typ
, Name_Initialize
);
678 if Comes_From_Source
(Init
) then
691 -- Check cases of internal units
693 Callee_Unit_Internal
:=
694 Is_Internal_File_Name
695 (Unit_File_Name
(Get_Source_Unit
(E_Scope
)));
697 -- Do not give a warning if the with'ed unit is internal
698 -- and this is the generic instantiation case (this saves a
699 -- lot of hassle dealing with the Text_IO special child units)
701 if Callee_Unit_Internal
and Inst_Case
then
705 if C_Scope
= Standard_Standard
then
706 Caller_Unit_Internal
:= False;
708 Caller_Unit_Internal
:=
709 Is_Internal_File_Name
710 (Unit_File_Name
(Get_Source_Unit
(C_Scope
)));
713 -- Do not give a warning if the with'ed unit is internal
714 -- and the caller is not internal (since the binder always
715 -- elaborates internal units first).
717 if Callee_Unit_Internal
and (not Caller_Unit_Internal
) then
721 -- For now, if debug flag -gnatdE is not set, do no checking for
722 -- one internal unit withing another. This fixes the problem with
723 -- the sgi build and storage errors. To be resolved later ???
725 if (Callee_Unit_Internal
and Caller_Unit_Internal
)
726 and then not Debug_Flag_EE
731 if Is_TSS
(E
, TSS_Deep_Initialize
) then
735 -- If the call is in an instance, and the called entity is not
736 -- defined in the same instance, then the elaboration issue
737 -- focuses around the unit containing the template, it is
738 -- this unit which requires an Elaborate_All.
740 -- However, if we are doing dynamic elaboration, we need to
741 -- chase the call in the usual manner.
743 -- We do not handle the case of calling a generic formal correctly
744 -- in the static case. See test 4703-004 to explore this gap ???
746 Inst_Caller
:= Instantiation
(Get_Source_File_Index
(Sloc
(N
)));
747 Inst_Callee
:= Instantiation
(Get_Source_File_Index
(Sloc
(Ent
)));
749 if Inst_Caller
= No_Location
then
750 Unit_Caller
:= No_Unit
;
752 Unit_Caller
:= Get_Source_Unit
(N
);
755 if Inst_Callee
= No_Location
then
756 Unit_Callee
:= No_Unit
;
758 Unit_Callee
:= Get_Source_Unit
(Ent
);
761 if Unit_Caller
/= No_Unit
762 and then Unit_Callee
/= Unit_Caller
763 and then not Dynamic_Elaboration_Checks
765 E_Scope
:= Spec_Entity
(Cunit_Entity
(Unit_Caller
));
767 -- If we don't get a spec entity, just ignore call. Not quite
768 -- clear why this check is necessary. ???
774 -- Otherwise step to enclosing compilation unit
776 while not Is_Compilation_Unit
(E_Scope
) loop
777 E_Scope
:= Scope
(E_Scope
);
780 -- For the case N is not an instance, or a call within instance, we
781 -- recompute E_Scope for the error message, since we do NOT want to
782 -- go to the unit which has the ultimate declaration in the case of
783 -- renaming and derivation and we also want to go to the generic unit
784 -- in the case of an instance, and no further.
787 -- Loop to carefully follow renamings and derivations one step
788 -- outside the current unit, but not further.
791 and then Present
(Alias
(Ent
))
793 E_Scope
:= Alias
(Ent
);
799 while not Is_Compilation_Unit
(E_Scope
) loop
800 E_Scope
:= Scope
(E_Scope
);
803 -- If E_Scope is the same as C_Scope, it means that there
804 -- definitely was a local renaming or derivation, and we
805 -- are not yet out of the current unit.
807 exit when E_Scope
/= C_Scope
;
811 -- If no alias, there is a previous error
819 if Within_Elaborate_All
(E_Scope
) then
823 -- Find top level scope for called entity (not following renamings
824 -- or derivations). This is where the Elaborate_All will go if it
825 -- is needed. We start with the called entity, except in the case
826 -- of an initialization procedure outside the current package, where
827 -- the init proc is in the root package, and we start from the entity
828 -- of the name in the call.
830 if Is_Entity_Name
(Name
(N
))
831 and then Is_Init_Proc
(Entity
(Name
(N
)))
832 and then not In_Same_Extended_Unit
(N
, Entity
(Name
(N
)))
834 W_Scope
:= Scope
(Entity
(Name
(N
)));
839 while not Is_Compilation_Unit
(W_Scope
) loop
840 W_Scope
:= Scope
(W_Scope
);
843 -- Now check if an elaborate_all (or dynamic check) is needed
845 if not Suppress_Elaboration_Warnings
(Ent
)
846 and then not Elaboration_Checks_Suppressed
(Ent
)
847 and then not Suppress_Elaboration_Warnings
(E_Scope
)
848 and then not Elaboration_Checks_Suppressed
(E_Scope
)
849 and then Elab_Warnings
850 and then Generate_Warnings
852 Generate_Elab_Warnings
: declare
853 procedure Elab_Warning
856 Ent
: Node_Or_Entity_Id
);
857 -- Generate a call to Error_Msg_NE with parameters Msg_D or
858 -- Msg_S (for dynamic or static elaboration model), N and Ent.
864 procedure Elab_Warning
867 Ent
: Node_Or_Entity_Id
)
870 if Dynamic_Elaboration_Checks
then
871 Error_Msg_NE
(Msg_D
, N
, Ent
);
873 Error_Msg_NE
(Msg_S
, N
, Ent
);
877 -- Start of processing for Generate_Elab_Warnings
882 ("instantiation of& may raise Program_Error?",
883 "info: instantiation of& during elaboration?", Ent
);
886 if Nkind
(Name
(N
)) in N_Has_Entity
887 and then Is_Init_Proc
(Entity
(Name
(N
)))
888 and then Comes_From_Source
(Ent
)
891 ("implicit call to & may raise Program_Error?",
892 "info: implicit call to & during elaboration?",
897 ("call to & may raise Program_Error?",
898 "info: call to & during elaboration?",
903 Error_Msg_Qual_Level
:= Nat
'Last;
905 if Nkind
(N
) in N_Subprogram_Instantiation
then
907 ("\missing pragma Elaborate for&?",
908 "\info: implicit pragma Elaborate for& generated?",
912 ("\missing pragma Elaborate_All for&?",
913 "\info: implicit pragma Elaborate_All for & generated?",
916 end Generate_Elab_Warnings
;
918 Error_Msg_Qual_Level
:= 0;
921 -- Set flag to prevent further warnings for same unit unless in
924 if not All_Errors_Mode
and not Dynamic_Elaboration_Checks
then
925 Set_Suppress_Elaboration_Warnings
(W_Scope
, True);
929 -- Check for runtime elaboration check required
931 if Dynamic_Elaboration_Checks
then
932 if not Elaboration_Checks_Suppressed
(Ent
)
933 and then not Elaboration_Checks_Suppressed
(W_Scope
)
934 and then not Elaboration_Checks_Suppressed
(E_Scope
)
935 and then not Cunit_SC
937 -- Runtime elaboration check required. Generate check of the
938 -- elaboration Boolean for the unit containing the entity.
940 -- Note that for this case, we do check the real unit (the one
941 -- from following renamings, since that is the issue!)
943 -- Could this possibly miss a useless but required PE???
945 Insert_Elab_Check
(N
,
946 Make_Attribute_Reference
(Loc
,
947 Attribute_Name
=> Name_Elaborated
,
948 Prefix
=> New_Occurrence_Of
(Spec_Entity
(E_Scope
), Loc
)));
950 -- Prevent duplicate elaboration checks on the same call,
951 -- which can happen if the body enclosing the call appears
952 -- itself in a call whose elaboration check is delayed.
954 if Nkind_In
(N
, N_Function_Call
,
955 N_Procedure_Call_Statement
)
957 Set_No_Elaboration_Check
(N
);
961 -- Case of static elaboration model
964 -- Do not do anything if elaboration checks suppressed. Note that
965 -- we check Ent here, not E, since we want the real entity for the
966 -- body to see if checks are suppressed for it, not the dummy
967 -- entry for renamings or derivations.
969 if Elaboration_Checks_Suppressed
(Ent
)
970 or else Elaboration_Checks_Suppressed
(E_Scope
)
971 or else Elaboration_Checks_Suppressed
(W_Scope
)
975 -- Do not generate an Elaborate_All for finalization routines
976 -- which perform partial clean up as part of initialization.
979 and then Is_Finalization_Procedure
(Ent
)
983 -- Here we need to generate an implicit elaborate all
986 -- Generate elaborate_all warning unless suppressed
988 if (Elab_Warnings
and Generate_Warnings
and not Inst_Case
)
989 and then not Suppress_Elaboration_Warnings
(Ent
)
990 and then not Suppress_Elaboration_Warnings
(E_Scope
)
991 and then not Suppress_Elaboration_Warnings
(W_Scope
)
993 Error_Msg_Node_2
:= W_Scope
;
995 ("call to& in elaboration code " &
996 "requires pragma Elaborate_All on&?", N
, E
);
999 -- Set indication for binder to generate Elaborate_All
1001 Set_Elaboration_Constraint
(N
, E
, W_Scope
);
1005 -- Case of entity is in same unit as call or instantiation
1007 elsif not Inter_Unit_Only
then
1008 Check_Internal_Call
(N
, Ent
, Outer_Scope
, E
);
1012 -----------------------------
1013 -- Check_Bad_Instantiation --
1014 -----------------------------
1016 procedure Check_Bad_Instantiation
(N
: Node_Id
) is
1020 -- Nothing to do if we do not have an instantiation (happens in some
1021 -- error cases, and also in the formal package declaration case)
1023 if Nkind
(N
) not in N_Generic_Instantiation
then
1026 -- Nothing to do if serious errors detected (avoid cascaded errors)
1028 elsif Serious_Errors_Detected
/= 0 then
1031 -- Nothing to do if not in full analysis mode
1033 elsif not Full_Analysis
then
1036 -- Nothing to do if inside a generic template
1038 elsif Inside_A_Generic
then
1041 -- Nothing to do if a library level instantiation
1043 elsif Nkind
(Parent
(N
)) = N_Compilation_Unit
then
1046 -- Nothing to do if we are compiling a proper body for semantic
1047 -- purposes only. The generic body may be in another proper body.
1050 Nkind
(Parent
(Unit_Declaration_Node
(Main_Unit_Entity
))) = N_Subunit
1055 Ent
:= Get_Generic_Entity
(N
);
1057 -- The case we are interested in is when the generic spec is in the
1058 -- current declarative part
1060 if not Same_Elaboration_Scope
(Current_Scope
, Scope
(Ent
))
1061 or else not In_Same_Extended_Unit
(N
, Ent
)
1066 -- If the generic entity is within a deeper instance than we are, then
1067 -- either the instantiation to which we refer itself caused an ABE, in
1068 -- which case that will be handled separately. Otherwise, we know that
1069 -- the body we need appears as needed at the point of the instantiation.
1070 -- If they are both at the same level but not within the same instance
1071 -- then the body of the generic will be in the earlier instance.
1074 D1
: constant Int
:= Instantiation_Depth
(Sloc
(Ent
));
1075 D2
: constant Int
:= Instantiation_Depth
(Sloc
(N
));
1082 and then Is_Generic_Instance
(Scope
(Ent
))
1083 and then not In_Open_Scopes
(Scope
(Ent
))
1089 -- Now we can proceed, if the entity being called has a completion,
1090 -- then we are definitely OK, since we have already seen the body.
1092 if Has_Completion
(Ent
) then
1096 -- If there is no body, then nothing to do
1098 if not Has_Generic_Body
(N
) then
1102 -- Here we definitely have a bad instantiation
1105 ("?cannot instantiate& before body seen", N
, Ent
);
1107 if Present
(Instance_Spec
(N
)) then
1108 Supply_Bodies
(Instance_Spec
(N
));
1112 ("\?Program_Error will be raised at run time", N
);
1113 Insert_Elab_Check
(N
);
1114 Set_ABE_Is_Certain
(N
);
1115 end Check_Bad_Instantiation
;
1117 ---------------------
1118 -- Check_Elab_Call --
1119 ---------------------
1121 procedure Check_Elab_Call
1123 Outer_Scope
: Entity_Id
:= Empty
;
1124 In_Init_Proc
: Boolean := False)
1129 function Get_Called_Ent
return Entity_Id
;
1130 -- Retrieve called entity. If this is a call to a protected subprogram,
1131 -- entity is a selected component. The callable entity may be absent,
1132 -- in which case there is no check to perform. This happens with
1133 -- non-analyzed calls in nested generics.
1135 --------------------
1136 -- Get_Called_Ent --
1137 --------------------
1139 function Get_Called_Ent
return Entity_Id
is
1148 elsif Nkind
(Nam
) = N_Selected_Component
then
1149 return Entity
(Selector_Name
(Nam
));
1151 elsif not Is_Entity_Name
(Nam
) then
1155 return Entity
(Nam
);
1159 -- Start of processing for Check_Elab_Call
1162 -- If the call does not come from the main unit, there is nothing to
1163 -- check. Elaboration call from units in the context of the main unit
1164 -- will lead to semantic dependencies when those units are compiled.
1166 if not In_Extended_Main_Code_Unit
(N
) then
1170 -- For an entry call, check relevant restriction
1172 if Nkind
(N
) = N_Entry_Call_Statement
1173 and then not In_Subprogram_Or_Concurrent_Unit
1175 Check_Restriction
(No_Entry_Calls_In_Elaboration_Code
, N
);
1177 -- Nothing to do if this is not a call (happens in some error
1178 -- conditions, and in some cases where rewriting occurs).
1180 elsif Nkind
(N
) /= N_Function_Call
1181 and then Nkind
(N
) /= N_Procedure_Call_Statement
1185 -- Nothing to do if this is a call already rewritten for elab checking
1187 elsif Nkind
(Parent
(N
)) = N_Conditional_Expression
then
1190 -- Nothing to do if inside a generic template
1192 elsif Inside_A_Generic
1193 and then No
(Enclosing_Generic_Body
(N
))
1198 -- Here we have a call at elaboration time which must be checked
1200 if Debug_Flag_LL
then
1201 Write_Str
(" Check_Elab_Call: ");
1204 or else not Is_Entity_Name
(Name
(N
))
1206 Write_Str
("<<not entity name>> ");
1208 Write_Name
(Chars
(Entity
(Name
(N
))));
1211 Write_Str
(" call at ");
1212 Write_Location
(Sloc
(N
));
1216 -- Climb up the tree to make sure we are not inside default expression
1217 -- of a parameter specification or a record component, since in both
1218 -- these cases, we will be doing the actual call later, not now, and it
1219 -- is at the time of the actual call (statically speaking) that we must
1220 -- do our static check, not at the time of its initial analysis).
1222 -- However, we have to check calls within component definitions (e.g.
1223 -- a function call that determines an array component bound), so we
1224 -- terminate the loop in that case.
1227 while Present
(P
) loop
1228 if Nkind
(P
) = N_Parameter_Specification
1230 Nkind
(P
) = N_Component_Declaration
1234 -- The call occurs within the constraint of a component,
1235 -- so it must be checked.
1237 elsif Nkind
(P
) = N_Component_Definition
then
1245 -- Stuff that happens only at the outer level
1247 if No
(Outer_Scope
) then
1248 Elab_Visited
.Set_Last
(0);
1250 -- Nothing to do if current scope is Standard (this is a bit odd, but
1251 -- it happens in the case of generic instantiations).
1253 C_Scope
:= Current_Scope
;
1255 if C_Scope
= Standard_Standard
then
1259 -- First case, we are in elaboration code
1261 From_Elab_Code
:= not In_Subprogram_Or_Concurrent_Unit
;
1262 if From_Elab_Code
then
1264 -- Complain if call that comes from source in preelaborated unit
1265 -- and we are not inside a subprogram (i.e. we are in elab code).
1267 if Comes_From_Source
(N
)
1268 and then In_Preelaborated_Unit
1269 and then not In_Inlined_Body
1271 -- This is a warning in GNAT mode allowing such calls to be
1272 -- used in the predefined library with appropriate care.
1274 Error_Msg_Warn
:= GNAT_Mode
;
1276 ("<non-static call not allowed in preelaborated unit", N
);
1280 -- Second case, we are inside a subprogram or concurrent unit, which
1281 -- means we are not in elaboration code.
1284 -- In this case, the issue is whether we are inside the
1285 -- declarative part of the unit in which we live, or inside its
1286 -- statements. In the latter case, there is no issue of ABE calls
1287 -- at this level (a call from outside to the unit in which we live
1288 -- might cause an ABE, but that will be detected when we analyze
1289 -- that outer level call, as it recurses into the called unit).
1291 -- Climb up the tree, doing this test, and also testing for being
1292 -- inside a default expression, which, as discussed above, is not
1293 -- checked at this stage.
1302 -- If we find a parentless subtree, it seems safe to assume
1303 -- that we are not in a declarative part and that no
1304 -- checking is required.
1310 if Is_List_Member
(P
) then
1311 L
:= List_Containing
(P
);
1318 exit when Nkind
(P
) = N_Subunit
;
1320 -- Filter out case of default expressions, where we do not
1321 -- do the check at this stage.
1323 if Nkind
(P
) = N_Parameter_Specification
1325 Nkind
(P
) = N_Component_Declaration
1330 -- A protected body has no elaboration code and contains
1331 -- only other bodies.
1333 if Nkind
(P
) = N_Protected_Body
then
1336 elsif Nkind
(P
) = N_Subprogram_Body
1338 Nkind
(P
) = N_Task_Body
1340 Nkind
(P
) = N_Block_Statement
1342 Nkind
(P
) = N_Entry_Body
1344 if L
= Declarations
(P
) then
1347 -- We are not in elaboration code, but we are doing
1348 -- dynamic elaboration checks, in this case, we still
1349 -- need to do the call, since the subprogram we are in
1350 -- could be called from another unit, also in dynamic
1351 -- elaboration check mode, at elaboration time.
1353 elsif Dynamic_Elaboration_Checks
then
1355 -- This is a rather new check, going into version
1356 -- 3.14a1 for the first time (V1.80 of this unit), so
1357 -- we provide a debug flag to enable it. That way we
1358 -- have an easy work around for regressions that are
1359 -- caused by this new check. This debug flag can be
1362 if Debug_Flag_DD
then
1366 -- Do the check in this case
1370 elsif Nkind
(P
) = N_Task_Body
then
1372 -- The check is deferred until Check_Task_Activation
1373 -- but we need to capture local suppress pragmas
1374 -- that may inhibit checks on this call.
1376 Ent
:= Get_Called_Ent
;
1381 elsif Elaboration_Checks_Suppressed
(Current_Scope
)
1382 or else Elaboration_Checks_Suppressed
(Ent
)
1383 or else Elaboration_Checks_Suppressed
(Scope
(Ent
))
1385 Set_No_Elaboration_Check
(N
);
1390 -- Static model, call is not in elaboration code, we
1391 -- never need to worry, because in the static model the
1392 -- top level caller always takes care of things.
1403 Ent
:= Get_Called_Ent
;
1409 -- Nothing to do if this is a recursive call (i.e. a call to
1410 -- an entity that is already in the Elab_Call stack)
1412 for J
in 1 .. Elab_Visited
.Last
loop
1413 if Ent
= Elab_Visited
.Table
(J
) then
1418 -- See if we need to analyze this call. We analyze it if either of
1419 -- the following conditions is met:
1421 -- It is an inner level call (since in this case it was triggered
1422 -- by an outer level call from elaboration code), but only if the
1423 -- call is within the scope of the original outer level call.
1425 -- It is an outer level call from elaboration code, or the called
1426 -- entity is in the same elaboration scope.
1428 -- And in these cases, we will check both inter-unit calls and
1429 -- intra-unit (within a single unit) calls.
1431 C_Scope
:= Current_Scope
;
1433 -- If not outer level call, then we follow it if it is within the
1434 -- original scope of the outer call.
1436 if Present
(Outer_Scope
)
1437 and then Within
(Scope
(Ent
), Outer_Scope
)
1443 Outer_Scope
=> Outer_Scope
,
1444 Inter_Unit_Only
=> False,
1445 In_Init_Proc
=> In_Init_Proc
);
1447 elsif Elaboration_Checks_Suppressed
(Current_Scope
) then
1450 elsif From_Elab_Code
then
1452 Check_A_Call
(N
, Ent
, Standard_Standard
, Inter_Unit_Only
=> False);
1454 elsif Same_Elaboration_Scope
(C_Scope
, Scope
(Ent
)) then
1456 Check_A_Call
(N
, Ent
, Scope
(Ent
), Inter_Unit_Only
=> False);
1458 -- If none of those cases holds, but Dynamic_Elaboration_Checks mode
1459 -- is set, then we will do the check, but only in the inter-unit case
1460 -- (this is to accommodate unguarded elaboration calls from other units
1461 -- in which this same mode is set). We don't want warnings in this case,
1462 -- it would generate warnings having nothing to do with elaboration.
1464 elsif Dynamic_Elaboration_Checks
then
1470 Inter_Unit_Only
=> True,
1471 Generate_Warnings
=> False);
1473 -- Otherwise nothing to do
1479 -- A call to an Init_Proc in elaboration code may bring additional
1480 -- dependencies, if some of the record components thereof have
1481 -- initializations that are function calls that come from source. We
1482 -- treat the current node as a call to each of these functions, to check
1483 -- their elaboration impact.
1485 if Is_Init_Proc
(Ent
)
1486 and then From_Elab_Code
1488 Process_Init_Proc
: declare
1489 Unit_Decl
: constant Node_Id
:= Unit_Declaration_Node
(Ent
);
1491 function Check_Init_Call
(Nod
: Node_Id
) return Traverse_Result
;
1492 -- Find subprogram calls within body of Init_Proc for Traverse
1493 -- instantiation below.
1495 procedure Traverse_Body
is new Traverse_Proc
(Check_Init_Call
);
1496 -- Traversal procedure to find all calls with body of Init_Proc
1498 ---------------------
1499 -- Check_Init_Call --
1500 ---------------------
1502 function Check_Init_Call
(Nod
: Node_Id
) return Traverse_Result
is
1506 if (Nkind
(Nod
) = N_Function_Call
1507 or else Nkind
(Nod
) = N_Procedure_Call_Statement
)
1508 and then Is_Entity_Name
(Name
(Nod
))
1510 Func
:= Entity
(Name
(Nod
));
1512 if Comes_From_Source
(Func
) then
1514 (N
, Func
, Standard_Standard
, Inter_Unit_Only
=> True);
1522 end Check_Init_Call
;
1524 -- Start of processing for Process_Init_Proc
1527 if Nkind
(Unit_Decl
) = N_Subprogram_Body
then
1528 Traverse_Body
(Handled_Statement_Sequence
(Unit_Decl
));
1530 end Process_Init_Proc
;
1532 end Check_Elab_Call
;
1534 -----------------------
1535 -- Check_Elab_Assign --
1536 -----------------------
1538 procedure Check_Elab_Assign
(N
: Node_Id
) is
1542 Pkg_Spec
: Entity_Id
;
1543 Pkg_Body
: Entity_Id
;
1546 -- For record or array component, check prefix. If it is an access type,
1547 -- then there is nothing to do (we do not know what is being assigned),
1548 -- but otherwise this is an assignment to the prefix.
1550 if Nkind
(N
) = N_Indexed_Component
1552 Nkind
(N
) = N_Selected_Component
1556 if not Is_Access_Type
(Etype
(Prefix
(N
))) then
1557 Check_Elab_Assign
(Prefix
(N
));
1563 -- For type conversion, check expression
1565 if Nkind
(N
) = N_Type_Conversion
then
1566 Check_Elab_Assign
(Expression
(N
));
1570 -- Nothing to do if this is not an entity reference otherwise get entity
1572 if Is_Entity_Name
(N
) then
1578 -- What we are looking for is a reference in the body of a package that
1579 -- modifies a variable declared in the visible part of the package spec.
1582 and then Comes_From_Source
(N
)
1583 and then not Suppress_Elaboration_Warnings
(Ent
)
1584 and then Ekind
(Ent
) = E_Variable
1585 and then not In_Private_Part
(Ent
)
1586 and then Is_Library_Level_Entity
(Ent
)
1588 Scop
:= Current_Scope
;
1590 if No
(Scop
) or else Scop
= Standard_Standard
then
1592 elsif Ekind
(Scop
) = E_Package
1593 and then Is_Compilation_Unit
(Scop
)
1597 Scop
:= Scope
(Scop
);
1601 -- Here Scop points to the containing library package
1604 Pkg_Body
:= Body_Entity
(Pkg_Spec
);
1606 -- All OK if the package has an Elaborate_Body pragma
1608 if Has_Pragma_Elaborate_Body
(Scop
) then
1612 -- OK if entity being modified is not in containing package spec
1614 if not In_Same_Source_Unit
(Scop
, Ent
) then
1618 -- All OK if entity appears in generic package or generic instance.
1619 -- We just get too messed up trying to give proper warnings in the
1620 -- presence of generics. Better no message than a junk one.
1622 Scop
:= Scope
(Ent
);
1623 while Present
(Scop
) and then Scop
/= Pkg_Spec
loop
1624 if Ekind
(Scop
) = E_Generic_Package
then
1626 elsif Ekind
(Scop
) = E_Package
1627 and then Is_Generic_Instance
(Scop
)
1632 Scop
:= Scope
(Scop
);
1635 -- All OK if in task, don't issue warnings there
1637 if In_Task_Activation
then
1641 -- OK if no package body
1643 if No
(Pkg_Body
) then
1647 -- OK if reference is not in package body
1649 if not In_Same_Source_Unit
(Pkg_Body
, N
) then
1653 -- OK if package body has no handled statement sequence
1656 HSS
: constant Node_Id
:=
1657 Handled_Statement_Sequence
(Declaration_Node
(Pkg_Body
));
1659 if No
(HSS
) or else not Comes_From_Source
(HSS
) then
1664 -- We definitely have a case of a modification of an entity in
1665 -- the package spec from the elaboration code of the package body.
1666 -- We may not give the warning (because there are some additional
1667 -- checks to avoid too many false positives), but it would be a good
1668 -- idea for the binder to try to keep the body elaboration close to
1669 -- the spec elaboration.
1671 Set_Elaborate_Body_Desirable
(Pkg_Spec
);
1673 -- All OK in gnat mode (we know what we are doing)
1679 -- All OK if all warnings suppressed
1681 if Warning_Mode
= Suppress
then
1685 -- All OK if elaboration checks suppressed for entity
1687 if Checks_May_Be_Suppressed
(Ent
)
1688 and then Is_Check_Suppressed
(Ent
, Elaboration_Check
)
1693 -- OK if the entity is initialized. Note that the No_Initialization
1694 -- flag usually means that the initialization has been rewritten into
1695 -- assignments, but that still counts for us.
1698 Decl
: constant Node_Id
:= Declaration_Node
(Ent
);
1700 if Nkind
(Decl
) = N_Object_Declaration
1701 and then (Present
(Expression
(Decl
))
1702 or else No_Initialization
(Decl
))
1708 -- Here is where we give the warning
1710 -- All OK if warnings suppressed on the entity
1712 if not Has_Warnings_Off
(Ent
) then
1713 Error_Msg_Sloc
:= Sloc
(Ent
);
1716 ("?elaboration code may access& before it is initialized",
1719 ("\?suggest adding pragma Elaborate_Body to spec of &",
1722 ("\?or an explicit initialization could be added #", N
);
1725 if not All_Errors_Mode
then
1726 Set_Suppress_Elaboration_Warnings
(Ent
);
1729 end Check_Elab_Assign
;
1731 ----------------------
1732 -- Check_Elab_Calls --
1733 ----------------------
1735 procedure Check_Elab_Calls
is
1737 -- If expansion is disabled, do not generate any checks. Also skip
1738 -- checks if any subunits are missing because in either case we lack the
1739 -- full information that we need, and no object file will be created in
1742 if not Expander_Active
1743 or else Is_Generic_Unit
(Cunit_Entity
(Main_Unit
))
1744 or else Subunits_Missing
1749 -- Skip delayed calls if we had any errors
1751 if Serious_Errors_Detected
= 0 then
1752 Delaying_Elab_Checks
:= False;
1753 Expander_Mode_Save_And_Set
(True);
1755 for J
in Delay_Check
.First
.. Delay_Check
.Last
loop
1756 Push_Scope
(Delay_Check
.Table
(J
).Curscop
);
1757 From_Elab_Code
:= Delay_Check
.Table
(J
).From_Elab_Code
;
1759 Check_Internal_Call_Continue
(
1760 N
=> Delay_Check
.Table
(J
).N
,
1761 E
=> Delay_Check
.Table
(J
).E
,
1762 Outer_Scope
=> Delay_Check
.Table
(J
).Outer_Scope
,
1763 Orig_Ent
=> Delay_Check
.Table
(J
).Orig_Ent
);
1768 -- Set Delaying_Elab_Checks back on for next main compilation
1770 Expander_Mode_Restore
;
1771 Delaying_Elab_Checks
:= True;
1773 end Check_Elab_Calls
;
1775 ------------------------------
1776 -- Check_Elab_Instantiation --
1777 ------------------------------
1779 procedure Check_Elab_Instantiation
1781 Outer_Scope
: Entity_Id
:= Empty
)
1786 -- Check for and deal with bad instantiation case. There is some
1787 -- duplicated code here, but we will worry about this later ???
1789 Check_Bad_Instantiation
(N
);
1791 if ABE_Is_Certain
(N
) then
1795 -- Nothing to do if we do not have an instantiation (happens in some
1796 -- error cases, and also in the formal package declaration case)
1798 if Nkind
(N
) not in N_Generic_Instantiation
then
1802 -- Nothing to do if inside a generic template
1804 if Inside_A_Generic
then
1808 -- Nothing to do if the instantiation is not in the main unit
1810 if not In_Extended_Main_Code_Unit
(N
) then
1814 Ent
:= Get_Generic_Entity
(N
);
1815 From_Elab_Code
:= not In_Subprogram_Or_Concurrent_Unit
;
1817 -- See if we need to analyze this instantiation. We analyze it if
1818 -- either of the following conditions is met:
1820 -- It is an inner level instantiation (since in this case it was
1821 -- triggered by an outer level call from elaboration code), but
1822 -- only if the instantiation is within the scope of the original
1823 -- outer level call.
1825 -- It is an outer level instantiation from elaboration code, or the
1826 -- instantiated entity is in the same elaboration scope.
1828 -- And in these cases, we will check both the inter-unit case and
1829 -- the intra-unit (within a single unit) case.
1831 C_Scope
:= Current_Scope
;
1833 if Present
(Outer_Scope
)
1834 and then Within
(Scope
(Ent
), Outer_Scope
)
1837 Check_A_Call
(N
, Ent
, Outer_Scope
, Inter_Unit_Only
=> False);
1839 elsif From_Elab_Code
then
1841 Check_A_Call
(N
, Ent
, Standard_Standard
, Inter_Unit_Only
=> False);
1843 elsif Same_Elaboration_Scope
(C_Scope
, Scope
(Ent
)) then
1845 Check_A_Call
(N
, Ent
, Scope
(Ent
), Inter_Unit_Only
=> False);
1847 -- If none of those cases holds, but Dynamic_Elaboration_Checks mode is
1848 -- set, then we will do the check, but only in the inter-unit case (this
1849 -- is to accommodate unguarded elaboration calls from other units in
1850 -- which this same mode is set). We inhibit warnings in this case, since
1851 -- this instantiation is not occurring in elaboration code.
1853 elsif Dynamic_Elaboration_Checks
then
1859 Inter_Unit_Only
=> True,
1860 Generate_Warnings
=> False);
1865 end Check_Elab_Instantiation
;
1867 -------------------------
1868 -- Check_Internal_Call --
1869 -------------------------
1871 procedure Check_Internal_Call
1874 Outer_Scope
: Entity_Id
;
1875 Orig_Ent
: Entity_Id
)
1877 Inst_Case
: constant Boolean := Nkind
(N
) in N_Generic_Instantiation
;
1880 -- If not function or procedure call or instantiation, then ignore
1881 -- call (this happens in some error case and rewriting cases)
1883 if Nkind
(N
) /= N_Function_Call
1885 Nkind
(N
) /= N_Procedure_Call_Statement
1891 -- Nothing to do if this is a call or instantiation that has
1892 -- already been found to be a sure ABE
1894 elsif ABE_Is_Certain
(N
) then
1897 -- Nothing to do if errors already detected (avoid cascaded errors)
1899 elsif Serious_Errors_Detected
/= 0 then
1902 -- Nothing to do if not in full analysis mode
1904 elsif not Full_Analysis
then
1907 -- Nothing to do if analyzing in special spec-expression mode, since the
1908 -- call is not actually being made at this time.
1910 elsif In_Spec_Expression
then
1913 -- Nothing to do for call to intrinsic subprogram
1915 elsif Is_Intrinsic_Subprogram
(E
) then
1918 -- No need to trace local calls if checking task activation, because
1919 -- other local bodies are elaborated already.
1921 elsif In_Task_Activation
then
1924 -- Nothing to do if call is within a generic unit
1926 elsif Inside_A_Generic
then
1930 -- Delay this call if we are still delaying calls
1932 if Delaying_Elab_Checks
then
1933 Delay_Check
.Append
(
1936 Orig_Ent
=> Orig_Ent
,
1937 Curscop
=> Current_Scope
,
1938 Outer_Scope
=> Outer_Scope
,
1939 From_Elab_Code
=> From_Elab_Code
));
1942 -- Otherwise, call phase 2 continuation right now
1945 Check_Internal_Call_Continue
(N
, E
, Outer_Scope
, Orig_Ent
);
1947 end Check_Internal_Call
;
1949 ----------------------------------
1950 -- Check_Internal_Call_Continue --
1951 ----------------------------------
1953 procedure Check_Internal_Call_Continue
1956 Outer_Scope
: Entity_Id
;
1957 Orig_Ent
: Entity_Id
)
1959 Loc
: constant Source_Ptr
:= Sloc
(N
);
1960 Inst_Case
: constant Boolean := Is_Generic_Unit
(E
);
1965 function Find_Elab_Reference
(N
: Node_Id
) return Traverse_Result
;
1966 -- Function applied to each node as we traverse the body. Checks for
1967 -- call or entity reference that needs checking, and if so checks it.
1968 -- Always returns OK, so entire tree is traversed, except that as
1969 -- described below subprogram bodies are skipped for now.
1971 procedure Traverse
is new Atree
.Traverse_Proc
(Find_Elab_Reference
);
1972 -- Traverse procedure using above Find_Elab_Reference function
1974 -------------------------
1975 -- Find_Elab_Reference --
1976 -------------------------
1978 function Find_Elab_Reference
(N
: Node_Id
) return Traverse_Result
is
1982 -- If user has specified that there are no entry calls in elaboration
1983 -- code, do not trace past an accept statement, because the rendez-
1984 -- vous will happen after elaboration.
1986 if (Nkind
(Original_Node
(N
)) = N_Accept_Statement
1987 or else Nkind
(Original_Node
(N
)) = N_Selective_Accept
)
1988 and then Restriction_Active
(No_Entry_Calls_In_Elaboration_Code
)
1992 -- If we have a function call, check it
1994 elsif Nkind
(N
) = N_Function_Call
then
1995 Check_Elab_Call
(N
, Outer_Scope
);
1998 -- If we have a procedure call, check the call, and also check
1999 -- arguments that are assignments (OUT or IN OUT mode formals).
2001 elsif Nkind
(N
) = N_Procedure_Call_Statement
then
2002 Check_Elab_Call
(N
, Outer_Scope
, In_Init_Proc
=> Is_Init_Proc
(E
));
2004 Actual
:= First_Actual
(N
);
2005 while Present
(Actual
) loop
2006 if Known_To_Be_Assigned
(Actual
) then
2007 Check_Elab_Assign
(Actual
);
2010 Next_Actual
(Actual
);
2015 -- If we have a generic instantiation, check it
2017 elsif Nkind
(N
) in N_Generic_Instantiation
then
2018 Check_Elab_Instantiation
(N
, Outer_Scope
);
2021 -- Skip subprogram bodies that come from source (wait for call to
2022 -- analyze these). The reason for the come from source test is to
2023 -- avoid catching task bodies.
2025 -- For task bodies, we should really avoid these too, waiting for the
2026 -- task activation, but that's too much trouble to catch for now, so
2027 -- we go in unconditionally. This is not so terrible, it means the
2028 -- error backtrace is not quite complete, and we are too eager to
2029 -- scan bodies of tasks that are unused, but this is hardly very
2032 elsif Nkind
(N
) = N_Subprogram_Body
2033 and then Comes_From_Source
(N
)
2037 elsif Nkind
(N
) = N_Assignment_Statement
2038 and then Comes_From_Source
(N
)
2040 Check_Elab_Assign
(Name
(N
));
2046 end Find_Elab_Reference
;
2048 -- Start of processing for Check_Internal_Call_Continue
2051 -- Save outer level call if at outer level
2053 if Elab_Call
.Last
= 0 then
2054 Outer_Level_Sloc
:= Loc
;
2057 Elab_Visited
.Append
(E
);
2059 -- If the call is to a function that renames a literal, no check
2062 if Ekind
(E
) = E_Enumeration_Literal
then
2066 Sbody
:= Unit_Declaration_Node
(E
);
2068 if Nkind
(Sbody
) /= N_Subprogram_Body
2070 Nkind
(Sbody
) /= N_Package_Body
2072 Ebody
:= Corresponding_Body
(Sbody
);
2077 Sbody
:= Unit_Declaration_Node
(Ebody
);
2081 -- If the body appears after the outer level call or instantiation then
2082 -- we have an error case handled below.
2084 if Earlier_In_Extended_Unit
(Outer_Level_Sloc
, Sloc
(Sbody
))
2085 and then not In_Task_Activation
2089 -- If we have the instantiation case we are done, since we now
2090 -- know that the body of the generic appeared earlier.
2092 elsif Inst_Case
then
2095 -- Otherwise we have a call, so we trace through the called body to see
2096 -- if it has any problems.
2099 pragma Assert
(Nkind
(Sbody
) = N_Subprogram_Body
);
2101 Elab_Call
.Append
((Cloc
=> Loc
, Ent
=> E
));
2103 if Debug_Flag_LL
then
2104 Write_Str
("Elab_Call.Last = ");
2105 Write_Int
(Int
(Elab_Call
.Last
));
2106 Write_Str
(" Ent = ");
2107 Write_Name
(Chars
(E
));
2109 Write_Location
(Sloc
(N
));
2113 -- Now traverse declarations and statements of subprogram body. Note
2114 -- that we cannot simply Traverse (Sbody), since traverse does not
2115 -- normally visit subprogram bodies.
2120 Decl
:= First
(Declarations
(Sbody
));
2121 while Present
(Decl
) loop
2127 Traverse
(Handled_Statement_Sequence
(Sbody
));
2129 Elab_Call
.Decrement_Last
;
2133 -- Here is the case of calling a subprogram where the body has not yet
2134 -- been encountered. A warning message is needed, except if this is the
2135 -- case of appearing within an aspect specification that results in
2136 -- a check call, we do not really have such a situation, so no warning
2137 -- is needed (e.g. the case of a precondition, where the call appears
2138 -- textually before the body, but in actual fact is moved to the
2139 -- appropriate subprogram body and so does not need a check).
2146 if Nkind
(P
) in N_Subexpr
then
2148 elsif Nkind
(P
) = N_If_Statement
2149 and then Nkind
(Original_Node
(P
)) = N_Pragma
2150 and then Present
(Corresponding_Aspect
(Original_Node
(P
)))
2159 -- Not that special case, warning and dynamic check is required
2161 -- If we have nothing in the call stack, then this is at the outer
2162 -- level, and the ABE is bound to occur.
2164 if Elab_Call
.Last
= 0 then
2167 ("?cannot instantiate& before body seen", N
, Orig_Ent
);
2170 ("?cannot call& before body seen", N
, Orig_Ent
);
2174 ("\?Program_Error will be raised at run time", N
);
2175 Insert_Elab_Check
(N
);
2177 -- Call is not at outer level
2180 -- Deal with dynamic elaboration check
2182 if not Elaboration_Checks_Suppressed
(E
) then
2183 Set_Elaboration_Entity_Required
(E
);
2185 -- Case of no elaboration entity allocated yet
2187 if No
(Elaboration_Entity
(E
)) then
2189 -- Create object declaration for elaboration entity, and put it
2190 -- just in front of the spec of the subprogram or generic unit,
2191 -- in the same scope as this unit.
2194 Loce
: constant Source_Ptr
:= Sloc
(E
);
2195 Ent
: constant Entity_Id
:=
2196 Make_Defining_Identifier
(Loc
,
2197 Chars
=> New_External_Name
(Chars
(E
), 'E'));
2200 Set_Elaboration_Entity
(E
, Ent
);
2201 Push_Scope
(Scope
(E
));
2203 Insert_Action
(Declaration_Node
(E
),
2204 Make_Object_Declaration
(Loce
,
2205 Defining_Identifier
=> Ent
,
2206 Object_Definition
=>
2207 New_Occurrence_Of
(Standard_Short_Integer
, Loce
),
2209 Make_Integer_Literal
(Loc
, Uint_0
)));
2211 -- Set elaboration flag at the point of the body
2213 Set_Elaboration_Flag
(Sbody
, E
);
2215 -- Kill current value indication. This is necessary because
2216 -- the tests of this flag are inserted out of sequence and
2217 -- must not pick up bogus indications of the wrong constant
2218 -- value. Also, this is never a true constant, since one way
2219 -- or another, it gets reset.
2221 Set_Current_Value
(Ent
, Empty
);
2222 Set_Last_Assignment
(Ent
, Empty
);
2223 Set_Is_True_Constant
(Ent
, False);
2228 -- Generate check of the elaboration counter
2230 Insert_Elab_Check
(N
,
2231 Make_Attribute_Reference
(Loc
,
2232 Attribute_Name
=> Name_Elaborated
,
2233 Prefix
=> New_Occurrence_Of
(E
, Loc
)));
2236 -- Generate the warning
2238 if not Suppress_Elaboration_Warnings
(E
)
2239 and then not Elaboration_Checks_Suppressed
(E
)
2243 ("instantiation of& may occur before body is seen?",
2247 ("call to& may occur before body is seen?", N
, Orig_Ent
);
2251 ("\Program_Error may be raised at run time?", N
);
2257 -- Set flag to suppress further warnings on same subprogram
2258 -- unless in all errors mode
2260 if not All_Errors_Mode
then
2261 Set_Suppress_Elaboration_Warnings
(E
);
2263 end Check_Internal_Call_Continue
;
2265 ---------------------------
2266 -- Check_Task_Activation --
2267 ---------------------------
2269 procedure Check_Task_Activation
(N
: Node_Id
) is
2270 Loc
: constant Source_Ptr
:= Sloc
(N
);
2271 Inter_Procs
: constant Elist_Id
:= New_Elmt_List
;
2272 Intra_Procs
: constant Elist_Id
:= New_Elmt_List
;
2275 Task_Scope
: Entity_Id
;
2276 Cunit_SC
: Boolean := False;
2279 Enclosing
: Entity_Id
;
2281 procedure Add_Task_Proc
(Typ
: Entity_Id
);
2282 -- Add to Task_Procs the task body procedure(s) of task types in Typ.
2283 -- For record types, this procedure recurses over component types.
2285 procedure Collect_Tasks
(Decls
: List_Id
);
2286 -- Collect the types of the tasks that are to be activated in the given
2287 -- list of declarations, in order to perform elaboration checks on the
2288 -- corresponding task procedures which are called implicitly here.
2290 function Outer_Unit
(E
: Entity_Id
) return Entity_Id
;
2291 -- find enclosing compilation unit of Entity, ignoring subunits, or
2292 -- else enclosing subprogram. If E is not a package, there is no need
2293 -- for inter-unit elaboration checks.
2299 procedure Add_Task_Proc
(Typ
: Entity_Id
) is
2301 Proc
: Entity_Id
:= Empty
;
2304 if Is_Task_Type
(Typ
) then
2305 Proc
:= Get_Task_Body_Procedure
(Typ
);
2307 elsif Is_Array_Type
(Typ
)
2308 and then Has_Task
(Base_Type
(Typ
))
2310 Add_Task_Proc
(Component_Type
(Typ
));
2312 elsif Is_Record_Type
(Typ
)
2313 and then Has_Task
(Base_Type
(Typ
))
2315 Comp
:= First_Component
(Typ
);
2316 while Present
(Comp
) loop
2317 Add_Task_Proc
(Etype
(Comp
));
2318 Comp
:= Next_Component
(Comp
);
2322 -- If the task type is another unit, we will perform the usual
2323 -- elaboration check on its enclosing unit. If the type is in the
2324 -- same unit, we can trace the task body as for an internal call,
2325 -- but we only need to examine other external calls, because at
2326 -- the point the task is activated, internal subprogram bodies
2327 -- will have been elaborated already. We keep separate lists for
2328 -- each kind of task.
2330 -- Skip this test if errors have occurred, since in this case
2331 -- we can get false indications.
2333 if Serious_Errors_Detected
/= 0 then
2337 if Present
(Proc
) then
2338 if Outer_Unit
(Scope
(Proc
)) = Enclosing
then
2340 if No
(Corresponding_Body
(Unit_Declaration_Node
(Proc
)))
2342 (not Is_Generic_Instance
(Scope
(Proc
))
2344 Scope
(Proc
) = Scope
(Defining_Identifier
(Decl
)))
2347 ("task will be activated before elaboration of its body?",
2350 ("\Program_Error will be raised at run time?", Decl
);
2353 Present
(Corresponding_Body
(Unit_Declaration_Node
(Proc
)))
2355 Append_Elmt
(Proc
, Intra_Procs
);
2359 -- No need for multiple entries of the same type
2361 Elmt
:= First_Elmt
(Inter_Procs
);
2362 while Present
(Elmt
) loop
2363 if Node
(Elmt
) = Proc
then
2370 Append_Elmt
(Proc
, Inter_Procs
);
2379 procedure Collect_Tasks
(Decls
: List_Id
) is
2381 if Present
(Decls
) then
2382 Decl
:= First
(Decls
);
2383 while Present
(Decl
) loop
2384 if Nkind
(Decl
) = N_Object_Declaration
2385 and then Has_Task
(Etype
(Defining_Identifier
(Decl
)))
2387 Add_Task_Proc
(Etype
(Defining_Identifier
(Decl
)));
2399 function Outer_Unit
(E
: Entity_Id
) return Entity_Id
is
2404 while Present
(Outer
) loop
2405 if Elaboration_Checks_Suppressed
(Outer
) then
2409 exit when Is_Child_Unit
(Outer
)
2410 or else Scope
(Outer
) = Standard_Standard
2411 or else Ekind
(Outer
) /= E_Package
;
2412 Outer
:= Scope
(Outer
);
2418 -- Start of processing for Check_Task_Activation
2421 Enclosing
:= Outer_Unit
(Current_Scope
);
2423 -- Find all tasks declared in the current unit
2425 if Nkind
(N
) = N_Package_Body
then
2426 P
:= Unit_Declaration_Node
(Corresponding_Spec
(N
));
2428 Collect_Tasks
(Declarations
(N
));
2429 Collect_Tasks
(Visible_Declarations
(Specification
(P
)));
2430 Collect_Tasks
(Private_Declarations
(Specification
(P
)));
2432 elsif Nkind
(N
) = N_Package_Declaration
then
2433 Collect_Tasks
(Visible_Declarations
(Specification
(N
)));
2434 Collect_Tasks
(Private_Declarations
(Specification
(N
)));
2437 Collect_Tasks
(Declarations
(N
));
2440 -- We only perform detailed checks in all tasks are library level
2441 -- entities. If the master is a subprogram or task, activation will
2442 -- depend on the activation of the master itself.
2444 -- Should dynamic checks be added in the more general case???
2446 if Ekind
(Enclosing
) /= E_Package
then
2450 -- For task types defined in other units, we want the unit containing
2451 -- the task body to be elaborated before the current one.
2453 Elmt
:= First_Elmt
(Inter_Procs
);
2454 while Present
(Elmt
) loop
2456 Task_Scope
:= Outer_Unit
(Scope
(Ent
));
2458 if not Is_Compilation_Unit
(Task_Scope
) then
2461 elsif Suppress_Elaboration_Warnings
(Task_Scope
)
2462 or else Elaboration_Checks_Suppressed
(Task_Scope
)
2466 elsif Dynamic_Elaboration_Checks
then
2467 if not Elaboration_Checks_Suppressed
(Ent
)
2468 and then not Cunit_SC
2470 not Restriction_Active
(No_Entry_Calls_In_Elaboration_Code
)
2472 -- Runtime elaboration check required. Generate check of the
2473 -- elaboration counter for the unit containing the entity.
2475 Insert_Elab_Check
(N
,
2476 Make_Attribute_Reference
(Loc
,
2477 Attribute_Name
=> Name_Elaborated
,
2479 New_Occurrence_Of
(Spec_Entity
(Task_Scope
), Loc
)));
2483 -- Force the binder to elaborate other unit first
2485 if not Suppress_Elaboration_Warnings
(Ent
)
2486 and then not Elaboration_Checks_Suppressed
(Ent
)
2487 and then Elab_Warnings
2488 and then not Suppress_Elaboration_Warnings
(Task_Scope
)
2489 and then not Elaboration_Checks_Suppressed
(Task_Scope
)
2491 Error_Msg_Node_2
:= Task_Scope
;
2493 ("activation of an instance of task type&" &
2494 " requires pragma Elaborate_All on &?", N
, Ent
);
2497 Activate_Elaborate_All_Desirable
(N
, Task_Scope
);
2498 Set_Suppress_Elaboration_Warnings
(Task_Scope
);
2504 -- For tasks declared in the current unit, trace other calls within
2505 -- the task procedure bodies, which are available.
2507 In_Task_Activation
:= True;
2509 Elmt
:= First_Elmt
(Intra_Procs
);
2510 while Present
(Elmt
) loop
2512 Check_Internal_Call_Continue
(N
, Ent
, Enclosing
, Ent
);
2516 In_Task_Activation
:= False;
2517 end Check_Task_Activation
;
2519 --------------------------------
2520 -- Set_Elaboration_Constraint --
2521 --------------------------------
2523 procedure Set_Elaboration_Constraint
2528 Elab_Unit
: Entity_Id
;
2529 Init_Call
: constant Boolean :=
2530 Chars
(Subp
) = Name_Initialize
2531 and then Comes_From_Source
(Subp
)
2532 and then Present
(Parameter_Associations
(Call
))
2533 and then Is_Controlled
(Etype
(First_Actual
(Call
)));
2535 -- If the unit is mentioned in a with_clause of the current unit, it is
2536 -- visible, and we can set the elaboration flag.
2538 if Is_Immediately_Visible
(Scop
)
2539 or else (Is_Child_Unit
(Scop
) and then Is_Visible_Child_Unit
(Scop
))
2541 Activate_Elaborate_All_Desirable
(Call
, Scop
);
2542 Set_Suppress_Elaboration_Warnings
(Scop
, True);
2546 -- If this is not an initialization call or a call using object notation
2547 -- we know that the unit of the called entity is in the context, and
2548 -- we can set the flag as well. The unit need not be visible if the call
2549 -- occurs within an instantiation.
2551 if Is_Init_Proc
(Subp
)
2553 or else Nkind
(Original_Node
(Call
)) = N_Selected_Component
2555 null; -- detailed processing follows.
2558 Activate_Elaborate_All_Desirable
(Call
, Scop
);
2559 Set_Suppress_Elaboration_Warnings
(Scop
, True);
2563 -- If the unit is not in the context, there must be an intermediate unit
2564 -- that is, on which we need to place to elaboration flag. This happens
2565 -- with init proc calls.
2567 if Is_Init_Proc
(Subp
)
2570 -- The initialization call is on an object whose type is not declared
2571 -- in the same scope as the subprogram. The type of the object must
2572 -- be a subtype of the type of operation. This object is the first
2573 -- actual in the call.
2576 Typ
: constant Entity_Id
:=
2577 Etype
(First
(Parameter_Associations
(Call
)));
2579 Elab_Unit
:= Scope
(Typ
);
2580 while (Present
(Elab_Unit
))
2581 and then not Is_Compilation_Unit
(Elab_Unit
)
2583 Elab_Unit
:= Scope
(Elab_Unit
);
2587 -- If original node uses selected component notation, the prefix is
2588 -- visible and determines the scope that must be elaborated. After
2589 -- rewriting, the prefix is the first actual in the call.
2591 elsif Nkind
(Original_Node
(Call
)) = N_Selected_Component
then
2592 Elab_Unit
:= Scope
(Etype
(First
(Parameter_Associations
(Call
))));
2594 -- Not one of special cases above
2597 -- Using previously computed scope. If the elaboration check is
2598 -- done after analysis, the scope is not visible any longer, but
2599 -- must still be in the context.
2604 Activate_Elaborate_All_Desirable
(Call
, Elab_Unit
);
2605 Set_Suppress_Elaboration_Warnings
(Elab_Unit
, True);
2606 end Set_Elaboration_Constraint
;
2608 ----------------------
2609 -- Has_Generic_Body --
2610 ----------------------
2612 function Has_Generic_Body
(N
: Node_Id
) return Boolean is
2613 Ent
: constant Entity_Id
:= Get_Generic_Entity
(N
);
2614 Decl
: constant Node_Id
:= Unit_Declaration_Node
(Ent
);
2617 function Find_Body_In
(E
: Entity_Id
; N
: Node_Id
) return Node_Id
;
2618 -- Determine if the list of nodes headed by N and linked by Next
2619 -- contains a package body for the package spec entity E, and if so
2620 -- return the package body. If not, then returns Empty.
2622 function Load_Package_Body
(Nam
: Unit_Name_Type
) return Node_Id
;
2623 -- This procedure is called load the unit whose name is given by Nam.
2624 -- This unit is being loaded to see whether it contains an optional
2625 -- generic body. The returned value is the loaded unit, which is always
2626 -- a package body (only package bodies can contain other entities in the
2627 -- sense in which Has_Generic_Body is interested). We only attempt to
2628 -- load bodies if we are generating code. If we are in semantics check
2629 -- only mode, then it would be wrong to load bodies that are not
2630 -- required from a semantic point of view, so in this case we return
2631 -- Empty. The result is that the caller may incorrectly decide that a
2632 -- generic spec does not have a body when in fact it does, but the only
2633 -- harm in this is that some warnings on elaboration problems may be
2634 -- lost in semantic checks only mode, which is not big loss. We also
2635 -- return Empty if we go for a body and it is not there.
2637 function Locate_Corresponding_Body
(PE
: Entity_Id
) return Node_Id
;
2638 -- PE is the entity for a package spec. This function locates the
2639 -- corresponding package body, returning Empty if none is found. The
2640 -- package body returned is fully parsed but may not yet be analyzed,
2641 -- so only syntactic fields should be referenced.
2647 function Find_Body_In
(E
: Entity_Id
; N
: Node_Id
) return Node_Id
is
2652 while Present
(Nod
) loop
2654 -- If we found the package body we are looking for, return it
2656 if Nkind
(Nod
) = N_Package_Body
2657 and then Chars
(Defining_Unit_Name
(Nod
)) = Chars
(E
)
2661 -- If we found the stub for the body, go after the subunit,
2662 -- loading it if necessary.
2664 elsif Nkind
(Nod
) = N_Package_Body_Stub
2665 and then Chars
(Defining_Identifier
(Nod
)) = Chars
(E
)
2667 if Present
(Library_Unit
(Nod
)) then
2668 return Unit
(Library_Unit
(Nod
));
2671 return Load_Package_Body
(Get_Unit_Name
(Nod
));
2674 -- If neither package body nor stub, keep looking on chain
2684 -----------------------
2685 -- Load_Package_Body --
2686 -----------------------
2688 function Load_Package_Body
(Nam
: Unit_Name_Type
) return Node_Id
is
2689 U
: Unit_Number_Type
;
2692 if Operating_Mode
/= Generate_Code
then
2705 return Unit
(Cunit
(U
));
2708 end Load_Package_Body
;
2710 -------------------------------
2711 -- Locate_Corresponding_Body --
2712 -------------------------------
2714 function Locate_Corresponding_Body
(PE
: Entity_Id
) return Node_Id
is
2715 Spec
: constant Node_Id
:= Declaration_Node
(PE
);
2716 Decl
: constant Node_Id
:= Parent
(Spec
);
2717 Scop
: constant Entity_Id
:= Scope
(PE
);
2721 if Is_Library_Level_Entity
(PE
) then
2723 -- If package is a library unit that requires a body, we have no
2724 -- choice but to go after that body because it might contain an
2725 -- optional body for the original generic package.
2727 if Unit_Requires_Body
(PE
) then
2729 -- Load the body. Note that we are a little careful here to use
2730 -- Spec to get the unit number, rather than PE or Decl, since
2731 -- in the case where the package is itself a library level
2732 -- instantiation, Spec will properly reference the generic
2733 -- template, which is what we really want.
2737 (Get_Body_Name
(Unit_Name
(Get_Source_Unit
(Spec
))));
2739 -- But if the package is a library unit that does NOT require
2740 -- a body, then no body is permitted, so we are sure that there
2741 -- is no body for the original generic package.
2747 -- Otherwise look and see if we are embedded in a further package
2749 elsif Is_Package_Or_Generic_Package
(Scop
) then
2751 -- If so, get the body of the enclosing package, and look in
2752 -- its package body for the package body we are looking for.
2754 PBody
:= Locate_Corresponding_Body
(Scop
);
2759 return Find_Body_In
(PE
, First
(Declarations
(PBody
)));
2762 -- If we are not embedded in a further package, then the body
2763 -- must be in the same declarative part as we are.
2766 return Find_Body_In
(PE
, Next
(Decl
));
2768 end Locate_Corresponding_Body
;
2770 -- Start of processing for Has_Generic_Body
2773 if Present
(Corresponding_Body
(Decl
)) then
2776 elsif Unit_Requires_Body
(Ent
) then
2779 -- Compilation units cannot have optional bodies
2781 elsif Is_Compilation_Unit
(Ent
) then
2784 -- Otherwise look at what scope we are in
2787 Scop
:= Scope
(Ent
);
2789 -- Case of entity is in other than a package spec, in this case
2790 -- the body, if present, must be in the same declarative part.
2792 if not Is_Package_Or_Generic_Package
(Scop
) then
2797 -- Declaration node may get us a spec, so if so, go to
2798 -- the parent declaration.
2800 P
:= Declaration_Node
(Ent
);
2801 while not Is_List_Member
(P
) loop
2805 return Present
(Find_Body_In
(Ent
, Next
(P
)));
2808 -- If the entity is in a package spec, then we have to locate
2809 -- the corresponding package body, and look there.
2813 PBody
: constant Node_Id
:= Locate_Corresponding_Body
(Scop
);
2821 (Find_Body_In
(Ent
, (First
(Declarations
(PBody
)))));
2826 end Has_Generic_Body
;
2828 -----------------------
2829 -- Insert_Elab_Check --
2830 -----------------------
2832 procedure Insert_Elab_Check
(N
: Node_Id
; C
: Node_Id
:= Empty
) is
2834 Loc
: constant Source_Ptr
:= Sloc
(N
);
2837 -- If expansion is disabled, do not generate any checks. Also
2838 -- skip checks if any subunits are missing because in either
2839 -- case we lack the full information that we need, and no object
2840 -- file will be created in any case.
2842 if not Expander_Active
or else Subunits_Missing
then
2846 -- If we have a generic instantiation, where Instance_Spec is set,
2847 -- then this field points to a generic instance spec that has
2848 -- been inserted before the instantiation node itself, so that
2849 -- is where we want to insert a check.
2851 if Nkind
(N
) in N_Generic_Instantiation
2852 and then Present
(Instance_Spec
(N
))
2854 Nod
:= Instance_Spec
(N
);
2859 -- If we are inserting at the top level, insert in Aux_Decls
2861 if Nkind
(Parent
(Nod
)) = N_Compilation_Unit
then
2863 ADN
: constant Node_Id
:= Aux_Decls_Node
(Parent
(Nod
));
2869 Make_Raise_Program_Error
(Loc
,
2870 Reason
=> PE_Access_Before_Elaboration
);
2873 Make_Raise_Program_Error
(Loc
,
2874 Condition
=> Make_Op_Not
(Loc
, C
),
2875 Reason
=> PE_Access_Before_Elaboration
);
2878 if No
(Declarations
(ADN
)) then
2879 Set_Declarations
(ADN
, New_List
(R
));
2881 Append_To
(Declarations
(ADN
), R
);
2887 -- Otherwise just insert before the node in question. However, if
2888 -- the context of the call has already been analyzed, an insertion
2889 -- will not work if it depends on subsequent expansion (e.g. a call in
2890 -- a branch of a short-circuit). In that case we replace the call with
2891 -- a conditional expression, or with a Raise if it is unconditional.
2892 -- Unfortunately this does not work if the call has a dynamic size,
2893 -- because gigi regards it as a dynamic-sized temporary. If such a call
2894 -- appears in a short-circuit expression, the elaboration check will be
2895 -- missed (rare enough ???). Otherwise, the code below inserts the check
2896 -- at the appropriate place before the call. Same applies in the even
2897 -- rarer case the return type has a known size but is unconstrained.
2900 if Nkind
(N
) = N_Function_Call
2901 and then Analyzed
(Parent
(N
))
2902 and then Size_Known_At_Compile_Time
(Etype
(N
))
2904 (not Has_Discriminants
(Etype
(N
))
2905 or else Is_Constrained
(Etype
(N
)))
2909 Typ
: constant Entity_Id
:= Etype
(N
);
2910 Chk
: constant Boolean := Do_Range_Check
(N
);
2912 R
: constant Node_Id
:=
2913 Make_Raise_Program_Error
(Loc
,
2914 Reason
=> PE_Access_Before_Elaboration
);
2925 Reloc_N
:= Relocate_Node
(N
);
2926 Save_Interps
(N
, Reloc_N
);
2928 Make_Conditional_Expression
(Loc
,
2929 Expressions
=> New_List
(C
, Reloc_N
, R
)));
2932 Analyze_And_Resolve
(N
, Typ
);
2934 -- If the original call requires a range check, so does the
2935 -- conditional expression.
2938 Enable_Range_Check
(N
);
2940 Set_Do_Range_Check
(N
, False);
2947 Make_Raise_Program_Error
(Loc
,
2948 Reason
=> PE_Access_Before_Elaboration
));
2951 Make_Raise_Program_Error
(Loc
,
2955 Reason
=> PE_Access_Before_Elaboration
));
2959 end Insert_Elab_Check
;
2961 -------------------------------
2962 -- Is_Finalization_Procedure --
2963 -------------------------------
2965 function Is_Finalization_Procedure
(Id
: Entity_Id
) return Boolean is
2967 -- Check whether Id is a procedure with at least one parameter
2969 if Ekind
(Id
) = E_Procedure
2970 and then Present
(First_Formal
(Id
))
2973 Typ
: constant Entity_Id
:= Etype
(First_Formal
(Id
));
2974 Deep_Fin
: Entity_Id
:= Empty
;
2975 Fin
: Entity_Id
:= Empty
;
2978 -- If the type of the first formal does not require finalization
2979 -- actions, then this is definitely not [Deep_]Finalize.
2981 if not Needs_Finalization
(Typ
) then
2985 -- At this point we have the following scenario:
2987 -- procedure Name (Param1 : [in] [out] Ctrl[; Param2 : ...]);
2989 -- Recover the two possible versions of [Deep_]Finalize using the
2990 -- type of the first parameter and compare with the input.
2992 Deep_Fin
:= TSS
(Typ
, TSS_Deep_Finalize
);
2994 if Is_Controlled
(Typ
) then
2995 Fin
:= Find_Prim_Op
(Typ
, Name_Finalize
);
2999 (Present
(Deep_Fin
) and then Id
= Deep_Fin
)
3001 (Present
(Fin
) and then Id
= Fin
);
3006 end Is_Finalization_Procedure
;
3012 procedure Output_Calls
(N
: Node_Id
) is
3015 function Is_Printable_Error_Name
(Nm
: Name_Id
) return Boolean;
3016 -- An internal function, used to determine if a name, Nm, is either
3017 -- a non-internal name, or is an internal name that is printable
3018 -- by the error message circuits (i.e. it has a single upper
3019 -- case letter at the end).
3021 function Is_Printable_Error_Name
(Nm
: Name_Id
) return Boolean is
3023 if not Is_Internal_Name
(Nm
) then
3026 elsif Name_Len
= 1 then
3030 Name_Len
:= Name_Len
- 1;
3031 return not Is_Internal_Name
;
3033 end Is_Printable_Error_Name
;
3035 -- Start of processing for Output_Calls
3038 for J
in reverse 1 .. Elab_Call
.Last
loop
3039 Error_Msg_Sloc
:= Elab_Call
.Table
(J
).Cloc
;
3041 Ent
:= Elab_Call
.Table
(J
).Ent
;
3043 if Is_Generic_Unit
(Ent
) then
3044 Error_Msg_NE
("\?& instantiated #", N
, Ent
);
3046 elsif Is_Init_Proc
(Ent
) then
3047 Error_Msg_N
("\?initialization procedure called #", N
);
3049 elsif Is_Printable_Error_Name
(Chars
(Ent
)) then
3050 Error_Msg_NE
("\?& called #", N
, Ent
);
3053 Error_Msg_N
("\? called #", N
);
3058 ----------------------------
3059 -- Same_Elaboration_Scope --
3060 ----------------------------
3062 function Same_Elaboration_Scope
(Scop1
, Scop2
: Entity_Id
) return Boolean is
3067 -- Find elaboration scope for Scop1
3068 -- This is either a subprogram or a compilation unit.
3071 while S1
/= Standard_Standard
3072 and then not Is_Compilation_Unit
(S1
)
3073 and then (Ekind
(S1
) = E_Package
3075 Ekind
(S1
) = E_Protected_Type
3077 Ekind
(S1
) = E_Block
)
3082 -- Find elaboration scope for Scop2
3085 while S2
/= Standard_Standard
3086 and then not Is_Compilation_Unit
(S2
)
3087 and then (Ekind
(S2
) = E_Package
3089 Ekind
(S2
) = E_Protected_Type
3091 Ekind
(S2
) = E_Block
)
3097 end Same_Elaboration_Scope
;
3103 procedure Set_C_Scope
is
3105 while not Is_Compilation_Unit
(C_Scope
) loop
3106 C_Scope
:= Scope
(C_Scope
);
3114 function Spec_Entity
(E
: Entity_Id
) return Entity_Id
is
3118 -- Check for case of body entity
3119 -- Why is the check for E_Void needed???
3121 if Ekind_In
(E
, E_Void
, E_Subprogram_Body
, E_Package_Body
) then
3125 Decl
:= Parent
(Decl
);
3126 exit when Nkind
(Decl
) in N_Proper_Body
;
3129 return Corresponding_Spec
(Decl
);
3140 procedure Supply_Bodies
(N
: Node_Id
) is
3142 if Nkind
(N
) = N_Subprogram_Declaration
then
3144 Ent
: constant Entity_Id
:= Defining_Unit_Name
(Specification
(N
));
3147 -- Internal subprograms will already have a generated body, so
3148 -- there is no need to provide a stub for them.
3150 if No
(Corresponding_Body
(N
)) then
3152 Loc
: constant Source_Ptr
:= Sloc
(N
);
3154 Formals
: constant List_Id
:= Copy_Parameter_List
(Ent
);
3155 Nam
: constant Entity_Id
:=
3156 Make_Defining_Identifier
(Loc
, Chars
(Ent
));
3158 Stats
: constant List_Id
:=
3160 (Make_Raise_Program_Error
(Loc
,
3161 Reason
=> PE_Access_Before_Elaboration
));
3164 if Ekind
(Ent
) = E_Function
then
3166 Make_Function_Specification
(Loc
,
3167 Defining_Unit_Name
=> Nam
,
3168 Parameter_Specifications
=> Formals
,
3169 Result_Definition
=>
3171 (Result_Definition
(Specification
(N
))));
3173 -- We cannot reliably make a return statement for this
3174 -- body, but none is needed because the call raises
3177 Set_Return_Present
(Ent
);
3181 Make_Procedure_Specification
(Loc
,
3182 Defining_Unit_Name
=> Nam
,
3183 Parameter_Specifications
=> Formals
);
3186 B
:= Make_Subprogram_Body
(Loc
,
3187 Specification
=> Spec
,
3188 Declarations
=> New_List
,
3189 Handled_Statement_Sequence
=>
3190 Make_Handled_Sequence_Of_Statements
(Loc
, Stats
));
3191 Insert_After
(N
, B
);
3197 elsif Nkind
(N
) = N_Package_Declaration
then
3199 Spec
: constant Node_Id
:= Specification
(N
);
3201 Push_Scope
(Defining_Unit_Name
(Spec
));
3202 Supply_Bodies
(Visible_Declarations
(Spec
));
3203 Supply_Bodies
(Private_Declarations
(Spec
));
3209 procedure Supply_Bodies
(L
: List_Id
) is
3214 while Present
(Elmt
) loop
3215 Supply_Bodies
(Elmt
);
3225 function Within
(E1
, E2
: Entity_Id
) return Boolean is
3232 elsif Scop
= Standard_Standard
then
3235 Scop
:= Scope
(Scop
);
3240 --------------------------
3241 -- Within_Elaborate_All --
3242 --------------------------
3244 function Within_Elaborate_All
(E
: Entity_Id
) return Boolean is
3247 Elab_Id
: Entity_Id
;
3251 Item
:= First
(Context_Items
(Cunit
(Current_Sem_Unit
)));
3252 while Present
(Item
) loop
3253 if Nkind
(Item
) = N_Pragma
3254 and then Pragma_Name
(Item
) = Name_Elaborate_All
3256 -- Return if some previous error on the pragma itself
3258 if Error_Posted
(Item
) then
3264 (Expression
(First
(Pragma_Argument_Associations
(Item
))));
3266 Par
:= Parent
(Unit_Declaration_Node
(Elab_Id
));
3268 Item2
:= First
(Context_Items
(Par
));
3269 while Present
(Item2
) loop
3270 if Nkind
(Item2
) = N_With_Clause
3271 and then Entity
(Name
(Item2
)) = E
3284 end Within_Elaborate_All
;