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1 ------------------------------------------------------------------------------
2 -- --
3 -- GNAT COMPILER COMPONENTS --
4 -- --
5 -- E X P _ C H 2 --
6 -- --
7 -- B o d y --
8 -- --
9 -- Copyright (C) 1992-2013, 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 ------------------------------------------------------------------------------
50 -----------------------
51 -- Local Subprograms --
52 -----------------------
55 -- N is a node for a variable whose Current_Value field is set. If N is
56 -- node is for a discrete type, replaces node with a copy of the referenced
57 -- value. This provides a limited form of value propagation for variables
58 -- which are initialized or assigned not been further modified at the time
59 -- of reference. The call has no effect if the Current_Value refers to a
60 -- conditional with condition other than equality.
63 -- An occurrence of a discriminant within a discriminated type is replaced
64 -- with the corresponding discriminal, that is to say the formal parameter
65 -- of the initialization procedure for the type that is associated with
66 -- that particular discriminant. This replacement is not performed for
67 -- discriminants of records that appear in constraints of component of the
68 -- record, because Gigi uses the discriminant name to retrieve its value.
69 -- In the other hand, it has to be performed for default expressions of
70 -- components because they are used in the record init procedure. See Einfo
71 -- for more details, and Exp_Ch3, Exp_Ch9 for examples of use. For
72 -- discriminants of tasks and protected types, the transformation is more
73 -- complex when it occurs within a default expression for an entry or
74 -- protected operation. The corresponding default_expression_function has
75 -- an additional parameter which is the target of an entry call, and the
76 -- discriminant of the task must be replaced with a reference to the
77 -- discriminant of that formal parameter.
80 -- Common processing for expansion of identifiers and expanded names
81 -- Dispatches to specific expansion procedures.
84 -- A reference to the identifier in the entry index specification of an
85 -- entry body is modified to a reference to a constant definition equal to
86 -- the index of the entry family member being called. This constant is
87 -- calculated as part of the elaboration of the expanded code for the body,
88 -- and is calculated from the object-wide entry index returned by Next_
89 -- Entry_Call.
92 -- A reference to an entry parameter is modified to be a reference to the
93 -- corresponding component of the entry parameter record that is passed by
94 -- the runtime to the accept body procedure.
97 -- A reference to a formal parameter of a protected subprogram is expanded
98 -- into the corresponding formal of the unprotected procedure used to
99 -- represent the operation within the protected object. In other cases
100 -- Expand_Formal is a no-op.
103 -- A reference to a private component of a protected type is expanded into
104 -- a reference to the corresponding prival in the current protected entry
105 -- or subprogram.
108 -- For renamings, just replace the identifier by the corresponding
109 -- named expression. Note that this has been evaluated (see routine
110 -- Exp_Ch8.Expand_N_Object_Renaming.Evaluate_Name) so this gives
111 -- the correct renaming semantics.
113 --------------------------
114 -- Expand_Current_Value --
115 --------------------------
125 -- Start of processing for Expand_Current_Value
127 begin
130 -- No replacement if value raises constraint error
134 -- Do this only for discrete types
138 -- Do not replace biased types, since it is problematic to
139 -- consistently generate a sensible constant value in this case.
143 -- Do not replace lvalues
147 -- Check that entity is suitable for replacement
151 -- Do not replace occurrences in pragmas (where names typically
152 -- appear not as values, but as simply names. If there are cases
153 -- where values are required, it is only a very minor efficiency
154 -- issue that they do not get replaced when they could be).
158 -- Do not replace the prefixes of attribute references, since this
159 -- causes trouble with cases like 4'Size. Also for Name_Asm_Input and
160 -- Name_Asm_Output, don't do replacement anywhere, since we can have
161 -- lvalue references in the arguments.
164 and then
166 Name_Asm_Input,
167 Name_Asm_Output)
170 then
171 -- Case of Current_Value is a compile time known value
176 -- Case of Current_Value is an if expression reference
178 else
186 -- If constant value is an occurrence of an enumeration literal,
187 -- then we just make another occurrence of the same literal.
191 then
196 -- If constant is of an integer type, just make an appropriately
197 -- integer literal, which will get the proper type.
204 -- Otherwise do unchecked conversion of value to right type
206 else
218 -------------------------
219 -- Expand_Discriminant --
220 -------------------------
228 begin
229 -- The Incomplete_Or_Private_Kind happens while resolving the
230 -- discriminant constraint involved in a derived full type,
231 -- such as:
233 -- type D is private;
234 -- type D(C : ...) is new T(C);
238 then
239 -- Find the origin by walking up the tree till the component
240 -- declaration
244 loop
249 -- If the discriminant reference was part of the default expression
250 -- it has to be "discriminalized"
259 loop
269 -- If the discriminant occurs within the default expression for a
270 -- formal of an entry or protected operation, replace it with a
271 -- reference to the discriminant of the formal of the enclosing
272 -- operation.
276 then
277 declare
284 begin
285 -- Verify that we are within the body of an entry or protected
286 -- operation. Its first formal parameter is the synchronized
287 -- type itself.
291 then
294 New_N :=
302 else
308 and then In_Entry
309 then
312 -- Finally, if the entity is the discriminant of the original
313 -- type declaration, and we are within the initialization
314 -- procedure for a task, the designated entity is the
315 -- discriminal of the task body. This can happen when the
316 -- argument of pragma Task_Name mentions a discriminant,
317 -- because the pragma is analyzed in the task declaration
318 -- but is expanded in the call to Create_Task in the init_proc.
322 else
326 else
331 -----------------------------
332 -- Expand_Entity_Reference --
333 -----------------------------
338 begin
339 -- Defend against errors
342 Check_Error_Detected;
355 else
370 then
374 -- Test code for implementing the pragma Reviewable requirement of
375 -- classifying reads of scalars as referencing potentially uninitialized
376 -- objects or not.
378 if Debug_Flag_XX
386 then
396 Write_Eol;
399 -- Set Atomic_Sync_Required if necessary for atomic variable
404 then
405 declare
408 begin
409 -- If variable is atomic, but type is not, setting depends on
410 -- disable/enable state for the variable.
415 -- If variable is not atomic, but its type is atomic, setting
416 -- depends on disable/enable state for the type.
421 -- Else both variable and type are atomic (see outer if), and we
422 -- disable if either variable or its type have sync disabled.
424 else
426 and then
430 -- Set flag if required
438 -- Interpret possible Current_Value for variable case
442 then
445 -- We do want to warn for the case of a boolean variable (not a
446 -- boolean constant) whose value is known at compile time.
452 -- Don't mess with Current_Value for compile time known values. Not
453 -- only is it unnecessary, but we could disturb an indication of a
454 -- static value, which could cause semantic trouble.
459 -- Interpret possible Current_Value for constant case
463 then
468 ----------------------------------
469 -- Expand_Entry_Index_Parameter --
470 ----------------------------------
474 begin
479 ----------------------------
480 -- Expand_Entry_Parameter --
481 ----------------------------
493 -- Check whether this is a context in which the entry formal may be
494 -- assigned to.
496 ---------------------------
497 -- In_Assignment_Context --
498 ---------------------------
501 begin
502 -- Case of use in a call
504 -- ??? passing a formal as actual for a mode IN formal is
505 -- considered as an assignment?
508 N_Entry_Call_Statement)
511 then
514 -- Case of a parameter association: climb up to enclosing call
519 -- Case of a selected component, indexed component or slice prefix:
520 -- climb up the tree, unless the prefix is of an access type (in
521 -- which case there is an implicit dereference, and the formal itself
522 -- is not being assigned to).
525 N_Indexed_Component,
526 N_Slice)
530 then
533 else
538 -- Start of processing for Expand_Entry_Parameter
540 begin
543 then
544 -- Before replacing the formal with the local renaming that is used
545 -- in the accept block, note if this is an assignment context, and
546 -- note the modification to avoid spurious warnings, because the
547 -- original entity is not used further. If formal is unconstrained,
548 -- we also generate an extra parameter to hold the Constrained
549 -- attribute of the actual. No renaming is generated for this flag.
551 -- Calling Note_Possible_Modification in the expander is dubious,
552 -- because this generates a cross-reference entry, and should be
553 -- done during semantic processing so it is called in -gnatc mode???
557 then
562 -- What we need is a reference to the corresponding component of the
563 -- parameter record object. The Accept_Address field of the entry entity
564 -- references the address variable that contains the address of the
565 -- accept parameters record. We first have to do an unchecked conversion
566 -- to turn this into a pointer to the parameter record and then we
567 -- select the required parameter field.
569 -- The same processing applies to protected entries, where the Accept_
570 -- Address is also the address of the Parameters record.
572 P_Comp_Ref :=
574 Prefix =>
578 Selector_Name =>
581 -- For all types of parameters, the constructed parameter record object
582 -- contains a pointer to the parameter. Thus we must dereference them to
583 -- access them (this will often be redundant, since the dereference is
584 -- implicit, but no harm is done by making it explicit).
592 -------------------
593 -- Expand_Formal --
594 -------------------
600 begin
601 -- Check whether the subprogram of which this is a formal is
602 -- a protected operation. The initialization procedure for
603 -- the corresponding record type is not itself a protected operation.
608 then
613 ----------------------------
614 -- Expand_N_Expanded_Name --
615 ----------------------------
618 begin
622 -------------------------
623 -- Expand_N_Identifier --
624 -------------------------
627 begin
631 ---------------------------
632 -- Expand_N_Real_Literal --
633 ---------------------------
638 begin
639 -- Historically, this routine existed because there were expansion
640 -- requirements for Vax real literals, but now Vax real literals
641 -- are now handled by gigi, so this routine no longer does anything.
646 --------------------------------
647 -- Expand_Protected_Component --
648 --------------------------------
653 -- Determine whether the current entity is inside a subprogram or an
654 -- entry which has been marked as eliminated.
656 ----------------------------
657 -- Inside_Eliminated_Body --
658 ----------------------------
663 begin
670 then
680 -- Start of processing for Expand_Protected_Component
682 begin
683 -- Eliminated bodies are not expanded and thus do not need privals
686 declare
688 begin
695 ---------------------
696 -- Expand_Renaming --
697 ---------------------
703 begin
706 -- We mark the copy as unanalyzed, so that it is sure to be reanalyzed
707 -- at the top level. This is needed in the packed case since we
708 -- specifically avoided expanding packed array references when the
709 -- renaming declaration was analyzed.
715 ------------------
716 -- Param_Entity --
717 ------------------
719 -- This would be trivial, simply a test for an identifier that was a
720 -- reference to a formal, if it were not for the fact that a previous call
721 -- to Expand_Entry_Parameter will have modified the reference to the
722 -- identifier. A formal of a protected entity is rewritten as
724 -- typ!(recobj).rec.all'Constrained
726 -- where rec is a selector whose Entry_Formal link points to the formal
728 -- If the type of the entry parameter has a representation clause, then an
729 -- extra temp is involved (see below).
731 -- For a formal of a task entity, the formal is rewritten as a local
732 -- renaming.
734 -- In addition, a formal that is marked volatile because it is aliased
735 -- through an address clause is rewritten as dereference as well.
740 begin
741 -- Simple reference case
747 -- Handle renamings of formal parameters and formals of tasks that
748 -- are rewritten as renamings.
755 then
758 elsif
760 then
765 else
767 declare
773 begin
774 -- If the type of an entry parameter has a representation
775 -- clause, then the prefix is not a selected component, but
776 -- instead a reference to a temp pointing at the selected
777 -- component. In this case, set P to be the initial value of
778 -- that temp.