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1 ------------------------------------------------------------------------------
2 -- --
3 -- GNAT COMPILER COMPONENTS --
4 -- --
5 -- S E M _ C H 5 --
6 -- --
7 -- B o d y --
8 -- --
9 -- Copyright (C) 1992-2002 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 2, 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 COPYING. If not, write --
19 -- to the Free Software Foundation, 59 Temple Place - Suite 330, Boston, --
20 -- MA 02111-1307, USA. --
21 -- --
22 -- GNAT was originally developed by the GNAT team at New York University. --
23 -- Extensive contributions were provided by Ada Core Technologies Inc. --
24 -- --
25 ------------------------------------------------------------------------------
55 -- This variable is used when processing if statements or case
56 -- statements, it counts the number of branches of the conditional
57 -- that are not blocked by unconditional transfer instructions. At
58 -- the end of processing, if the count is zero, it means that control
59 -- cannot fall through the conditional statement. This is used for
60 -- the generation of warning messages. This variable is recursively
61 -- saved on entry to processing an if or case, and restored on exit.
63 -----------------------
64 -- Local Subprograms --
65 -----------------------
69 ------------------------
70 -- Analyze_Assignment --
71 ------------------------
80 -- N is the node for the left hand side of an assignment, and it
81 -- is not a variable. This routine issues an appropriate diagnostic.
83 procedure Set_Assignment_Type
86 -- Opnd is either the Lhs or Rhs of the assignment, and Opnd_Type
87 -- is the nominal subtype. This procedure is used to deal with cases
88 -- where the nominal subtype must be replaced by the actual subtype.
90 -------------------------------
91 -- Diagnose_Non_Variable_Lhs --
92 -------------------------------
95 begin
96 -- Not worth posting another error if left hand side already
97 -- flagged as being illegal in some respect
102 -- Some special bad cases of entity names
107 Error_Msg_N
111 -- Private declarations in a protected object are turned into
112 -- constants when compiling a protected function.
116 and then
118 or else
120 then
121 Error_Msg_N
126 Error_Msg_N
132 -- For indexed components, or selected components, test prefix
136 then
141 -- If we fall through, we have no special message to issue!
147 -------------------------
148 -- Set_Assignment_Type --
149 -------------------------
151 procedure Set_Assignment_Type
154 is
155 begin
156 -- If the assignment operand is an in-out or out parameter, then we
157 -- get the actual subtype (needed for the unconstrained case).
162 E_In_Out_Parameter
164 E_Generic_In_Out_Parameter)
165 then
168 -- If assignment operand is a component reference, then we get the
169 -- actual subtype of the component for the unconstrained case.
173 then
188 -- For slice, use the constrained subtype created for the slice
195 -- Start of processing for Analyze_Assignment
197 begin
202 -- In the most general case, both Lhs and Rhs can be overloaded, and we
203 -- must compute the intersection of the possible types on each side.
206 declare
210 begin
219 -- An explicit dereference is overloaded if the prefix
220 -- is. Try to remove the ambiguity on the prefix, the
221 -- error will be posted there if the ambiguity is real.
224 declare
230 begin
237 then
239 PIt :=
245 else
250 else
260 else
261 Error_Msg_N
265 else
275 Error_Msg_N
290 then
291 Error_Msg_N
296 -- Resolution may have updated the subtype, in case the left-hand
297 -- side is a private protected component. Use the correct subtype
298 -- to avoid scoping issues in the back-end.
305 -- Remaining steps are skipped if Rhs was synatactically in error
317 else
330 then
337 then
341 -- Tag propagation is done only in semantics mode only. If expansion
342 -- is on, the rhs tag indeterminate function call has been expanded
343 -- and tag propagation would have happened too late, so the
344 -- propagation take place in expand_call instead.
346 if not Expander_Active
349 then
358 -- Assignment verifies that the length of the Lsh and Rhs are equal,
359 -- but of course the indices do not have to match.
363 else
364 -- Discriminant checks are applied in the course of expansion.
368 -- ??? a real accessibility check is needed when ???
370 -- Post warning for useless assignment
372 if Warn_On_Redundant_Constructs
374 -- We only warn for source constructs
378 -- Where the entity is the same on both sides
384 -- But exclude the case where the right side was an operation
385 -- that got rewritten (e.g. JUNK + K, where K was known to be
386 -- zero). We don't want to warn in such a case, since it is
387 -- reasonable to write such expressions especially when K is
388 -- defined symbolically in some other package.
391 then
392 Error_Msg_NE
397 -----------------------------
398 -- Analyze_Block_Statement --
399 -----------------------------
406 begin
407 -- If a label is present analyze it and mark it as referenced
420 -- Otherwise create a label entity
422 else
433 Check_Completion;
439 -- Analyze exception handlers if present. Note that the test for
440 -- HSS being present is an error defence against previous errors.
444 then
445 declare
448 begin
449 -- Indicate that enclosing scopes contain a block with handlers.
450 -- Only non-generic scopes need to be marked.
452 loop
465 End_Scope;
468 ----------------------------
469 -- Analyze_Case_Statement --
470 ----------------------------
475 -- Set True if at least some statement sequences get analyzed.
476 -- If False on exit, means we had a serious error that prevented
477 -- full analysis of the case statement, and as a result it is not
478 -- a good idea to output warning messages about unreachable code.
481 -- Recursively save value of this global, will be restored on exit
484 -- Error routine invoked by the generic instantiation below when
485 -- the case statement has a non static choice.
488 -- Analyzes all the statements associated to a case alternative.
489 -- Needed by the generic instantiation below.
492 Generic_Choices_Processing
499 -- Instantiation of the generic choice processing package.
501 -----------------------------
502 -- Non_Static_Choice_Error --
503 -----------------------------
506 begin
510 ------------------------
511 -- Process_Statements --
512 ------------------------
515 begin
521 -- Variables local to Analyze_Case_Statement.
532 -- Start of processing for Analyze_Case_Statement
534 begin
542 -- The expression must be of a discrete type which must be determinable
543 -- independently of the context in which the expression occurs, but
544 -- using the fact that the expression must be of a discrete type.
545 -- Moreover, the type this expression must not be a character literal
546 -- (which is always ambiguous) or, for Ada-83, a generic formal type.
548 -- If error already reported by Resolve, nothing more to do
552 then
556 Error_Msg_N
560 elsif Ada_83
563 then
564 Error_Msg_N
569 -- If the case expression is a formal object of mode in out,
570 -- then treat it as having a nonstatic subtype by forcing
571 -- use of the base type (which has to get passed to
572 -- Check_Case_Choices below). Also use base type when
573 -- the case expression is parenthesized.
578 then
582 -- Call the instantiated Analyze_Choices which does the rest of the work
584 Analyze_Choices
591 -- If all our exits were blocked by unconditional transfers of control,
592 -- then the entire CASE statement acts as an unconditional transfer of
593 -- control, so treat it like one, and check unreachable code. Skip this
594 -- test if we had serious errors preventing any statement analysis.
599 else
604 ----------------------------
605 -- Analyze_Exit_Statement --
606 ----------------------------
608 -- If the exit includes a name, it must be the name of a currently open
609 -- loop. Otherwise there must be an innermost open loop on the stack,
610 -- to which the statement implicitly refers.
619 begin
631 else
635 else
651 else
652 Error_Msg_N
658 -- Verify that if present the condition is a Boolean expression.
666 ----------------------------
667 -- Analyze_Goto_Statement --
668 ----------------------------
675 begin
700 then
702 Error_Msg_N
714 --------------------------
715 -- Analyze_If_Statement --
716 --------------------------
718 -- A special complication arises in the analysis of if statements.
719 -- The expander has circuitry to completely deleted code that it
720 -- can tell will not be executed (as a result of compile time known
721 -- conditions). In the analyzer, we ensure that code that will be
722 -- deleted in this manner is analyzed but not expanded. This is
723 -- obviously more efficient, but more significantly, difficulties
724 -- arise if code is expanded and then eliminated (e.g. exception
725 -- table entries disappear).
731 -- Recursively save value of this global, will be restored on exit
734 -- This flag gets set True if a True condition has been found,
735 -- which means that remaining ELSE/ELSIF parts are deleted.
738 -- This is applied to either the N_If_Statement node itself or
739 -- to an N_Elsif_Part node. It deals with analyzing the condition
740 -- and the THEN statements associated with it.
746 begin
751 -- If already deleting, then just analyze then statements
756 -- Compile time known value, not deleting yet
760 -- If condition is True, then analyze the THEN statements
761 -- and set no expansion for ELSE and ELSIF parts.
768 -- If condition is False, analyze THEN with expansion off
773 Expander_Mode_Restore;
776 -- Not known at compile time, not deleting, normal analysis
778 else
783 -- Start of Analyze_If_Statement
785 begin
786 -- Initialize exit count for else statements. If there is no else
787 -- part, this count will stay non-zero reflecting the fact that the
788 -- uncovered else case is an unblocked exit.
793 -- Now to analyze the elsif parts if any are present
807 -- If all our exits were blocked by unconditional transfers of control,
808 -- then the entire IF statement acts as an unconditional transfer of
809 -- control, so treat it like one, and check unreachable code.
814 else
819 Expander_Mode_Restore;
824 ----------------------------------------
825 -- Analyze_Implicit_Label_Declaration --
826 ----------------------------------------
828 -- An implicit label declaration is generated in the innermost
829 -- enclosing declarative part. This is done for labels as well as
830 -- block and loop names.
832 -- Note: any changes in this routine may need to be reflected in
833 -- Analyze_Label_Entity.
838 begin
845 ------------------------------
846 -- Analyze_Iteration_Scheme --
847 ------------------------------
850 begin
851 -- For an infinite loop, there is no iteration scheme
856 else
857 declare
860 begin
861 -- For WHILE loop, verify that the condition is a Boolean
862 -- expression and resolve and check it.
868 -- Else we have a FOR loop
870 else
871 declare
877 begin
880 -- We always consider the loop variable to be referenced,
881 -- since the loop may be used just for counting purposes.
885 -- Check for case of loop variable hiding a local
886 -- variable (used later on to give a nice warning
887 -- if the hidden variable is never assigned).
889 declare
892 begin
898 then
903 -- Now analyze the subtype definition
911 -- The subtype indication may denote the completion
912 -- of an incomplete type declaration.
918 then
934 -- The loop is not a declarative part, so the only entity
935 -- declared "within" must be frozen explicitly. Since the
936 -- type of this entity has already been frozen, this cannot
937 -- generate any freezing actions.
942 -- Check for null or possibly null range and issue warning.
943 -- We suppress such messages in generic templates and
944 -- instances, because in practice they tend to be dubious
945 -- in these cases.
949 and then not Inside_A_Generic
950 and then not In_Instance
951 then
952 declare
963 begin
967 -- If range of loop is null, issue warning
970 Error_Msg_N
972 DS);
974 -- The other case for a warning is a reverse loop
975 -- where the upper bound is the integer literal
976 -- zero or one, and the lower bound can be positive.
981 or else
984 then
997 -------------------
998 -- Analyze_Label --
999 -------------------
1001 -- Important note: normally this routine is called from Analyze_Statements
1002 -- which does a prescan, to make sure that the Reachable flags are set on
1003 -- all labels before encountering a possible goto to one of these labels.
1004 -- If expanded code analyzes labels via the normal Sem path, then it must
1005 -- ensure that Reachable is set early enough to avoid problems in the case
1006 -- of a forward goto.
1011 begin
1015 -- If we found a label mark it as reachable.
1025 -- If we failed to find a label, it means the implicit declaration
1026 -- of the label was hidden. A for-loop parameter can do this to a
1027 -- label with the same name inside the loop, since the implicit label
1028 -- declaration is in the innermost enclosing body or block statement.
1030 else
1032 Error_Msg_N
1038 --------------------------
1039 -- Analyze_Label_Entity --
1040 --------------------------
1043 begin
1050 ----------------------------
1051 -- Analyze_Loop_Statement --
1052 ----------------------------
1058 begin
1061 -- Make name visible, e.g. for use in exit statements. Loop
1062 -- labels are always considered to be referenced.
1069 -- If we found a label, mark its type. If not, ignore it, since it
1070 -- means we have a conflicting declaration, which would already have
1071 -- been diagnosed at declaration time. Set Label_Construct of the
1072 -- implicit label declaration, which is not created by the parser
1073 -- for generic units.
1083 -- Case of no identifier present
1085 else
1095 End_Scope;
1098 ----------------------------
1099 -- Analyze_Null_Statement --
1100 ----------------------------
1102 -- Note: the semantics of the null statement is implemented by a single
1103 -- null statement, too bad everything isn't as simple as this!
1108 begin
1112 ------------------------
1113 -- Analyze_Statements --
1114 ------------------------
1119 begin
1120 -- The labels declared in the statement list are reachable from
1121 -- statements in the list. We do this as a prepass so that any
1122 -- goto statement will be properly flagged if its target is not
1123 -- reachable. This is not required, but is nice behavior!
1135 -- Perform semantic analysis on all statements
1148 -- Make labels unreachable. Visibility is not sufficient, because
1149 -- labels in one if-branch for example are not reachable from the
1150 -- other branch, even though their declarations are in the enclosing
1151 -- declarative part.
1164 ----------------------------
1165 -- Check_Unreachable_Code --
1166 ----------------------------
1172 begin
1175 then
1176 declare
1179 begin
1185 then
1186 -- Special very annoying exception. If we have a return that
1187 -- follows a raise, then we allow it without a warning, since
1188 -- the Ada RM annoyingly requires a useless return here!
1192 then
1193 -- The rather strange shenanigans with the warning message
1194 -- here reflects the fact that Kill_Dead_Code is very good
1195 -- at removing warnings in deleted code, and this is one
1196 -- warning we would prefer NOT to have removed :-)
1200 -- If we have unreachable code, analyze and remove the
1201 -- unreachable code, since it is useless and we don't
1202 -- want to generate junk warnings.
1204 -- We skip this step if we are not in code generation mode.
1205 -- This is the one case where we remove dead code in the
1206 -- semantics as opposed to the expander, and we do not want
1207 -- to remove code if we are not in code generation mode,
1208 -- since this messes up the ASIS trees.
1210 -- Note that one might react by moving the whole circuit to
1211 -- exp_ch5, but then we lose the warning in -gnatc mode.
1214 loop
1223 -- Now issue the warning
1228 -- If the unconditional transfer of control instruction is
1229 -- the last statement of a sequence, then see if our parent
1230 -- is an IF statement, and if so adjust the unblocked exit
1231 -- count of the if statement to reflect the fact that this
1232 -- branch of the if is indeed blocked by a transfer of control.
1234 else
1248 else