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1 ------------------------------------------------------------------------------
2 -- --
3 -- GNAT COMPILER COMPONENTS --
4 -- --
5 -- S E M _ C H 1 1 --
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 ------------------------------------------------------------------------------
53 -----------------------------------
54 -- Analyze_Exception_Declaration --
55 -----------------------------------
60 begin
74 --------------------------------
75 -- Analyze_Exception_Handlers --
76 --------------------------------
85 -- Iterate through the identifiers in each handler to find duplicates
88 -- Returns True if others handler is present
90 -----------------------
91 -- Check_Duplication --
92 -----------------------
99 begin
109 -- Only check against the exception choices which precede
110 -- Id in the handler, since the ones that follow Id have not
111 -- been analyzed yet and will be checked in a subsequent call.
117 and then
120 then
123 Error_Msg_NE
126 else
129 then
130 Error_Msg_N
143 --------------------
144 -- Others_Present --
145 --------------------
150 begin
155 then
165 -- Start of processing for Analyze_Exception_Handlers
167 begin
172 -- Kill current remembered values, since we don't know where we were
173 -- when the exception was raised.
175 Kill_Current_Values;
177 -- Loop through handlers (which can include pragmas)
181 -- If pragma just analyze it
186 -- Otherwise we have a real exception handler
188 else
189 -- Deal with choice parameter. The exception handler is a
190 -- declarative part for the choice parameter, so it constitutes a
191 -- scope for visibility purposes. We create an entity to denote
192 -- the whole exception part, and use it as the scope of all the
193 -- choices, which may even have the same name without conflict.
194 -- This scope plays no other role in expansion or code generation.
207 H_Scope :=
208 New_Internal_Entity
224 -- Indicate that choice has an initial value, since in effect
225 -- this field is assigned an initial value by the exception.
226 -- We also consider that it is modified in the source.
238 then
242 else
245 -- In most cases the choice has already been analyzed in
246 -- Analyze_Handled_Statement_Sequence, in order to expand
247 -- local handlers. This advance analysis does not take into
248 -- account the case in which a choice has the same name as
249 -- the choice parameter of the handler, which may hide an
250 -- outer exception. This pathological case appears in ACATS
251 -- B80001_3.adb, and requires an explicit check to verify
252 -- that the id is not hidden.
256 or else
259 then
262 else
263 -- Emit a warning at the declaration level when a local
264 -- exception is never raised explicitly.
266 if Warn_On_Redundant_Constructs
269 then
270 Error_Msg_NE
279 Error_Msg_N
282 Error_Msg_N
290 -- Check for exception declared within generic formal
291 -- package (which is illegal, see RM 11.2(8))
293 declare
297 begin
305 loop
307 N_Package_Specification
308 and then
311 N_Formal_Package_Declaration
312 then
313 Error_Msg_NE
316 Error_Msg_N
321 -- If the exception is declared in an inner
322 -- instance, nothing else to check.
337 -- Check for redundant handler (has only raise statement) and is
338 -- either an others handler, or is a specific handler when no
339 -- others handler is present.
341 if Warn_On_Redundant_Constructs
347 N_Others_Choice)
348 then
349 Error_Msg_N
351 Handler);
354 -- Now analyze the statements of this handler
358 -- If a choice was present, we created a special scope for it,
359 -- so this is where we pop that special scope to get rid of it.
362 End_Scope;
370 --------------------------------
371 -- Analyze_Handled_Statements --
372 --------------------------------
379 begin
381 Kill_All_Checks;
384 -- We are now going to analyze the statements and then the exception
385 -- handlers. We certainly need to do things in this order to get the
386 -- proper sequential semantics for various warnings.
388 -- However, there is a glitch. When we process raise statements, an
389 -- optimization is to look for local handlers and specialize the code
390 -- in this case.
392 -- In order to detect if a handler is matching, we must have at least
393 -- analyzed the choices in the proper scope so that proper visibility
394 -- analysis is performed. Hence we analyze just the choices first,
395 -- before we analyze the statement sequence.
408 -- Analyze statements in sequence
412 -- If the current scope is a subprogram, then this is the right place to
413 -- check for hanging useless assignments from the statement sequence of
414 -- the subprogram body.
420 -- Deal with handlers or AT END proc
429 ------------------------------
430 -- Analyze_Raise_Expression --
431 ------------------------------
437 begin
444 -- Check exception restrictions on the original source
458 then
459 Error_Msg_N
461 else
465 -- Deal with RAISE WITH case
471 -- Check obsolescent use of Numeric_Error
477 -- Kill last assignment indication
481 -- Raise_Type is compatible with all other types so that the raise
482 -- expression is legal in any expression context. It will be eventually
483 -- replaced by the concrete type imposed by the context.
488 -----------------------------
489 -- Analyze_Raise_Statement --
490 -----------------------------
498 begin
505 -- Check exception restrictions on the original source
511 -- Check for useless assignment to OUT or IN OUT scalar preceding the
512 -- raise. Right now only look at assignment statements, could do more???
515 declare
519 begin
522 -- Skip past null statements and pragmas
526 loop
530 -- See if preceding statement is an assignment
534 then
537 -- Give warning for assignment to scalar formal
543 -- Do this only for parameters to the current subprogram.
544 -- This avoids some false positives for the nested case.
549 then
550 -- Don't give warning if we are covered by an exception
551 -- handler, since this may result in false positives, since
552 -- the handler may handle the exception and return normally.
554 -- First find the enclosing handled sequence of statements
555 -- (note, we could also look for a handler in an outer block
556 -- but currently we don't, and in that case we'll emit the
557 -- warning).
560 loop
565 -- See if there is a handler, give message if not
568 Error_Msg_N
571 Error_Msg_N
580 -- Reraise statement
585 N_Subprogram_Body,
586 N_Package_Body,
587 N_Task_Body,
588 N_Entry_Body)
589 loop
594 Error_Msg_N
597 -- If a handler has a reraise, it cannot be the target of a local
598 -- raise (goto optimization is impossible), and if the no exception
599 -- propagation restriction is set, this is a violation.
601 else
604 -- Do not check the restriction if the reraise statement is part
605 -- of the code generated for an AT-END handler. That's because
606 -- if the restriction is actually active, we never generate this
607 -- raise anyway, so the apparent violation is bogus.
614 -- Normal case with exception id present
616 else
625 then
626 Error_Msg_N
628 else
632 -- Deal with RAISE WITH case
639 -- Check obsolescent use of Numeric_Error
645 -- Kill last assignment indication
650 -----------------------------
651 -- Analyze_Raise_xxx_Error --
652 -----------------------------
654 -- Normally, the Etype is already set (when this node is used within
655 -- an expression, since it is copied from the node which it rewrites).
656 -- If this node is used in a statement context, then we set the type
657 -- Standard_Void_Type. This is used both by Gigi and by the front end
658 -- to distinguish the statement use and the subexpression use.
660 -- The only other required processing is to take care of the Condition
661 -- field if one is present.
666 -- It often occurs that two identical raise statements are generated in
667 -- succession (for example when dynamic elaboration checks take place on
668 -- separate expressions in a call). If the two statements are identical
669 -- according to the simple criterion that follows, the raise is
670 -- converted into a null statement.
672 ---------------------
673 -- Same_Expression --
674 ---------------------
677 begin
692 and then
698 else
703 -- Start of processing for Analyze_Raise_xxx_Error
705 begin
718 -- Deal with static cases in obvious manner
729 -- Remove duplicate raise statements. Note that the previous one may
730 -- already have been removed as well.
737 and then Same_Expression
739 then