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Skip several gcc.dg/builtin-dynamic-object-size tests on hppa*-*-hpux*
[official-gcc.git] / gcc / ada / sem_case.ads
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1 ------------------------------------------------------------------------------
2 -- --
3 -- GNAT COMPILER COMPONENTS --
4 -- --
5 -- S E M _ C A S E --
6 -- --
7 -- S p e c --
8 -- --
9 -- Copyright (C) 1996-2023, 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 ------------------------------------------------------------------------------
25
26 -- Package containing the routines to process a list of discrete choices.
27 -- Such lists can occur in two different constructs: case statements and
28 -- record variants. We have factorized what used to be two very similar
29 -- sets of routines in one place. These are not currently used for the
30 -- aggregate case, since issues with nested aggregates make that case
31 -- substantially different.
32
33 -- The following processing is required for such cases:
34
35 -- 1. Analysis of names of subtypes, constants, expressions appearing within
36 -- the choices. This must be done when the construct is encountered to get
37 -- proper visibility of names.
38
39 -- 2. Checking for semantic correctness of the choices. A lot of this could
40 -- be done at the time when the construct is encountered, but not all, since
41 -- in the case of variants, statically predicated subtypes won't be frozen
42 -- (and the choice sets known) till the enclosing record type is frozen. So
43 -- at least the check for no overlaps and covering the range must be delayed
44 -- till the freeze point in this case.
45
46 -- 3. Set the Others_Discrete_Choices list for an others choice. This is
47 -- used in various ways, e.g. to construct the discriminant checking
48 -- function for the case of a variant with an others choice.
49
50 -- 4. In the case of static predicates, we need to expand out choices that
51 -- correspond to the predicate for the back end. This expansion destroys
52 -- the list of choices, so it should be delayed to expansion time.
53
54 -- Step 1 is performed by the generic procedure Analyze_Choices, which is
55 -- called when the variant record or case statement/expression is first
56 -- encountered.
57
58 -- Step 2 is performed by the generic procedure Check_Choices. We decide to
59 -- do all semantic checking in that step, since as noted above some of this
60 -- has to be deferred to the freeze point in any case for variants. For case
61 -- statements and expressions, this procedure can be called at the time the
62 -- case construct is encountered (after calling Analyze_Choices).
63
64 -- Step 3 is also performed by Check_Choices, since we need the static ranges
65 -- for predicated subtypes to accurately construct this.
66
67 -- Step 4 is performed by the procedure Expand_Static_Predicates_In_Choices.
68 -- For case statements, this call only happens during expansion. The reason
69 -- we do the expansion unconditionally for variants is that other processing,
70 -- for example for aggregates, relies on having a complete list of choices.
71
72 -- Historical note: We used to perform all four of these functions at once in
73 -- a single procedure called Analyze_Choices. This routine was called at the
74 -- time the construct was first encountered. That seemed to work OK up to Ada
75 -- 2005, but the introduction of statically predicated subtypes with delayed
76 -- evaluation of the static ranges made this completely wrong, both because
77 -- the ASIS tree got destroyed by step 4, and steps 2 and 3 were too early
78 -- in the variant record case.
79
80 with Types; use Types;
81
82 package Sem_Case is
83
84 procedure No_OP (C : Node_Id);
85 -- The no-operation routine. Does mostly nothing. Can be used
86 -- in the following generics for the parameters Process_Empty_Choice,
87 -- or Process_Associated_Node. In the case of an empty range choice,
88 -- routine emits a warning when Warn_On_Redundant_Constructs is enabled.
89
90 generic
91 with procedure Process_Associated_Node (A : Node_Id);
92 -- Associated with each case alternative or record variant A there is
93 -- a node or list of nodes that need additional processing. This routine
94 -- implements that processing.
95
96 package Generic_Analyze_Choices is
97
98 procedure Analyze_Choices
99 (Alternatives : List_Id;
100 Subtyp : Entity_Id);
101 -- From a case expression, case statement, or record variant, this
102 -- routine analyzes the corresponding list of discrete choices which
103 -- appear in each element of the list Alternatives (for the variant
104 -- part case, this is the variants, for a case expression or statement,
105 -- this is the Alternatives).
106 --
107 -- Subtyp is the subtype of the discrete choices. The type against which
108 -- the discrete choices must be resolved is its base type.
109
110 end Generic_Analyze_Choices;
111
112 generic
113 with procedure Process_Empty_Choice (Choice : Node_Id);
114 -- Processing to carry out for an empty Choice. Set to No_Op (declared
115 -- above) if no such processing is required.
116
117 with procedure Process_Non_Static_Choice (Choice : Node_Id);
118 -- Processing to carry out for a non static Choice (gives an error msg)
119
120 with procedure Process_Associated_Node (A : Node_Id);
121 -- Associated with each case alternative or record variant A there is
122 -- a node or list of nodes that need semantic processing. This routine
123 -- implements that processing.
124
125 package Generic_Check_Choices is
126
127 procedure Check_Choices
128 (N : Node_Id;
129 Alternatives : List_Id;
130 Subtyp : Entity_Id;
131 Others_Present : out Boolean);
132 -- From a case expression, case statement, or record variant N, this
133 -- routine analyzes the corresponding list of discrete choices which
134 -- appear in each element of the list Alternatives (for the variant
135 -- part case, this is the variants, for a case expression or statement,
136 -- this is the Alternatives).
137 --
138 -- Subtyp is the subtype of the discrete choices. The type against which
139 -- the discrete choices must be resolved is its base type.
140 --
141 -- Others_Present is set to True if an Others choice is present in the
142 -- list of choices, and in this case Others_Discrete_Choices is set in
143 -- the N_Others_Choice node.
144 --
145 -- If a Discrete_Choice list contains at least one instance of a subtype
146 -- with a static predicate, then the Has_SP_Choice flag is set true in
147 -- the parent node (N_Variant, N_Case_Expression/Statement_Alternative).
148
149 end Generic_Check_Choices;
150
151 function Is_Case_Choice_Pattern (Expr : Node_Id) return Boolean;
152 -- GNAT language extensions allow casing on a non-discrete value, with
153 -- patterns as case choices. Return True iff Expr is such a pattern, or
154 -- a subexpression thereof.
155
156 end Sem_Case;
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