Remove outermost loop parameter.
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1 ------------------------------------------------------------------------------
2 -- --
3 -- GNAT COMPILER COMPONENTS --
4 -- --
5 -- S E M _ C H 1 2 --
6 -- --
7 -- S p e c --
8 -- --
9 -- Copyright (C) 1992-2009, 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 ------------------------------------------------------------------------------
26 with Inline; use Inline;
27 with Types; use Types;
29 package Sem_Ch12 is
30 procedure Analyze_Generic_Package_Declaration (N : Node_Id);
31 procedure Analyze_Generic_Subprogram_Declaration (N : Node_Id);
32 procedure Analyze_Package_Instantiation (N : Node_Id);
33 procedure Analyze_Procedure_Instantiation (N : Node_Id);
34 procedure Analyze_Function_Instantiation (N : Node_Id);
35 procedure Analyze_Formal_Object_Declaration (N : Node_Id);
36 procedure Analyze_Formal_Type_Declaration (N : Node_Id);
37 procedure Analyze_Formal_Subprogram (N : Node_Id);
38 procedure Analyze_Formal_Package (N : Node_Id);
40 procedure Start_Generic;
41 -- Must be invoked before starting to process a generic spec or body
43 procedure End_Generic;
44 -- Must be invoked just at the end of the end of the processing of a
45 -- generic spec or body.
47 procedure Check_Generic_Child_Unit
48 (Gen_Id : Node_Id;
49 Parent_Installed : in out Boolean);
50 -- If the name of the generic unit in an instantiation or a renaming is a
51 -- selected component, then the prefix may be an instance and the selector
52 -- may designate a child unit. Retrieve the parent generic and search for
53 -- the child unit that must be declared within. Similarly, if this is the
54 -- name of a generic child unit within an instantiation of its own parent,
55 -- retrieve the parent generic. If the parent is installed as a result of
56 -- this call, then Parent_Installed is set True, otherwise Parent_Intalled
57 -- is unchanged by the call.
59 function Copy_Generic_Node
60 (N : Node_Id;
61 Parent_Id : Node_Id;
62 Instantiating : Boolean) return Node_Id;
63 -- Copy the tree for a generic unit or its body. The unit is copied
64 -- repeatedly: once to produce a copy on which semantic analysis of
65 -- the generic is performed, and once for each instantiation. The tree
66 -- being copied is not semantically analyzed, except that references to
67 -- global entities are marked on terminal nodes.
69 function Get_Instance_Of (A : Entity_Id) return Entity_Id;
70 -- Retrieve actual associated with given generic parameter.
71 -- If A is uninstantiated or not a generic parameter, return A.
73 function Get_Package_Instantiation_Node (A : Entity_Id) return Node_Id;
74 -- Given the entity of a unit that is an instantiation, retrieve the
75 -- original instance node. This is used when loading the instantiations
76 -- of the ancestors of a child generic that is being instantiated.
78 procedure Instantiate_Package_Body
79 (Body_Info : Pending_Body_Info;
80 Inlined_Body : Boolean := False;
81 Body_Optional : Boolean := False);
82 -- Called after semantic analysis, to complete the instantiation of
83 -- package instances. The flag Inlined_Body is set if the body is
84 -- being instantiated on the fly for inlined purposes.
86 -- The flag Body_Optional indicates that the call is for an instance
87 -- that precedes the current instance in the same declarative part.
88 -- This call is needed when instantiating a nested generic whose body
89 -- is to be found in the body of an instance. Normally we instantiate
90 -- package bodies only when they appear in the main unit, or when their
91 -- contents are needed for a nested generic G. If unit U contains several
92 -- instances I1, I2, etc. and I2 contains a nested generic, then when U
93 -- appears in the context of some other unit P that contains an instance
94 -- of G, we compile the body of I2, but not that of I1. However, when we
95 -- compile U as the main unit, we compile both bodies. This will lead to
96 -- lead to link-time errors if the compilation of I1 generates public
97 -- symbols, because those in I2 will receive different names in both
98 -- cases. This forces us to analyze the body of I1 even when U is not the
99 -- main unit. We don't want this additional mechanism to generate an error
100 -- when the body of the generic for I1 is not present, and this is the
101 -- reason for the presence of the flag Body_Optional, which is exchanged
102 -- between the current procedure and Load_Parent_Of_Generic.
104 procedure Instantiate_Subprogram_Body
105 (Body_Info : Pending_Body_Info;
106 Body_Optional : Boolean := False);
107 -- Called after semantic analysis, to complete the instantiation of
108 -- function and procedure instances. The flag Body_Optional has the
109 -- same purpose as described for Instantiate_Package_Body.
111 function Need_Subprogram_Instance_Body
112 (N : Node_Id;
113 Subp : Entity_Id) return Boolean;
115 -- If a subprogram instance is inlined, indicate that the body of it
116 -- must be created, to be used in inlined calls by the back-end. The
117 -- subprogram may be inlined because the generic itself carries the
118 -- pragma, or because a pragma appears for the instance in the scope.
119 -- of the instance.
121 procedure Save_Global_References (N : Node_Id);
122 -- Traverse the original generic unit, and capture all references to
123 -- entities that are defined outside of the generic in the analyzed
124 -- tree for the template. These references are copied into the original
125 -- tree, so that they appear automatically in every instantiation.
126 -- A critical invariant in this approach is that if an id in the generic
127 -- resolves to a local entity, the corresponding id in the instance
128 -- will resolve to the homologous entity in the instance, even though
129 -- the enclosing context for resolution is different, as long as the
130 -- global references have been captured as described here.
132 -- Because instantiations can be nested, the environment of the instance,
133 -- involving the actuals and other data-structures, must be saved and
134 -- restored in stack-like fashion. Front-end inlining also uses these
135 -- structures for the management of private/full views.
137 procedure Set_Copied_Sloc_For_Inlined_Body (N : Node_Id; E : Entity_Id);
138 -- This procedure is used when a subprogram body is inlined. This process
139 -- shares the same circuitry as the creation of an instantiated copy of
140 -- a generic template. The call to this procedure establishes a new source
141 -- file entry representing the inlined body as an instantiation, marked as
142 -- an inlined body (so that errout can distinguish cases for generating
143 -- error messages, otherwise the treatment is identical). In this call
144 -- N is the subprogram body and E is the defining identifier of the
145 -- subprogram in question. The resulting Sloc adjustment factor is
146 -- saved as part of the internal state of the Sem_Ch12 package for use
147 -- in subsequent calls to copy nodes.
149 procedure Save_Env
150 (Gen_Unit : Entity_Id;
151 Act_Unit : Entity_Id);
152 -- ??? comment needed
154 procedure Restore_Env;
155 -- ??? comment needed
157 procedure Initialize;
158 -- Initializes internal data structures
160 procedure Check_Private_View (N : Node_Id);
161 -- Check whether the type of a generic entity has a different view between
162 -- the point of generic analysis and the point of instantiation. If the
163 -- view has changed, then at the point of instantiation we restore the
164 -- correct view to perform semantic analysis of the instance, and reset
165 -- the current view after instantiation. The processing is driven by the
166 -- current private status of the type of the node, and Has_Private_View,
167 -- a flag that is set at the point of generic compilation. If view and
168 -- flag are inconsistent then the type is updated appropriately.
170 -- This subprogram is used in Check_Generic_Actuals and Copy_Generic_Node,
171 -- and is exported here for the purpose of front-end inlining (see Exp_Ch6.
172 -- Expand_Inlined_Call.Process_Formals).
174 end Sem_Ch12;