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1 ------------------------------------------------------------------------------
2 -- --
3 -- GNAT COMPILER COMPONENTS --
4 -- --
5 -- E X P _ T S S --
6 -- --
7 -- S p e c --
8 -- --
9 -- Copyright (C) 1992-2011, 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 -- Type Support Subprogram (TSS) handling
28 with Namet; use Namet;
29 with Types; use Types;
31 package Exp_Tss is
33 -- A type support subprogram (TSS) is an internally generated function or
34 -- procedure that is associated with a particular type. Examples are the
35 -- implicit initialization procedure, and subprograms for the Input and
36 -- Output attributes.
38 -- A given TSS is either generated once at the point of the declaration of
39 -- the type, or it is generated as needed in clients, but only one copy is
40 -- required in any one generated object file. The choice between these two
41 -- possibilities is made on a TSS-by-TSS basis depending on the estimation
42 -- of how likely the TSS is to be used. Initialization procedures fall in
43 -- the first category, for example, since it is likely that any declared
44 -- type will be used in a context requiring initialization, but the stream
45 -- attributes use the second approach, since it is more likely that they
46 -- will not be used at all, or will only be used in one client in any case.
48 -------------------------
49 -- Current Limitations --
50 -------------------------
52 -- In the current version of this package, only the case of generating a
53 -- TSS at the point of declaration of the type is accommodated. A clear
54 -- improvement would be to follow through with the full implementation
55 -- as described above, and also accommodate the requirement of generating
56 -- only one copy in a given object file.
58 -- For now, we deal with the local case by generating duplicate versions
59 -- of the TSS routine, which is clearly rather inefficient in space usage.
60 -- This is done by using Make_TSS_Name_Local to generate unique names
61 -- for the different instances of TSS routines in a given scope.
63 ----------------
64 -- TSS Naming --
65 ----------------
67 -- A TSS is identified by its Chars name. The name has the form typXY or
68 -- typ_<serial>XY, where typ is the type name, and XY are two characters
69 -- that identify the particular TSS routine. A unique serial number is
70 -- included for the case where several local instances of the same TSS
71 -- must be generated (see discussion under Make_TSS_Name_Local).
73 -- The following codes are used to denote TSSs:
75 -- Note: When making additions to this list, make the corresponding change
76 -- to the list in snames.adb-tmpl.
78 type TSS_Name_Type is new String (1 .. 2);
79 subtype TNT is TSS_Name_Type;
81 TSS_Deep_Adjust : constant TNT := "DA"; -- Deep Adjust
82 TSS_Deep_Finalize : constant TNT := "DF"; -- Deep Finalize
83 TSS_Deep_Initialize : constant TNT := "DI"; -- Deep Initialize
84 TSS_Composite_Equality : constant TNT := "EQ"; -- Composite Equality
85 TSS_Finalize_Address : constant TNT := "FD"; -- Finalize Address
86 TSS_From_Any : constant TNT := "FA"; -- PolyORB/DSA From_Any
87 TSS_Init_Proc : constant TNT := "IP"; -- Initialization Procedure
88 TSS_CPP_Init_Proc : constant TNT := "IC"; -- Init C++ dispatch tables
89 TSS_RAS_Access : constant TNT := "RA"; -- RAS type access
90 TSS_RAS_Dereference : constant TNT := "RD"; -- RAS type dereference
91 TSS_Rep_To_Pos : constant TNT := "RP"; -- Rep to Pos conversion
92 TSS_Slice_Assign : constant TNT := "SA"; -- Slice assignment
93 TSS_Stream_Input : constant TNT := "SI"; -- Stream Input attribute
94 TSS_Stream_Output : constant TNT := "SO"; -- Stream Output attribute
95 TSS_Stream_Read : constant TNT := "SR"; -- Stream Read attribute
96 TSS_Stream_Write : constant TNT := "SW"; -- Stream Write attribute
97 TSS_To_Any : constant TNT := "TA"; -- PolyORB/DSA To_Any
98 TSS_TypeCode : constant TNT := "TC"; -- PolyORB/DSA TypeCode
100 -- The array below contains all valid TSS names
102 TSS_Names : constant array (Natural range <>) of TSS_Name_Type :=
103 (TSS_Deep_Adjust,
104 TSS_Deep_Finalize,
105 TSS_Deep_Initialize,
106 TSS_Composite_Equality,
107 TSS_Finalize_Address,
108 TSS_From_Any,
109 TSS_Init_Proc,
110 TSS_CPP_Init_Proc,
111 TSS_RAS_Access,
112 TSS_RAS_Dereference,
113 TSS_Rep_To_Pos,
114 TSS_Slice_Assign,
115 TSS_Stream_Input,
116 TSS_Stream_Output,
117 TSS_Stream_Read,
118 TSS_Stream_Write,
119 TSS_To_Any,
120 TSS_TypeCode);
122 TSS_Null : constant TNT := " ";
123 -- Dummy entry used to indicated that this is not really a TSS
125 function Get_TSS_Name (E : Entity_Id) return TSS_Name_Type;
126 -- Given an entity, if it is a TSS, then return the corresponding TSS
127 -- name type, otherwise return TSS_Null.
129 function Make_TSS_Name
130 (Typ : Entity_Id;
131 Nam : TSS_Name_Type) return Name_Id;
132 -- Construct the name as described above for the given TSS routine
133 -- identified by Nam for the type identified by Typ.
135 function Make_TSS_Name_Local
136 (Typ : Entity_Id;
137 Nam : TSS_Name_Type) return Name_Id;
138 -- Similar to the above call, but a string of the form _nnn is inserted
139 -- before the TSS code suffix, where nnn is a unique serial number. This
140 -- is used when multiple instances of the same TSS routine may be
141 -- generated in the same scope (see also discussion above of current
142 -- limitations).
144 function Make_Init_Proc_Name (Typ : Entity_Id) return Name_Id;
145 -- Version for init procs, same as Make_TSS_Name (Typ, TSS_Init_Proc)
147 function Is_CPP_Init_Proc (E : Entity_Id) return Boolean;
148 -- Version for CPP init procs, same as Is_TSS (E, TSS_CPP_Init_Proc);
150 function Is_Init_Proc (E : Entity_Id) return Boolean;
151 -- Version for init procs, same as Is_TSS (E, TSS_Init_Proc);
153 function Is_TSS (E : Entity_Id; Nam : TSS_Name_Type) return Boolean;
154 -- Determines if given entity (E) is the name of a TSS identified by Nam
156 function Is_TSS (N : Name_Id; Nam : TSS_Name_Type) return Boolean;
157 -- Same test applied directly to a Name_Id value
159 -----------------------------------------
160 -- TSS Data structures and Subprograms --
161 -----------------------------------------
163 -- The TSS's for a given type are stored in an element list associated with
164 -- the type, and referenced from the TSS_Elist field of the N_Freeze_Entity
165 -- node associated with the type (all types that need TSS's always need to
166 -- be explicitly frozen, so the N_Freeze_Entity node always exists).
168 function TSS (Typ : Entity_Id; Nam : TSS_Name_Type) return Entity_Id;
169 -- Finds the TSS with the given name associated with the given type
170 -- If no such TSS exists, then Empty is returned;
172 function TSS (Typ : Entity_Id; Nam : Name_Id) return Entity_Id;
173 -- Finds the TSS with the given name associated with the given type. If
174 -- no such TSS exists, then Empty is returned.
176 function Same_TSS (E1, E2 : Entity_Id) return Boolean;
177 -- Returns True if E1 and E2 are the same kind of TSS, even if the names
178 -- are different (i.e. if the names of E1 and E2 end with two upper case
179 -- letters that are the same).
181 procedure Set_TSS (Typ : Entity_Id; TSS : Entity_Id);
182 -- This procedure is used to install a newly created TSS. The second
183 -- argument is the entity for such a new TSS. This entity is placed in the
184 -- TSS list for the type given as the first argument, replacing an old
185 -- entry of the same name if one was present. The tree for the body of this
186 -- TSS, which is not analyzed yet, is placed in the actions field of the
187 -- freeze node for the type. All such bodies are inserted into the main
188 -- tree and analyzed at the point at which the freeze node itself is
189 -- expanded.
191 procedure Copy_TSS (TSS : Entity_Id; Typ : Entity_Id);
192 -- Given an existing TSS for another type (which is already installed,
193 -- analyzed and expanded), install it as the corresponding TSS for Typ.
194 -- Note that this just copies a reference, not the tree. This can also be
195 -- used to initially install a TSS in the case where the subprogram for the
196 -- TSS has already been created and its declaration processed.
198 function CPP_Init_Proc (Typ : Entity_Id) return Entity_Id;
199 -- Obtains the CPP_Init TSS entity the given type. The CPP_Init TSS is a
200 -- procedure used to initialize the C++ part of the primary and secondary
201 -- dispatch tables of a tagged type derived from CPP types.
203 function Init_Proc
204 (Typ : Entity_Id;
205 Ref : Entity_Id := Empty) return Entity_Id;
206 -- Obtains the _init TSS entry for the given type. This function call is
207 -- equivalent to TSS (Typ, Name_uInit). The _init TSS is the procedure
208 -- used to initialize otherwise uninitialized instances of a type. If
209 -- there is no _init TSS, then the type requires no initialization. Note
210 -- that subtypes and implicit types never have an _init TSS since subtype
211 -- objects are always initialized using the initialization procedure for
212 -- the corresponding base type (see Base_Init_Proc function). A special
213 -- case arises for concurrent types. Such types do not themselves have an
214 -- init proc TSS, but initialization is required. The init proc used is
215 -- the one for the corresponding record type (see Base_Init_Proc). If
216 -- Ref is present it is call to a subprogram whose profile matches the
217 -- profile of the required constructor (this argument is used to handle
218 -- non-default CPP constructors).
220 function Base_Init_Proc
221 (Typ : Entity_Id;
222 Ref : Entity_Id := Empty) return Entity_Id;
223 -- Obtains the _Init TSS entry from the base type of the entity, and also
224 -- deals with going indirect through the Corresponding_Record_Type field
225 -- for concurrent objects (which are initialized with the initialization
226 -- routine for the corresponding record type). Returns Empty if there is no
227 -- _Init TSS entry for the base type. If Ref is present it is a call to a
228 -- subprogram whose profile matches the profile of the required constructor
229 -- (this argument is used to handle non-default CPP constructors).
231 procedure Set_Init_Proc (Typ : Entity_Id; Init : Entity_Id);
232 pragma Inline (Set_Init_Proc);
233 -- The second argument is the _init TSS to be established for the type
234 -- given as the first argument. Equivalent to Set_TSS (Typ, Init).
236 function Has_Non_Null_Base_Init_Proc (Typ : Entity_Id) return Boolean;
237 -- Returns true if the given type has a defined Base_Init_Proc and
238 -- this init proc is not a null init proc (null init procs occur as
239 -- a result of the processing for Initialize_Scalars). This function
240 -- is used to test for the presence of an init proc in cases where
241 -- a null init proc is considered equivalent to no init proc.
243 function Find_Inherited_TSS
244 (Typ : Entity_Id;
245 Nam : TSS_Name_Type) return Entity_Id;
246 -- Returns the TSS of name Nam of Typ, or of its closest ancestor defining
247 -- such a TSS. Empty is returned is neither Typ nor any of its ancestors
248 -- have such a TSS.
250 end Exp_Tss;