1 ------------------------------------------------------------------------------
3 -- GNAT COMPILER COMPONENTS --
9 -- Copyright (C) 1992-2010, Free Software Foundation, Inc. --
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. --
21 -- GNAT was originally developed by the GNAT team at New York University. --
22 -- Extensive contributions were provided by Ada Core Technologies Inc. --
24 ------------------------------------------------------------------------------
26 with Atree
; use Atree
;
27 with Einfo
; use Einfo
;
28 with Elists
; use Elists
;
29 with Exp_Util
; use Exp_Util
;
30 with Nlists
; use Nlists
;
32 with Restrict
; use Restrict
;
33 with Rident
; use Rident
;
34 with Sem_Aux
; use Sem_Aux
;
35 with Sem_Util
; use Sem_Util
;
36 with Sinfo
; use Sinfo
;
38 package body Exp_Tss
is
44 function Base_Init_Proc
46 Ref
: Entity_Id
:= Empty
) return Entity_Id
52 pragma Assert
(Is_Type
(Typ
));
54 if Is_Private_Type
(Typ
) then
55 Full_Type
:= Underlying_Type
(Base_Type
(Typ
));
60 if No
(Full_Type
) then
63 elsif Is_Concurrent_Type
(Full_Type
)
64 and then Present
(Corresponding_Record_Type
(Base_Type
(Full_Type
)))
66 -- The initialization routine to be called is that of the base type
67 -- of the corresponding record type, which may itself be a subtype
68 -- and possibly an itype.
71 (Base_Type
(Corresponding_Record_Type
(Base_Type
(Full_Type
))),
75 Proc
:= Init_Proc
(Base_Type
(Full_Type
), Ref
);
78 and then Is_Composite_Type
(Full_Type
)
79 and then Is_Derived_Type
(Full_Type
)
81 return Init_Proc
(Root_Type
(Full_Type
), Ref
);
92 -- Note: internally this routine is also used to initially set up
93 -- a TSS entry for a new type (case of being called from Set_TSS)
95 procedure Copy_TSS
(TSS
: Entity_Id
; Typ
: Entity_Id
) is
99 Ensure_Freeze_Node
(Typ
);
100 FN
:= Freeze_Node
(Typ
);
102 if No
(TSS_Elist
(FN
)) then
103 Set_TSS_Elist
(FN
, New_Elmt_List
);
106 -- We prepend here, so that a second call overrides the first, it
107 -- is not clear that this is required, but it seems reasonable.
109 Prepend_Elmt
(TSS
, TSS_Elist
(FN
));
116 function CPP_Init_Proc
(Typ
: Entity_Id
) return Entity_Id
is
117 FN
: constant Node_Id
:= Freeze_Node
(Typ
);
121 if not Is_CPP_Class
(Root_Type
(Typ
))
123 or else No
(TSS_Elist
(FN
))
128 Elmt
:= First_Elmt
(TSS_Elist
(FN
));
129 while Present
(Elmt
) loop
130 if Is_CPP_Init_Proc
(Node
(Elmt
)) then
141 ------------------------
142 -- Find_Inherited_TSS --
143 ------------------------
145 function Find_Inherited_TSS
147 Nam
: TSS_Name_Type
) return Entity_Id
149 Btyp
: Entity_Id
:= Typ
;
154 Btyp
:= Base_Type
(Btyp
);
155 Proc
:= TSS
(Btyp
, Nam
);
157 exit when Present
(Proc
)
158 or else not Is_Derived_Type
(Btyp
);
160 -- If Typ is a derived type, it may inherit attributes from some
163 Btyp
:= Etype
(Btyp
);
168 -- If nothing else, use the TSS of the root type
170 Proc
:= TSS
(Base_Type
(Underlying_Type
(Typ
)), Nam
);
174 end Find_Inherited_TSS
;
176 -----------------------
177 -- Get_TSS_Name_Type --
178 -----------------------
180 function Get_TSS_Name
(E
: Entity_Id
) return TSS_Name_Type
is
186 Get_Last_Two_Chars
(Chars
(E
), C1
, C2
);
188 if C1
in 'A' .. 'Z' and then C2
in 'A' .. 'Z' then
191 for J
in TSS_Names
'Range loop
192 if Nm
= TSS_Names
(J
) then
201 ---------------------------------
202 -- Has_Non_Null_Base_Init_Proc --
203 ---------------------------------
205 -- Note: if a base Init_Proc is present, and No_Default_Initialization is
206 -- present, then we must avoid testing for a null init proc, since there
207 -- is no init proc present in this case.
209 function Has_Non_Null_Base_Init_Proc
(Typ
: Entity_Id
) return Boolean is
210 BIP
: constant Entity_Id
:= Base_Init_Proc
(Typ
);
213 and then (Restriction_Active
(No_Default_Initialization
)
214 or else not Is_Null_Init_Proc
(BIP
));
215 end Has_Non_Null_Base_Init_Proc
;
223 Ref
: Entity_Id
:= Empty
) return Entity_Id
225 FN
: constant Node_Id
:= Freeze_Node
(Typ
);
234 elsif No
(TSS_Elist
(FN
)) then
238 Elmt
:= First_Elmt
(TSS_Elist
(FN
));
239 while Present
(Elmt
) loop
240 if Is_Init_Proc
(Node
(Elmt
)) then
241 if not Is_CPP_Class
(Typ
) then
244 -- For CPP classes, we are looking for the default constructor,
245 -- and so we must skip any non-default constructor.
250 (Parameter_Specifications
(Parent
(Node
(Elmt
))))))
259 -- Non-default constructors are currently supported only in the context
260 -- of interfacing with C++.
262 else pragma Assert
(Is_CPP_Class
(Typ
));
264 -- Use the referenced function to locate the init_proc matching
265 -- the C++ constructor.
267 Elmt
:= First_Elmt
(TSS_Elist
(FN
));
268 while Present
(Elmt
) loop
269 if Is_Init_Proc
(Node
(Elmt
)) then
270 E1
:= Next_Formal
(First_Formal
(Node
(Elmt
)));
271 E2
:= First_Formal
(Ref
);
272 while Present
(E1
) and then Present
(E2
) loop
273 if Chars
(E1
) /= Chars
(E2
)
274 or else Ekind
(E1
) /= Ekind
(E2
)
278 elsif Ekind
(Etype
(E1
)) /= E_Anonymous_Access_Type
279 and then Ekind
(Etype
(E2
)) /= E_Anonymous_Access_Type
280 and then Etype
(E1
) /= Etype
(E2
)
284 elsif Ekind
(Etype
(E1
)) = E_Anonymous_Access_Type
285 and then Ekind
(Etype
(E2
)) = E_Anonymous_Access_Type
286 and then Directly_Designated_Type
(Etype
(E1
))
287 /= Directly_Designated_Type
(Etype
(E2
))
292 E1
:= Next_Formal
(E1
);
293 E2
:= Next_Formal
(E2
);
296 if No
(E1
) and then No
(E2
) then
308 ----------------------
309 -- Is_CPP_Init_Proc --
310 ----------------------
312 function Is_CPP_Init_Proc
(E
: Entity_Id
) return Boolean is
316 Get_Last_Two_Chars
(Chars
(E
), C1
, C2
);
317 return C1
= TSS_CPP_Init_Proc
(1) and then C2
= TSS_CPP_Init_Proc
(2);
318 end Is_CPP_Init_Proc
;
324 function Is_Init_Proc
(E
: Entity_Id
) return Boolean is
328 Get_Last_Two_Chars
(Chars
(E
), C1
, C2
);
329 return C1
= TSS_Init_Proc
(1) and then C2
= TSS_Init_Proc
(2);
336 function Is_TSS
(E
: Entity_Id
; Nam
: TSS_Name_Type
) return Boolean is
340 Get_Last_Two_Chars
(Chars
(E
), C1
, C2
);
341 return C1
= Nam
(1) and then C2
= Nam
(2);
344 function Is_TSS
(N
: Name_Id
; Nam
: TSS_Name_Type
) return Boolean is
348 Get_Last_Two_Chars
(N
, C1
, C2
);
349 return C1
= Nam
(1) and then C2
= Nam
(2);
352 -------------------------
353 -- Make_Init_Proc_Name --
354 -------------------------
356 function Make_Init_Proc_Name
(Typ
: Entity_Id
) return Name_Id
is
358 return Make_TSS_Name
(Typ
, TSS_Init_Proc
);
359 end Make_Init_Proc_Name
;
365 function Make_TSS_Name
367 Nam
: TSS_Name_Type
) return Name_Id
370 Get_Name_String
(Chars
(Typ
));
371 Add_Char_To_Name_Buffer
(Nam
(1));
372 Add_Char_To_Name_Buffer
(Nam
(2));
376 -------------------------
377 -- Make_TSS_Name_Local --
378 -------------------------
380 function Make_TSS_Name_Local
382 Nam
: TSS_Name_Type
) return Name_Id
385 Get_Name_String
(Chars
(Typ
));
386 Add_Char_To_Name_Buffer
('_');
387 Add_Nat_To_Name_Buffer
(Increment_Serial_Number
);
388 Add_Char_To_Name_Buffer
(Nam
(1));
389 Add_Char_To_Name_Buffer
(Nam
(2));
391 end Make_TSS_Name_Local
;
397 function Same_TSS
(E1
, E2
: Entity_Id
) return Boolean is
404 Get_Last_Two_Chars
(Chars
(E1
), E1C1
, E1C2
);
405 Get_Last_Two_Chars
(Chars
(E2
), E2C1
, E2C2
);
421 procedure Set_Init_Proc
(Typ
: Entity_Id
; Init
: Entity_Id
) is
430 procedure Set_TSS
(Typ
: Entity_Id
; TSS
: Entity_Id
) is
432 -- Make sure body of subprogram is frozen
434 -- Skip this for Init_Proc with No_Default_Initialization, since the
435 -- Init proc is a dummy void entity in this case to be ignored.
437 if (Is_Init_Proc
(TSS
) or else Is_CPP_Init_Proc
(TSS
))
438 and then Restriction_Active
(No_Default_Initialization
)
442 -- Skip this if not in the same code unit (since it means we are using
443 -- an already existing TSS in another unit)
445 elsif not In_Same_Code_Unit
(Typ
, TSS
) then
448 -- Otherwise make sure body is frozen
451 Append_Freeze_Action
(Typ
, Unit_Declaration_Node
(TSS
));
463 function TSS
(Typ
: Entity_Id
; Nam
: TSS_Name_Type
) return Entity_Id
is
464 FN
: constant Node_Id
:= Freeze_Node
(Typ
);
472 elsif No
(TSS_Elist
(FN
)) then
476 Elmt
:= First_Elmt
(TSS_Elist
(FN
));
477 while Present
(Elmt
) loop
478 if Is_TSS
(Node
(Elmt
), Nam
) then
481 -- For stream subprograms, the TSS entity may be a renaming-
482 -- as-body of an already generated entity. Use that one rather
483 -- the one introduced by the renaming, which is an artifact of
484 -- current stream handling.
486 if Nkind
(Parent
(Parent
(Subp
))) =
487 N_Subprogram_Renaming_Declaration
489 Present
(Corresponding_Spec
(Parent
(Parent
(Subp
))))
491 return Corresponding_Spec
(Parent
(Parent
(Subp
)));
505 function TSS
(Typ
: Entity_Id
; Nam
: Name_Id
) return Entity_Id
is
506 FN
: constant Node_Id
:= Freeze_Node
(Typ
);
514 elsif No
(TSS_Elist
(FN
)) then
518 Elmt
:= First_Elmt
(TSS_Elist
(FN
));
519 while Present
(Elmt
) loop
520 if Chars
(Node
(Elmt
)) = Nam
then
523 -- For stream subprograms, the TSS entity may be a renaming-
524 -- as-body of an already generated entity. Use that one rather
525 -- the one introduced by the renaming, which is an artifact of
526 -- current stream handling.
528 if Nkind
(Parent
(Parent
(Subp
))) =
529 N_Subprogram_Renaming_Declaration
531 Present
(Corresponding_Spec
(Parent
(Parent
(Subp
))))
533 return Corresponding_Spec
(Parent
(Parent
(Subp
)));