1 ------------------------------------------------------------------------------
3 -- GNAT RUN-TIME COMPONENTS --
5 -- S Y S T E M . F I N A L I Z A T I O N _ I M P L E M E N T A T I O N --
9 -- Copyright (C) 1992-2005 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 2, 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 COPYING. If not, write --
19 -- to the Free Software Foundation, 51 Franklin Street, Fifth Floor, --
20 -- Boston, MA 02110-1301, USA. --
22 -- As a special exception, if other files instantiate generics from this --
23 -- unit, or you link this unit with other files to produce an executable, --
24 -- this unit does not by itself cause the resulting executable to be --
25 -- covered by the GNU General Public License. This exception does not --
26 -- however invalidate any other reasons why the executable file might be --
27 -- covered by the GNU Public License. --
29 -- GNAT was originally developed by the GNAT team at New York University. --
30 -- Extensive contributions were provided by Ada Core Technologies Inc. --
32 ------------------------------------------------------------------------------
37 with System
.Storage_Elements
;
38 with System
.Soft_Links
;
40 with Unchecked_Conversion
;
41 with System
.Restrictions
;
43 package body System
.Finalization_Implementation
is
46 use System
.Finalization_Root
;
48 package SSL
renames System
.Soft_Links
;
50 package SSE
renames System
.Storage_Elements
;
51 use type SSE
.Storage_Offset
;
53 -----------------------
54 -- Local Subprograms --
55 -----------------------
57 type RC_Ptr
is access all Record_Controller
;
60 new Unchecked_Conversion
(Address
, RC_Ptr
);
62 procedure Raise_Exception_No_Defer
64 Message
: in String := "");
65 pragma Import
(Ada
, Raise_Exception_No_Defer
,
66 "ada__exceptions__raise_exception_no_defer");
67 pragma No_Return
(Raise_Exception_No_Defer
);
68 -- Raise an exception without deferring abort. Note that we have to
69 -- use this rather kludgy Ada Import interface, since this subprogram
70 -- is not available in the visible spec of Ada.Exceptions.
72 procedure Raise_From_Finalize
75 E_Occ
: Exception_Occurrence
);
76 -- Deal with an exception raised during finalization of a list. L is a
77 -- pointer to the list of element not yet finalized. From_Abort is true
78 -- if the finalization actions come from an abort rather than a normal
79 -- exit. E_Occ represents the exception being raised.
81 function RC_Offset
(T
: Ada
.Tags
.Tag
) return SSE
.Storage_Offset
;
82 pragma Import
(Ada
, RC_Offset
, "ada__tags__get_rc_offset");
84 function Parent_Size
(Obj
: Address
; T
: Ada
.Tags
.Tag
)
85 return SSE
.Storage_Count
;
86 pragma Import
(Ada
, Parent_Size
, "ada__tags__parent_size");
88 function Get_Deep_Controller
(Obj
: System
.Address
) return RC_Ptr
;
89 -- Given the address (obj) of a tagged object, return a
90 -- pointer to the record controller of this object.
96 procedure Adjust
(Object
: in out Record_Controller
) is
98 First_Comp
: Finalizable_Ptr
;
99 My_Offset
: constant SSE
.Storage_Offset
:=
100 Object
.My_Address
- Object
'Address;
102 procedure Ptr_Adjust
(Ptr
: in out Finalizable_Ptr
);
103 -- Subtract the offset to the pointer
105 procedure Reverse_Adjust
(P
: Finalizable_Ptr
);
106 -- Ajust the components in the reverse order in which they are stored
107 -- on the finalization list. (Adjust and Finalization are not done in
114 procedure Ptr_Adjust
(Ptr
: in out Finalizable_Ptr
) is
117 Ptr
:= To_Finalizable_Ptr
(To_Addr
(Ptr
) - My_Offset
);
125 procedure Reverse_Adjust
(P
: Finalizable_Ptr
) is
129 Reverse_Adjust
(P
.Next
);
131 Object
.F
:= P
; -- Successfully adjusted, so place in list.
135 -- Start of processing for Adjust
138 -- Adjust the components and their finalization pointers next. We must
139 -- protect against an exception in some call to Adjust, so we keep
140 -- pointing to the list of successfully adjusted components, which can
141 -- be finalized if an exception is raised.
143 First_Comp
:= Object
.F
;
144 Object
.F
:= null; -- nothing adjusted yet.
145 Ptr_Adjust
(First_Comp
); -- set addresss of first component.
146 Reverse_Adjust
(First_Comp
);
148 -- Then Adjust the controller itself
150 Object
.My_Address
:= Object
'Address;
154 -- Finalize those components that were successfully adjusted, and
155 -- propagate exception. The object itself is not yet attached to
156 -- global finalization list, so we cannot rely on the outer call to
157 -- Clean to take care of these components.
163 --------------------------
164 -- Attach_To_Final_List --
165 --------------------------
167 procedure Attach_To_Final_List
168 (L
: in out Finalizable_Ptr
;
169 Obj
: in out Finalizable
;
170 Nb_Link
: Short_Short_Integer)
173 -- Simple case: attachement to a one way list
177 L
:= Obj
'Unchecked_Access;
179 -- Dynamically allocated objects: they are attached to a doubly linked
180 -- list, so that an element can be finalized at any moment by means of
181 -- an unchecked deallocation. Attachement is protected against
182 -- multi-threaded access.
184 elsif Nb_Link
= 2 then
186 Locked_Processing
: begin
189 Obj
.Prev
:= L
.Next
.Prev
;
190 L
.Next
.Prev
:= Obj
'Unchecked_Access;
191 L
.Next
:= Obj
'Unchecked_Access;
198 end Locked_Processing
;
200 -- Attachement of arrays to the final list (used only for objects
201 -- returned by function). Obj, in this case is the last element,
202 -- but all other elements are already threaded after it. We just
203 -- attach the rest of the final list at the end of the array list.
205 elsif Nb_Link
= 3 then
207 P
: Finalizable_Ptr
:= Obj
'Unchecked_Access;
210 while P
.Next
/= null loop
215 L
:= Obj
'Unchecked_Access;
218 end Attach_To_Final_List
;
220 ---------------------
221 -- Deep_Tag_Adjust --
222 ---------------------
224 procedure Deep_Tag_Adjust
225 (L
: in out SFR
.Finalizable_Ptr
;
227 B
: Short_Short_Integer)
229 V
: constant SFR
.Finalizable_Ptr
:= To_Finalizable_Ptr
(A
);
230 Controller
: constant RC_Ptr
:= Get_Deep_Controller
(A
);
233 if Controller
/= null then
234 Adjust
(Controller
.all);
235 Attach_To_Final_List
(L
, Controller
.all, B
);
240 if V
.all in Finalizable
then
242 Attach_To_Final_List
(L
, Finalizable
(V
.all), 1);
246 ---------------------
247 -- Deep_Tag_Attach --
248 ----------------------
250 procedure Deep_Tag_Attach
251 (L
: in out SFR
.Finalizable_Ptr
;
253 B
: Short_Short_Integer)
255 V
: constant SFR
.Finalizable_Ptr
:= To_Finalizable_Ptr
(A
);
256 Controller
: constant RC_Ptr
:= Get_Deep_Controller
(A
);
259 if Controller
/= null then
260 Attach_To_Final_List
(L
, Controller
.all, B
);
265 if V
.all in Finalizable
then
266 Attach_To_Final_List
(L
, V
.all, B
);
270 -----------------------
271 -- Deep_Tag_Finalize --
272 -----------------------
274 procedure Deep_Tag_Finalize
275 (L
: in out SFR
.Finalizable_Ptr
;
279 pragma Warnings
(Off
, L
);
281 V
: constant SFR
.Finalizable_Ptr
:= To_Finalizable_Ptr
(A
);
282 Controller
: constant RC_Ptr
:= Get_Deep_Controller
(A
);
285 if Controller
/= null then
287 Finalize_One
(Controller
.all);
289 Finalize
(Controller
.all);
295 if V
.all in Finalizable
then
297 Finalize_One
(V
.all);
302 end Deep_Tag_Finalize
;
304 -------------------------
305 -- Deep_Tag_Initialize --
306 -------------------------
308 procedure Deep_Tag_Initialize
309 (L
: in out SFR
.Finalizable_Ptr
;
311 B
: Short_Short_Integer)
313 V
: constant SFR
.Finalizable_Ptr
:= To_Finalizable_Ptr
(A
);
314 Controller
: constant RC_Ptr
:= Get_Deep_Controller
(A
);
317 -- This procedure should not be called if the object has no
318 -- controlled components
320 if Controller
= null then
323 -- Has controlled components
326 Initialize
(Controller
.all);
327 Attach_To_Final_List
(L
, Controller
.all, B
);
332 if V
.all in Finalizable
then
334 Attach_To_Final_List
(Controller
.F
, Finalizable
(Controller
.all), 1);
336 end Deep_Tag_Initialize
;
338 -----------------------------
339 -- Detach_From_Final_List --
340 -----------------------------
342 -- We know that the detach object is neither at the beginning nor at the
343 -- end of the list, thank's to the dummy First and Last Elements but the
344 -- object may not be attached at all if it is Finalize_Storage_Only
346 procedure Detach_From_Final_List
(Obj
: in out Finalizable
) is
349 -- When objects are not properly attached to a doubly linked list do
350 -- not try to detach them. The only case where it can happen is when
351 -- dealing with Finalize_Storage_Only objects which are not always
352 -- attached to the finalization list.
354 if Obj
.Next
/= null and then Obj
.Prev
/= null then
356 Obj
.Next
.Prev
:= Obj
.Prev
;
357 Obj
.Prev
.Next
:= Obj
.Next
;
365 end Detach_From_Final_List
;
371 procedure Finalize
(Object
: in out Limited_Record_Controller
) is
373 Finalize_List
(Object
.F
);
376 --------------------------
377 -- Finalize_Global_List --
378 --------------------------
380 procedure Finalize_Global_List
is
382 -- There are three case here:
384 -- a. the application uses tasks, in which case Finalize_Global_Tasks
387 -- b. the application doesn't use tasks but uses other tasking
388 -- constructs, such as ATCs and protected objects. In this case,
389 -- the binder will call Finalize_Global_List instead of
390 -- Finalize_Global_Tasks, letting abort undeferred, and leading
391 -- to assertion failures in the GNULL
393 -- c. the application doesn't use any tasking construct in which case
394 -- deferring abort isn't necessary.
396 -- Until another solution is found to deal with case b, we need to
397 -- call abort_defer here to pass the checks, but we do not need to
398 -- undefer abort, since Finalize_Global_List is the last procedure
399 -- called before exiting the partition.
402 Finalize_List
(Global_Final_List
);
403 end Finalize_Global_List
;
409 procedure Finalize_List
(L
: Finalizable_Ptr
) is
410 P
: Finalizable_Ptr
:= L
;
413 type Fake_Exception_Occurence
is record
416 type Ptr
is access all Fake_Exception_Occurence
;
418 function To_Ptr
is new
419 Unchecked_Conversion
(Exception_Occurrence_Access
, Ptr
);
421 X
: Exception_Id
:= Null_Id
;
424 -- If abort is allowed, we get the current exception before starting
425 -- to finalize in order to check if we are in the abort case if an
426 -- exception is raised. When abort is not allowed, avoid accessing the
427 -- current exception since this can be a pretty costly operation in
428 -- programs using controlled types heavily.
430 if System
.Restrictions
.Abort_Allowed
then
431 X
:= To_Ptr
(System
.Soft_Links
.Get_Current_Excep
.all).Id
;
441 when E_Occ
: others =>
442 Raise_From_Finalize
(
444 X
= Standard
'Abort_Signal'Identity,
452 procedure Finalize_One (Obj : in out Finalizable) is
454 Detach_From_Final_List (Obj);
457 when E_Occ : others => Raise_From_Finalize (null, False, E_Occ);
460 -------------------------
461 -- Get_Deep_Controller --
462 -------------------------
464 function Get_Deep_Controller (Obj : System.Address) return RC_Ptr is
465 The_Tag : Ada.Tags.Tag := To_Finalizable_Ptr (Obj)'Tag;
466 Offset : SSE.Storage_Offset := RC_Offset (The_Tag);
469 -- Fetch the controller from the Parent or above if necessary
470 -- when there are no controller at this level
472 while Offset = -2 loop
473 The_Tag := Ada.Tags.Parent_Tag (The_Tag);
474 Offset := RC_Offset (The_Tag);
477 -- No Controlled component case
482 -- The _controller Offset is known statically
484 elsif Offset > 0 then
485 return To_RC_Ptr (Obj + Offset);
487 -- At this stage, we know that the controller is part of the
488 -- ancestor corresponding to the tag "The_Tag" and that its parent
489 -- is variable sized. We assume that the _controller is the first
490 -- compoment right after the parent.
492 -- ??? note that it may not be true if there are new discriminants
497 -- define a faked record controller to avoid generating
498 -- unnecessary expanded code for controlled types
500 type Faked_Record_Controller is record
501 Tag, Prec, Next : Address;
504 -- Reconstruction of a type with characteristics
505 -- comparable to the original type
507 D : constant := SSE.Storage_Offset (Storage_Unit - 1);
509 type Parent_Type is new SSE.Storage_Array
510 (1 .. (Parent_Size (Obj, The_Tag) + D) /
511 SSE.Storage_Offset (Storage_Unit));
512 for Parent_Type'Alignment use Address'Alignment;
514 type Faked_Type_Of_Obj is record
515 Parent : Parent_Type;
516 Controller : Faked_Record_Controller;
519 type Obj_Ptr is access all Faked_Type_Of_Obj;
520 function To_Obj_Ptr is
521 new Unchecked_Conversion (Address, Obj_Ptr);
524 return To_RC_Ptr (To_Obj_Ptr (Obj).Controller'Address);
527 end Get_Deep_Controller;
533 procedure Initialize (Object : in out Limited_Record_Controller) is
534 pragma Warnings (Off, Object);
539 procedure Initialize (Object : in out Record_Controller) is
541 Object.My_Address := Object'Address;
544 -------------------------
545 -- Raise_From_Finalize --
546 -------------------------
548 procedure Raise_From_Finalize
549 (L : Finalizable_Ptr;
550 From_Abort : Boolean;
551 E_Occ : Exception_Occurrence)
553 Msg : constant String := Exception_Message (E_Occ);
554 P : Finalizable_Ptr := L;
558 -- We already got an exception. We now finalize the remainder of
559 -- the list, ignoring all further exceptions.
573 -- If finalization from an Abort, then nothing to do
578 -- If no message, then add our own message saying what happened
581 Raise_Exception_No_Defer
582 (E => Program_Error'Identity,
583 Message => "exception " &
584 Exception_Name (E_Occ) &
585 " raised during finalization");
587 -- If there was a message, pass it on
590 Raise_Exception_No_Defer (Program_Error'Identity, Msg);
592 end Raise_From_Finalize;
594 -- Initialization of package, set Adafinal soft link
597 SSL.Adafinal := Finalize_Global_List'Access;
599 end System.Finalization_Implementation;