1 ------------------------------------------------------------------------------
3 -- GNAT COMPILER COMPONENTS --
9 -- Copyright (C) 1997-2012, 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 Errout
; use Errout
;
30 with Namet
; use Namet
;
31 with Nlists
; use Nlists
;
34 with Sem_Aux
; use Sem_Aux
;
35 with Sem_Prag
; use Sem_Prag
;
36 with Sem_Util
; use Sem_Util
;
37 with Sinput
; use Sinput
;
38 with Sinfo
; use Sinfo
;
39 with Snames
; use Snames
;
40 with Stand
; use Stand
;
41 with Stringt
; use Stringt
;
44 with GNAT
.HTable
; use GNAT
.HTable
;
46 package body Sem_Elim
is
48 No_Elimination
: Boolean;
49 -- Set True if no Eliminate pragmas active
55 -- A single pragma Eliminate is represented by the following record
58 type Access_Elim_Data
is access Elim_Data
;
60 type Names
is array (Nat
range <>) of Name_Id
;
61 -- Type used to represent set of names. Used for names in Unit_Name
62 -- and also the set of names in Argument_Types.
64 type Access_Names
is access Names
;
66 type Elim_Data
is record
68 Unit_Name
: Access_Names
;
69 -- Unit name, broken down into a set of names (e.g. A.B.C is
70 -- represented as Name_Id values for A, B, C in sequence).
72 Entity_Name
: Name_Id
;
73 -- Entity name if Entity parameter if present. If no Entity parameter
74 -- was supplied, then Entity_Node is set to Empty, and the Entity_Name
75 -- field contains the last identifier name in the Unit_Name.
77 Entity_Scope
: Access_Names
;
78 -- Static scope of the entity within the compilation unit represented by
81 Entity_Node
: Node_Id
;
82 -- Save node of entity argument, for posting error messages. Set
83 -- to Empty if there is no entity argument.
85 Parameter_Types
: Access_Names
;
86 -- Set to set of names given for parameter types. If no parameter
87 -- types argument is present, this argument is set to null.
89 Result_Type
: Name_Id
;
90 -- Result type name if Result_Types parameter present, No_Name if not
92 Source_Location
: Name_Id
;
93 -- String describing the source location of subprogram defining name if
94 -- Source_Location parameter present, No_Name if not
96 Hash_Link
: Access_Elim_Data
;
97 -- Link for hash table use
99 Homonym
: Access_Elim_Data
;
100 -- Pointer to next entry with same key
103 -- Node_Id for Eliminate pragma
111 -- Setup hash table using the Entity_Name field as the hash key
113 subtype Element
is Elim_Data
;
114 subtype Elmt_Ptr
is Access_Elim_Data
;
116 subtype Key
is Name_Id
;
118 type Header_Num
is range 0 .. 1023;
120 Null_Ptr
: constant Elmt_Ptr
:= null;
122 ----------------------
123 -- Hash_Subprograms --
124 ----------------------
126 package Hash_Subprograms
is
128 function Equal
(F1
, F2
: Key
) return Boolean;
129 pragma Inline
(Equal
);
131 function Get_Key
(E
: Elmt_Ptr
) return Key
;
132 pragma Inline
(Get_Key
);
134 function Hash
(F
: Key
) return Header_Num
;
135 pragma Inline
(Hash
);
137 function Next
(E
: Elmt_Ptr
) return Elmt_Ptr
;
138 pragma Inline
(Next
);
140 procedure Set_Next
(E
: Elmt_Ptr
; Next
: Elmt_Ptr
);
141 pragma Inline
(Set_Next
);
143 end Hash_Subprograms
;
145 package body Hash_Subprograms
is
151 function Equal
(F1
, F2
: Key
) return Boolean is
160 function Get_Key
(E
: Elmt_Ptr
) return Key
is
162 return E
.Entity_Name
;
169 function Hash
(F
: Key
) return Header_Num
is
171 return Header_Num
(Int
(F
) mod 1024);
178 function Next
(E
: Elmt_Ptr
) return Elmt_Ptr
is
187 procedure Set_Next
(E
: Elmt_Ptr
; Next
: Elmt_Ptr
) is
191 end Hash_Subprograms
;
197 -- The following table records the data for each pragmas, using the
198 -- entity name as the hash key for retrieval. Entries in this table
199 -- are set by Process_Eliminate_Pragma and read by Check_Eliminated.
201 package Elim_Hash_Table
is new Static_HTable
(
202 Header_Num
=> Header_Num
,
204 Elmt_Ptr
=> Elmt_Ptr
,
205 Null_Ptr
=> Null_Ptr
,
206 Set_Next
=> Hash_Subprograms
.Set_Next
,
207 Next
=> Hash_Subprograms
.Next
,
209 Get_Key
=> Hash_Subprograms
.Get_Key
,
210 Hash
=> Hash_Subprograms
.Hash
,
211 Equal
=> Hash_Subprograms
.Equal
);
213 -- The following table records entities for subprograms that are
214 -- eliminated, and corresponding eliminate pragmas that caused the
215 -- elimination. Entries in this table are set by Check_Eliminated
216 -- and read by Eliminate_Error_Msg.
218 type Elim_Entity_Entry
is record
223 package Elim_Entities
is new Table
.Table
(
224 Table_Component_Type
=> Elim_Entity_Entry
,
225 Table_Index_Type
=> Name_Id
'Base,
226 Table_Low_Bound
=> First_Name_Id
,
228 Table_Increment
=> 200,
229 Table_Name
=> "Elim_Entries");
231 ----------------------
232 -- Check_Eliminated --
233 ----------------------
235 procedure Check_Eliminated
(E
: Entity_Id
) is
236 Elmt
: Access_Elim_Data
;
242 if No_Elimination
then
245 -- Elimination of objects and types is not implemented yet
247 elsif Ekind
(E
) not in Subprogram_Kind
then
251 -- Loop through homonyms for this key
253 Elmt
:= Elim_Hash_Table
.Get
(Chars
(E
));
254 while Elmt
/= null loop
255 Check_Homonyms
: declare
256 procedure Set_Eliminated
;
257 -- Set current subprogram entity as eliminated
263 procedure Set_Eliminated
is
264 Overridden
: Entity_Id
;
267 if Is_Dispatching_Operation
(E
) then
269 -- If an overriding dispatching primitive is eliminated then
270 -- its parent must have been eliminated. If the parent is an
271 -- inherited operation, check the operation that it renames,
272 -- because flag Eliminated is only set on source operations.
274 Overridden
:= Overridden_Operation
(E
);
276 if Present
(Overridden
)
277 and then not Comes_From_Source
(Overridden
)
278 and then Present
(Alias
(Overridden
))
280 Overridden
:= Alias
(Overridden
);
283 if Present
(Overridden
)
284 and then not Is_Eliminated
(Overridden
)
285 and then not Is_Abstract_Subprogram
(Overridden
)
287 Error_Msg_Name_1
:= Chars
(E
);
288 Error_Msg_N
("cannot eliminate subprogram %", E
);
293 Set_Is_Eliminated
(E
);
294 Elim_Entities
.Append
((Prag
=> Elmt
.Prag
, Subp
=> E
));
297 -- Start of processing for Check_Homonyms
300 -- First we check that the name of the entity matches
302 if Elmt
.Entity_Name
/= Chars
(E
) then
306 -- Find enclosing unit, and verify that its name and those of its
309 Scop
:= Cunit_Entity
(Current_Sem_Unit
);
311 -- Now see if compilation unit matches
313 Up
:= Elmt
.Unit_Name
'Last;
315 -- If we are within a subunit, the name in the pragma has been
316 -- parsed as a child unit, but the current compilation unit is in
317 -- fact the parent in which the subunit is embedded. We must skip
318 -- the first name which is that of the subunit to match the pragma
319 -- specification. Body may be that of a package or subprogram.
326 while Present
(Par
) loop
327 if Nkind
(Par
) = N_Subunit
then
328 if Chars
(Defining_Entity
(Proper_Body
(Par
))) =
343 for J
in reverse Elmt
.Unit_Name
'First .. Up
loop
344 if Elmt
.Unit_Name
(J
) /= Chars
(Scop
) then
348 Scop
:= Scope
(Scop
);
350 if Scop
/= Standard_Standard
and then J
= 1 then
355 if Scop
/= Standard_Standard
then
359 if Present
(Elmt
.Entity_Node
)
360 and then Elmt
.Entity_Scope
/= null
362 -- Check that names of enclosing scopes match. Skip blocks and
363 -- wrapper package of subprogram instances, which do not appear
368 for J
in reverse Elmt
.Entity_Scope
'Range loop
369 while Ekind
(Scop
) = E_Block
371 (Ekind
(Scop
) = E_Package
372 and then Is_Wrapper_Package
(Scop
))
374 Scop
:= Scope
(Scop
);
377 if Elmt
.Entity_Scope
(J
) /= Chars
(Scop
) then
378 if Ekind
(Scop
) /= E_Protected_Type
379 or else Comes_From_Source
(Scop
)
383 -- For simple protected declarations, retrieve the source
384 -- name of the object, which appeared in the Eliminate
389 Decl
: constant Node_Id
:=
390 Original_Node
(Parent
(Scop
));
393 if Elmt
.Entity_Scope
(J
) /=
394 Chars
(Defining_Identifier
(Decl
))
406 Scop
:= Scope
(Scop
);
410 -- If given entity is a library level subprogram and pragma had a
411 -- single parameter, a match!
413 if Is_Compilation_Unit
(E
)
414 and then Is_Subprogram
(E
)
415 and then No
(Elmt
.Entity_Node
)
420 -- Check for case of type or object with two parameter case
422 elsif (Is_Type
(E
) or else Is_Object
(E
))
423 and then Elmt
.Result_Type
= No_Name
424 and then Elmt
.Parameter_Types
= null
429 -- Check for case of subprogram
431 elsif Ekind_In
(E
, E_Function
, E_Procedure
) then
433 -- If Source_Location present, then see if it matches
435 if Elmt
.Source_Location
/= No_Name
then
436 Get_Name_String
(Elmt
.Source_Location
);
439 Sloc_Trace
: constant String :=
440 Name_Buffer
(1 .. Name_Len
);
442 Idx
: Natural := Sloc_Trace
'First;
443 -- Index in Sloc_Trace, if equals to 0, then we have
444 -- completely traversed Sloc_Trace
446 Last
: constant Natural := Sloc_Trace
'Last;
449 Sindex
: Source_File_Index
;
451 function File_Name_Match
return Boolean;
452 -- This function is supposed to be called when Idx points
453 -- to the beginning of the new file name, and Name_Buffer
454 -- is set to contain the name of the proper source file
455 -- from the chain corresponding to the Sloc of E. First
456 -- it checks that these two files have the same name. If
457 -- this check is successful, moves Idx to point to the
458 -- beginning of the column number.
460 function Line_Num_Match
return Boolean;
461 -- This function is supposed to be called when Idx points
462 -- to the beginning of the column number, and P is
463 -- set to point to the proper Sloc the chain
464 -- corresponding to the Sloc of E. First it checks that
465 -- the line number Idx points on and the line number
466 -- corresponding to P are the same. If this check is
467 -- successful, moves Idx to point to the beginning of
468 -- the next file name in Sloc_Trace. If there is no file
469 -- name any more, Idx is set to 0.
471 function Different_Trace_Lengths
return Boolean;
472 -- From Idx and P, defines if there are in both traces
473 -- more element(s) in the instantiation chains. Returns
474 -- False if one trace contains more element(s), but
475 -- another does not. If both traces contains more
476 -- elements (that is, the function returns False), moves
477 -- P ahead in the chain corresponding to E, recomputes
478 -- Sindex and sets the name of the corresponding file in
481 function Skip_Spaces
return Natural;
482 -- If Sloc_Trace (Idx) is not space character, returns
483 -- Idx. Otherwise returns the index of the nearest
484 -- non-space character in Sloc_Trace to the right of Idx.
485 -- Returns 0 if there is no such character.
487 -----------------------------
488 -- Different_Trace_Lengths --
489 -----------------------------
491 function Different_Trace_Lengths
return Boolean is
493 P
:= Instantiation
(Sindex
);
495 if (P
= No_Location
and then Idx
/= 0)
497 (P
/= No_Location
and then Idx
= 0)
502 if P
/= No_Location
then
503 Sindex
:= Get_Source_File_Index
(P
);
504 Get_Name_String
(File_Name
(Sindex
));
509 end Different_Trace_Lengths
;
511 ---------------------
512 -- File_Name_Match --
513 ---------------------
515 function File_Name_Match
return Boolean is
524 -- Find first colon. If no colon, then return False.
525 -- If there is a colon, Tmp_Idx is set to point just
530 if Tmp_Idx
>= Last
then
532 elsif Sloc_Trace
(Tmp_Idx
+ 1) = ':' then
535 Tmp_Idx
:= Tmp_Idx
+ 1;
539 -- Find last non-space before this colon. If there is
540 -- no space character before this colon, then return
541 -- False. Otherwise, End_Idx is set to point to this
542 -- non-space character.
546 if End_Idx
< Idx
then
549 elsif Sloc_Trace
(End_Idx
) /= ' ' then
553 End_Idx
:= End_Idx
- 1;
557 -- Now see if file name matches what is in Name_Buffer
558 -- and if so, step Idx past it and return True. If the
559 -- name does not match, return False.
561 if Sloc_Trace
(Idx
.. End_Idx
) =
562 Name_Buffer
(1 .. Name_Len
)
576 function Line_Num_Match
return Boolean is
585 and then Sloc_Trace
(Idx
) in '0' .. '9'
588 (Character'Pos (Sloc_Trace
(Idx
)) -
589 Character'Pos ('0'));
593 if Get_Physical_Line_Number
(P
) =
594 Physical_Line_Number
(N
)
596 while Idx
<= Last
and then
597 Sloc_Trace
(Idx
) /= '['
602 if Idx
<= Last
and then
603 Sloc_Trace
(Idx
) = '['
622 function Skip_Spaces
return Natural is
627 while Sloc_Trace
(Res
) = ' ' loop
641 Sindex
:= Get_Source_File_Index
(P
);
642 Get_Name_String
(File_Name
(Sindex
));
646 if not File_Name_Match
then
648 elsif not Line_Num_Match
then
652 if Different_Trace_Lengths
then
659 -- If we have a Result_Type, then we must have a function with
660 -- the proper result type.
662 if Elmt
.Result_Type
/= No_Name
then
663 if Ekind
(E
) /= E_Function
664 or else Chars
(Etype
(E
)) /= Elmt
.Result_Type
670 -- If we have Parameter_Types, they must match
672 if Elmt
.Parameter_Types
/= null then
673 Form
:= First_Formal
(E
);
676 and then Elmt
.Parameter_Types
'Length = 1
677 and then Elmt
.Parameter_Types
(1) = No_Name
679 -- Parameterless procedure matches
683 elsif Elmt
.Parameter_Types
= null then
687 for J
in Elmt
.Parameter_Types
'Range loop
690 Chars
(Etype
(Form
)) /= Elmt
.Parameter_Types
(J
)
698 if Present
(Form
) then
704 -- If we fall through, this is match
712 Elmt
:= Elmt
.Homonym
;
716 end Check_Eliminated
;
718 -------------------------------------
719 -- Check_For_Eliminated_Subprogram --
720 -------------------------------------
722 procedure Check_For_Eliminated_Subprogram
(N
: Node_Id
; S
: Entity_Id
) is
723 Ultimate_Subp
: constant Entity_Id
:= Ultimate_Alias
(S
);
724 Enclosing_Subp
: Entity_Id
;
727 -- No check needed within a default expression for a formal, since this
728 -- is not really a use, and the expression (a call or attribute) may
729 -- never be used if the enclosing subprogram is itself eliminated.
731 if In_Spec_Expression
then
735 if Is_Eliminated
(Ultimate_Subp
)
736 and then not Inside_A_Generic
737 and then not Is_Generic_Unit
(Cunit_Entity
(Current_Sem_Unit
))
739 Enclosing_Subp
:= Current_Subprogram
;
740 while Present
(Enclosing_Subp
) loop
741 if Is_Eliminated
(Enclosing_Subp
) then
745 Enclosing_Subp
:= Enclosing_Subprogram
(Enclosing_Subp
);
748 -- Emit error, unless we are within an instance body and the expander
749 -- is disabled, indicating an instance within an enclosing generic.
750 -- In an instance, the ultimate alias is an internal entity, so place
751 -- the message on the original subprogram.
753 if In_Instance_Body
and then not Expander_Active
then
756 elsif Comes_From_Source
(Ultimate_Subp
) then
757 Eliminate_Error_Msg
(N
, Ultimate_Subp
);
760 Eliminate_Error_Msg
(N
, S
);
763 end Check_For_Eliminated_Subprogram
;
765 -------------------------
766 -- Eliminate_Error_Msg --
767 -------------------------
769 procedure Eliminate_Error_Msg
(N
: Node_Id
; E
: Entity_Id
) is
771 for J
in Elim_Entities
.First
.. Elim_Entities
.Last
loop
772 if E
= Elim_Entities
.Table
(J
).Subp
then
773 Error_Msg_Sloc
:= Sloc
(Elim_Entities
.Table
(J
).Prag
);
774 Error_Msg_NE
("cannot reference subprogram & eliminated #", N
, E
);
779 -- If this is an internal operation generated for a protected operation,
780 -- its name does not match the source name, so just report the error.
782 if not Comes_From_Source
(E
)
783 and then Present
(First_Entity
(E
))
784 and then Is_Concurrent_Record_Type
(Etype
(First_Entity
(E
)))
787 ("cannot reference eliminated protected subprogram", N
, E
);
789 -- Otherwise should not fall through, entry should be in table
793 ("subprogram& is called but its alias is eliminated", N
, E
);
794 -- raise Program_Error;
796 end Eliminate_Error_Msg
;
802 procedure Initialize
is
804 Elim_Hash_Table
.Reset
;
806 No_Elimination
:= True;
809 ------------------------------
810 -- Process_Eliminate_Pragma --
811 ------------------------------
813 procedure Process_Eliminate_Pragma
814 (Pragma_Node
: Node_Id
;
815 Arg_Unit_Name
: Node_Id
;
816 Arg_Entity
: Node_Id
;
817 Arg_Parameter_Types
: Node_Id
;
818 Arg_Result_Type
: Node_Id
;
819 Arg_Source_Location
: Node_Id
)
821 Data
: constant Access_Elim_Data
:= new Elim_Data
;
822 -- Build result data here
824 Elmt
: Access_Elim_Data
;
826 Num_Names
: Nat
:= 0;
827 -- Number of names in unit name
833 function OK_Selected_Component
(N
: Node_Id
) return Boolean;
834 -- Test if N is a selected component with all identifiers, or a selected
835 -- component whose selector is an operator symbol. As a side effect
836 -- if result is True, sets Num_Names to the number of names present
837 -- (identifiers, and operator if any).
839 ---------------------------
840 -- OK_Selected_Component --
841 ---------------------------
843 function OK_Selected_Component
(N
: Node_Id
) return Boolean is
845 if Nkind
(N
) = N_Identifier
846 or else Nkind
(N
) = N_Operator_Symbol
848 Num_Names
:= Num_Names
+ 1;
851 elsif Nkind
(N
) = N_Selected_Component
then
852 return OK_Selected_Component
(Prefix
(N
))
853 and then OK_Selected_Component
(Selector_Name
(N
));
858 end OK_Selected_Component
;
860 -- Start of processing for Process_Eliminate_Pragma
863 Data
.Prag
:= Pragma_Node
;
864 Error_Msg_Name_1
:= Name_Eliminate
;
866 -- Process Unit_Name argument
868 if Nkind
(Arg_Unit_Name
) = N_Identifier
then
869 Data
.Unit_Name
:= new Names
'(1 => Chars (Arg_Unit_Name));
872 elsif OK_Selected_Component (Arg_Unit_Name) then
873 Data.Unit_Name := new Names (1 .. Num_Names);
875 Arg_Uname := Arg_Unit_Name;
876 for J in reverse 2 .. Num_Names loop
877 Data.Unit_Name (J) := Chars (Selector_Name (Arg_Uname));
878 Arg_Uname := Prefix (Arg_Uname);
881 Data.Unit_Name (1) := Chars (Arg_Uname);
885 ("wrong form for Unit_Name parameter of pragma%", Arg_Unit_Name);
889 -- Process Entity argument
891 if Present (Arg_Entity) then
894 if Nkind (Arg_Entity) = N_Identifier
895 or else Nkind (Arg_Entity) = N_Operator_Symbol
897 Data.Entity_Name := Chars (Arg_Entity);
898 Data.Entity_Node := Arg_Entity;
899 Data.Entity_Scope := null;
901 elsif OK_Selected_Component (Arg_Entity) then
902 Data.Entity_Scope := new Names (1 .. Num_Names - 1);
903 Data.Entity_Name := Chars (Selector_Name (Arg_Entity));
904 Data.Entity_Node := Arg_Entity;
906 Arg_Ent := Prefix (Arg_Entity);
907 for J in reverse 2 .. Num_Names - 1 loop
908 Data.Entity_Scope (J) := Chars (Selector_Name (Arg_Ent));
909 Arg_Ent := Prefix (Arg_Ent);
912 Data.Entity_Scope (1) := Chars (Arg_Ent);
914 elsif Is_Config_Static_String (Arg_Entity) then
915 Data.Entity_Name := Name_Find;
916 Data.Entity_Node := Arg_Entity;
922 Data.Entity_Node := Empty;
923 Data.Entity_Name := Data.Unit_Name (Num_Names);
926 -- Process Parameter_Types argument
928 if Present (Arg_Parameter_Types) then
930 -- Here for aggregate case
932 if Nkind (Arg_Parameter_Types) = N_Aggregate then
933 Data.Parameter_Types :=
935 (1 .. List_Length (Expressions (Arg_Parameter_Types)));
937 Lit := First (Expressions (Arg_Parameter_Types));
938 for J in Data.Parameter_Types'Range loop
939 if Is_Config_Static_String (Lit) then
940 Data.Parameter_Types (J) := Name_Find;
947 -- Otherwise we must have case of one name, which looks like a
948 -- parenthesized literal rather than an aggregate.
950 elsif Paren_Count (Arg_Parameter_Types) /= 1 then
952 ("wrong form for argument of pragma Eliminate",
953 Arg_Parameter_Types);
956 elsif Is_Config_Static_String (Arg_Parameter_Types) then
957 String_To_Name_Buffer (Strval (Arg_Parameter_Types));
961 -- Parameterless procedure
963 Data.Parameter_Types := new Names'(1 => No_Name
);
966 Data
.Parameter_Types
:= new Names
'(1 => Name_Find);
974 -- Process Result_Types argument
976 if Present (Arg_Result_Type) then
977 if Is_Config_Static_String (Arg_Result_Type) then
978 Data.Result_Type := Name_Find;
983 -- Here if no Result_Types argument
986 Data.Result_Type := No_Name;
989 -- Process Source_Location argument
991 if Present (Arg_Source_Location) then
992 if Is_Config_Static_String (Arg_Source_Location) then
993 Data.Source_Location := Name_Find;
998 Data.Source_Location := No_Name;
1001 Elmt := Elim_Hash_Table.Get (Hash_Subprograms.Get_Key (Data));
1003 -- If we already have an entry with this same key, then link
1004 -- it into the chain of entries for this key.
1006 if Elmt /= null then
1007 Data.Homonym := Elmt.Homonym;
1008 Elmt.Homonym := Data;
1010 -- Otherwise create a new entry
1013 Elim_Hash_Table.Set (Data);
1016 No_Elimination := False;
1017 end Process_Eliminate_Pragma;