1 ------------------------------------------------------------------------------
3 -- GNAT COMPILER COMPONENTS --
9 -- Copyright (C) 1999-2013, 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 Debug
; use Debug
;
28 with Einfo
; use Einfo
;
29 with Errout
; use Errout
;
30 with Exp_Code
; use Exp_Code
;
31 with Fname
; use Fname
;
33 with Namet
; use Namet
;
34 with Nlists
; use Nlists
;
36 with Par_SCO
; use Par_SCO
;
37 with Rtsfind
; use Rtsfind
;
39 with Sem_Ch8
; use Sem_Ch8
;
40 with Sem_Aux
; use Sem_Aux
;
41 with Sem_Eval
; use Sem_Eval
;
42 with Sem_Util
; use Sem_Util
;
43 with Sinfo
; use Sinfo
;
44 with Sinput
; use Sinput
;
45 with Snames
; use Snames
;
46 with Stand
; use Stand
;
47 with Stringt
; use Stringt
;
48 with Uintp
; use Uintp
;
50 package body Sem_Warn
is
52 -- The following table collects Id's of entities that are potentially
53 -- unreferenced. See Check_Unset_Reference for further details.
54 -- ??? Check_Unset_Reference has zero information about this table.
56 package Unreferenced_Entities
is new Table
.Table
(
57 Table_Component_Type
=> Entity_Id
,
58 Table_Index_Type
=> Nat
,
60 Table_Initial
=> Alloc
.Unreferenced_Entities_Initial
,
61 Table_Increment
=> Alloc
.Unreferenced_Entities_Increment
,
62 Table_Name
=> "Unreferenced_Entities");
64 -- The following table collects potential warnings for IN OUT parameters
65 -- that are referenced but not modified. These warnings are processed when
66 -- the front end calls the procedure Output_Non_Modified_In_Out_Warnings.
67 -- The reason that we defer output of these messages is that we want to
68 -- detect the case where the relevant procedure is used as a generic actual
69 -- in an instantiation, since we suppress the warnings in this case. The
70 -- flag Used_As_Generic_Actual will be set in this case, but only at the
71 -- point of usage. Similarly, we suppress the message if the address of the
72 -- procedure is taken, where the flag Address_Taken may be set later.
74 package In_Out_Warnings
is new Table
.Table
(
75 Table_Component_Type
=> Entity_Id
,
76 Table_Index_Type
=> Nat
,
78 Table_Initial
=> Alloc
.In_Out_Warnings_Initial
,
79 Table_Increment
=> Alloc
.In_Out_Warnings_Increment
,
80 Table_Name
=> "In_Out_Warnings");
82 --------------------------------------------------------
83 -- Handling of Warnings Off, Unmodified, Unreferenced --
84 --------------------------------------------------------
86 -- The functions Has_Warnings_Off, Has_Unmodified, Has_Unreferenced must
87 -- generally be used instead of Warnings_Off, Has_Pragma_Unmodified and
88 -- Has_Pragma_Unreferenced, as noted in the specs in Einfo.
90 -- In order to avoid losing warnings in -gnatw.w (warn on unnecessary
91 -- warnings off pragma) mode, i.e. to avoid false negatives, the code
92 -- must follow some important rules.
94 -- Call these functions as late as possible, after completing all other
95 -- tests, just before the warnings is given. For example, don't write:
97 -- if not Has_Warnings_Off (E)
98 -- and then some-other-predicate-on-E then ..
100 -- Instead the following is preferred
102 -- if some-other-predicate-on-E
103 -- and then Has_Warnings_Off (E)
105 -- This way if some-other-predicate is false, we avoid a false indication
106 -- that a Warnings (Off, E) pragma was useful in preventing a warning.
108 -- The second rule is that if both Has_Unmodified and Has_Warnings_Off, or
109 -- Has_Unreferenced and Has_Warnings_Off are called, make sure that the
110 -- call to Has_Unmodified/Has_Unreferenced comes first, this way we record
111 -- that the Warnings (Off) could have been Unreferenced or Unmodified. In
112 -- fact Has_Unmodified/Has_Unreferenced includes a test for Warnings Off,
113 -- and so a subsequent test is not needed anyway (though it is harmless).
115 -----------------------
116 -- Local Subprograms --
117 -----------------------
119 function Generic_Package_Spec_Entity
(E
: Entity_Id
) return Boolean;
120 -- This returns true if the entity E is declared within a generic package.
121 -- The point of this is to detect variables which are not assigned within
122 -- the generic, but might be assigned outside the package for any given
123 -- instance. These are cases where we leave the warnings to be posted for
124 -- the instance, when we will know more.
126 function Goto_Spec_Entity
(E
: Entity_Id
) return Entity_Id
;
127 -- If E is a parameter entity for a subprogram body, then this function
128 -- returns the corresponding spec entity, if not, E is returned unchanged.
130 function Has_Pragma_Unmodified_Check_Spec
(E
: Entity_Id
) return Boolean;
131 -- Tests Has_Pragma_Unmodified flag for entity E. If E is not a formal,
132 -- this is simply the setting of the flag Has_Pragma_Unmodified. If E is
133 -- a body formal, the setting of the flag in the corresponding spec is
134 -- also checked (and True returned if either flag is True).
136 function Has_Pragma_Unreferenced_Check_Spec
(E
: Entity_Id
) return Boolean;
137 -- Tests Has_Pragma_Unreferenced flag for entity E. If E is not a formal,
138 -- this is simply the setting of the flag Has_Pragma_Unreferenced. If E is
139 -- a body formal, the setting of the flag in the corresponding spec is
140 -- also checked (and True returned if either flag is True).
142 function Never_Set_In_Source_Check_Spec
(E
: Entity_Id
) return Boolean;
143 -- Tests Never_Set_In_Source status for entity E. If E is not a formal,
144 -- this is simply the setting of the flag Never_Set_In_Source. If E is
145 -- a body formal, the setting of the flag in the corresponding spec is
146 -- also checked (and False returned if either flag is False).
148 function Operand_Has_Warnings_Suppressed
(N
: Node_Id
) return Boolean;
149 -- This function traverses the expression tree represented by the node N
150 -- and determines if any sub-operand is a reference to an entity for which
151 -- the Warnings_Off flag is set. True is returned if such an entity is
152 -- encountered, and False otherwise.
154 function Referenced_Check_Spec
(E
: Entity_Id
) return Boolean;
155 -- Tests Referenced status for entity E. If E is not a formal, this is
156 -- simply the setting of the flag Referenced. If E is a body formal, the
157 -- setting of the flag in the corresponding spec is also checked (and True
158 -- returned if either flag is True).
160 function Referenced_As_LHS_Check_Spec
(E
: Entity_Id
) return Boolean;
161 -- Tests Referenced_As_LHS status for entity E. If E is not a formal, this
162 -- is simply the setting of the flag Referenced_As_LHS. If E is a body
163 -- formal, the setting of the flag in the corresponding spec is also
164 -- checked (and True returned if either flag is True).
166 function Referenced_As_Out_Parameter_Check_Spec
167 (E
: Entity_Id
) return Boolean;
168 -- Tests Referenced_As_Out_Parameter status for entity E. If E is not a
169 -- formal, this is simply the setting of Referenced_As_Out_Parameter. If E
170 -- is a body formal, the setting of the flag in the corresponding spec is
171 -- also checked (and True returned if either flag is True).
173 procedure Warn_On_Unreferenced_Entity
175 Body_E
: Entity_Id
:= Empty
);
176 -- Output warnings for unreferenced entity E. For the case of an entry
177 -- formal, Body_E is the corresponding body entity for a particular
178 -- accept statement, and the message is posted on Body_E. In all other
179 -- cases, Body_E is ignored and must be Empty.
181 function Warnings_Off_Check_Spec
(E
: Entity_Id
) return Boolean;
182 -- Returns True if Warnings_Off is set for the entity E or (in the case
183 -- where there is a Spec_Entity), Warnings_Off is set for the Spec_Entity.
185 --------------------------
186 -- Check_Code_Statement --
187 --------------------------
189 procedure Check_Code_Statement
(N
: Node_Id
) is
191 -- If volatile, nothing to worry about
193 if Is_Asm_Volatile
(N
) then
197 -- Warn if no input or no output
199 Setup_Asm_Inputs
(N
);
201 if No
(Asm_Input_Value
) then
203 ("??code statement with no inputs should usually be Volatile!", N
);
207 Setup_Asm_Outputs
(N
);
209 if No
(Asm_Output_Variable
) then
211 ("??code statement with no outputs should usually be Volatile!", N
);
214 end Check_Code_Statement
;
216 ---------------------------------
217 -- Check_Infinite_Loop_Warning --
218 ---------------------------------
220 -- The case we look for is a while loop which tests a local variable, where
221 -- there is no obvious direct or possible indirect update of the variable
222 -- within the body of the loop.
224 procedure Check_Infinite_Loop_Warning
(Loop_Statement
: Node_Id
) is
225 Expression
: Node_Id
:= Empty
;
226 -- Set to WHILE or EXIT WHEN condition to be tested
228 Ref
: Node_Id
:= Empty
;
229 -- Reference in Expression to variable that might not be modified
230 -- in loop, indicating a possible infinite loop.
232 Var
: Entity_Id
:= Empty
;
233 -- Corresponding entity (entity of Ref)
235 Function_Call_Found
: Boolean := False;
236 -- True if Find_Var found a function call in the condition
238 procedure Find_Var
(N
: Node_Id
);
239 -- Inspect condition to see if it depends on a single entity reference.
240 -- If so, Ref is set to point to the reference node, and Var is set to
241 -- the referenced Entity.
243 function Has_Indirection
(T
: Entity_Id
) return Boolean;
244 -- If the controlling variable is an access type, or is a record type
245 -- with access components, assume that it is changed indirectly and
246 -- suppress the warning. As a concession to low-level programming, in
247 -- particular within Declib, we also suppress warnings on a record
248 -- type that contains components of type Address or Short_Address.
250 function Is_Suspicious_Function_Name
(E
: Entity_Id
) return Boolean;
251 -- Given an entity name, see if the name appears to have something to
252 -- do with I/O or network stuff, and if so, return True. Used to kill
253 -- some false positives on a heuristic basis that such functions will
254 -- likely have some strange side effect dependencies. A rather funny
255 -- kludge, but warning messages are in the heuristics business.
257 function Test_Ref
(N
: Node_Id
) return Traverse_Result
;
258 -- Test for reference to variable in question. Returns Abandon if
259 -- matching reference found. Used in instantiation of No_Ref_Found.
261 function No_Ref_Found
is new Traverse_Func
(Test_Ref
);
262 -- Function to traverse body of procedure. Returns Abandon if matching
269 procedure Find_Var
(N
: Node_Id
) is
271 -- Condition is a direct variable reference
273 if Is_Entity_Name
(N
) then
277 -- Case of condition is a comparison with compile time known value
279 elsif Nkind
(N
) in N_Op_Compare
then
280 if Compile_Time_Known_Value
(Right_Opnd
(N
)) then
281 Find_Var
(Left_Opnd
(N
));
283 elsif Compile_Time_Known_Value
(Left_Opnd
(N
)) then
284 Find_Var
(Right_Opnd
(N
));
286 -- Ignore any other comparison
292 -- If condition is a negation, check its operand
294 elsif Nkind
(N
) = N_Op_Not
then
295 Find_Var
(Right_Opnd
(N
));
297 -- Case of condition is function call
299 elsif Nkind
(N
) = N_Function_Call
then
301 Function_Call_Found
:= True;
303 -- Forget it if function name is not entity, who knows what
304 -- we might be calling?
306 if not Is_Entity_Name
(Name
(N
)) then
309 -- Forget it if function name is suspicious. A strange test
310 -- but warning generation is in the heuristics business!
312 elsif Is_Suspicious_Function_Name
(Entity
(Name
(N
))) then
315 -- Forget it if warnings are suppressed on function entity
317 elsif Has_Warnings_Off
(Entity
(Name
(N
))) then
321 -- OK, see if we have one argument
324 PA
: constant List_Id
:= Parameter_Associations
(N
);
327 -- One argument, so check the argument
330 and then List_Length
(PA
) = 1
332 if Nkind
(First
(PA
)) = N_Parameter_Association
then
333 Find_Var
(Explicit_Actual_Parameter
(First
(PA
)));
335 Find_Var
(First
(PA
));
345 -- Any other kind of node is not something we warn for
352 ---------------------
353 -- Has_Indirection --
354 ---------------------
356 function Has_Indirection
(T
: Entity_Id
) return Boolean is
361 if Is_Access_Type
(T
) then
364 elsif Is_Private_Type
(T
)
365 and then Present
(Full_View
(T
))
366 and then Is_Access_Type
(Full_View
(T
))
370 elsif Is_Record_Type
(T
) then
373 elsif Is_Private_Type
(T
)
374 and then Present
(Full_View
(T
))
375 and then Is_Record_Type
(Full_View
(T
))
377 Rec
:= Full_View
(T
);
382 Comp
:= First_Component
(Rec
);
383 while Present
(Comp
) loop
384 if Is_Access_Type
(Etype
(Comp
))
385 or else Is_Descendent_Of_Address
(Etype
(Comp
))
390 Next_Component
(Comp
);
396 ---------------------------------
397 -- Is_Suspicious_Function_Name --
398 ---------------------------------
400 function Is_Suspicious_Function_Name
(E
: Entity_Id
) return Boolean is
403 function Substring_Present
(S
: String) return Boolean;
404 -- Returns True if name buffer has given string delimited by non-
405 -- alphabetic characters or by end of string. S is lower case.
407 -----------------------
408 -- Substring_Present --
409 -----------------------
411 function Substring_Present
(S
: String) return Boolean is
412 Len
: constant Natural := S
'Length;
415 for J
in 1 .. Name_Len
- (Len
- 1) loop
416 if Name_Buffer
(J
.. J
+ (Len
- 1)) = S
419 or else Name_Buffer
(J
- 1) not in 'a' .. 'z')
422 or else Name_Buffer
(J
+ Len
) not in 'a' .. 'z')
429 end Substring_Present
;
431 -- Start of processing for Is_Suspicious_Function_Name
435 while Present
(S
) and then S
/= Standard_Standard
loop
436 Get_Name_String
(Chars
(S
));
438 if Substring_Present
("io")
439 or else Substring_Present
("file")
440 or else Substring_Present
("network")
449 end Is_Suspicious_Function_Name
;
455 function Test_Ref
(N
: Node_Id
) return Traverse_Result
is
457 -- Waste of time to look at the expression we are testing
459 if N
= Expression
then
462 -- Direct reference to variable in question
464 elsif Is_Entity_Name
(N
)
465 and then Present
(Entity
(N
))
466 and then Entity
(N
) = Var
468 -- If this is an lvalue, then definitely abandon, since
469 -- this could be a direct modification of the variable.
471 if May_Be_Lvalue
(N
) then
475 -- If the condition contains a function call, we consider it may
476 -- be modified by side-effects from a procedure call. Otherwise,
477 -- we consider the condition may not be modified, although that
478 -- might happen if Variable is itself a by-reference parameter,
479 -- and the procedure called modifies the global object referred to
480 -- by Variable, but we actually prefer to issue a warning in this
481 -- odd case. Note that the case where the procedure called has
482 -- visibility over Variable is treated in another case below.
484 if Function_Call_Found
then
492 exit when P
= Loop_Statement
;
494 -- Abandon if at procedure call, or something strange is
495 -- going on (perhaps a node with no parent that should
496 -- have one but does not?) As always, for a warning we
497 -- prefer to just abandon the warning than get into the
498 -- business of complaining about the tree structure here!
501 or else Nkind
(P
) = N_Procedure_Call_Statement
509 -- Reference to variable renaming variable in question
511 elsif Is_Entity_Name
(N
)
512 and then Present
(Entity
(N
))
513 and then Ekind
(Entity
(N
)) = E_Variable
514 and then Present
(Renamed_Object
(Entity
(N
)))
515 and then Is_Entity_Name
(Renamed_Object
(Entity
(N
)))
516 and then Entity
(Renamed_Object
(Entity
(N
))) = Var
517 and then May_Be_Lvalue
(N
)
521 -- Call to subprogram
523 elsif Nkind
(N
) in N_Subprogram_Call
then
525 -- If subprogram is within the scope of the entity we are dealing
526 -- with as the loop variable, then it could modify this parameter,
527 -- so we abandon in this case. In the case of a subprogram that is
528 -- not an entity we also abandon. The check for no entity being
529 -- present is a defense against previous errors.
531 if not Is_Entity_Name
(Name
(N
))
532 or else No
(Entity
(Name
(N
)))
533 or else Scope_Within
(Entity
(Name
(N
)), Scope
(Var
))
538 -- If any of the arguments are of type access to subprogram, then
539 -- we may have funny side effects, so no warning in this case.
544 Actual
:= First_Actual
(N
);
545 while Present
(Actual
) loop
546 if Is_Access_Subprogram_Type
(Etype
(Actual
)) then
549 Next_Actual
(Actual
);
554 -- Declaration of the variable in question
556 elsif Nkind
(N
) = N_Object_Declaration
557 and then Defining_Identifier
(N
) = Var
562 -- All OK, continue scan
567 -- Start of processing for Check_Infinite_Loop_Warning
570 -- Skip processing if debug flag gnatd.w is set
572 if Debug_Flag_Dot_W
then
576 -- Deal with Iteration scheme present
579 Iter
: constant Node_Id
:= Iteration_Scheme
(Loop_Statement
);
582 if Present
(Iter
) then
586 if Present
(Condition
(Iter
)) then
588 -- Skip processing for while iteration with conditions actions,
589 -- since they make it too complicated to get the warning right.
591 if Present
(Condition_Actions
(Iter
)) then
595 -- Capture WHILE condition
597 Expression
:= Condition
(Iter
);
599 -- For iteration, do not process, since loop will always terminate
601 elsif Present
(Loop_Parameter_Specification
(Iter
)) then
607 -- Check chain of EXIT statements, we only process loops that have a
608 -- single exit condition (either a single EXIT WHEN statement, or a
609 -- WHILE loop not containing any EXIT WHEN statements).
612 Ident
: constant Node_Id
:= Identifier
(Loop_Statement
);
616 -- If we don't have a proper chain set, ignore call entirely. This
617 -- happens because of previous errors.
619 if No
(Entity
(Ident
))
620 or else Ekind
(Entity
(Ident
)) /= E_Loop
622 Check_Error_Detected
;
626 -- Otherwise prepare to scan list of EXIT statements
628 Exit_Stmt
:= First_Exit_Statement
(Entity
(Ident
));
629 while Present
(Exit_Stmt
) loop
631 -- Check for EXIT WHEN
633 if Present
(Condition
(Exit_Stmt
)) then
635 -- Quit processing if EXIT WHEN in WHILE loop, or more than
636 -- one EXIT WHEN statement present in the loop.
638 if Present
(Expression
) then
641 -- Otherwise capture condition from EXIT WHEN statement
644 Expression
:= Condition
(Exit_Stmt
);
647 -- If an unconditional exit statement is the last statement in the
648 -- loop, assume that no warning is needed, without any attempt at
649 -- checking whether the exit is reachable.
651 elsif Exit_Stmt
= Last
(Statements
(Loop_Statement
)) then
655 Exit_Stmt
:= Next_Exit_Statement
(Exit_Stmt
);
659 -- Return if no condition to test
661 if No
(Expression
) then
665 -- Initial conditions met, see if condition is of right form
667 Find_Var
(Expression
);
669 -- Nothing to do if local variable from source not found. If it's a
670 -- renaming, it is probably renaming something too complicated to deal
674 or else Ekind
(Var
) /= E_Variable
675 or else Is_Library_Level_Entity
(Var
)
676 or else not Comes_From_Source
(Var
)
677 or else Nkind
(Parent
(Var
)) = N_Object_Renaming_Declaration
681 -- Nothing to do if there is some indirection involved (assume that the
682 -- designated variable might be modified in some way we don't see).
683 -- However, if no function call was found, then we don't care about
684 -- indirections, because the condition must be something like "while X
685 -- /= null loop", so we don't care if X.all is modified in the loop.
687 elsif Function_Call_Found
and then Has_Indirection
(Etype
(Var
)) then
690 -- Same sort of thing for volatile variable, might be modified by
691 -- some other task or by the operating system in some way.
693 elsif Is_Volatile
(Var
) then
697 -- Filter out case of original statement sequence starting with delay.
698 -- We assume this is a multi-tasking program and that the condition
699 -- is affected by other threads (some kind of busy wait).
702 Fstm
: constant Node_Id
:=
703 Original_Node
(First
(Statements
(Loop_Statement
)));
705 if Nkind
(Fstm
) = N_Delay_Relative_Statement
706 or else Nkind
(Fstm
) = N_Delay_Until_Statement
712 -- We have a variable reference of the right form, now we scan the loop
713 -- body to see if it looks like it might not be modified
715 if No_Ref_Found
(Loop_Statement
) = OK
then
717 ("??variable& is not modified in loop body!", Ref
, Var
);
719 ("\??possible infinite loop!", Ref
);
721 end Check_Infinite_Loop_Warning
;
723 ----------------------------
724 -- Check_Low_Bound_Tested --
725 ----------------------------
727 procedure Check_Low_Bound_Tested
(Expr
: Node_Id
) is
729 if Comes_From_Source
(Expr
) then
731 L
: constant Node_Id
:= Left_Opnd
(Expr
);
732 R
: constant Node_Id
:= Right_Opnd
(Expr
);
734 if Nkind
(L
) = N_Attribute_Reference
735 and then Attribute_Name
(L
) = Name_First
736 and then Is_Entity_Name
(Prefix
(L
))
737 and then Is_Formal
(Entity
(Prefix
(L
)))
739 Set_Low_Bound_Tested
(Entity
(Prefix
(L
)));
742 if Nkind
(R
) = N_Attribute_Reference
743 and then Attribute_Name
(R
) = Name_First
744 and then Is_Entity_Name
(Prefix
(R
))
745 and then Is_Formal
(Entity
(Prefix
(R
)))
747 Set_Low_Bound_Tested
(Entity
(Prefix
(R
)));
751 end Check_Low_Bound_Tested
;
753 ----------------------
754 -- Check_References --
755 ----------------------
757 procedure Check_References
(E
: Entity_Id
; Anod
: Node_Id
:= Empty
) is
764 Accept_Statement
: Node_Id
) return Entity_Id
;
765 -- For an entry formal entity from an entry declaration, find the
766 -- corresponding body formal from the given accept statement.
768 function Missing_Subunits
return Boolean;
769 -- We suppress warnings when there are missing subunits, because this
770 -- may generate too many false positives: entities in a parent may only
771 -- be referenced in one of the subunits. We make an exception for
772 -- subunits that contain no other stubs.
774 procedure Output_Reference_Error
(M
: String);
775 -- Used to output an error message. Deals with posting the error on the
776 -- body formal in the accept case.
778 function Publicly_Referenceable
(Ent
: Entity_Id
) return Boolean;
779 -- This is true if the entity in question is potentially referenceable
780 -- from another unit. This is true for entities in packages that are at
781 -- the library level.
783 function Warnings_Off_E1
return Boolean;
784 -- Return True if Warnings_Off is set for E1, or for its Etype (E1T),
785 -- or for the base type of E1T.
793 Accept_Statement
: Node_Id
) return Entity_Id
795 Body_Param
: Node_Id
;
799 -- Loop to find matching parameter in accept statement
801 Body_Param
:= First
(Parameter_Specifications
(Accept_Statement
));
802 while Present
(Body_Param
) loop
803 Body_E
:= Defining_Identifier
(Body_Param
);
805 if Chars
(Body_E
) = Chars
(E
) then
812 -- Should never fall through, should always find a match
817 ----------------------
818 -- Missing_Subunits --
819 ----------------------
821 function Missing_Subunits
return Boolean is
825 if not Unloaded_Subunits
then
827 -- Normal compilation, all subunits are present
831 elsif E
/= Main_Unit_Entity
then
833 -- No warnings on a stub that is not the main unit
837 elsif Nkind
(Unit_Declaration_Node
(E
)) in N_Proper_Body
then
838 D
:= First
(Declarations
(Unit_Declaration_Node
(E
)));
839 while Present
(D
) loop
841 -- No warnings if the proper body contains nested stubs
843 if Nkind
(D
) in N_Body_Stub
then
853 -- Missing stubs elsewhere
857 end Missing_Subunits
;
859 ----------------------------
860 -- Output_Reference_Error --
861 ----------------------------
863 procedure Output_Reference_Error
(M
: String) is
865 -- Never issue messages for internal names, nor for renamings
867 if Is_Internal_Name
(Chars
(E1
))
868 or else Nkind
(Parent
(E1
)) = N_Object_Renaming_Declaration
873 -- Don't output message for IN OUT formal unless we have the warning
874 -- flag specifically set. It is a bit odd to distinguish IN OUT
875 -- formals from other cases. This distinction is historical in
876 -- nature. Warnings for IN OUT formals were added fairly late.
878 if Ekind
(E1
) = E_In_Out_Parameter
879 and then not Check_Unreferenced_Formals
884 -- Other than accept case, post error on defining identifier
889 -- Accept case, find body formal to post the message
892 Error_Msg_NE
(M
, Body_Formal
(E1
, Accept_Statement
=> Anod
), E1
);
895 end Output_Reference_Error
;
897 ----------------------------
898 -- Publicly_Referenceable --
899 ----------------------------
901 function Publicly_Referenceable
(Ent
: Entity_Id
) return Boolean is
906 -- A formal parameter is never referenceable outside the body of its
907 -- subprogram or entry.
909 if Is_Formal
(Ent
) then
913 -- Examine parents to look for a library level package spec. But if
914 -- we find a body or block or other similar construct along the way,
915 -- we cannot be referenced.
922 -- If we get to top of tree, then publicly referenceable
927 -- If we reach a generic package declaration, then always
928 -- consider this referenceable, since any instantiation will
929 -- have access to the entities in the generic package. Note
930 -- that the package itself may not be instantiated, but then
931 -- we will get a warning for the package entity.
933 -- Note that generic formal parameters are themselves not
934 -- publicly referenceable in an instance, and warnings on them
937 when N_Generic_Package_Declaration
=>
939 not Is_List_Member
(Prev
)
940 or else List_Containing
(Prev
)
941 /= Generic_Formal_Declarations
(P
);
943 -- Similarly, the generic formals of a generic subprogram are
946 when N_Generic_Subprogram_Declaration
=>
947 if Is_List_Member
(Prev
)
948 and then List_Containing
(Prev
) =
949 Generic_Formal_Declarations
(P
)
956 -- If we reach a subprogram body, entity is not referenceable
957 -- unless it is the defining entity of the body. This will
958 -- happen, e.g. when a function is an attribute renaming that
959 -- is rewritten as a body.
961 when N_Subprogram_Body
=>
962 if Ent
/= Defining_Entity
(P
) then
968 -- If we reach any other body, definitely not referenceable
970 when N_Package_Body |
978 -- For all other cases, keep looking up tree
985 end Publicly_Referenceable
;
987 ---------------------
988 -- Warnings_Off_E1 --
989 ---------------------
991 function Warnings_Off_E1
return Boolean is
993 return Has_Warnings_Off
(E1T
)
994 or else Has_Warnings_Off
(Base_Type
(E1T
))
995 or else Warnings_Off_Check_Spec
(E1
);
998 -- Start of processing for Check_References
1001 -- No messages if warnings are suppressed, or if we have detected any
1002 -- real errors so far (this last check avoids junk messages resulting
1003 -- from errors, e.g. a subunit that is not loaded).
1005 if Warning_Mode
= Suppress
1006 or else Serious_Errors_Detected
/= 0
1011 -- We also skip the messages if any subunits were not loaded (see
1012 -- comment in Sem_Ch10 to understand how this is set, and why it is
1013 -- necessary to suppress the warnings in this case).
1015 if Missing_Subunits
then
1019 -- Otherwise loop through entities, looking for suspicious stuff
1021 E1
:= First_Entity
(E
);
1022 while Present
(E1
) loop
1025 -- We are only interested in source entities. We also don't issue
1026 -- warnings within instances, since the proper place for such
1027 -- warnings is on the template when it is compiled.
1029 if Comes_From_Source
(E1
)
1030 and then Instantiation_Location
(Sloc
(E1
)) = No_Location
1032 -- We are interested in variables and out/in-out parameters, but
1033 -- we exclude protected types, too complicated to worry about.
1035 if Ekind
(E1
) = E_Variable
1037 (Ekind_In
(E1
, E_Out_Parameter
, E_In_Out_Parameter
)
1038 and then not Is_Protected_Type
(Current_Scope
))
1040 -- Case of an unassigned variable
1042 -- First gather any Unset_Reference indication for E1. In the
1043 -- case of a parameter, it is the Spec_Entity that is relevant.
1045 if Ekind
(E1
) = E_Out_Parameter
1046 and then Present
(Spec_Entity
(E1
))
1048 UR
:= Unset_Reference
(Spec_Entity
(E1
));
1050 UR
:= Unset_Reference
(E1
);
1053 -- Special processing for access types
1056 and then Is_Access_Type
(E1T
)
1058 -- For access types, the only time we made a UR entry was
1059 -- for a dereference, and so we post the appropriate warning
1060 -- here (note that the dereference may not be explicit in
1061 -- the source, for example in the case of a dispatching call
1062 -- with an anonymous access controlling formal, or of an
1063 -- assignment of a pointer involving discriminant check on
1064 -- the designated object).
1066 if not Warnings_Off_E1
then
1067 Error_Msg_NE
("??& may be null!", UR
, E1
);
1072 -- Case of variable that could be a constant. Note that we
1073 -- never signal such messages for generic package entities,
1074 -- since a given instance could have modifications outside
1077 elsif Warn_On_Constant
1078 and then (Ekind
(E1
) = E_Variable
1079 and then Has_Initial_Value
(E1
))
1080 and then Never_Set_In_Source_Check_Spec
(E1
)
1081 and then not Address_Taken
(E1
)
1082 and then not Generic_Package_Spec_Entity
(E1
)
1084 -- A special case, if this variable is volatile and not
1085 -- imported, it is not helpful to tell the programmer
1086 -- to mark the variable as constant, since this would be
1087 -- illegal by virtue of RM C.6(13).
1089 if (Is_Volatile
(E1
) or else Has_Volatile_Components
(E1
))
1090 and then not Is_Imported
(E1
)
1093 ("?k?& is not modified, volatile has no effect!", E1
);
1095 -- Another special case, Exception_Occurrence, this catches
1096 -- the case of exception choice (and a bit more too, but not
1097 -- worth doing more investigation here).
1099 elsif Is_RTE
(E1T
, RE_Exception_Occurrence
) then
1102 -- Here we give the warning if referenced and no pragma
1103 -- Unreferenced or Unmodified is present.
1108 if Ekind
(E1
) = E_Variable
then
1109 if Referenced_Check_Spec
(E1
)
1110 and then not Has_Pragma_Unreferenced_Check_Spec
(E1
)
1111 and then not Has_Pragma_Unmodified_Check_Spec
(E1
)
1113 if not Warnings_Off_E1
then
1114 Error_Msg_N
-- CODEFIX
1115 ("?k?& is not modified, "
1116 & "could be declared constant!",
1123 -- Other cases of a variable or parameter never set in source
1125 elsif Never_Set_In_Source_Check_Spec
(E1
)
1127 -- No warning if warning for this case turned off
1129 and then Warn_On_No_Value_Assigned
1131 -- No warning if address taken somewhere
1133 and then not Address_Taken
(E1
)
1135 -- No warning if explicit initial value
1137 and then not Has_Initial_Value
(E1
)
1139 -- No warning for generic package spec entities, since we
1140 -- might set them in a child unit or something like that
1142 and then not Generic_Package_Spec_Entity
(E1
)
1144 -- No warning if fully initialized type, except that for
1145 -- this purpose we do not consider access types to qualify
1146 -- as fully initialized types (relying on an access type
1147 -- variable being null when it is never set is a bit odd!)
1149 -- Also we generate warning for an out parameter that is
1150 -- never referenced, since again it seems odd to rely on
1151 -- default initialization to set an out parameter value.
1153 and then (Is_Access_Type
(E1T
)
1154 or else Ekind
(E1
) = E_Out_Parameter
1155 or else not Is_Fully_Initialized_Type
(E1T
))
1157 -- Do not output complaint about never being assigned a
1158 -- value if a pragma Unmodified applies to the variable
1159 -- we are examining, or if it is a parameter, if there is
1160 -- a pragma Unreferenced for the corresponding spec, or
1161 -- if the type is marked as having unreferenced objects.
1162 -- The last is a little peculiar, but better too few than
1163 -- too many warnings in this situation.
1165 if Has_Pragma_Unreferenced_Objects
(E1T
)
1166 or else Has_Pragma_Unmodified_Check_Spec
(E1
)
1170 -- IN OUT parameter case where parameter is referenced. We
1171 -- separate this out, since this is the case where we delay
1172 -- output of the warning until more information is available
1173 -- (about use in an instantiation or address being taken).
1175 elsif Ekind
(E1
) = E_In_Out_Parameter
1176 and then Referenced_Check_Spec
(E1
)
1178 -- Suppress warning if private type, and the procedure
1179 -- has a separate declaration in a different unit. This
1180 -- is the case where the client of a package sees only
1181 -- the private type, and it may be quite reasonable
1182 -- for the logical view to be IN OUT, even if the
1183 -- implementation ends up using access types or some
1184 -- other method to achieve the local effect of a
1185 -- modification. On the other hand if the spec and body
1186 -- are in the same unit, we are in the package body and
1187 -- there we have less excuse for a junk IN OUT parameter.
1189 if Has_Private_Declaration
(E1T
)
1190 and then Present
(Spec_Entity
(E1
))
1191 and then not In_Same_Source_Unit
(E1
, Spec_Entity
(E1
))
1195 -- Suppress warning for any parameter of a dispatching
1196 -- operation, since it is quite reasonable to have an
1197 -- operation that is overridden, and for some subclasses
1198 -- needs the formal to be IN OUT and for others happens
1199 -- not to assign it.
1201 elsif Is_Dispatching_Operation
1202 (Scope
(Goto_Spec_Entity
(E1
)))
1206 -- Suppress warning if composite type contains any access
1207 -- component, since the logical effect of modifying a
1208 -- parameter may be achieved by modifying a referenced
1211 elsif Is_Composite_Type
(E1T
)
1212 and then Has_Access_Values
(E1T
)
1216 -- Suppress warning on formals of an entry body. All
1217 -- references are attached to the formal in the entry
1218 -- declaration, which are marked Is_Entry_Formal.
1220 elsif Ekind
(Scope
(E1
)) = E_Entry
1221 and then not Is_Entry_Formal
(E1
)
1225 -- OK, looks like warning for an IN OUT parameter that
1226 -- could be IN makes sense, but we delay the output of
1227 -- the warning, pending possibly finding out later on
1228 -- that the associated subprogram is used as a generic
1229 -- actual, or its address/access is taken. In these two
1230 -- cases, we suppress the warning because the context may
1231 -- force use of IN OUT, even if in this particular case
1232 -- the formal is not modified.
1235 In_Out_Warnings
.Append
(E1
);
1238 -- Other cases of formals
1240 elsif Is_Formal
(E1
) then
1241 if not Is_Trivial_Subprogram
(Scope
(E1
)) then
1242 if Referenced_Check_Spec
(E1
) then
1243 if not Has_Pragma_Unmodified_Check_Spec
(E1
)
1244 and then not Warnings_Off_E1
1246 Output_Reference_Error
1247 ("?f?formal parameter& is read but "
1248 & "never assigned!");
1251 elsif not Has_Pragma_Unreferenced_Check_Spec
(E1
)
1252 and then not Warnings_Off_E1
1254 Output_Reference_Error
1255 ("?f?formal parameter& is not referenced!");
1262 if Referenced
(E1
) then
1263 if not Has_Unmodified
(E1
)
1264 and then not Warnings_Off_E1
1266 Output_Reference_Error
1267 ("?v?variable& is read but never assigned!");
1270 elsif not Has_Unreferenced
(E1
)
1271 and then not Warnings_Off_E1
1273 Output_Reference_Error
-- CODEFIX
1274 ("?v?variable& is never read and never assigned!");
1277 -- Deal with special case where this variable is hidden
1278 -- by a loop variable.
1280 if Ekind
(E1
) = E_Variable
1281 and then Present
(Hiding_Loop_Variable
(E1
))
1282 and then not Warnings_Off_E1
1285 ("?v?for loop implicitly declares loop variable!",
1286 Hiding_Loop_Variable
(E1
));
1288 Error_Msg_Sloc
:= Sloc
(E1
);
1290 ("\?v?declaration hides & declared#!",
1291 Hiding_Loop_Variable
(E1
));
1298 -- Check for unset reference
1300 if Warn_On_No_Value_Assigned
and then Present
(UR
) then
1302 -- For other than access type, go back to original node to
1303 -- deal with case where original unset reference has been
1304 -- rewritten during expansion.
1306 -- In some cases, the original node may be a type conversion
1307 -- or qualification, and in this case we want the object
1310 UR
:= Original_Node
(UR
);
1311 while Nkind
(UR
) = N_Type_Conversion
1312 or else Nkind
(UR
) = N_Qualified_Expression
1313 or else Nkind
(UR
) = N_Expression_With_Actions
1315 UR
:= Expression
(UR
);
1318 -- Here we issue the warning, all checks completed
1320 -- If we have a return statement, this was a case of an OUT
1321 -- parameter not being set at the time of the return. (Note:
1322 -- it can't be N_Extended_Return_Statement, because those
1323 -- are only for functions, and functions do not allow OUT
1326 if not Is_Trivial_Subprogram
(Scope
(E1
)) then
1327 if Nkind
(UR
) = N_Simple_Return_Statement
1328 and then not Has_Pragma_Unmodified_Check_Spec
(E1
)
1330 if not Warnings_Off_E1
then
1332 ("?v?OUT parameter& not set before return",
1336 -- If the unset reference is a selected component
1337 -- prefix from source, mention the component as well.
1338 -- If the selected component comes from expansion, all
1339 -- we know is that the entity is not fully initialized
1340 -- at the point of the reference. Locate a random
1341 -- uninitialized component to get a better message.
1343 elsif Nkind
(Parent
(UR
)) = N_Selected_Component
then
1344 Error_Msg_Node_2
:= Selector_Name
(Parent
(UR
));
1346 if not Comes_From_Source
(Parent
(UR
)) then
1351 Comp
:= First_Entity
(E1T
);
1352 while Present
(Comp
) loop
1353 if Ekind
(Comp
) = E_Component
1354 and then Nkind
(Parent
(Comp
)) =
1355 N_Component_Declaration
1356 and then No
(Expression
(Parent
(Comp
)))
1358 Error_Msg_Node_2
:= Comp
;
1367 -- Issue proper warning. This is a case of referencing
1368 -- a variable before it has been explicitly assigned.
1369 -- For access types, UR was only set for dereferences,
1370 -- so the issue is that the value may be null.
1372 if not Is_Trivial_Subprogram
(Scope
(E1
)) then
1373 if not Warnings_Off_E1
then
1374 if Is_Access_Type
(Etype
(Parent
(UR
))) then
1375 Error_Msg_N
("?`&.&` may be null!", UR
);
1378 ("?`&.&` may be referenced before "
1379 & "it has a value!", UR
);
1384 -- All other cases of unset reference active
1386 elsif not Warnings_Off_E1
then
1388 ("?& may be referenced before it has a value!",
1397 -- Then check for unreferenced entities. Note that we are only
1398 -- interested in entities whose Referenced flag is not set.
1400 if not Referenced_Check_Spec
(E1
)
1402 -- If Referenced_As_LHS is set, then that's still interesting
1403 -- (potential "assigned but never read" case), but not if we
1404 -- have pragma Unreferenced, which cancels this warning.
1406 and then (not Referenced_As_LHS_Check_Spec
(E1
)
1407 or else not Has_Unreferenced
(E1
))
1409 -- Check that warnings on unreferenced entities are enabled
1412 ((Check_Unreferenced
and then not Is_Formal
(E1
))
1414 -- Case of warning on unreferenced formal
1417 (Check_Unreferenced_Formals
and then Is_Formal
(E1
))
1419 -- Case of warning on unread variables modified by an
1420 -- assignment, or an OUT parameter if it is the only one.
1423 (Warn_On_Modified_Unread
1424 and then Referenced_As_LHS_Check_Spec
(E1
))
1426 -- Case of warning on any unread OUT parameter (note
1427 -- such indications are only set if the appropriate
1428 -- warning options were set, so no need to recheck here.)
1431 Referenced_As_Out_Parameter_Check_Spec
(E1
))
1433 -- All other entities, including local packages that cannot be
1434 -- referenced from elsewhere, including those declared within a
1437 and then (Is_Object
(E1
)
1441 Ekind
(E1
) = E_Label
1443 Ekind
(E1
) = E_Exception
1445 Ekind
(E1
) = E_Named_Integer
1447 Ekind
(E1
) = E_Named_Real
1449 Is_Overloadable
(E1
)
1451 -- Package case, if the main unit is a package spec
1452 -- or generic package spec, then there may be a
1453 -- corresponding body that references this package
1454 -- in some other file. Otherwise we can be sure
1455 -- that there is no other reference.
1458 (Ekind
(E1
) = E_Package
1460 not Is_Package_Or_Generic_Package
1461 (Cunit_Entity
(Current_Sem_Unit
))))
1463 -- Exclude instantiations, since there is no reason why every
1464 -- entity in an instantiation should be referenced.
1466 and then Instantiation_Location
(Sloc
(E1
)) = No_Location
1468 -- Exclude formal parameters from bodies if the corresponding
1469 -- spec entity has been referenced in the case where there is
1472 and then not (Is_Formal
(E1
)
1473 and then Ekind
(Scope
(E1
)) = E_Subprogram_Body
1474 and then Present
(Spec_Entity
(E1
))
1475 and then Referenced
(Spec_Entity
(E1
)))
1477 -- Consider private type referenced if full view is referenced.
1478 -- If there is not full view, this is a generic type on which
1479 -- warnings are also useful.
1482 not (Is_Private_Type
(E1
)
1483 and then Present
(Full_View
(E1
))
1484 and then Referenced
(Full_View
(E1
)))
1486 -- Don't worry about full view, only about private type
1488 and then not Has_Private_Declaration
(E1
)
1490 -- Eliminate dispatching operations from consideration, we
1491 -- cannot tell if these are referenced or not in any easy
1492 -- manner (note this also catches Adjust/Finalize/Initialize).
1494 and then not Is_Dispatching_Operation
(E1
)
1496 -- Check entity that can be publicly referenced (we do not give
1497 -- messages for such entities, since there could be other
1498 -- units, not involved in this compilation, that contain
1499 -- relevant references.
1501 and then not Publicly_Referenceable
(E1
)
1503 -- Class wide types are marked as source entities, but they are
1504 -- not really source entities, and are always created, so we do
1505 -- not care if they are not referenced.
1507 and then Ekind
(E1
) /= E_Class_Wide_Type
1509 -- Objects other than parameters of task types are allowed to
1510 -- be non-referenced, since they start up tasks!
1512 and then ((Ekind
(E1
) /= E_Variable
1513 and then Ekind
(E1
) /= E_Constant
1514 and then Ekind
(E1
) /= E_Component
)
1515 or else not Is_Task_Type
(E1T
))
1517 -- For subunits, only place warnings on the main unit itself,
1518 -- since parent units are not completely compiled.
1520 and then (Nkind
(Unit
(Cunit
(Main_Unit
))) /= N_Subunit
1521 or else Get_Source_Unit
(E1
) = Main_Unit
)
1523 -- No warning on a return object, because these are often
1524 -- created with a single expression and an implicit return.
1525 -- If the object is a variable there will be a warning
1526 -- indicating that it could be declared constant.
1529 (Ekind
(E1
) = E_Constant
and then Is_Return_Object
(E1
))
1531 -- Suppress warnings in internal units if not in -gnatg mode
1532 -- (these would be junk warnings for an applications program,
1533 -- since they refer to problems in internal units).
1536 or else not Is_Internal_File_Name
1537 (Unit_File_Name
(Get_Source_Unit
(E1
)))
1539 -- We do not immediately flag the error. This is because we
1540 -- have not expanded generic bodies yet, and they may have
1541 -- the missing reference. So instead we park the entity on a
1542 -- list, for later processing. However for the case of an
1543 -- accept statement we want to output messages now, since
1544 -- we know we already have all information at hand, and we
1545 -- also want to have separate warnings for each accept
1546 -- statement for the same entry.
1548 if Present
(Anod
) then
1549 pragma Assert
(Is_Formal
(E1
));
1551 -- The unreferenced entity is E1, but post the warning
1552 -- on the body entity for this accept statement.
1554 if not Warnings_Off_E1
then
1555 Warn_On_Unreferenced_Entity
1556 (E1
, Body_Formal
(E1
, Accept_Statement
=> Anod
));
1559 elsif not Warnings_Off_E1
then
1560 Unreferenced_Entities
.Append
(E1
);
1564 -- Generic units are referenced in the generic body, but if they
1565 -- are not public and never instantiated we want to force a
1566 -- warning on them. We treat them as redundant constructs to
1569 elsif Is_Generic_Subprogram
(E1
)
1570 and then not Is_Instantiated
(E1
)
1571 and then not Publicly_Referenceable
(E1
)
1572 and then Instantiation_Depth
(Sloc
(E1
)) = 0
1573 and then Warn_On_Redundant_Constructs
1575 if not Warnings_Off_E1
then
1576 Unreferenced_Entities
.Append
(E1
);
1578 -- Force warning on entity
1580 Set_Referenced
(E1
, False);
1585 -- Recurse into nested package or block. Do not recurse into a formal
1586 -- package, because the corresponding body is not analyzed.
1589 if (Is_Package_Or_Generic_Package
(E1
)
1590 and then Nkind
(Parent
(E1
)) = N_Package_Specification
1592 Nkind
(Original_Node
(Unit_Declaration_Node
(E1
)))
1593 /= N_Formal_Package_Declaration
)
1595 or else Ekind
(E1
) = E_Block
1597 Check_References
(E1
);
1602 end Check_References
;
1604 ---------------------------
1605 -- Check_Unset_Reference --
1606 ---------------------------
1608 procedure Check_Unset_Reference
(N
: Node_Id
) is
1609 Typ
: constant Entity_Id
:= Etype
(N
);
1611 function Is_OK_Fully_Initialized
return Boolean;
1612 -- This function returns true if the given node N is fully initialized
1613 -- so that the reference is safe as far as this routine is concerned.
1614 -- Safe generally means that the type of N is a fully initialized type.
1615 -- The one special case is that for access types, which are always fully
1616 -- initialized, we don't consider a dereference OK since it will surely
1617 -- be dereferencing a null value, which won't do.
1619 function Prefix_Has_Dereference
(Pref
: Node_Id
) return Boolean;
1620 -- Used to test indexed or selected component or slice to see if the
1621 -- evaluation of the prefix depends on a dereference, and if so, returns
1622 -- True, in which case we always check the prefix, even if we know that
1623 -- the referenced component is initialized. Pref is the prefix to test.
1625 -----------------------------
1626 -- Is_OK_Fully_Initialized --
1627 -----------------------------
1629 function Is_OK_Fully_Initialized
return Boolean is
1631 if Is_Access_Type
(Typ
) and then Is_Dereferenced
(N
) then
1634 return Is_Fully_Initialized_Type
(Typ
);
1636 end Is_OK_Fully_Initialized
;
1638 ----------------------------
1639 -- Prefix_Has_Dereference --
1640 ----------------------------
1642 function Prefix_Has_Dereference
(Pref
: Node_Id
) return Boolean is
1644 -- If prefix is of an access type, it certainly needs a dereference
1646 if Is_Access_Type
(Etype
(Pref
)) then
1649 -- If prefix is explicit dereference, that's a dereference for sure
1651 elsif Nkind
(Pref
) = N_Explicit_Dereference
then
1654 -- If prefix is itself a component reference or slice check prefix
1656 elsif Nkind
(Pref
) = N_Slice
1657 or else Nkind
(Pref
) = N_Indexed_Component
1658 or else Nkind
(Pref
) = N_Selected_Component
1660 return Prefix_Has_Dereference
(Prefix
(Pref
));
1662 -- All other cases do not involve a dereference
1667 end Prefix_Has_Dereference
;
1669 -- Start of processing for Check_Unset_Reference
1672 -- Nothing to do if warnings suppressed
1674 if Warning_Mode
= Suppress
then
1678 -- Nothing to do for numeric or string literal. Do this test early to
1679 -- save time in a common case (it does not matter that we do not include
1680 -- character literal here, since that will be caught later on in the
1681 -- when others branch of the case statement).
1683 if Nkind
(N
) in N_Numeric_Or_String_Literal
then
1687 -- Ignore reference unless it comes from source. Almost always if we
1688 -- have a reference from generated code, it is bogus (e.g. calls to init
1689 -- procs to set default discriminant values).
1691 if not Comes_From_Source
(N
) then
1695 -- Otherwise see what kind of node we have. If the entity already has an
1696 -- unset reference, it is not necessarily the earliest in the text,
1697 -- because resolution of the prefix of selected components is completed
1698 -- before the resolution of the selected component itself. As a result,
1699 -- given (R /= null and then R.X > 0), the occurrences of R are examined
1700 -- in right-to-left order. If there is already an unset reference, we
1701 -- check whether N is earlier before proceeding.
1705 -- For identifier or expanded name, examine the entity involved
1707 when N_Identifier | N_Expanded_Name
=>
1709 E
: constant Entity_Id
:= Entity
(N
);
1712 if (Ekind
(E
) = E_Variable
1714 Ekind
(E
) = E_Out_Parameter
)
1715 and then Never_Set_In_Source_Check_Spec
(E
)
1716 and then not Has_Initial_Value
(E
)
1717 and then (No
(Unset_Reference
(E
))
1719 Earlier_In_Extended_Unit
1720 (Sloc
(N
), Sloc
(Unset_Reference
(E
))))
1721 and then not Has_Pragma_Unmodified_Check_Spec
(E
)
1722 and then not Warnings_Off_Check_Spec
(E
)
1724 -- We may have an unset reference. The first test is whether
1725 -- this is an access to a discriminant of a record or a
1726 -- component with default initialization. Both of these
1727 -- cases can be ignored, since the actual object that is
1728 -- referenced is definitely initialized. Note that this
1729 -- covers the case of reading discriminants of an OUT
1730 -- parameter, which is OK even in Ada 83.
1732 -- Note that we are only interested in a direct reference to
1733 -- a record component here. If the reference is through an
1734 -- access type, then the access object is being referenced,
1735 -- not the record, and still deserves an unset reference.
1737 if Nkind
(Parent
(N
)) = N_Selected_Component
1738 and not Is_Access_Type
(Typ
)
1741 ES
: constant Entity_Id
:=
1742 Entity
(Selector_Name
(Parent
(N
)));
1744 if Ekind
(ES
) = E_Discriminant
1746 (Present
(Declaration_Node
(ES
))
1748 Present
(Expression
(Declaration_Node
(ES
))))
1755 -- Exclude fully initialized types
1757 if Is_OK_Fully_Initialized
then
1761 -- Here we have a potential unset reference. But before we
1762 -- get worried about it, we have to make sure that the
1763 -- entity declaration is in the same procedure as the
1764 -- reference, since if they are in separate procedures, then
1765 -- we have no idea about sequential execution.
1767 -- The tests in the loop below catch all such cases, but do
1768 -- allow the reference to appear in a loop, block, or
1769 -- package spec that is nested within the declaring scope.
1770 -- As always, it is possible to construct cases where the
1771 -- warning is wrong, that is why it is a warning!
1773 Potential_Unset_Reference
: declare
1775 SE
: constant Entity_Id
:= Scope
(E
);
1777 function Within_Postcondition
return Boolean;
1778 -- Returns True iff N is within a Postcondition, an
1779 -- Ensures component in a Test_Case, or a Contract_Cases.
1781 --------------------------
1782 -- Within_Postcondition --
1783 --------------------------
1785 function Within_Postcondition
return Boolean is
1790 while Present
(Nod
) loop
1791 if Nkind
(Nod
) = N_Pragma
1792 and then Nam_In
(Pragma_Name
(Nod
),
1794 Name_Contract_Cases
)
1798 elsif Present
(Parent
(Nod
)) then
1801 if Nkind
(P
) = N_Pragma
1803 Pragma_Name
(P
) = Name_Test_Case
1805 Nod
= Get_Ensures_From_CTC_Pragma
(P
)
1811 Nod
:= Parent
(Nod
);
1815 end Within_Postcondition
;
1817 -- Start of processing for Potential_Unset_Reference
1820 SR
:= Current_Scope
;
1822 if SR
= Standard_Standard
1823 or else Is_Subprogram
(SR
)
1824 or else Is_Concurrent_Body
(SR
)
1825 or else Is_Concurrent_Type
(SR
)
1833 -- Case of reference has an access type. This is a
1834 -- special case since access types are always set to null
1835 -- so cannot be truly uninitialized, but we still want to
1836 -- warn about cases of obvious null dereference.
1838 if Is_Access_Type
(Typ
) then
1839 Access_Type_Case
: declare
1843 (N
: Node_Id
) return Traverse_Result
;
1844 -- Process function for instantiation of Traverse
1845 -- below. Checks if N contains reference to E other
1846 -- than a dereference.
1848 function Ref_In
(Nod
: Node_Id
) return Boolean;
1849 -- Determines whether Nod contains a reference to
1850 -- the entity E that is not a dereference.
1857 (N
: Node_Id
) return Traverse_Result
1860 if Is_Entity_Name
(N
)
1861 and then Entity
(N
) = E
1862 and then not Is_Dereferenced
(N
)
1874 function Ref_In
(Nod
: Node_Id
) return Boolean is
1875 function Traverse
is new Traverse_Func
(Process
);
1877 return Traverse
(Nod
) = Abandon
;
1880 -- Start of processing for Access_Type_Case
1883 -- Don't bother if we are inside an instance, since
1884 -- the compilation of the generic template is where
1885 -- the warning should be issued.
1891 -- Don't bother if this is not the main unit. If we
1892 -- try to give this warning for with'ed units, we
1893 -- get some false positives, since we do not record
1894 -- references in other units.
1896 if not In_Extended_Main_Source_Unit
(E
)
1898 not In_Extended_Main_Source_Unit
(N
)
1903 -- We are only interested in dereferences
1905 if not Is_Dereferenced
(N
) then
1909 -- One more check, don't bother with references
1910 -- that are inside conditional statements or WHILE
1911 -- loops if the condition references the entity in
1912 -- question. This avoids most false positives.
1919 if (Nkind
(P
) = N_If_Statement
1921 Nkind
(P
) = N_Elsif_Part
)
1922 and then Ref_In
(Condition
(P
))
1926 elsif Nkind
(P
) = N_Loop_Statement
1927 and then Present
(Iteration_Scheme
(P
))
1929 Ref_In
(Condition
(Iteration_Scheme
(P
)))
1934 end Access_Type_Case
;
1937 -- One more check, don't bother if we are within a
1938 -- postcondition, since the expression occurs in a
1939 -- place unrelated to the actual test.
1941 if not Within_Postcondition
then
1943 -- Here we definitely have a case for giving a warning
1944 -- for a reference to an unset value. But we don't
1945 -- give the warning now. Instead set Unset_Reference
1946 -- in the identifier involved. The reason for this is
1947 -- that if we find the variable is never ever assigned
1948 -- a value then that warning is more important and
1949 -- there is no point in giving the reference warning.
1951 -- If this is an identifier, set the field directly
1953 if Nkind
(N
) = N_Identifier
then
1954 Set_Unset_Reference
(E
, N
);
1956 -- Otherwise it is an expanded name, so set the field
1957 -- of the actual identifier for the reference.
1960 Set_Unset_Reference
(E
, Selector_Name
(N
));
1963 end Potential_Unset_Reference
;
1967 -- Indexed component or slice
1969 when N_Indexed_Component | N_Slice
=>
1971 -- If prefix does not involve dereferencing an access type, then
1972 -- we know we are OK if the component type is fully initialized,
1973 -- since the component will have been set as part of the default
1976 if not Prefix_Has_Dereference
(Prefix
(N
))
1977 and then Is_OK_Fully_Initialized
1981 -- Look at prefix in access type case, or if the component is not
1982 -- fully initialized.
1985 Check_Unset_Reference
(Prefix
(N
));
1990 when N_Selected_Component
=>
1992 Pref
: constant Node_Id
:= Prefix
(N
);
1993 Ent
: constant Entity_Id
:= Entity
(Selector_Name
(N
));
1996 -- If prefix involves dereferencing an access type, always
1997 -- check the prefix, since the issue then is whether this
1998 -- access value is null.
2000 if Prefix_Has_Dereference
(Pref
) then
2003 -- Always go to prefix if no selector entity is set. Can this
2004 -- happen in the normal case? Not clear, but it definitely can
2005 -- happen in error cases.
2010 -- For a record component, check some cases where we have
2011 -- reasonable cause to consider that the component is known to
2012 -- be or probably is initialized. In this case, we don't care
2013 -- if the prefix itself was explicitly initialized.
2015 -- Discriminants are always considered initialized
2017 elsif Ekind
(Ent
) = E_Discriminant
then
2020 -- An explicitly initialized component is certainly initialized
2022 elsif Nkind
(Parent
(Ent
)) = N_Component_Declaration
2023 and then Present
(Expression
(Parent
(Ent
)))
2027 -- A fully initialized component is initialized
2029 elsif Is_OK_Fully_Initialized
then
2033 -- If none of those cases apply, check the record type prefix
2035 Check_Unset_Reference
(Pref
);
2038 -- For type conversions, qualifications, or expressions with actions,
2039 -- examine the expression.
2041 when N_Type_Conversion |
2042 N_Qualified_Expression |
2043 N_Expression_With_Actions
=>
2044 Check_Unset_Reference
(Expression
(N
));
2046 -- For explicit dereference, always check prefix, which will generate
2047 -- an unset reference (since this is a case of dereferencing null).
2049 when N_Explicit_Dereference
=>
2050 Check_Unset_Reference
(Prefix
(N
));
2052 -- All other cases are not cases of an unset reference
2058 end Check_Unset_Reference
;
2060 ------------------------
2061 -- Check_Unused_Withs --
2062 ------------------------
2064 procedure Check_Unused_Withs
(Spec_Unit
: Unit_Number_Type
:= No_Unit
) is
2070 Munite
: constant Entity_Id
:= Cunit_Entity
(Main_Unit
);
2071 -- This is needed for checking the special renaming case
2073 procedure Check_One_Unit
(Unit
: Unit_Number_Type
);
2074 -- Subsidiary procedure, performs checks for specified unit
2076 --------------------
2077 -- Check_One_Unit --
2078 --------------------
2080 procedure Check_One_Unit
(Unit
: Unit_Number_Type
) is
2081 Is_Visible_Renaming
: Boolean := False;
2084 procedure Check_Inner_Package
(Pack
: Entity_Id
);
2085 -- Pack is a package local to a unit in a with_clause. Both the unit
2086 -- and Pack are referenced. If none of the entities in Pack are
2087 -- referenced, then the only occurrence of Pack is in a USE clause
2088 -- or a pragma, and a warning is worthwhile as well.
2090 function Check_System_Aux
return Boolean;
2091 -- Before giving a warning on a with_clause for System, check whether
2092 -- a system extension is present.
2094 function Find_Package_Renaming
2096 L
: Entity_Id
) return Entity_Id
;
2097 -- The only reference to a context unit may be in a renaming
2098 -- declaration. If this renaming declares a visible entity, do not
2099 -- warn that the context clause could be moved to the body, because
2100 -- the renaming may be intended to re-export the unit.
2102 function Has_Visible_Entities
(P
: Entity_Id
) return Boolean;
2103 -- This function determines if a package has any visible entities.
2104 -- True is returned if there is at least one declared visible entity,
2105 -- otherwise False is returned (e.g. case of only pragmas present).
2107 -------------------------
2108 -- Check_Inner_Package --
2109 -------------------------
2111 procedure Check_Inner_Package
(Pack
: Entity_Id
) is
2113 Un
: constant Node_Id
:= Sinfo
.Unit
(Cnode
);
2115 function Check_Use_Clause
(N
: Node_Id
) return Traverse_Result
;
2116 -- If N is a use_clause for Pack, emit warning
2118 procedure Check_Use_Clauses
is new
2119 Traverse_Proc
(Check_Use_Clause
);
2121 ----------------------
2122 -- Check_Use_Clause --
2123 ----------------------
2125 function Check_Use_Clause
(N
: Node_Id
) return Traverse_Result
is
2129 if Nkind
(N
) = N_Use_Package_Clause
then
2130 Nam
:= First
(Names
(N
));
2131 while Present
(Nam
) loop
2132 if Entity
(Nam
) = Pack
then
2133 Error_Msg_Qual_Level
:= 1;
2134 Error_Msg_NE
-- CODEFIX
2135 ("?u?no entities of package& are referenced!",
2137 Error_Msg_Qual_Level
:= 0;
2145 end Check_Use_Clause
;
2147 -- Start of processing for Check_Inner_Package
2150 E
:= First_Entity
(Pack
);
2151 while Present
(E
) loop
2152 if Referenced_Check_Spec
(E
) then
2159 -- No entities of the package are referenced. Check whether the
2160 -- reference to the package itself is a use clause, and if so
2161 -- place a warning on it.
2163 Check_Use_Clauses
(Un
);
2164 end Check_Inner_Package
;
2166 ----------------------
2167 -- Check_System_Aux --
2168 ----------------------
2170 function Check_System_Aux
return Boolean is
2174 if Chars
(Lunit
) = Name_System
2175 and then Scope
(Lunit
) = Standard_Standard
2176 and then Present_System_Aux
2178 Ent
:= First_Entity
(System_Aux_Id
);
2179 while Present
(Ent
) loop
2180 if Referenced_Check_Spec
(Ent
) then
2189 end Check_System_Aux
;
2191 ---------------------------
2192 -- Find_Package_Renaming --
2193 ---------------------------
2195 function Find_Package_Renaming
2197 L
: Entity_Id
) return Entity_Id
2203 Is_Visible_Renaming
:= False;
2205 E1
:= First_Entity
(P
);
2206 while Present
(E1
) loop
2207 if Ekind
(E1
) = E_Package
2208 and then Renamed_Object
(E1
) = L
2210 Is_Visible_Renaming
:= not Is_Hidden
(E1
);
2213 elsif Ekind
(E1
) = E_Package
2214 and then No
(Renamed_Object
(E1
))
2215 and then not Is_Generic_Instance
(E1
)
2217 R
:= Find_Package_Renaming
(E1
, L
);
2220 Is_Visible_Renaming
:= not Is_Hidden
(R
);
2229 end Find_Package_Renaming
;
2231 --------------------------
2232 -- Has_Visible_Entities --
2233 --------------------------
2235 function Has_Visible_Entities
(P
: Entity_Id
) return Boolean is
2239 -- If unit in context is not a package, it is a subprogram that
2240 -- is not called or a generic unit that is not instantiated
2241 -- in the current unit, and warning is appropriate.
2243 if Ekind
(P
) /= E_Package
then
2247 -- If unit comes from a limited_with clause, look for declaration
2248 -- of shadow entities.
2250 if Present
(Limited_View
(P
)) then
2251 E
:= First_Entity
(Limited_View
(P
));
2253 E
:= First_Entity
(P
);
2257 and then E
/= First_Private_Entity
(P
)
2259 if Comes_From_Source
(E
)
2260 or else Present
(Limited_View
(P
))
2269 end Has_Visible_Entities
;
2271 -- Start of processing for Check_One_Unit
2274 Cnode
:= Cunit
(Unit
);
2276 -- Only do check in units that are part of the extended main unit.
2277 -- This is actually a necessary restriction, because in the case of
2278 -- subprogram acting as its own specification, there can be with's in
2279 -- subunits that we will not see.
2281 if not In_Extended_Main_Source_Unit
(Cnode
) then
2284 -- In configurable run time mode, we remove the bodies of non-inlined
2285 -- subprograms, which may lead to spurious warnings, which are
2286 -- clearly undesirable.
2288 elsif Configurable_Run_Time_Mode
2289 and then Is_Predefined_File_Name
(Unit_File_Name
(Unit
))
2294 -- Loop through context items in this unit
2296 Item
:= First
(Context_Items
(Cnode
));
2297 while Present
(Item
) loop
2298 if Nkind
(Item
) = N_With_Clause
2299 and then not Implicit_With
(Item
)
2300 and then In_Extended_Main_Source_Unit
(Item
)
2302 Lunit
:= Entity
(Name
(Item
));
2304 -- Check if this unit is referenced (skip the check if this
2305 -- is explicitly marked by a pragma Unreferenced).
2307 if not Referenced
(Lunit
)
2308 and then not Has_Unreferenced
(Lunit
)
2310 -- Suppress warnings in internal units if not in -gnatg mode
2311 -- (these would be junk warnings for an application program,
2312 -- since they refer to problems in internal units).
2315 or else not Is_Internal_File_Name
(Unit_File_Name
(Unit
))
2317 -- Here we definitely have a non-referenced unit. If it
2318 -- is the special call for a spec unit, then just set the
2319 -- flag to be read later.
2321 if Unit
= Spec_Unit
then
2322 Set_Unreferenced_In_Spec
(Item
);
2324 -- Otherwise simple unreferenced message, but skip this
2325 -- if no visible entities, because that is most likely a
2326 -- case where warning would be false positive (e.g. a
2327 -- package with only a linker options pragma and nothing
2328 -- else or a pragma elaborate with a body library task).
2330 elsif Has_Visible_Entities
(Entity
(Name
(Item
))) then
2331 Error_Msg_N
-- CODEFIX
2332 ("?u?unit& is not referenced!", Name
(Item
));
2336 -- If main unit is a renaming of this unit, then we consider
2337 -- the with to be OK (obviously it is needed in this case!)
2338 -- This may be transitive: the unit in the with_clause may
2339 -- itself be a renaming, in which case both it and the main
2340 -- unit rename the same ultimate package.
2342 elsif Present
(Renamed_Entity
(Munite
))
2344 (Renamed_Entity
(Munite
) = Lunit
2345 or else Renamed_Entity
(Munite
) = Renamed_Entity
(Lunit
))
2349 -- If this unit is referenced, and it is a package, we do
2350 -- another test, to see if any of the entities in the package
2351 -- are referenced. If none of the entities are referenced, we
2352 -- still post a warning. This occurs if the only use of the
2353 -- package is in a use clause, or in a package renaming
2354 -- declaration. This check is skipped for packages that are
2355 -- renamed in a spec, since the entities in such a package are
2356 -- visible to clients via the renaming.
2358 elsif Ekind
(Lunit
) = E_Package
2359 and then not Renamed_In_Spec
(Lunit
)
2361 -- If Is_Instantiated is set, it means that the package is
2362 -- implicitly instantiated (this is the case of parent
2363 -- instance or an actual for a generic package formal), and
2364 -- this counts as a reference.
2366 if Is_Instantiated
(Lunit
) then
2369 -- If no entities in package, and there is a pragma
2370 -- Elaborate_Body present, then assume that this with is
2371 -- done for purposes of this elaboration.
2373 elsif No
(First_Entity
(Lunit
))
2374 and then Has_Pragma_Elaborate_Body
(Lunit
)
2378 -- Otherwise see if any entities have been referenced
2381 if Limited_Present
(Item
) then
2382 Ent
:= First_Entity
(Limited_View
(Lunit
));
2384 Ent
:= First_Entity
(Lunit
);
2388 -- No more entities, and we did not find one that was
2389 -- referenced. Means we have a definite case of a with
2390 -- none of whose entities was referenced.
2394 -- If in spec, just set the flag
2396 if Unit
= Spec_Unit
then
2397 Set_No_Entities_Ref_In_Spec
(Item
);
2399 elsif Check_System_Aux
then
2402 -- Else give the warning
2406 Has_Unreferenced
(Entity
(Name
(Item
)))
2408 Error_Msg_N
-- CODEFIX
2409 ("?u?no entities of & are referenced!",
2413 -- Look for renamings of this package, and flag
2414 -- them as well. If the original package has
2415 -- warnings off, we suppress the warning on the
2416 -- renaming as well.
2418 Pack
:= Find_Package_Renaming
(Munite
, Lunit
);
2421 and then not Has_Warnings_Off
(Lunit
)
2422 and then not Has_Unreferenced
(Pack
)
2424 Error_Msg_NE
-- CODEFIX
2425 ("?u?no entities of & are referenced!",
2426 Unit_Declaration_Node
(Pack
),
2433 -- Case of entity being referenced. The reference may
2434 -- come from a limited_with_clause, in which case the
2435 -- limited view of the entity carries the flag.
2437 elsif Referenced_Check_Spec
(Ent
)
2438 or else Referenced_As_LHS_Check_Spec
(Ent
)
2439 or else Referenced_As_Out_Parameter_Check_Spec
(Ent
)
2441 (From_Limited_With
(Ent
)
2442 and then Is_Incomplete_Type
(Ent
)
2443 and then Present
(Non_Limited_View
(Ent
))
2444 and then Referenced
(Non_Limited_View
(Ent
)))
2446 -- This means that the with is indeed fine, in that
2447 -- it is definitely needed somewhere, and we can
2448 -- quit worrying about this one...
2450 -- Except for one little detail: if either of the
2451 -- flags was set during spec processing, this is
2452 -- where we complain that the with could be moved
2453 -- from the spec. If the spec contains a visible
2454 -- renaming of the package, inhibit warning to move
2455 -- with_clause to body.
2457 if Ekind
(Munite
) = E_Package_Body
then
2459 Find_Package_Renaming
2460 (Spec_Entity
(Munite
), Lunit
);
2465 -- If a renaming is present in the spec do not warn
2466 -- because the body or child unit may depend on it.
2469 and then Renamed_Entity
(Pack
) = Lunit
2473 elsif Unreferenced_In_Spec
(Item
) then
2474 Error_Msg_N
-- CODEFIX
2475 ("?u?unit& is not referenced in spec!",
2478 elsif No_Entities_Ref_In_Spec
(Item
) then
2479 Error_Msg_N
-- CODEFIX
2480 ("?u?no entities of & are referenced in spec!",
2484 if Ekind
(Ent
) = E_Package
then
2485 Check_Inner_Package
(Ent
);
2491 if not Is_Visible_Renaming
then
2492 Error_Msg_N
-- CODEFIX
2493 ("\?u?with clause might be moved to body!",
2499 -- Move to next entity to continue search
2507 -- For a generic package, the only interesting kind of
2508 -- reference is an instantiation, since entities cannot be
2509 -- referenced directly.
2511 elsif Is_Generic_Unit
(Lunit
) then
2513 -- Unit was never instantiated, set flag for case of spec
2514 -- call, or give warning for normal call.
2516 if not Is_Instantiated
(Lunit
) then
2517 if Unit
= Spec_Unit
then
2518 Set_Unreferenced_In_Spec
(Item
);
2520 Error_Msg_N
-- CODEFIX
2521 ("?u?unit& is never instantiated!", Name
(Item
));
2524 -- If unit was indeed instantiated, make sure that flag is
2525 -- not set showing it was uninstantiated in the spec, and if
2526 -- so, give warning.
2528 elsif Unreferenced_In_Spec
(Item
) then
2530 ("?u?unit& is not instantiated in spec!", Name
(Item
));
2531 Error_Msg_N
-- CODEFIX
2532 ("\?u?with clause can be moved to body!", Name
(Item
));
2541 -- Start of processing for Check_Unused_Withs
2544 if not Opt
.Check_Withs
or else Operating_Mode
= Check_Syntax
then
2548 -- Flag any unused with clauses. For a subunit, check only the units
2549 -- in its context, not those of the parent, which may be needed by other
2550 -- subunits. We will get the full warnings when we compile the parent,
2551 -- but the following is helpful when compiling a subunit by itself.
2553 if Nkind
(Unit
(Cunit
(Main_Unit
))) = N_Subunit
then
2554 if Current_Sem_Unit
= Main_Unit
then
2555 Check_One_Unit
(Main_Unit
);
2561 -- Process specified units
2563 if Spec_Unit
= No_Unit
then
2565 -- For main call, check all units
2567 for Unit
in Main_Unit
.. Last_Unit
loop
2568 Check_One_Unit
(Unit
);
2572 -- For call for spec, check only the spec
2574 Check_One_Unit
(Spec_Unit
);
2576 end Check_Unused_Withs
;
2578 ---------------------------------
2579 -- Generic_Package_Spec_Entity --
2580 ---------------------------------
2582 function Generic_Package_Spec_Entity
(E
: Entity_Id
) return Boolean is
2586 if Is_Package_Body_Entity
(E
) then
2592 if S
= Standard_Standard
then
2595 elsif Ekind
(S
) = E_Generic_Package
then
2598 elsif Ekind
(S
) = E_Package
then
2606 end Generic_Package_Spec_Entity
;
2608 ----------------------
2609 -- Goto_Spec_Entity --
2610 ----------------------
2612 function Goto_Spec_Entity
(E
: Entity_Id
) return Entity_Id
is
2615 and then Present
(Spec_Entity
(E
))
2617 return Spec_Entity
(E
);
2621 end Goto_Spec_Entity
;
2623 --------------------------------------
2624 -- Has_Pragma_Unmodified_Check_Spec --
2625 --------------------------------------
2627 function Has_Pragma_Unmodified_Check_Spec
2628 (E
: Entity_Id
) return Boolean
2631 if Is_Formal
(E
) and then Present
(Spec_Entity
(E
)) then
2633 -- Note: use of OR instead of OR ELSE here is deliberate, we want
2634 -- to mess with Unmodified flags on both body and spec entities.
2636 return Has_Unmodified
(E
)
2638 Has_Unmodified
(Spec_Entity
(E
));
2641 return Has_Unmodified
(E
);
2643 end Has_Pragma_Unmodified_Check_Spec
;
2645 ----------------------------------------
2646 -- Has_Pragma_Unreferenced_Check_Spec --
2647 ----------------------------------------
2649 function Has_Pragma_Unreferenced_Check_Spec
2650 (E
: Entity_Id
) return Boolean
2653 if Is_Formal
(E
) and then Present
(Spec_Entity
(E
)) then
2655 -- Note: use of OR here instead of OR ELSE is deliberate, we want
2656 -- to mess with flags on both entities.
2658 return Has_Unreferenced
(E
)
2660 Has_Unreferenced
(Spec_Entity
(E
));
2663 return Has_Unreferenced
(E
);
2665 end Has_Pragma_Unreferenced_Check_Spec
;
2671 procedure Initialize
is
2673 Warnings_Off_Pragmas
.Init
;
2674 Unreferenced_Entities
.Init
;
2675 In_Out_Warnings
.Init
;
2678 ------------------------------------
2679 -- Never_Set_In_Source_Check_Spec --
2680 ------------------------------------
2682 function Never_Set_In_Source_Check_Spec
(E
: Entity_Id
) return Boolean is
2684 if Is_Formal
(E
) and then Present
(Spec_Entity
(E
)) then
2685 return Never_Set_In_Source
(E
)
2687 Never_Set_In_Source
(Spec_Entity
(E
));
2689 return Never_Set_In_Source
(E
);
2691 end Never_Set_In_Source_Check_Spec
;
2693 -------------------------------------
2694 -- Operand_Has_Warnings_Suppressed --
2695 -------------------------------------
2697 function Operand_Has_Warnings_Suppressed
(N
: Node_Id
) return Boolean is
2699 function Check_For_Warnings
(N
: Node_Id
) return Traverse_Result
;
2700 -- Function used to check one node to see if it is or was originally
2701 -- a reference to an entity for which Warnings are off. If so, Abandon
2702 -- is returned, otherwise OK_Orig is returned to continue the traversal
2703 -- of the original expression.
2705 function Traverse
is new Traverse_Func
(Check_For_Warnings
);
2706 -- Function used to traverse tree looking for warnings
2708 ------------------------
2709 -- Check_For_Warnings --
2710 ------------------------
2712 function Check_For_Warnings
(N
: Node_Id
) return Traverse_Result
is
2713 R
: constant Node_Id
:= Original_Node
(N
);
2716 if Nkind
(R
) in N_Has_Entity
2717 and then Present
(Entity
(R
))
2718 and then Has_Warnings_Off
(Entity
(R
))
2724 end Check_For_Warnings
;
2726 -- Start of processing for Operand_Has_Warnings_Suppressed
2729 return Traverse
(N
) = Abandon
;
2731 -- If any exception occurs, then something has gone wrong, and this is
2732 -- only a minor aesthetic issue anyway, so just say we did not find what
2733 -- we are looking for, rather than blow up.
2738 end Operand_Has_Warnings_Suppressed
;
2740 -----------------------------------------
2741 -- Output_Non_Modified_In_Out_Warnings --
2742 -----------------------------------------
2744 procedure Output_Non_Modified_In_Out_Warnings
is
2746 function No_Warn_On_In_Out
(E
: Entity_Id
) return Boolean;
2747 -- Given a formal parameter entity E, determines if there is a reason to
2748 -- suppress IN OUT warnings (not modified, could be IN) for formals of
2749 -- the subprogram. We suppress these warnings if Warnings Off is set, or
2750 -- if we have seen the address of the subprogram being taken, or if the
2751 -- subprogram is used as a generic actual (in the latter cases the
2752 -- context may force use of IN OUT, even if the parameter is not
2753 -- modifies for this particular case.
2755 -----------------------
2756 -- No_Warn_On_In_Out --
2757 -----------------------
2759 function No_Warn_On_In_Out
(E
: Entity_Id
) return Boolean is
2760 S
: constant Entity_Id
:= Scope
(E
);
2761 SE
: constant Entity_Id
:= Spec_Entity
(E
);
2764 -- Do not warn if address is taken, since funny business may be going
2765 -- on in treating the parameter indirectly as IN OUT.
2767 if Address_Taken
(S
)
2768 or else (Present
(SE
) and then Address_Taken
(Scope
(SE
)))
2772 -- Do not warn if used as a generic actual, since the generic may be
2773 -- what is forcing the use of an "unnecessary" IN OUT.
2775 elsif Used_As_Generic_Actual
(S
)
2776 or else (Present
(SE
) and then Used_As_Generic_Actual
(Scope
(SE
)))
2780 -- Else test warnings off
2782 elsif Warnings_Off_Check_Spec
(S
) then
2785 -- All tests for suppressing warning failed
2790 end No_Warn_On_In_Out
;
2792 -- Start of processing for Output_Non_Modified_In_Out_Warnings
2795 -- Loop through entities for which a warning may be needed
2797 for J
in In_Out_Warnings
.First
.. In_Out_Warnings
.Last
loop
2799 E1
: constant Entity_Id
:= In_Out_Warnings
.Table
(J
);
2802 -- Suppress warning in specific cases (see details in comments for
2803 -- No_Warn_On_In_Out), or if there is a pragma Unmodified.
2805 if Has_Pragma_Unmodified_Check_Spec
(E1
)
2806 or else No_Warn_On_In_Out
(E1
)
2810 -- Here we generate the warning
2813 -- If -gnatwc is set then output message that we could be IN
2815 if not Is_Trivial_Subprogram
(Scope
(E1
)) then
2816 if Warn_On_Constant
then
2818 ("?u?formal parameter & is not modified!", E1
);
2820 ("\?u?mode could be IN instead of `IN OUT`!", E1
);
2822 -- We do not generate warnings for IN OUT parameters
2823 -- unless we have at least -gnatwu. This is deliberately
2824 -- inconsistent with the treatment of variables, but
2825 -- otherwise we get too many unexpected warnings in
2828 elsif Check_Unreferenced
then
2830 ("?u?formal parameter& is read but "
2831 & "never assigned!", E1
);
2835 -- Kill any other warnings on this entity, since this is the
2836 -- one that should dominate any other unreferenced warning.
2838 Set_Warnings_Off
(E1
);
2842 end Output_Non_Modified_In_Out_Warnings
;
2844 ----------------------------------------
2845 -- Output_Obsolescent_Entity_Warnings --
2846 ----------------------------------------
2848 procedure Output_Obsolescent_Entity_Warnings
(N
: Node_Id
; E
: Entity_Id
) is
2849 P
: constant Node_Id
:= Parent
(N
);
2855 -- Do not output message if we are the scope of standard. This means
2856 -- we have a reference from a context clause from when it is originally
2857 -- processed, and that's too early to tell whether it is an obsolescent
2858 -- unit doing the with'ing. In Sem_Ch10.Analyze_Compilation_Unit we make
2859 -- sure that we have a later call when the scope is available. This test
2860 -- also eliminates all messages for use clauses, which is fine (we do
2861 -- not want messages for use clauses, since they are always redundant
2862 -- with respect to the associated with clause).
2864 if S
= Standard_Standard
then
2868 -- Do not output message if we are in scope of an obsolescent package
2872 if Is_Obsolescent
(S
) then
2877 exit when S
= Standard_Standard
;
2880 -- Here we will output the message
2882 Error_Msg_Sloc
:= Sloc
(E
);
2884 -- Case of with clause
2886 if Nkind
(P
) = N_With_Clause
then
2887 if Ekind
(E
) = E_Package
then
2889 ("??with of obsolescent package& declared#", N
, E
);
2890 elsif Ekind
(E
) = E_Procedure
then
2892 ("??with of obsolescent procedure& declared#", N
, E
);
2895 ("??with of obsolescent function& declared#", N
, E
);
2898 -- If we do not have a with clause, then ignore any reference to an
2899 -- obsolescent package name. We only want to give the one warning of
2900 -- withing the package, not one each time it is used to qualify.
2902 elsif Ekind
(E
) = E_Package
then
2905 -- Procedure call statement
2907 elsif Nkind
(P
) = N_Procedure_Call_Statement
then
2909 ("??call to obsolescent procedure& declared#", N
, E
);
2913 elsif Nkind
(P
) = N_Function_Call
then
2915 ("??call to obsolescent function& declared#", N
, E
);
2917 -- Reference to obsolescent type
2919 elsif Is_Type
(E
) then
2921 ("??reference to obsolescent type& declared#", N
, E
);
2923 -- Reference to obsolescent component
2925 elsif Ekind_In
(E
, E_Component
, E_Discriminant
) then
2927 ("??reference to obsolescent component& declared#", N
, E
);
2929 -- Reference to obsolescent variable
2931 elsif Ekind
(E
) = E_Variable
then
2933 ("??reference to obsolescent variable& declared#", N
, E
);
2935 -- Reference to obsolescent constant
2937 elsif Ekind
(E
) = E_Constant
or else Ekind
(E
) in Named_Kind
then
2939 ("??reference to obsolescent constant& declared#", N
, E
);
2941 -- Reference to obsolescent enumeration literal
2943 elsif Ekind
(E
) = E_Enumeration_Literal
then
2945 ("??reference to obsolescent enumeration literal& declared#", N
, E
);
2947 -- Generic message for any other case we missed
2951 ("??reference to obsolescent entity& declared#", N
, E
);
2954 -- Output additional warning if present
2956 for J
in Obsolescent_Warnings
.First
.. Obsolescent_Warnings
.Last
loop
2957 if Obsolescent_Warnings
.Table
(J
).Ent
= E
then
2958 String_To_Name_Buffer
(Obsolescent_Warnings
.Table
(J
).Msg
);
2959 Error_Msg_Strlen
:= Name_Len
;
2960 Error_Msg_String
(1 .. Name_Len
) := Name_Buffer
(1 .. Name_Len
);
2961 Error_Msg_N
("\\??~", N
);
2965 end Output_Obsolescent_Entity_Warnings
;
2967 ----------------------------------
2968 -- Output_Unreferenced_Messages --
2969 ----------------------------------
2971 procedure Output_Unreferenced_Messages
is
2973 for J
in Unreferenced_Entities
.First
..
2974 Unreferenced_Entities
.Last
2976 Warn_On_Unreferenced_Entity
(Unreferenced_Entities
.Table
(J
));
2978 end Output_Unreferenced_Messages
;
2980 -----------------------------------------
2981 -- Output_Unused_Warnings_Off_Warnings --
2982 -----------------------------------------
2984 procedure Output_Unused_Warnings_Off_Warnings
is
2986 for J
in Warnings_Off_Pragmas
.First
.. Warnings_Off_Pragmas
.Last
loop
2988 Wentry
: Warnings_Off_Entry
renames Warnings_Off_Pragmas
.Table
(J
);
2989 N
: Node_Id
renames Wentry
.N
;
2990 E
: Node_Id
renames Wentry
.E
;
2993 -- Turn off Warnings_Off, or we won't get the warning!
2995 Set_Warnings_Off
(E
, False);
2997 -- Nothing to do if pragma was used to suppress a general warning
2999 if Warnings_Off_Used
(E
) then
3002 -- If pragma was used both in unmodified and unreferenced contexts
3003 -- then that's as good as the general case, no warning.
3005 elsif Warnings_Off_Used_Unmodified
(E
)
3007 Warnings_Off_Used_Unreferenced
(E
)
3011 -- Used only in context where Unmodified would have worked
3013 elsif Warnings_Off_Used_Unmodified
(E
) then
3015 ("?W?could use Unmodified instead of "
3016 & "Warnings Off for &", Pragma_Identifier
(N
), E
);
3018 -- Used only in context where Unreferenced would have worked
3020 elsif Warnings_Off_Used_Unreferenced
(E
) then
3022 ("?W?could use Unreferenced instead of "
3023 & "Warnings Off for &", Pragma_Identifier
(N
), E
);
3029 ("?W?pragma Warnings Off for & unused, "
3030 & "could be omitted", N
, E
);
3034 end Output_Unused_Warnings_Off_Warnings
;
3036 ---------------------------
3037 -- Referenced_Check_Spec --
3038 ---------------------------
3040 function Referenced_Check_Spec
(E
: Entity_Id
) return Boolean is
3042 if Is_Formal
(E
) and then Present
(Spec_Entity
(E
)) then
3043 return Referenced
(E
) or else Referenced
(Spec_Entity
(E
));
3045 return Referenced
(E
);
3047 end Referenced_Check_Spec
;
3049 ----------------------------------
3050 -- Referenced_As_LHS_Check_Spec --
3051 ----------------------------------
3053 function Referenced_As_LHS_Check_Spec
(E
: Entity_Id
) return Boolean is
3055 if Is_Formal
(E
) and then Present
(Spec_Entity
(E
)) then
3056 return Referenced_As_LHS
(E
)
3057 or else Referenced_As_LHS
(Spec_Entity
(E
));
3059 return Referenced_As_LHS
(E
);
3061 end Referenced_As_LHS_Check_Spec
;
3063 --------------------------------------------
3064 -- Referenced_As_Out_Parameter_Check_Spec --
3065 --------------------------------------------
3067 function Referenced_As_Out_Parameter_Check_Spec
3068 (E
: Entity_Id
) return Boolean
3071 if Is_Formal
(E
) and then Present
(Spec_Entity
(E
)) then
3072 return Referenced_As_Out_Parameter
(E
)
3073 or else Referenced_As_Out_Parameter
(Spec_Entity
(E
));
3075 return Referenced_As_Out_Parameter
(E
);
3077 end Referenced_As_Out_Parameter_Check_Spec
;
3079 -----------------------------
3080 -- Warn_On_Known_Condition --
3081 -----------------------------
3083 procedure Warn_On_Known_Condition
(C
: Node_Id
) is
3085 Orig
: constant Node_Id
:= Original_Node
(C
);
3086 Test_Result
: Boolean;
3088 function Is_Known_Branch
return Boolean;
3089 -- If the type of the condition is Boolean, the constant value of the
3090 -- condition is a boolean literal. If the type is a derived boolean
3091 -- type, the constant is wrapped in a type conversion of the derived
3092 -- literal. If the value of the condition is not a literal, no warnings
3093 -- can be produced. This function returns True if the result can be
3094 -- determined, and Test_Result is set True/False accordingly. Otherwise
3095 -- False is returned, and Test_Result is unchanged.
3097 procedure Track
(N
: Node_Id
; Loc
: Node_Id
);
3098 -- Adds continuation warning(s) pointing to reason (assignment or test)
3099 -- for the operand of the conditional having a known value (or at least
3100 -- enough is known about the value to issue the warning). N is the node
3101 -- which is judged to have a known value. Loc is the warning location.
3103 ---------------------
3104 -- Is_Known_Branch --
3105 ---------------------
3107 function Is_Known_Branch
return Boolean is
3109 if Etype
(C
) = Standard_Boolean
3110 and then Is_Entity_Name
(C
)
3112 (Entity
(C
) = Standard_False
or else Entity
(C
) = Standard_True
)
3114 Test_Result
:= Entity
(C
) = Standard_True
;
3117 elsif Is_Boolean_Type
(Etype
(C
))
3118 and then Nkind
(C
) = N_Unchecked_Type_Conversion
3119 and then Is_Entity_Name
(Expression
(C
))
3120 and then Ekind
(Entity
(Expression
(C
))) = E_Enumeration_Literal
3123 Chars
(Entity
(Expression
(C
))) = Chars
(Standard_True
);
3129 end Is_Known_Branch
;
3135 procedure Track
(N
: Node_Id
; Loc
: Node_Id
) is
3136 Nod
: constant Node_Id
:= Original_Node
(N
);
3139 if Nkind
(Nod
) in N_Op_Compare
then
3140 Track
(Left_Opnd
(Nod
), Loc
);
3141 Track
(Right_Opnd
(Nod
), Loc
);
3143 elsif Is_Entity_Name
(Nod
)
3144 and then Is_Object
(Entity
(Nod
))
3147 CV
: constant Node_Id
:= Current_Value
(Entity
(Nod
));
3150 if Present
(CV
) then
3151 Error_Msg_Sloc
:= Sloc
(CV
);
3153 if Nkind
(CV
) not in N_Subexpr
then
3154 Error_Msg_N
("\\?(see test #)", Loc
);
3156 elsif Nkind
(Parent
(CV
)) =
3157 N_Case_Statement_Alternative
3159 Error_Msg_N
("\\?(see case alternative #)", Loc
);
3162 Error_Msg_N
("\\?(see assignment #)", Loc
);
3169 -- Start of processing for Warn_On_Known_Condition
3172 -- Adjust SCO condition if from source
3175 and then Comes_From_Source
(Orig
)
3176 and then Is_Known_Branch
3182 Atrue
:= Test_Result
;
3184 if Present
(Parent
(C
)) and then Nkind
(Parent
(C
)) = N_Op_Not
then
3188 Set_SCO_Condition
(Orig
, Atrue
);
3192 -- Argument replacement in an inlined body can make conditions static.
3193 -- Do not emit warnings in this case.
3195 if In_Inlined_Body
then
3199 if Constant_Condition_Warnings
3200 and then Is_Known_Branch
3201 and then Comes_From_Source
(Orig
)
3202 and then not In_Instance
3204 -- Don't warn if comparison of result of attribute against a constant
3205 -- value, since this is likely legitimate conditional compilation.
3207 if Nkind
(Orig
) in N_Op_Compare
3208 and then Compile_Time_Known_Value
(Right_Opnd
(Orig
))
3209 and then Nkind
(Original_Node
(Left_Opnd
(Orig
))) =
3210 N_Attribute_Reference
3215 -- See if this is in a statement or a declaration
3219 -- If tree is not attached, do not issue warning (this is very
3220 -- peculiar, and probably arises from some other error condition)
3225 -- If we are in a declaration, then no warning, since in practice
3226 -- conditionals in declarations are used for intended tests which
3227 -- may be known at compile time, e.g. things like
3229 -- x : constant Integer := 2 + (Word'Size = 32);
3231 -- And a warning is annoying in such cases
3233 elsif Nkind
(P
) in N_Declaration
3235 Nkind
(P
) in N_Later_Decl_Item
3239 -- Don't warn in assert or check pragma, since presumably tests in
3240 -- such a context are very definitely intended, and might well be
3241 -- known at compile time. Note that we have to test the original
3242 -- node, since assert pragmas get rewritten at analysis time.
3244 elsif Nkind
(Original_Node
(P
)) = N_Pragma
3245 and then Nam_In
(Pragma_Name
(Original_Node
(P
)), Name_Assert
,
3251 exit when Is_Statement
(P
);
3255 -- Here we issue the warning unless some sub-operand has warnings
3256 -- set off, in which case we suppress the warning for the node. If
3257 -- the original expression is an inequality, it has been expanded
3258 -- into a negation, and the value of the original expression is the
3259 -- negation of the equality. If the expression is an entity that
3260 -- appears within a negation, it is clearer to flag the negation
3261 -- itself, and report on its constant value.
3263 if not Operand_Has_Warnings_Suppressed
(C
) then
3265 True_Branch
: Boolean := Test_Result
;
3266 Cond
: Node_Id
:= C
;
3269 if Present
(Parent
(C
))
3270 and then Nkind
(Parent
(C
)) = N_Op_Not
3272 True_Branch
:= not True_Branch
;
3277 if Is_Entity_Name
(Original_Node
(C
))
3278 and then Nkind
(Cond
) /= N_Op_Not
3281 ("object & is always True?c?", Cond
, Original_Node
(C
));
3282 Track
(Original_Node
(C
), Cond
);
3285 Error_Msg_N
("condition is always True?c?", Cond
);
3290 Error_Msg_N
("condition is always False?c?", Cond
);
3296 end Warn_On_Known_Condition
;
3298 ---------------------------------------
3299 -- Warn_On_Modified_As_Out_Parameter --
3300 ---------------------------------------
3302 function Warn_On_Modified_As_Out_Parameter
(E
: Entity_Id
) return Boolean is
3305 (Warn_On_Modified_Unread
and then Is_Only_Out_Parameter
(E
))
3306 or else Warn_On_All_Unread_Out_Parameters
;
3307 end Warn_On_Modified_As_Out_Parameter
;
3309 ---------------------------------
3310 -- Warn_On_Overlapping_Actuals --
3311 ---------------------------------
3313 procedure Warn_On_Overlapping_Actuals
(Subp
: Entity_Id
; N
: Node_Id
) is
3314 Act1
, Act2
: Node_Id
;
3315 Form1
, Form2
: Entity_Id
;
3317 function Is_Covered_Formal
(Formal
: Node_Id
) return Boolean;
3318 -- Return True if Formal is covered by the rule
3320 function Refer_Same_Object
(Act1
, Act2
: Node_Id
) return Boolean;
3321 -- Two names are known to refer to the same object if the two names
3322 -- are known to denote the same object; or one of the names is a
3323 -- selected_component, indexed_component, or slice and its prefix is
3324 -- known to refer to the same object as the other name; or one of the
3325 -- two names statically denotes a renaming declaration whose renamed
3326 -- object_name is known to refer to the same object as the other name
3327 -- (RM 6.4.1(6.11/3))
3329 -----------------------
3330 -- Refer_Same_Object --
3331 -----------------------
3333 function Refer_Same_Object
(Act1
, Act2
: Node_Id
) return Boolean is
3335 return Denotes_Same_Object
(Act1
, Act2
)
3336 or else Denotes_Same_Prefix
(Act1
, Act2
);
3337 end Refer_Same_Object
;
3339 -----------------------
3340 -- Is_Covered_Formal --
3341 -----------------------
3343 function Is_Covered_Formal
(Formal
: Node_Id
) return Boolean is
3346 Ekind_In
(Formal
, E_Out_Parameter
, E_In_Out_Parameter
)
3347 and then (Is_Elementary_Type
(Etype
(Formal
))
3348 or else Is_Record_Type
(Etype
(Formal
))
3349 or else Is_Array_Type
(Etype
(Formal
)));
3350 end Is_Covered_Formal
;
3353 if Ada_Version
< Ada_2012
and then not Warn_On_Overlap
then
3357 -- Exclude calls rewritten as enumeration literals
3359 if Nkind
(N
) not in N_Subprogram_Call
3360 and then Nkind
(N
) /= N_Entry_Call_Statement
3365 -- If a call C has two or more parameters of mode in out or out that are
3366 -- of an elementary type, then the call is legal only if for each name
3367 -- N that is passed as a parameter of mode in out or out to the call C,
3368 -- there is no other name among the other parameters of mode in out or
3369 -- out to C that is known to denote the same object (RM 6.4.1(6.15/3))
3371 -- If appropriate warning switch is set, we also report warnings on
3372 -- overlapping parameters that are record types or array types.
3374 Form1
:= First_Formal
(Subp
);
3375 Act1
:= First_Actual
(N
);
3376 while Present
(Form1
) and then Present
(Act1
) loop
3377 if Is_Covered_Formal
(Form1
) then
3378 Form2
:= First_Formal
(Subp
);
3379 Act2
:= First_Actual
(N
);
3380 while Present
(Form2
) and then Present
(Act2
) loop
3382 and then Is_Covered_Formal
(Form2
)
3383 and then Refer_Same_Object
(Act1
, Act2
)
3385 -- Guard against previous errors
3388 or else No
(Etype
(Act1
))
3389 or else No
(Etype
(Act2
))
3393 -- If the actual is a function call in prefix notation,
3394 -- there is no real overlap.
3396 elsif Nkind
(Act2
) = N_Function_Call
then
3399 -- If type is not by-copy, assume that aliasing is intended
3402 Present
(Underlying_Type
(Etype
(Form1
)))
3404 (Is_By_Reference_Type
(Underlying_Type
(Etype
(Form1
)))
3406 Convention
(Underlying_Type
(Etype
(Form1
))) =
3407 Convention_Ada_Pass_By_Reference
)
3411 -- Under Ada 2012 we only report warnings on overlapping
3412 -- arrays and record types if switch is set.
3414 elsif Ada_Version
>= Ada_2012
3415 and then not Is_Elementary_Type
(Etype
(Form1
))
3416 and then not Warn_On_Overlap
3420 -- Here we may need to issue overlap message
3425 -- Overlap checking is an error only in Ada 2012. For
3426 -- earlier versions of Ada, this is a warning.
3428 Ada_Version
< Ada_2012
3430 -- Overlap is only illegal in Ada 2012 in the case of
3431 -- elementary types (passed by copy). For other types,
3432 -- we always have a warning in all Ada versions.
3434 or else not Is_Elementary_Type
(Etype
(Form1
))
3436 -- Finally, debug flag -gnatd.E changes the error to a
3437 -- warning even in Ada 2012 mode.
3439 or else Error_To_Warning
;
3446 -- Find matching actual
3448 Act
:= First_Actual
(N
);
3449 Form
:= First_Formal
(Subp
);
3450 while Act
/= Act2
loop
3455 if Is_Elementary_Type
(Etype
(Act1
))
3456 and then Ekind
(Form2
) = E_In_Parameter
3458 null; -- No real aliasing
3460 elsif Is_Elementary_Type
(Etype
(Act2
))
3461 and then Ekind
(Form2
) = E_In_Parameter
3465 -- If the call was written in prefix notation, and
3466 -- thus its prefix before rewriting was a selected
3467 -- component, count only visible actuals in the call.
3469 elsif Is_Entity_Name
(First_Actual
(N
))
3470 and then Nkind
(Original_Node
(N
)) = Nkind
(N
)
3471 and then Nkind
(Name
(Original_Node
(N
))) =
3472 N_Selected_Component
3474 Is_Entity_Name
(Prefix
(Name
(Original_Node
(N
))))
3476 Entity
(Prefix
(Name
(Original_Node
(N
)))) =
3477 Entity
(First_Actual
(N
))
3479 if Act1
= First_Actual
(N
) then
3481 ("<`IN OUT` prefix overlaps with "
3482 & "actual for&", Act1
, Form
);
3485 -- For greater clarity, give name of formal
3487 Error_Msg_Node_2
:= Form
;
3489 ("<writable actual for & overlaps with "
3490 & "actual for&", Act1
, Form
);
3494 -- For greater clarity, give name of formal
3496 Error_Msg_Node_2
:= Form
;
3498 -- This is one of the messages
3501 ("<writable actual for & overlaps with "
3502 & "actual for&", Act1
, Form1
);
3510 Next_Formal
(Form2
);
3515 Next_Formal
(Form1
);
3518 end Warn_On_Overlapping_Actuals
;
3520 ------------------------------
3521 -- Warn_On_Suspicious_Index --
3522 ------------------------------
3524 procedure Warn_On_Suspicious_Index
(Name
: Entity_Id
; X
: Node_Id
) is
3527 -- Set to lower bound for a suspicious type
3530 -- Entity for array reference
3535 function Is_Suspicious_Type
(Typ
: Entity_Id
) return Boolean;
3536 -- Tests to see if Typ is a type for which we may have a suspicious
3537 -- index, namely an unconstrained array type, whose lower bound is
3538 -- either zero or one. If so, True is returned, and Low_Bound is set
3539 -- to this lower bound. If not, False is returned, and Low_Bound is
3540 -- undefined on return.
3542 -- For now, we limit this to standard string types, so any other
3543 -- unconstrained types return False. We may change our minds on this
3544 -- later on, but strings seem the most important case.
3546 procedure Test_Suspicious_Index
;
3547 -- Test if index is of suspicious type and if so, generate warning
3549 ------------------------
3550 -- Is_Suspicious_Type --
3551 ------------------------
3553 function Is_Suspicious_Type
(Typ
: Entity_Id
) return Boolean is
3557 if Is_Array_Type
(Typ
)
3558 and then not Is_Constrained
(Typ
)
3559 and then Number_Dimensions
(Typ
) = 1
3560 and then (Root_Type
(Typ
) = Standard_String
3562 Root_Type
(Typ
) = Standard_Wide_String
3564 Root_Type
(Typ
) = Standard_Wide_Wide_String
)
3565 and then not Has_Warnings_Off
(Typ
)
3567 LB
:= Type_Low_Bound
(Etype
(First_Index
(Typ
)));
3569 if Compile_Time_Known_Value
(LB
) then
3570 Low_Bound
:= Expr_Value
(LB
);
3571 return Low_Bound
= Uint_0
or else Low_Bound
= Uint_1
;
3576 end Is_Suspicious_Type
;
3578 ---------------------------
3579 -- Test_Suspicious_Index --
3580 ---------------------------
3582 procedure Test_Suspicious_Index
is
3584 function Length_Reference
(N
: Node_Id
) return Boolean;
3585 -- Check if node N is of the form Name'Length
3588 -- Generate first warning line
3590 ----------------------
3591 -- Length_Reference --
3592 ----------------------
3594 function Length_Reference
(N
: Node_Id
) return Boolean is
3595 R
: constant Node_Id
:= Original_Node
(N
);
3598 Nkind
(R
) = N_Attribute_Reference
3599 and then Attribute_Name
(R
) = Name_Length
3600 and then Is_Entity_Name
(Prefix
(R
))
3601 and then Entity
(Prefix
(R
)) = Ent
;
3602 end Length_Reference
;
3610 Error_Msg_Uint_1
:= Low_Bound
;
3611 Error_Msg_FE
-- CODEFIX
3612 ("?w?index for& may assume lower bound of^", X
, Ent
);
3615 -- Start of processing for Test_Suspicious_Index
3618 -- Nothing to do if subscript does not come from source (we don't
3619 -- want to give garbage warnings on compiler expanded code, e.g. the
3620 -- loops generated for slice assignments. Such junk warnings would
3621 -- be placed on source constructs with no subscript in sight!)
3623 if not Comes_From_Source
(Original_Node
(X
)) then
3627 -- Case where subscript is a constant integer
3629 if Nkind
(X
) = N_Integer_Literal
then
3632 -- Case where original form of subscript is an integer literal
3634 if Nkind
(Original_Node
(X
)) = N_Integer_Literal
then
3635 if Intval
(X
) = Low_Bound
then
3636 Error_Msg_FE
-- CODEFIX
3637 ("\?w?suggested replacement: `&''First`", X
, Ent
);
3639 Error_Msg_Uint_1
:= Intval
(X
) - Low_Bound
;
3640 Error_Msg_FE
-- CODEFIX
3641 ("\?w?suggested replacement: `&''First + ^`", X
, Ent
);
3645 -- Case where original form of subscript is more complex
3648 -- Build string X'First - 1 + expression where the expression
3649 -- is the original subscript. If the expression starts with "1
3650 -- + ", then the "- 1 + 1" is elided.
3652 Error_Msg_String
(1 .. 13) := "'First - 1 + ";
3653 Error_Msg_Strlen
:= 13;
3656 Sref
: Source_Ptr
:= Sloc
(First_Node
(Original_Node
(X
)));
3657 Tref
: constant Source_Buffer_Ptr
:=
3658 Source_Text
(Get_Source_File_Index
(Sref
));
3659 -- Tref (Sref) is used to scan the subscript
3662 -- Parentheses counter when scanning subscript
3665 -- Tref (Sref) points to start of subscript
3667 -- Elide - 1 if subscript starts with 1 +
3669 if Tref
(Sref
.. Sref
+ 2) = "1 +" then
3670 Error_Msg_Strlen
:= Error_Msg_Strlen
- 6;
3673 elsif Tref
(Sref
.. Sref
+ 1) = "1+" then
3674 Error_Msg_Strlen
:= Error_Msg_Strlen
- 6;
3678 -- Now we will copy the subscript to the string buffer
3682 -- Count parens, exit if terminating right paren. Note
3683 -- check to ignore paren appearing as character literal.
3685 if Tref
(Sref
+ 1) = '''
3687 Tref
(Sref
- 1) = '''
3691 if Tref
(Sref
) = '(' then
3693 elsif Tref
(Sref
) = ')' then
3699 -- Done if terminating double dot (slice case)
3702 and then (Tref
(Sref
.. Sref
+ 1) = ".."
3704 Tref
(Sref
.. Sref
+ 2) = " ..");
3706 -- Quit if we have hit EOF character, something wrong
3708 if Tref
(Sref
) = EOF
then
3712 -- String literals are too much of a pain to handle
3714 if Tref
(Sref
) = '"' or else Tref
(Sref
) = '%' then
3718 -- If we have a 'Range reference, then this is a case
3719 -- where we cannot easily give a replacement. Don't try!
3721 if Tref
(Sref
.. Sref
+ 4) = "range"
3722 and then Tref
(Sref
- 1) < 'A'
3723 and then Tref
(Sref
+ 5) < 'A'
3728 -- Else store next character
3730 Error_Msg_Strlen
:= Error_Msg_Strlen
+ 1;
3731 Error_Msg_String
(Error_Msg_Strlen
) := Tref
(Sref
);
3734 -- If we get more than 40 characters then the expression
3735 -- is too long to copy, or something has gone wrong. In
3736 -- either case, just skip the attempt at a suggested fix.
3738 if Error_Msg_Strlen
> 40 then
3744 -- Replacement subscript is now in string buffer
3746 Error_Msg_FE
-- CODEFIX
3747 ("\?w?suggested replacement: `&~`", Original_Node
(X
), Ent
);
3750 -- Case where subscript is of the form X'Length
3752 elsif Length_Reference
(X
) then
3754 Error_Msg_Node_2
:= Ent
;
3756 ("\?w?suggest replacement of `&''Length` by `&''Last`",
3759 -- Case where subscript is of the form X'Length - expression
3761 elsif Nkind
(X
) = N_Op_Subtract
3762 and then Length_Reference
(Left_Opnd
(X
))
3765 Error_Msg_Node_2
:= Ent
;
3767 ("\?w?suggest replacement of `&''Length` by `&''Last`",
3768 Left_Opnd
(X
), Ent
);
3770 end Test_Suspicious_Index
;
3772 -- Start of processing for Warn_On_Suspicious_Index
3775 -- Only process if warnings activated
3777 if Warn_On_Assumed_Low_Bound
then
3779 -- Test if array is simple entity name
3781 if Is_Entity_Name
(Name
) then
3783 -- Test if array is parameter of unconstrained string type
3785 Ent
:= Entity
(Name
);
3789 and then Is_Suspicious_Type
(Typ
)
3790 and then not Low_Bound_Tested
(Ent
)
3792 Test_Suspicious_Index
;
3796 end Warn_On_Suspicious_Index
;
3798 --------------------------------------
3799 -- Warn_On_Unassigned_Out_Parameter --
3800 --------------------------------------
3802 procedure Warn_On_Unassigned_Out_Parameter
3803 (Return_Node
: Node_Id
;
3804 Scope_Id
: Entity_Id
)
3810 -- Ignore if procedure or return statement does not come from source
3812 if not Comes_From_Source
(Scope_Id
)
3813 or else not Comes_From_Source
(Return_Node
)
3818 -- Loop through formals
3820 Form
:= First_Formal
(Scope_Id
);
3821 while Present
(Form
) loop
3823 -- We are only interested in OUT parameters that come from source
3824 -- and are never set in the source, and furthermore only in scalars
3825 -- since non-scalars generate too many false positives.
3827 if Ekind
(Form
) = E_Out_Parameter
3828 and then Never_Set_In_Source_Check_Spec
(Form
)
3829 and then Is_Scalar_Type
(Etype
(Form
))
3830 and then not Present
(Unset_Reference
(Form
))
3832 -- Before we issue the warning, an add ad hoc defence against the
3833 -- most common case of false positives with this warning which is
3834 -- the case where there is a Boolean OUT parameter that has been
3835 -- set, and whose meaning is "ignore the values of the other
3836 -- parameters". We can't of course reliably tell this case at
3837 -- compile time, but the following test kills a lot of false
3838 -- positives, without generating a significant number of false
3839 -- negatives (missed real warnings).
3841 Form2
:= First_Formal
(Scope_Id
);
3842 while Present
(Form2
) loop
3843 if Ekind
(Form2
) = E_Out_Parameter
3844 and then Root_Type
(Etype
(Form2
)) = Standard_Boolean
3845 and then not Never_Set_In_Source_Check_Spec
(Form2
)
3850 Next_Formal
(Form2
);
3853 -- Here all conditions are met, record possible unset reference
3855 Set_Unset_Reference
(Form
, Return_Node
);
3860 end Warn_On_Unassigned_Out_Parameter
;
3862 ---------------------------------
3863 -- Warn_On_Unreferenced_Entity --
3864 ---------------------------------
3866 procedure Warn_On_Unreferenced_Entity
3867 (Spec_E
: Entity_Id
;
3868 Body_E
: Entity_Id
:= Empty
)
3870 E
: Entity_Id
:= Spec_E
;
3873 if not Referenced_Check_Spec
(E
)
3874 and then not Has_Pragma_Unreferenced_Check_Spec
(E
)
3875 and then not Warnings_Off_Check_Spec
(E
)
3880 -- Case of variable that is assigned but not read. We suppress
3881 -- the message if the variable is volatile, has an address
3882 -- clause, is aliased, or is a renaming, or is imported.
3884 if Referenced_As_LHS_Check_Spec
(E
)
3885 and then No
(Address_Clause
(E
))
3886 and then not Is_Volatile
(E
)
3888 if Warn_On_Modified_Unread
3889 and then not Is_Imported
(E
)
3890 and then not Is_Aliased
(E
)
3891 and then No
(Renamed_Object
(E
))
3893 if not Has_Pragma_Unmodified_Check_Spec
(E
) then
3894 Error_Msg_N
-- CODEFIX
3895 ("?u?variable & is assigned but never read!", E
);
3898 Set_Last_Assignment
(E
, Empty
);
3901 -- Normal case of neither assigned nor read (exclude variables
3902 -- referenced as out parameters, since we already generated
3903 -- appropriate warnings at the call point in this case).
3905 elsif not Referenced_As_Out_Parameter
(E
) then
3907 -- We suppress the message for types for which a valid
3908 -- pragma Unreferenced_Objects has been given, otherwise
3909 -- we go ahead and give the message.
3911 if not Has_Pragma_Unreferenced_Objects
(Etype
(E
)) then
3913 -- Distinguish renamed case in message
3915 if Present
(Renamed_Object
(E
))
3916 and then Comes_From_Source
(Renamed_Object
(E
))
3918 Error_Msg_N
-- CODEFIX
3919 ("?u?renamed variable & is not referenced!", E
);
3921 Error_Msg_N
-- CODEFIX
3922 ("?u?variable & is not referenced!", E
);
3928 if Present
(Renamed_Object
(E
))
3929 and then Comes_From_Source
(Renamed_Object
(E
))
3931 Error_Msg_N
-- CODEFIX
3932 ("?u?renamed constant & is not referenced!", E
);
3934 Error_Msg_N
-- CODEFIX
3935 ("?u?constant & is not referenced!", E
);
3938 when E_In_Parameter |
3939 E_In_Out_Parameter
=>
3941 -- Do not emit message for formals of a renaming, because
3942 -- they are never referenced explicitly.
3944 if Nkind
(Original_Node
(Unit_Declaration_Node
(Scope
(E
)))) /=
3945 N_Subprogram_Renaming_Declaration
3947 -- Suppress this message for an IN OUT parameter of a
3948 -- non-scalar type, since it is normal to have only an
3949 -- assignment in such a case.
3951 if Ekind
(E
) = E_In_Parameter
3952 or else not Referenced_As_LHS_Check_Spec
(E
)
3953 or else Is_Scalar_Type
(Etype
(E
))
3955 if Present
(Body_E
) then
3959 if not Is_Trivial_Subprogram
(Scope
(E
)) then
3960 Error_Msg_NE
-- CODEFIX
3961 ("?u?formal parameter & is not referenced!",
3967 when E_Out_Parameter
=>
3970 when E_Discriminant
=>
3971 Error_Msg_N
("?u?discriminant & is not referenced!", E
);
3973 when E_Named_Integer |
3975 Error_Msg_N
-- CODEFIX
3976 ("?u?named number & is not referenced!", E
);
3978 when Formal_Object_Kind
=>
3979 Error_Msg_N
-- CODEFIX
3980 ("?u?formal object & is not referenced!", E
);
3982 when E_Enumeration_Literal
=>
3983 Error_Msg_N
-- CODEFIX
3984 ("?u?literal & is not referenced!", E
);
3987 Error_Msg_N
-- CODEFIX
3988 ("?u?function & is not referenced!", E
);
3991 Error_Msg_N
-- CODEFIX
3992 ("?u?procedure & is not referenced!", E
);
3995 Error_Msg_N
-- CODEFIX
3996 ("?u?package & is not referenced!", E
);
3999 Error_Msg_N
-- CODEFIX
4000 ("?u?exception & is not referenced!", E
);
4003 Error_Msg_N
-- CODEFIX
4004 ("?u?label & is not referenced!", E
);
4006 when E_Generic_Procedure
=>
4007 Error_Msg_N
-- CODEFIX
4008 ("?u?generic procedure & is never instantiated!", E
);
4010 when E_Generic_Function
=>
4011 Error_Msg_N
-- CODEFIX
4012 ("?u?generic function & is never instantiated!", E
);
4015 Error_Msg_N
-- CODEFIX
4016 ("?u?type & is not referenced!", E
);
4019 Error_Msg_N
-- CODEFIX
4020 ("?u?& is not referenced!", E
);
4023 -- Kill warnings on the entity on which the message has been posted
4025 Set_Warnings_Off
(E
);
4027 end Warn_On_Unreferenced_Entity
;
4029 --------------------------------
4030 -- Warn_On_Useless_Assignment --
4031 --------------------------------
4033 procedure Warn_On_Useless_Assignment
4035 N
: Node_Id
:= Empty
)
4040 function Check_Ref
(N
: Node_Id
) return Traverse_Result
;
4041 -- Used to instantiate Traverse_Func. Returns Abandon if a reference to
4042 -- the entity in question is found.
4044 function Test_No_Refs
is new Traverse_Func
(Check_Ref
);
4050 function Check_Ref
(N
: Node_Id
) return Traverse_Result
is
4052 -- Check reference to our identifier. We use name equality here
4053 -- because the exception handlers have not yet been analyzed. This
4054 -- is not quite right, but it really does not matter that we fail
4055 -- to output the warning in some obscure cases of name clashes.
4057 if Nkind
(N
) = N_Identifier
4058 and then Chars
(N
) = Chars
(Ent
)
4066 -- Start of processing for Warn_On_Useless_Assignment
4069 -- Check if this is a case we want to warn on, a scalar or access
4070 -- variable with the last assignment field set, with warnings enabled,
4071 -- and which is not imported or exported. We also check that it is OK
4072 -- to capture the value. We are not going to capture any value, but
4073 -- the warning message depends on the same kind of conditions.
4075 if Is_Assignable
(Ent
)
4076 and then not Is_Return_Object
(Ent
)
4077 and then Present
(Last_Assignment
(Ent
))
4078 and then not Is_Imported
(Ent
)
4079 and then not Is_Exported
(Ent
)
4080 and then Safe_To_Capture_Value
(N
, Ent
)
4081 and then not Has_Pragma_Unreferenced_Check_Spec
(Ent
)
4083 -- Before we issue the message, check covering exception handlers.
4084 -- Search up tree for enclosing statement sequences and handlers.
4086 P
:= Parent
(Last_Assignment
(Ent
));
4087 while Present
(P
) loop
4089 -- Something is really wrong if we don't find a handled statement
4090 -- sequence, so just suppress the warning.
4093 Set_Last_Assignment
(Ent
, Empty
);
4096 -- When we hit a package/subprogram body, issue warning and exit
4098 elsif Nkind
(P
) = N_Subprogram_Body
4099 or else Nkind
(P
) = N_Package_Body
4101 -- Case of assigned value never referenced
4105 LA
: constant Node_Id
:= Last_Assignment
(Ent
);
4108 -- Don't give this for OUT and IN OUT formals, since
4109 -- clearly caller may reference the assigned value. Also
4110 -- never give such warnings for internal variables.
4112 if Ekind
(Ent
) = E_Variable
4113 and then not Is_Internal_Name
(Chars
(Ent
))
4115 -- Give appropriate message, distinguishing between
4116 -- assignment statements and out parameters.
4118 if Nkind_In
(Parent
(LA
), N_Procedure_Call_Statement
,
4119 N_Parameter_Association
)
4122 ("?m?& modified by call, but value never "
4123 & "referenced", LA
, Ent
);
4126 Error_Msg_NE
-- CODEFIX
4127 ("?m?useless assignment to&, value never "
4128 & "referenced!", LA
, Ent
);
4133 -- Case of assigned value overwritten
4137 LA
: constant Node_Id
:= Last_Assignment
(Ent
);
4140 Error_Msg_Sloc
:= Sloc
(N
);
4142 -- Give appropriate message, distinguishing between
4143 -- assignment statements and out parameters.
4145 if Nkind_In
(Parent
(LA
), N_Procedure_Call_Statement
,
4146 N_Parameter_Association
)
4149 ("?m?& modified by call, but value overwritten #!",
4152 Error_Msg_NE
-- CODEFIX
4153 ("?m?useless assignment to&, value overwritten #!",
4159 -- Clear last assignment indication and we are done
4161 Set_Last_Assignment
(Ent
, Empty
);
4164 -- Enclosing handled sequence of statements
4166 elsif Nkind
(P
) = N_Handled_Sequence_Of_Statements
then
4168 -- Check exception handlers present
4170 if Present
(Exception_Handlers
(P
)) then
4172 -- If we are not at the top level, we regard an inner
4173 -- exception handler as a decisive indicator that we should
4174 -- not generate the warning, since the variable in question
4175 -- may be accessed after an exception in the outer block.
4177 if Nkind
(Parent
(P
)) /= N_Subprogram_Body
4178 and then Nkind
(Parent
(P
)) /= N_Package_Body
4180 Set_Last_Assignment
(Ent
, Empty
);
4183 -- Otherwise we are at the outer level. An exception
4184 -- handler is significant only if it references the
4185 -- variable in question, or if the entity in question
4186 -- is an OUT or IN OUT parameter, which which case
4187 -- the caller can reference it after the exception
4188 -- handler completes.
4191 if Is_Formal
(Ent
) then
4192 Set_Last_Assignment
(Ent
, Empty
);
4196 X
:= First
(Exception_Handlers
(P
));
4197 while Present
(X
) loop
4198 if Test_No_Refs
(X
) = Abandon
then
4199 Set_Last_Assignment
(Ent
, Empty
);
4213 end Warn_On_Useless_Assignment
;
4215 ---------------------------------
4216 -- Warn_On_Useless_Assignments --
4217 ---------------------------------
4219 procedure Warn_On_Useless_Assignments
(E
: Entity_Id
) is
4222 if Warn_On_Modified_Unread
4223 and then In_Extended_Main_Source_Unit
(E
)
4225 Ent
:= First_Entity
(E
);
4226 while Present
(Ent
) loop
4227 Warn_On_Useless_Assignment
(Ent
);
4231 end Warn_On_Useless_Assignments
;
4233 -----------------------------
4234 -- Warnings_Off_Check_Spec --
4235 -----------------------------
4237 function Warnings_Off_Check_Spec
(E
: Entity_Id
) return Boolean is
4239 if Is_Formal
(E
) and then Present
(Spec_Entity
(E
)) then
4241 -- Note: use of OR here instead of OR ELSE is deliberate, we want
4242 -- to mess with flags on both entities.
4244 return Has_Warnings_Off
(E
)
4246 Has_Warnings_Off
(Spec_Entity
(E
));
4249 return Has_Warnings_Off
(E
);
4251 end Warnings_Off_Check_Spec
;