Library-level variables with initializers could have Is_Known_Valid
set when analyzing their definition, and the flag would only be
cleared when analyzing a statement that assigned to them. Procedures
and functions analyzed before the flag got cleared could skip validity
checking for the corresponding variable. This patch fixes this
problem: we no longer set Is_Known_Valid when analyzing initializers
of library-level variables,and use the same Safe_To_Capture_Value
predicate that prevents assignments from recording known-valid states.
This causes any variable with an initialization value, that would have
had its initializer value used as its known constant value if the use
is analyzed before any assignment to the variable, to no longer be
regarded as holding a constant value. Some might turn out to have a
constant value, after all, but we don't know that yet: we can only
tell after analyzing every subprogram that could possibly assign to
it. At the points where Safe_To_Capture_Value calls are introduced,
Never_Set_In_Source does not yet hold its final value.
gcc/ada/
* exp_ch3.adb (Expand_N_Object_Declaration): Guard
Set_Is_Known_Valid with Safe_To_Capture_Value.
elsif Comes_From_Source (N)
and then Is_Discrete_Type (Typ)
and then Expr_Known_Valid (Expr)
+ and then Safe_To_Capture_Value (N, Def_Id)
then
Set_Is_Known_Valid (Def_Id);
and then not Is_Generic_Type (Etype (Def_Id))
then
Ensure_Valid (Expr);
- Set_Is_Known_Valid (Def_Id);
+ if Safe_To_Capture_Value (N, Def_Id) then
+ Set_Is_Known_Valid (Def_Id);
+ end if;
end if;
end if;
projects / platform / upstream / gcc.git / commitdiff