Here, when considering the two 'insert' overloads, we look for aggregate
conversions from the same initializer-list to B<3> or
initializer_list<B<3>>. But since my fix for reshape_init overhead on the
PR14179 testcase we reshaped the initializer-list directly, leading to an
error when we then tried to reshape it differently for the second overload.
gcc/cp/ChangeLog:
PR c++/95319
* decl.c (reshape_init_array_1): Don't reuse in overload context.
gcc/testsuite/ChangeLog:
PR c++/95319
* g++.dg/cpp0x/initlist-array12.C: New test.
/* The initializer for an array is always a CONSTRUCTOR. If this is the
outermost CONSTRUCTOR and the element type is non-aggregate, we don't need
- to build a new one. */
+ to build a new one. But don't reuse if not complaining; if this is
+ tentative, we might also reshape to another type (95319). */
bool reuse = (first_initializer_p
+ && (complain & tf_error)
&& !CP_AGGREGATE_TYPE_P (elt_type)
&& !TREE_SIDE_EFFECTS (first_initializer_p));
if (reuse)
--- /dev/null
+// PR c++/95319
+// { dg-do compile { target c++11 } }
+
+namespace std {
+template <class> class initializer_list {
+ int *_M_array;
+ unsigned long _M_len;
+};
+template <int _Nm> struct A { typedef int _Type[_Nm]; };
+template <int _Nm> struct B { typename A<_Nm>::_Type _M_elems; };
+class C {
+public:
+ void insert(int, B<3>);
+ void insert(int, initializer_list<B<3>>);
+};
+} // namespace std
+int a;
+int
+main() {
+ using ArrayVector = std::C;
+ auto b = ArrayVector();
+ b.insert(a, {{2}});
+ return 0;
+}
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