// RUN: %clang_cc1 -fsyntax-only -verify %s struct IntHolder { // expected-note{{here}} // expected-note 2{{candidate constructor (the implicit copy constructor)}} IntHolder(int); // expected-note 2{{candidate constructor}} }; template<typename T, typename U> struct X { // expected-note{{here}} void f() { T t; // expected-error{{no matching}} } void g() { } struct Inner { // expected-error{{implicit default}} T value; // expected-note {{member is declared here}} }; static T value; }; template<typename T, typename U> T X<T, U>::value; // expected-error{{no matching constructor}} IntHolder &test_X_IntHolderInt(X<IntHolder, int> xih) { xih.g(); // okay xih.f(); // expected-note{{instantiation}} X<IntHolder, int>::Inner inner; // expected-note {{first required here}} return X<IntHolder, int>::value; // expected-note{{instantiation}} } // Explicitly specialize the members of X<IntHolder, long> to not cause // problems with instantiation. template<> void X<IntHolder, long>::f() { } template<> struct X<IntHolder, long>::Inner { Inner() : value(17) { } IntHolder value; }; template<> IntHolder X<IntHolder, long>::value = 17; IntHolder &test_X_IntHolderInt(X<IntHolder, long> xih) { xih.g(); // okay xih.f(); // okay, uses specialization X<IntHolder, long>::Inner inner; // okay, uses specialization return X<IntHolder, long>::value; // okay, uses specialization } template<> X<IntHolder, long>::X() { } // expected-error{{instantiated member}}