temp_arg_template.cpp
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// RUN: %clang_cc1 -fsyntax-only -verify %s
// RUN: %clang_cc1 -fsyntax-only -verify -std=c++98 %s
// RUN: %clang_cc1 -fsyntax-only -verify -std=c++11 %s
template<template<typename T> class X> struct A; // expected-note 2{{previous template template parameter is here}}
template<template<typename T, int I> class X> struct B; // expected-note{{previous template template parameter is here}}
template<template<int I> class X> struct C; // expected-note 2{{previous non-type template parameter with type 'int' is here}}
template<class> struct X; // expected-note{{too few template parameters in template template argument}}
template<int N> struct Y; // expected-note{{template parameter has a different kind in template argument}}
template<long N> struct Ylong; // expected-note{{template non-type parameter has a different type 'long' in template argument}}
template<const int &N> struct Yref; // expected-note{{template non-type parameter has a different type 'const int &' in template argument}}
namespace N {
template<class> struct Z;
}
template<class, class> struct TooMany; // expected-note{{too many template parameters in template template argument}}
A<X> *a1;
A<N::Z> *a2;
A< ::N::Z> *a3;
A<Y> *a4; // expected-error{{template template argument has different template parameters than its corresponding template template parameter}}
A<TooMany> *a5; // expected-error{{template template argument has different template parameters than its corresponding template template parameter}}
B<X> *a6; // expected-error{{template template argument has different template parameters than its corresponding template template parameter}}
C<Y> *a7;
C<Ylong> *a8; // expected-error{{template template argument has different template parameters than its corresponding template template parameter}}
C<Yref> *a9; // expected-error{{template template argument has different template parameters than its corresponding template template parameter}}
template<typename T> void f(int);
A<f> *a9; // expected-error{{must be a class template}}
// Evil digraph '<:' is parsed as '[', expect error.
A<::N::Z> *a10;
#if __cplusplus <= 199711L
// expected-error@-2 {{found '<::' after a template name which forms the digraph '<:' (aka '[') and a ':', did you mean '< ::'?}}
#endif
// Do not do a digraph correction here.
A<: :N::Z> *a11; // expected-error{{expected expression}} \
expected-error{{C++ requires a type specifier for all declarations}}
// PR7807
namespace N {
template <typename, typename = int>
struct X
{ };
template <typename ,int>
struct Y
{ X<int> const_ref(); };
template <template<typename,int> class TT, typename T, int N>
int operator<<(int, TT<T, N> a) { // expected-note{{candidate template ignored}}
0 << a.const_ref(); // expected-error{{invalid operands to binary expression ('int' and 'X<int>')}}
}
void f0( Y<int,1> y){ 1 << y; } // expected-note{{in instantiation of function template specialization 'N::operator<<<Y, int, 1>' requested here}}
}
// PR12179
template <typename Primitive, template <Primitive...> class F>
#if __cplusplus <= 199711L
// expected-warning@-2 {{variadic templates are a C++11 extension}}
#endif
struct unbox_args {
typedef typename Primitive::template call<F> x;
};
template <template <typename> class... Templates>
#if __cplusplus <= 199711L
// expected-warning@-2 {{variadic templates are a C++11 extension}}
#endif
struct template_tuple {
#if __cplusplus >= 201103L
static constexpr int N = sizeof...(Templates);
#endif
};
template <typename T>
struct identity {};
template <template <typename> class... Templates>
#if __cplusplus <= 199711L
// expected-warning@-2 {{variadic templates are a C++11 extension}}
#endif
template_tuple<Templates...> f7() {}
#if __cplusplus >= 201103L
struct S : public template_tuple<identity, identity> {
static_assert(N == 2, "Number of template arguments incorrect");
};
#endif
void foo() {
f7<identity>();
}
namespace CheckDependentNonTypeParamTypes {
template<template<typename T, typename U, T v> class X> struct A {
void f() {
X<int, void*, 3> x; // expected-error {{does not refer to any declaration}}
}
void g() {
X<int, long, 3> x;
}
void h() {
// FIXME: If we accept A<B> at all, it's not obvious what should happen
// here. While parsing the template, we form
// X<unsigned char, int, (unsigned char)1234>
// but in the final instantiation do we get
// B<unsigned char, int, (int)1234>
// or
// B<unsigned char, int, (int)(unsigned char)1234>
// ?
X<unsigned char, int, 1234> x;
int check[x.value == 1234 ? 1 : -1];
}
};
template<typename T, typename U, U v> struct B { // expected-note {{parameter}}
static const U value = v;
};
// FIXME: This should probably be rejected, but the rules are at best unclear.
A<B> ab;
void use() {
ab.f(); // expected-note {{instantiation of}}
ab.g();
ab.h();
}
}
namespace PR32185 {
template<template<typename T, T> class U> struct A {};
template<template<typename T, T> class U> struct B : A<U> {};
}
namespace PR10147 {
template<typename T> struct A {};
template<typename T = int> struct A;
template<template<typename...> class A> void f(A<int>*) { A<> a; } // expected-warning 0-1{{extension}}
void g() { f((A<>*)0); }
}