template<typename>
struct One {};
template<typename, typename>
struct Two {};
template<template<typename...> class TTP, typename...>
struct SS;
#ifdef TEST_TTP
template<template<typename> class OneParam,
typename... Ts>
struct SS<OneParam, Ts...> {};
template<template<typename, typename> class TwoParam,
typename... Ts>
struct SS<TwoParam, Ts...> {};
#else // TEST_TTP
template<template<typename> class OneParam,
typename TParam>
struct SS<OneParam, TParam> {};
template<template<typename, typename> class TwoParam,
typename TParam1,
typename TParam2>
struct SS<TwoParam, TParam1, TParam2> {};
#endif // TEST_TTP
int main() {
SS<One, int> ssoi;
SS<Two, int, int> sstii;
}
template<typename>
struct One {};
template<typename, typename>
struct Two {};
template<template<typename...> class TTP, typename...>
struct SS;
#ifdef TEST_TTP
template<template<typename> class OneParam,
typename... Ts>
struct SS<OneParam, Ts...> {};
template<template<typename, typename> class TwoParam,
typename... Ts>
struct SS<TwoParam, Ts...> {};
#else // TEST_TTP
template<template<typename> class OneParam,
typename TParam>
struct SS<OneParam, TParam> {};
template<template<typename, typename> class TwoParam,
typename TParam1,
typename TParam2>
struct SS<TwoParam, TParam1, TParam2> {};
#endif // TEST_TTP
int main() {
SS<One, int> ssoi;
SS<Two, int, int> sstii;
}
template<template<typename...> class T> struct S;
template<template<typename> class T> struct S<T> {}; // Only works with GCC.
template<template<typename, typename> class T> struct S<T> {}; // Only works with GCC.
template<template<typename...> class T> struct S;
template<template<typename> class T> struct S<T> {}; // Only works with GCC.
template<template<typename, typename> class T> struct S<T> {}; // Only works with GCC.
template<template<typename...> class T, typename... Ts> struct S;
template<template<typename> class T,
typename TParam>
struct S<T, TParam> {};
template<template<typename, typename> class T,
typename TParam1,
typename TParam2>
struct S<T, TParam1, TParam2> {};
template<template<typename...> class T, typename... Ts> struct S;
template<template<typename> class T,
typename TParam>
struct S<T, TParam> {};
template<template<typename, typename> class T,
typename TParam1,
typename TParam2>
struct S<T, TParam1, TParam2> {};
#ifndef ARE_TRAIT_H
#define ARE_TRAIT_H
#include <type_traits>
// Based on SameComparison::are_same, by dyp ( http://stackoverflow.com/a/20047561/5386374 )
template<template<typename...> class Trait_t,
typename... Ts>
struct are_trait;
// One-parameter trait.
template<template<typename> class Trait_t,
typename... Ts>
struct are_trait<Trait_t, Ts...> : std::true_type {};
template<template<typename> class Trait_t,
typename T,
typename... Ts>
struct are_trait<Trait_t, T, Ts...>
: std::integral_constant<bool,
Trait_t<T>::value &&
are_trait<Trait_t, Ts...>::value> {};
// Two-parameter trait, compares all to first element after trait.
template<template<typename, typename> class Trait_t,
typename To,
typename... Froms>
struct are_trait<Trait_t, To, Froms...> : std::true_type {};
template<template<typename, typename> class Trait_t,
typename To,
typename From,
typename... Froms>
struct are_trait<Trait_t, To, From, Froms...>
: std::integral_constant<bool,
Trait_t<From, To>::value &&
are_trait<Trait_t, To, Froms...>::value> {};
#endif // ARE_TRAIT_H
int dummy() { return 0; }
int main() {
// Single-parameter trait:
static_assert(are_trait<std::is_pointer, int*, void*, decltype(&dummy)>::value,
"int*, void*, and decltype(&dummy) aren't all pointers.");
//static_assert(are_trait<std::is_pointer, int*, void*, int>::value,
// "int*, void*, and int aren't all pointers.");
// Two-parameter traits:
static_assert(are_trait<std::is_same, int, int, int>::value,
"int, int, and int aren't all int.");
//static_assert(are_trait<std::is_same, int, int, decltype(&dummy)>::value,
// "int, int, and decltype(&dummy) aren't the same.");
static_assert(are_trait<std::is_convertible, int, char, bool, float, long>::value,
"char, bool, float, and long aren't all convertible to int.");
//static_assert(are_trait<std::is_convertible, int, char, bool, float, decltype(nullptr)>::value,
// "char, bool, float, and nullptr_t aren't all convertible to int.");
}
#ifndef ARE_TRAIT_H
#define ARE_TRAIT_H
#include <type_traits>
// Based on SameComparison::are_same, by dyp ( http://stackoverflow.com/a/20047561/5386374 )
template<template<typename...> class Trait_t,
typename... Ts>
struct are_trait;
// One-parameter trait.
template<template<typename> class Trait_t,
typename... Ts>
struct are_trait<Trait_t, Ts...> : std::true_type {};
template<template<typename> class Trait_t,
typename T,
typename... Ts>
struct are_trait<Trait_t, T, Ts...>
: std::integral_constant<bool,
Trait_t<T>::value &&
are_trait<Trait_t, Ts...>::value> {};
// Two-parameter trait, compares all to first element after trait.
template<template<typename, typename> class Trait_t,
typename To,
typename... Froms>
struct are_trait<Trait_t, To, Froms...> : std::true_type {};
template<template<typename, typename> class Trait_t,
typename To,
typename From,
typename... Froms>
struct are_trait<Trait_t, To, From, Froms...>
: std::integral_constant<bool,
Trait_t<From, To>::value &&
are_trait<Trait_t, To, Froms...>::value> {};
#endif // ARE_TRAIT_H
int dummy() { return 0; }
int main() {
// Single-parameter trait:
static_assert(are_trait<std::is_pointer, int*, void*, decltype(&dummy)>::value,
"int*, void*, and decltype(&dummy) aren't all pointers.");
//static_assert(are_trait<std::is_pointer, int*, void*, int>::value,
// "int*, void*, and int aren't all pointers.");
// Two-parameter traits:
static_assert(are_trait<std::is_same, int, int, int>::value,
"int, int, and int aren't all int.");
//static_assert(are_trait<std::is_same, int, int, decltype(&dummy)>::value,
// "int, int, and decltype(&dummy) aren't the same.");
static_assert(are_trait<std::is_convertible, int, char, bool, float, long>::value,
"char, bool, float, and long aren't all convertible to int.");
//static_assert(are_trait<std::is_convertible, int, char, bool, float, decltype(nullptr)>::value,
// "char, bool, float, and nullptr_t aren't all convertible to int.");
}
// Test case #1: Short demonstration of the problem.
// Dummy structs.
template<typename T>
struct OneParam {};
template<typename T1, typename T2>
struct TwoParam {};
// Template template parameter & specialisations.
template<template<typename...> class TempTempParam>
struct TTP {
static constexpr int value = 0;
};
template<template<typename> class TempTempParam>
struct TTP<TempTempParam> : TempTempParam<int> {
static constexpr int value = 1;
};
template<template<typename, typename> class TempTempParam>
struct TTP<TempTempParam> : TempTempParam<int, int> {
static constexpr int value = 2;
};
int main() {
TTP<OneParam> ttp1;
TTP<TwoParam> ttp2;
// These fail with Clang & MSVC.
static_assert(ttp1.value == 1, "ttp1 should have one parameter.");
static_assert(ttp2.value == 2, "ttp2 should have two parameters.");
}
// Test case #1: Short demonstration of the problem.
// Dummy structs.
template<typename T>
struct OneParam {};
template<typename T1, typename T2>
struct TwoParam {};
// Template template parameter & specialisations.
template<template<typename...> class TempTempParam>
struct TTP {
static constexpr int value = 0;
};
template<template<typename> class TempTempParam>
struct TTP<TempTempParam> : TempTempParam<int> {
static constexpr int value = 1;
};
template<template<typename, typename> class TempTempParam>
struct TTP<TempTempParam> : TempTempParam<int, int> {
static constexpr int value = 2;
};
int main() {
TTP<OneParam> ttp1;
TTP<TwoParam> ttp2;
// These fail with Clang & MSVC.
static_assert(ttp1.value == 1, "ttp1 should have one parameter.");
static_assert(ttp2.value == 2, "ttp2 should have two parameters.");
}
// Test case #2: What does and doesn't work.
#include <iostream>
#include <type_traits>
template<template<typename...> class VariadicParam,
typename... Ts>
struct S;
#ifdef TEST_TTP
// This section causes problems when enabled.
template<template<typename> class OneParam,
typename... Ts>
struct S<OneParam, Ts...> {};
template<template<typename, typename> class TwoParams,
typename... Ts>
struct S<TwoParams, Ts...> {};
#else // TEST_TTP
// This section compiles cleanly when enabled.
template<template<typename> class T,
typename TParam>
struct S<T, TParam> : T<TParam> {};
template<template<typename, typename> class T,
typename TParam1,
typename TParam2>
struct S<T, TParam1, TParam2> : T<TParam1, TParam2> {};
#endif // TEST_TTP
int main() {
S<std::is_arithmetic, int> s_one;
S<std::is_same, int, int> s_two;
}
// Test case #2: What does and doesn't work.
#include <iostream>
#include <type_traits>
template<template<typename...> class VariadicParam,
typename... Ts>
struct S;
#ifdef TEST_TTP
// This section causes problems when enabled.
template<template<typename> class OneParam,
typename... Ts>
struct S<OneParam, Ts...> {};
template<template<typename, typename> class TwoParams,
typename... Ts>
struct S<TwoParams, Ts...> {};
#else // TEST_TTP
// This section compiles cleanly when enabled.
template<template<typename> class T,
typename TParam>
struct S<T, TParam> : T<TParam> {};
template<template<typename, typename> class T,
typename TParam1,
typename TParam2>
struct S<T, TParam1, TParam2> : T<TParam1, TParam2> {};
#endif // TEST_TTP
int main() {
S<std::is_arithmetic, int> s_one;
S<std::is_same, int, int> s_two;
}
