gcc/libstdc++-v3/testsuite/util/testsuite_tr1.h
Jason Merrill 57a6add274 Fix handling of explicit function template arguments with TTPs.
gcc/cp/
	* pt.c (coerce_template_parms): Consider variadic_args_p before
	complaining about too many template arguments.
libstdc++-v3/
	* testsuite/util/testsuite_tr1.h (test_property): Don't define both
	variadic and non-variadic overloads.

From-SVN: r243869
2016-12-21 14:38:44 -05:00

877 lines
16 KiB
C++

// -*- C++ -*-
// Testing utilities for the tr1 testsuite.
//
// Copyright (C) 2004-2016 Free Software Foundation, Inc.
//
// This file is part of the GNU ISO C++ Library. This library is free
// software; you can redistribute it and/or modify it under the
// terms of the GNU General Public License as published by the
// Free Software Foundation; either version 3, or (at your option)
// any later version.
//
// This library is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU General Public License for more details.
//
// You should have received a copy of the GNU General Public License along
// with this library; see the file COPYING3. If not see
// <http://www.gnu.org/licenses/>.
//
#ifndef _GLIBCXX_TESTSUITE_TR1_H
#define _GLIBCXX_TESTSUITE_TR1_H
#include <ext/type_traits.h>
#include <testsuite_hooks.h>
namespace __gnu_test
{
// For tr1/type_traits.
template<template<typename> class Category, typename Type>
#if __cplusplus >= 201103L
constexpr
#endif
bool
test_category(bool value)
{
return (Category<Type>::value == value
&& Category<const Type>::value == value
&& Category<volatile Type>::value == value
&& Category<const volatile Type>::value == value
&& Category<Type>::type::value == value
&& Category<const Type>::type::value == value
&& Category<volatile Type>::type::value == value
&& Category<const volatile Type>::type::value == value);
}
// For testing tr1/type_traits/extent, which has a second template
// parameter.
template<template<typename, unsigned> class Property,
typename Type, unsigned Uint>
#if __cplusplus >= 201103L
constexpr
#endif
bool
test_property(typename Property<Type, Uint>::value_type value)
{
return (Property<Type, Uint>::value == value
&& Property<Type, Uint>::type::value == value);
}
#if __cplusplus >= 201103L
template<template<typename...> class Property,
typename Type1, typename... Types>
constexpr bool
test_property(typename Property<Type1, Types...>::value_type value)
{
return (Property<Type1, Types...>::value == value
&& Property<Type1, Types...>::type::value == value);
}
#else
template<template<typename> class Property, typename Type>
bool
test_property(typename Property<Type>::value_type value)
{
return (Property<Type>::value == value
&& Property<Type>::type::value == value);
}
#endif
template<template<typename, typename> class Relationship,
typename Type1, typename Type2>
#if __cplusplus >= 201103L
constexpr
#endif
bool
test_relationship(bool value)
{
return (Relationship<Type1, Type2>::value == value
&& Relationship<Type1, Type2>::type::value == value);
}
// Test types.
class ClassType { };
typedef const ClassType cClassType;
typedef volatile ClassType vClassType;
typedef const volatile ClassType cvClassType;
class DerivedType : public ClassType { };
#if __cplusplus >= 201103L
class FinalType final : public DerivedType { };
#endif
enum EnumType { e0 };
struct ConvType
{ operator int() const; };
class AbstractClass
{
virtual void rotate(int) = 0;
};
class PolymorphicClass
{
virtual void rotate(int);
};
class DerivedPolymorphic : public PolymorphicClass { };
class VirtualDestructorClass
{
virtual ~VirtualDestructorClass();
};
union UnionType { };
class IncompleteClass;
struct ExplicitClass
{
ExplicitClass(double&);
explicit ExplicitClass(int&);
ExplicitClass(double&, int&, double&);
};
struct NothrowExplicitClass
{
NothrowExplicitClass(double&) throw();
explicit NothrowExplicitClass(int&) throw();
NothrowExplicitClass(double&, int&, double&) throw();
};
struct ThrowExplicitClass
{
ThrowExplicitClass(double&) THROW(int);
explicit ThrowExplicitClass(int&) THROW(int);
ThrowExplicitClass(double&, int&, double&) THROW(int);
};
struct ThrowDefaultClass
{
ThrowDefaultClass() THROW(int);
};
struct ThrowCopyConsClass
{
ThrowCopyConsClass(const ThrowCopyConsClass&) THROW(int);
};
#if __cplusplus >= 201103L
struct ThrowMoveConsClass
{
ThrowMoveConsClass(ThrowMoveConsClass&&) THROW(int);
};
struct NoexceptExplicitClass
{
NoexceptExplicitClass(double&) noexcept(true);
explicit NoexceptExplicitClass(int&) noexcept(true);
NoexceptExplicitClass(double&, int&, double&) noexcept(true);
};
struct ExceptExplicitClass
{
ExceptExplicitClass(double&) noexcept(false);
explicit ExceptExplicitClass(int&) noexcept(false);
ExceptExplicitClass(double&, int&, double&) noexcept(false);
};
struct NoexceptDefaultClass
{
NoexceptDefaultClass() noexcept(true);
};
struct ExceptDefaultClass
{
ExceptDefaultClass() noexcept(false);
};
struct NoexceptCopyConsClass
{
NoexceptCopyConsClass(const NoexceptCopyConsClass&) noexcept(true);
};
struct ExceptCopyConsClass
{
ExceptCopyConsClass(const ExceptCopyConsClass&) noexcept(false);
};
struct NoexceptMoveConsClass
{
NoexceptMoveConsClass(NoexceptMoveConsClass&&) noexcept(true);
NoexceptMoveConsClass& operator=(NoexceptMoveConsClass&&) = default;
};
struct ExceptMoveConsClass
{
ExceptMoveConsClass(ExceptMoveConsClass&&) noexcept(false);
};
struct NoexceptCopyAssignClass
{
NoexceptCopyAssignClass&
operator=(const NoexceptCopyAssignClass&) noexcept(true);
};
struct ExceptCopyAssignClass
{
ExceptCopyAssignClass&
operator=(const ExceptCopyAssignClass&) noexcept(false);
};
struct NoexceptMoveAssignClass
{
NoexceptMoveAssignClass(NoexceptMoveAssignClass&&) = default;
NoexceptMoveAssignClass&
operator=(NoexceptMoveAssignClass&&) noexcept(true);
};
struct ExceptMoveAssignClass
{
ExceptMoveAssignClass&
operator=(ExceptMoveAssignClass&&) noexcept(false);
};
struct DeletedCopyAssignClass
{
DeletedCopyAssignClass&
operator=(const DeletedCopyAssignClass&) = delete;
};
struct DeletedMoveAssignClass
{
DeletedMoveAssignClass&
operator=(DeletedMoveAssignClass&&) = delete;
};
struct NoexceptMoveConsNoexceptMoveAssignClass
{
NoexceptMoveConsNoexceptMoveAssignClass
(NoexceptMoveConsNoexceptMoveAssignClass&&) noexcept(true);
NoexceptMoveConsNoexceptMoveAssignClass&
operator=(NoexceptMoveConsNoexceptMoveAssignClass&&) noexcept(true);
};
struct ExceptMoveConsNoexceptMoveAssignClass
{
ExceptMoveConsNoexceptMoveAssignClass
(ExceptMoveConsNoexceptMoveAssignClass&&) noexcept(false);
ExceptMoveConsNoexceptMoveAssignClass&
operator=(ExceptMoveConsNoexceptMoveAssignClass&&) noexcept(true);
};
struct NoexceptMoveConsExceptMoveAssignClass
{
NoexceptMoveConsExceptMoveAssignClass
(NoexceptMoveConsExceptMoveAssignClass&&) noexcept(true);
NoexceptMoveConsExceptMoveAssignClass&
operator=(NoexceptMoveConsExceptMoveAssignClass&&) noexcept(false);
};
struct ExceptMoveConsExceptMoveAssignClass
{
ExceptMoveConsExceptMoveAssignClass
(ExceptMoveConsExceptMoveAssignClass&&) noexcept(false);
ExceptMoveConsExceptMoveAssignClass&
operator=(ExceptMoveConsExceptMoveAssignClass&&) noexcept(false);
};
#endif
struct NType // neither trivial nor standard-layout
{
int i;
int j;
virtual ~NType();
};
struct TType // trivial but not standard-layout
{
int i;
private:
int j;
};
struct SLType // standard-layout but not trivial
{
int i;
int j;
~SLType();
};
struct PODType // both trivial and standard-layout
{
int i;
int j;
};
#if __cplusplus >= 201103L
struct LType // literal type
{
int _M_i;
constexpr LType(int __i) : _M_i(__i) { }
};
struct LTypeDerived : public LType
{
constexpr LTypeDerived(int __i) : LType(__i) { }
};
struct NLType // not literal type
{
int _M_i;
NLType() : _M_i(0) { }
constexpr NLType(int __i) : _M_i(__i) { }
NLType(const NLType& __other) : _M_i(__other._M_i) { }
~NLType() { _M_i = 0; }
};
#endif
int truncate_float(float x) { return (int)x; }
long truncate_double(double x) { return (long)x; }
struct do_truncate_float_t
{
do_truncate_float_t()
{
++live_objects;
}
do_truncate_float_t(const do_truncate_float_t&)
{
++live_objects;
}
~do_truncate_float_t()
{
--live_objects;
}
int operator()(float x) { return (int)x; }
static int live_objects;
};
int do_truncate_float_t::live_objects = 0;
struct do_truncate_double_t
{
do_truncate_double_t()
{
++live_objects;
}
do_truncate_double_t(const do_truncate_double_t&)
{
++live_objects;
}
~do_truncate_double_t()
{
--live_objects;
}
long operator()(double x) { return (long)x; }
static int live_objects;
};
int do_truncate_double_t::live_objects = 0;
struct X
{
int bar;
int foo() { return 1; }
int foo_c() const { return 2; }
int foo_v() volatile { return 3; }
int foo_cv() const volatile { return 4; }
};
// For use in 8_c_compatibility.
template<typename R, typename T>
typename __gnu_cxx::__enable_if<std::__are_same<R, T>::__value,
bool>::__type
check_ret_type(T)
{ return true; }
#if __cplusplus >= 201103L
namespace construct
{
struct Empty {};
struct B { int i; B(){} };
struct D : B {};
enum E { ee1 };
enum E2 { ee2 };
enum class SE { e1 };
enum class SE2 { e2 };
enum OpE : int;
enum class OpSE : bool;
union U { int i; Empty b; };
struct Abstract
{
virtual ~Abstract() = 0;
};
struct AbstractDelDtor
{
~AbstractDelDtor() = delete;
virtual void foo() = 0;
};
struct Ukn;
template<class To>
struct ImplicitTo
{
operator To();
};
template<class To>
struct DelImplicitTo
{
operator To() = delete;
};
template<class To>
struct ExplicitTo
{
explicit operator To();
};
struct Ellipsis
{
Ellipsis(...){}
};
struct DelEllipsis
{
DelEllipsis(...) = delete;
};
struct Any
{
template<class T>
Any(T&&){}
};
struct nAny
{
template<class... T>
nAny(T&&...){}
};
struct DelnAny
{
template<class... T>
DelnAny(T&&...) = delete;
};
template<class... Args>
struct FromArgs
{
FromArgs(Args...);
};
struct DelDef
{
DelDef() = delete;
};
struct DelCopy
{
DelCopy(const DelCopy&) = delete;
};
struct DelDtor
{
DelDtor() = default;
DelDtor(const DelDtor&) = default;
DelDtor(DelDtor&&) = default;
DelDtor(int);
DelDtor(int, B, U);
~DelDtor() = delete;
};
struct Nontrivial
{
Nontrivial();
Nontrivial(const Nontrivial&);
Nontrivial& operator=(const Nontrivial&);
~Nontrivial();
};
union NontrivialUnion
{
int i;
Nontrivial n;
};
struct UnusualCopy
{
UnusualCopy(UnusualCopy&);
};
}
namespace destruct
{
struct E
{};
struct NTD1
{
~NTD1() = default;
};
struct NTD2
{
~NTD2();
};
struct NTD3
{
~NTD3() throw();
};
struct TD1
{
~TD1() noexcept(false);
};
struct TD2
{
~TD2() THROW(int);
};
struct Aggr
{
int i;
bool b;
E e;
};
struct Aggr2
{
int i;
bool b;
TD1 r;
};
struct Del
{
~Del() = delete;
};
struct Del2
{
~Del2() noexcept = delete;
};
struct Del3
{
~Del3() noexcept(false) = delete;
};
struct Der : Aggr
{};
struct Der2 : Aggr2
{};
union U1
{
int i;
double d;
void* p;
TD1* pt;
};
union Ut
{
int i;
double d;
void* p;
TD1 pt;
};
enum class En { a, b, c, d };
enum En2 { En2a, En2b, En2c, En2d };
enum OpE : int;
enum class OpSE : bool;
struct Abstract1
{
virtual ~Abstract1() = 0;
};
struct AbstractDelDtor
{
~AbstractDelDtor() = delete;
virtual void foo() = 0;
};
struct Abstract2
{
virtual ~Abstract2() noexcept(false) = 0;
};
struct Abstract3
{
~Abstract3() noexcept(false);
virtual void foo() noexcept = 0;
};
struct Nontrivial
{
Nontrivial();
Nontrivial(const Nontrivial&);
Nontrivial& operator=(const Nontrivial&);
~Nontrivial();
};
union NontrivialUnion
{
int i;
Nontrivial n;
};
struct UnusualCopy
{
UnusualCopy(UnusualCopy&);
};
struct Ellipsis
{
Ellipsis(...){}
};
struct DelEllipsis
{
DelEllipsis(...) = delete;
};
struct DelDef
{
DelDef() = delete;
};
struct DelCopy
{
DelCopy(const DelCopy&) = delete;
};
}
namespace assign
{
struct Empty {};
struct B { int i; B(){} };
struct D : B {};
enum E { ee1 };
enum E2 { ee2 };
enum class SE { e1 };
enum class SE2 { e2 };
enum OpE : int;
enum class OpSE : bool;
union U { int i; Empty b; };
union UAssignAll
{
bool b;
char c;
template<class T>
void operator=(T&&);
};
union UDelAssignAll
{
bool b;
char c;
template<class T>
void operator=(T&&) = delete;
};
struct Abstract
{
virtual ~Abstract() = 0;
};
struct AbstractDelDtor
{
~AbstractDelDtor() = delete;
virtual void foo() = 0;
};
struct Ukn;
template<class To>
struct ImplicitTo
{
operator To();
};
template<class To>
struct ExplicitTo
{
explicit operator To();
};
template<class To>
struct DelImplicitTo
{
operator To() = delete;
};
template<class To>
struct DelExplicitTo
{
explicit operator To() = delete;
};
struct Ellipsis
{
Ellipsis(...){}
};
struct DelEllipsis
{
DelEllipsis(...) = delete;
};
struct Any
{
template<class T>
Any(T&&){}
};
struct nAny
{
template<class... T>
nAny(T&&...){}
};
struct DelnAny
{
template<class... T>
DelnAny(T&&...) = delete;
};
template<class... Args>
struct FromArgs
{
FromArgs(Args...);
};
template<class... Args>
struct DelFromArgs
{
DelFromArgs(Args...) = delete;
};
struct DelDef
{
DelDef() = delete;
};
struct DelCopy
{
DelCopy(const DelCopy&) = delete;
};
struct DelDtor
{
DelDtor() = default;
DelDtor(const DelDtor&) = default;
DelDtor(DelDtor&&) = default;
DelDtor(int);
DelDtor(int, B, U);
~DelDtor() = delete;
};
struct Nontrivial
{
Nontrivial();
Nontrivial(const Nontrivial&);
Nontrivial& operator=(const Nontrivial&);
~Nontrivial();
};
union NontrivialUnion
{
int i;
Nontrivial n;
};
struct UnusualCopy
{
UnusualCopy(UnusualCopy&);
};
struct AnyAssign
{
template<class T>
void operator=(T&&);
};
struct DelAnyAssign
{
template<class T>
void operator=(T&&) = delete;
};
struct DelCopyAssign
{
DelCopyAssign& operator=(const DelCopyAssign&) = delete;
DelCopyAssign& operator=(DelCopyAssign&&) = default;
};
struct MO
{
MO(MO&&) = default;
MO& operator=(MO&&) = default;
};
}
struct CopyConsOnlyType
{
CopyConsOnlyType(int) { }
CopyConsOnlyType(CopyConsOnlyType&&) = delete;
CopyConsOnlyType(const CopyConsOnlyType&) = default;
CopyConsOnlyType& operator=(const CopyConsOnlyType&) = delete;
CopyConsOnlyType& operator=(CopyConsOnlyType&&) = delete;
};
struct MoveConsOnlyType
{
MoveConsOnlyType(int) { }
MoveConsOnlyType(const MoveConsOnlyType&) = delete;
MoveConsOnlyType(MoveConsOnlyType&&) = default;
MoveConsOnlyType& operator=(const MoveConsOnlyType&) = delete;
MoveConsOnlyType& operator=(MoveConsOnlyType&&) = delete;
};
#endif
} // namespace __gnu_test
#endif // _GLIBCXX_TESTSUITE_TR1_H