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Diffstat (limited to 'src/google/protobuf/stubs/type_traits_unittest.cc')
-rw-r--r-- | src/google/protobuf/stubs/type_traits_unittest.cc | 631 |
1 files changed, 0 insertions, 631 deletions
diff --git a/src/google/protobuf/stubs/type_traits_unittest.cc b/src/google/protobuf/stubs/type_traits_unittest.cc deleted file mode 100644 index 0e54b952..00000000 --- a/src/google/protobuf/stubs/type_traits_unittest.cc +++ /dev/null @@ -1,631 +0,0 @@ -// Copyright (c) 2006, Google Inc. -// All rights reserved. -// -// Redistribution and use in source and binary forms, with or without -// modification, are permitted provided that the following conditions are -// met: -// -// * Redistributions of source code must retain the above copyright -// notice, this list of conditions and the following disclaimer. -// * Redistributions in binary form must reproduce the above -// copyright notice, this list of conditions and the following disclaimer -// in the documentation and/or other materials provided with the -// distribution. -// * Neither the name of Google Inc. nor the names of its -// contributors may be used to endorse or promote products derived from -// this software without specific prior written permission. -// -// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS -// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT -// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR -// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT -// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, -// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT -// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, -// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY -// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT -// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE -// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. - -// ---- -// Author: Matt Austern - -#include <google/protobuf/stubs/type_traits.h> - -#include <stdlib.h> // for exit() -#include <stdio.h> -#include <string> -#include <vector> - -#include <google/protobuf/testing/googletest.h> -#include <gtest/gtest.h> - -typedef int int32; -// IBM AIX typedefs `int64` in `sys/inttypes.h`, included transitively above. -#ifndef _AIX -typedef long int64; -#endif - -using std::string; -using std::vector; -using std::pair; - - -// This assertion produces errors like "error: invalid use of -// incomplete type 'struct <unnamed>::AssertTypesEq<const int, int>'" -// when it fails. -template<typename T, typename U> struct AssertTypesEq; -template<typename T> struct AssertTypesEq<T, T> {}; -#define COMPILE_ASSERT_TYPES_EQ(T, U) static_cast<void>(AssertTypesEq<T, U>()) - -// A user-defined POD type. -struct A { - int n_; -}; - -// A user-defined non-POD type with a trivial copy constructor. -class B { - public: - explicit B(int n) : n_(n) { } - private: - int n_; -}; - -// Another user-defined non-POD type with a trivial copy constructor. -// We will explicitly declare C to have a trivial copy constructor -// by specializing has_trivial_copy. -class C { - public: - explicit C(int n) : n_(n) { } - private: - int n_; -}; - -namespace google { -namespace protobuf { -namespace internal { -template<> struct has_trivial_copy<C> : true_type { }; -} // namespace internal -} // namespace protobuf -} // namespace google - -// Another user-defined non-POD type with a trivial assignment operator. -// We will explicitly declare C to have a trivial assignment operator -// by specializing has_trivial_assign. -class D { - public: - explicit D(int n) : n_(n) { } - private: - int n_; -}; - -namespace google { -namespace protobuf { -namespace internal { -template<> struct has_trivial_assign<D> : true_type { }; -} // namespace internal -} // namespace protobuf -} // namespace google - -// Another user-defined non-POD type with a trivial constructor. -// We will explicitly declare E to have a trivial constructor -// by specializing has_trivial_constructor. -class E { - public: - int n_; -}; - -namespace google { -namespace protobuf { -namespace internal { -template<> struct has_trivial_constructor<E> : true_type { }; -} // namespace internal -} // namespace protobuf -} // namespace google - -// Another user-defined non-POD type with a trivial destructor. -// We will explicitly declare E to have a trivial destructor -// by specializing has_trivial_destructor. -class F { - public: - explicit F(int n) : n_(n) { } - private: - int n_; -}; - -namespace google { -namespace protobuf { -namespace internal { -template<> struct has_trivial_destructor<F> : true_type { }; -} // namespace internal -} // namespace protobuf -} // namespace google - -enum G {}; - -union H {}; - -class I { - public: - operator int() const; -}; - -class J { - private: - operator int() const; -}; - -namespace google { -namespace protobuf { -namespace internal { -namespace { - -// A base class and a derived class that inherits from it, used for -// testing conversion type traits. -class Base { - public: - virtual ~Base() { } -}; - -class Derived : public Base { -}; - -TEST(TypeTraitsTest, TestIsInteger) { - // Verify that is_integral is true for all integer types. - EXPECT_TRUE(is_integral<bool>::value); - EXPECT_TRUE(is_integral<char>::value); - EXPECT_TRUE(is_integral<unsigned char>::value); - EXPECT_TRUE(is_integral<signed char>::value); - EXPECT_TRUE(is_integral<wchar_t>::value); - EXPECT_TRUE(is_integral<int>::value); - EXPECT_TRUE(is_integral<unsigned int>::value); - EXPECT_TRUE(is_integral<short>::value); - EXPECT_TRUE(is_integral<unsigned short>::value); - EXPECT_TRUE(is_integral<long>::value); - EXPECT_TRUE(is_integral<unsigned long>::value); - - // Verify that is_integral is false for a few non-integer types. - EXPECT_FALSE(is_integral<void>::value); - EXPECT_FALSE(is_integral<float>::value); - EXPECT_FALSE(is_integral<string>::value); - EXPECT_FALSE(is_integral<int*>::value); - EXPECT_FALSE(is_integral<A>::value); - EXPECT_FALSE((is_integral<pair<int, int> >::value)); - - // Verify that cv-qualified integral types are still integral, and - // cv-qualified non-integral types are still non-integral. - EXPECT_TRUE(is_integral<const char>::value); - EXPECT_TRUE(is_integral<volatile bool>::value); - EXPECT_TRUE(is_integral<const volatile unsigned int>::value); - EXPECT_FALSE(is_integral<const float>::value); - EXPECT_FALSE(is_integral<int* volatile>::value); - EXPECT_FALSE(is_integral<const volatile string>::value); -} - -TEST(TypeTraitsTest, TestIsFloating) { - // Verify that is_floating_point is true for all floating-point types. - EXPECT_TRUE(is_floating_point<float>::value); - EXPECT_TRUE(is_floating_point<double>::value); - EXPECT_TRUE(is_floating_point<long double>::value); - - // Verify that is_floating_point is false for a few non-float types. - EXPECT_FALSE(is_floating_point<void>::value); - EXPECT_FALSE(is_floating_point<long>::value); - EXPECT_FALSE(is_floating_point<string>::value); - EXPECT_FALSE(is_floating_point<float*>::value); - EXPECT_FALSE(is_floating_point<A>::value); - EXPECT_FALSE((is_floating_point<pair<int, int> >::value)); - - // Verify that cv-qualified floating point types are still floating, and - // cv-qualified non-floating types are still non-floating. - EXPECT_TRUE(is_floating_point<const float>::value); - EXPECT_TRUE(is_floating_point<volatile double>::value); - EXPECT_TRUE(is_floating_point<const volatile long double>::value); - EXPECT_FALSE(is_floating_point<const int>::value); - EXPECT_FALSE(is_floating_point<volatile string>::value); - EXPECT_FALSE(is_floating_point<const volatile char>::value); -} - -TEST(TypeTraitsTest, TestIsPointer) { - // Verify that is_pointer is true for some pointer types. - EXPECT_TRUE(is_pointer<int*>::value); - EXPECT_TRUE(is_pointer<void*>::value); - EXPECT_TRUE(is_pointer<string*>::value); - EXPECT_TRUE(is_pointer<const void*>::value); - EXPECT_TRUE(is_pointer<volatile float* const*>::value); - - // Verify that is_pointer is false for some non-pointer types. - EXPECT_FALSE(is_pointer<void>::value); - EXPECT_FALSE(is_pointer<float&>::value); - EXPECT_FALSE(is_pointer<long>::value); - EXPECT_FALSE(is_pointer<vector<int*> >::value); - EXPECT_FALSE(is_pointer<int[5]>::value); - - // A function pointer is a pointer, but a function type, or a function - // reference type, is not. - EXPECT_TRUE(is_pointer<int (*)(int x)>::value); - EXPECT_FALSE(is_pointer<void(char x)>::value); - EXPECT_FALSE(is_pointer<double (&)(string x)>::value); - - // Verify that is_pointer<T> is true for some cv-qualified pointer types, - // and false for some cv-qualified non-pointer types. - EXPECT_TRUE(is_pointer<int* const>::value); - EXPECT_TRUE(is_pointer<const void* volatile>::value); - EXPECT_TRUE(is_pointer<char** const volatile>::value); - EXPECT_FALSE(is_pointer<const int>::value); - EXPECT_FALSE(is_pointer<volatile std::vector<int*> >::value); - EXPECT_FALSE(is_pointer<const volatile double>::value); -} - -TEST(TypeTraitsTest, TestIsEnum) { -// is_enum isn't supported on MSVC or gcc 3.x -#if !defined(_MSC_VER) && !(defined(__GNUC__) && __GNUC__ <= 3) - // Verify that is_enum is true for enum types. - EXPECT_TRUE(is_enum<G>::value); - EXPECT_TRUE(is_enum<const G>::value); - EXPECT_TRUE(is_enum<volatile G>::value); - EXPECT_TRUE(is_enum<const volatile G>::value); - - // Verify that is_enum is false for a few non-enum types. - EXPECT_FALSE(is_enum<void>::value); - EXPECT_FALSE(is_enum<G&>::value); - EXPECT_FALSE(is_enum<G[1]>::value); - EXPECT_FALSE(is_enum<const G[1]>::value); - EXPECT_FALSE(is_enum<G[]>::value); - EXPECT_FALSE(is_enum<int>::value); - EXPECT_FALSE(is_enum<float>::value); - EXPECT_FALSE(is_enum<A>::value); - EXPECT_FALSE(is_enum<A*>::value); - EXPECT_FALSE(is_enum<const A>::value); - EXPECT_FALSE(is_enum<H>::value); - EXPECT_FALSE(is_enum<I>::value); - EXPECT_FALSE(is_enum<J>::value); - EXPECT_FALSE(is_enum<void()>::value); - EXPECT_FALSE(is_enum<void(*)()>::value); - EXPECT_FALSE(is_enum<int A::*>::value); - EXPECT_FALSE(is_enum<void (A::*)()>::value); -#endif -} - -TEST(TypeTraitsTest, TestIsReference) { - // Verifies that is_reference is true for all reference types. - typedef float& RefFloat; - EXPECT_TRUE(is_reference<float&>::value); - EXPECT_TRUE(is_reference<const int&>::value); - EXPECT_TRUE(is_reference<const int*&>::value); - EXPECT_TRUE(is_reference<int (&)(bool)>::value); - EXPECT_TRUE(is_reference<RefFloat>::value); - EXPECT_TRUE(is_reference<const RefFloat>::value); - EXPECT_TRUE(is_reference<volatile RefFloat>::value); - EXPECT_TRUE(is_reference<const volatile RefFloat>::value); - - - // Verifies that is_reference is false for all non-reference types. - EXPECT_FALSE(is_reference<float>::value); - EXPECT_FALSE(is_reference<const float>::value); - EXPECT_FALSE(is_reference<volatile float>::value); - EXPECT_FALSE(is_reference<const volatile float>::value); - EXPECT_FALSE(is_reference<const int*>::value); - EXPECT_FALSE(is_reference<int()>::value); - EXPECT_FALSE(is_reference<void(*)(const char&)>::value); -} - -TEST(TypeTraitsTest, TestAddReference) { - COMPILE_ASSERT_TYPES_EQ(int&, add_reference<int>::type); - COMPILE_ASSERT_TYPES_EQ(const int&, add_reference<const int>::type); - COMPILE_ASSERT_TYPES_EQ(volatile int&, - add_reference<volatile int>::type); - COMPILE_ASSERT_TYPES_EQ(const volatile int&, - add_reference<const volatile int>::type); - COMPILE_ASSERT_TYPES_EQ(int&, add_reference<int&>::type); - COMPILE_ASSERT_TYPES_EQ(const int&, add_reference<const int&>::type); - COMPILE_ASSERT_TYPES_EQ(volatile int&, - add_reference<volatile int&>::type); - COMPILE_ASSERT_TYPES_EQ(const volatile int&, - add_reference<const volatile int&>::type); -} - -TEST(TypeTraitsTest, TestIsPod) { - // Verify that arithmetic types and pointers are marked as PODs. - EXPECT_TRUE(is_pod<bool>::value); - EXPECT_TRUE(is_pod<char>::value); - EXPECT_TRUE(is_pod<unsigned char>::value); - EXPECT_TRUE(is_pod<signed char>::value); - EXPECT_TRUE(is_pod<wchar_t>::value); - EXPECT_TRUE(is_pod<int>::value); - EXPECT_TRUE(is_pod<unsigned int>::value); - EXPECT_TRUE(is_pod<short>::value); - EXPECT_TRUE(is_pod<unsigned short>::value); - EXPECT_TRUE(is_pod<long>::value); - EXPECT_TRUE(is_pod<unsigned long>::value); - EXPECT_TRUE(is_pod<float>::value); - EXPECT_TRUE(is_pod<double>::value); - EXPECT_TRUE(is_pod<long double>::value); - EXPECT_TRUE(is_pod<string*>::value); - EXPECT_TRUE(is_pod<A*>::value); - EXPECT_TRUE(is_pod<const B*>::value); - EXPECT_TRUE(is_pod<C**>::value); - EXPECT_TRUE(is_pod<const int>::value); - EXPECT_TRUE(is_pod<char* volatile>::value); - EXPECT_TRUE(is_pod<const volatile double>::value); -#if !defined(_MSC_VER) && !(defined(__GNUC__) && __GNUC__ <= 3) - EXPECT_TRUE(is_pod<G>::value); - EXPECT_TRUE(is_pod<const G>::value); - EXPECT_TRUE(is_pod<volatile G>::value); - EXPECT_TRUE(is_pod<const volatile G>::value); -#endif - - // Verify that some non-POD types are not marked as PODs. - EXPECT_FALSE(is_pod<void>::value); - EXPECT_FALSE(is_pod<string>::value); - EXPECT_FALSE((is_pod<pair<int, int> >::value)); - EXPECT_FALSE(is_pod<A>::value); - EXPECT_FALSE(is_pod<B>::value); - EXPECT_FALSE(is_pod<C>::value); - EXPECT_FALSE(is_pod<const string>::value); - EXPECT_FALSE(is_pod<volatile A>::value); - EXPECT_FALSE(is_pod<const volatile B>::value); -} - -TEST(TypeTraitsTest, TestHasTrivialConstructor) { - // Verify that arithmetic types and pointers have trivial constructors. - EXPECT_TRUE(has_trivial_constructor<bool>::value); - EXPECT_TRUE(has_trivial_constructor<char>::value); - EXPECT_TRUE(has_trivial_constructor<unsigned char>::value); - EXPECT_TRUE(has_trivial_constructor<signed char>::value); - EXPECT_TRUE(has_trivial_constructor<wchar_t>::value); - EXPECT_TRUE(has_trivial_constructor<int>::value); - EXPECT_TRUE(has_trivial_constructor<unsigned int>::value); - EXPECT_TRUE(has_trivial_constructor<short>::value); - EXPECT_TRUE(has_trivial_constructor<unsigned short>::value); - EXPECT_TRUE(has_trivial_constructor<long>::value); - EXPECT_TRUE(has_trivial_constructor<unsigned long>::value); - EXPECT_TRUE(has_trivial_constructor<float>::value); - EXPECT_TRUE(has_trivial_constructor<double>::value); - EXPECT_TRUE(has_trivial_constructor<long double>::value); - EXPECT_TRUE(has_trivial_constructor<string*>::value); - EXPECT_TRUE(has_trivial_constructor<A*>::value); - EXPECT_TRUE(has_trivial_constructor<const B*>::value); - EXPECT_TRUE(has_trivial_constructor<C**>::value); - - // Verify that pairs and arrays of such types have trivial - // constructors. - typedef int int10[10]; - EXPECT_TRUE((has_trivial_constructor<pair<int, char*> >::value)); - EXPECT_TRUE(has_trivial_constructor<int10>::value); - - // Verify that pairs of types without trivial constructors - // are not marked as trivial. - EXPECT_FALSE((has_trivial_constructor<pair<int, string> >::value)); - EXPECT_FALSE((has_trivial_constructor<pair<string, int> >::value)); - - // Verify that types without trivial constructors are - // correctly marked as such. - EXPECT_FALSE(has_trivial_constructor<string>::value); - EXPECT_FALSE(has_trivial_constructor<vector<int> >::value); - - // Verify that E, which we have declared to have a trivial - // constructor, is correctly marked as such. - EXPECT_TRUE(has_trivial_constructor<E>::value); -} - -TEST(TypeTraitsTest, TestHasTrivialCopy) { - // Verify that arithmetic types and pointers have trivial copy - // constructors. - EXPECT_TRUE(has_trivial_copy<bool>::value); - EXPECT_TRUE(has_trivial_copy<char>::value); - EXPECT_TRUE(has_trivial_copy<unsigned char>::value); - EXPECT_TRUE(has_trivial_copy<signed char>::value); - EXPECT_TRUE(has_trivial_copy<wchar_t>::value); - EXPECT_TRUE(has_trivial_copy<int>::value); - EXPECT_TRUE(has_trivial_copy<unsigned int>::value); - EXPECT_TRUE(has_trivial_copy<short>::value); - EXPECT_TRUE(has_trivial_copy<unsigned short>::value); - EXPECT_TRUE(has_trivial_copy<long>::value); - EXPECT_TRUE(has_trivial_copy<unsigned long>::value); - EXPECT_TRUE(has_trivial_copy<float>::value); - EXPECT_TRUE(has_trivial_copy<double>::value); - EXPECT_TRUE(has_trivial_copy<long double>::value); - EXPECT_TRUE(has_trivial_copy<string*>::value); - EXPECT_TRUE(has_trivial_copy<A*>::value); - EXPECT_TRUE(has_trivial_copy<const B*>::value); - EXPECT_TRUE(has_trivial_copy<C**>::value); - - // Verify that pairs and arrays of such types have trivial - // copy constructors. - typedef int int10[10]; - EXPECT_TRUE((has_trivial_copy<pair<int, char*> >::value)); - EXPECT_TRUE(has_trivial_copy<int10>::value); - - // Verify that pairs of types without trivial copy constructors - // are not marked as trivial. - EXPECT_FALSE((has_trivial_copy<pair<int, string> >::value)); - EXPECT_FALSE((has_trivial_copy<pair<string, int> >::value)); - - // Verify that types without trivial copy constructors are - // correctly marked as such. - EXPECT_FALSE(has_trivial_copy<string>::value); - EXPECT_FALSE(has_trivial_copy<vector<int> >::value); - - // Verify that C, which we have declared to have a trivial - // copy constructor, is correctly marked as such. - EXPECT_TRUE(has_trivial_copy<C>::value); -} - -TEST(TypeTraitsTest, TestHasTrivialAssign) { - // Verify that arithmetic types and pointers have trivial assignment - // operators. - EXPECT_TRUE(has_trivial_assign<bool>::value); - EXPECT_TRUE(has_trivial_assign<char>::value); - EXPECT_TRUE(has_trivial_assign<unsigned char>::value); - EXPECT_TRUE(has_trivial_assign<signed char>::value); - EXPECT_TRUE(has_trivial_assign<wchar_t>::value); - EXPECT_TRUE(has_trivial_assign<int>::value); - EXPECT_TRUE(has_trivial_assign<unsigned int>::value); - EXPECT_TRUE(has_trivial_assign<short>::value); - EXPECT_TRUE(has_trivial_assign<unsigned short>::value); - EXPECT_TRUE(has_trivial_assign<long>::value); - EXPECT_TRUE(has_trivial_assign<unsigned long>::value); - EXPECT_TRUE(has_trivial_assign<float>::value); - EXPECT_TRUE(has_trivial_assign<double>::value); - EXPECT_TRUE(has_trivial_assign<long double>::value); - EXPECT_TRUE(has_trivial_assign<string*>::value); - EXPECT_TRUE(has_trivial_assign<A*>::value); - EXPECT_TRUE(has_trivial_assign<const B*>::value); - EXPECT_TRUE(has_trivial_assign<C**>::value); - - // Verify that pairs and arrays of such types have trivial - // assignment operators. - typedef int int10[10]; - EXPECT_TRUE((has_trivial_assign<pair<int, char*> >::value)); - EXPECT_TRUE(has_trivial_assign<int10>::value); - - // Verify that pairs of types without trivial assignment operators - // are not marked as trivial. - EXPECT_FALSE((has_trivial_assign<pair<int, string> >::value)); - EXPECT_FALSE((has_trivial_assign<pair<string, int> >::value)); - - // Verify that types without trivial assignment operators are - // correctly marked as such. - EXPECT_FALSE(has_trivial_assign<string>::value); - EXPECT_FALSE(has_trivial_assign<vector<int> >::value); - - // Verify that D, which we have declared to have a trivial - // assignment operator, is correctly marked as such. - EXPECT_TRUE(has_trivial_assign<D>::value); -} - -TEST(TypeTraitsTest, TestHasTrivialDestructor) { - // Verify that arithmetic types and pointers have trivial destructors. - EXPECT_TRUE(has_trivial_destructor<bool>::value); - EXPECT_TRUE(has_trivial_destructor<char>::value); - EXPECT_TRUE(has_trivial_destructor<unsigned char>::value); - EXPECT_TRUE(has_trivial_destructor<signed char>::value); - EXPECT_TRUE(has_trivial_destructor<wchar_t>::value); - EXPECT_TRUE(has_trivial_destructor<int>::value); - EXPECT_TRUE(has_trivial_destructor<unsigned int>::value); - EXPECT_TRUE(has_trivial_destructor<short>::value); - EXPECT_TRUE(has_trivial_destructor<unsigned short>::value); - EXPECT_TRUE(has_trivial_destructor<long>::value); - EXPECT_TRUE(has_trivial_destructor<unsigned long>::value); - EXPECT_TRUE(has_trivial_destructor<float>::value); - EXPECT_TRUE(has_trivial_destructor<double>::value); - EXPECT_TRUE(has_trivial_destructor<long double>::value); - EXPECT_TRUE(has_trivial_destructor<string*>::value); - EXPECT_TRUE(has_trivial_destructor<A*>::value); - EXPECT_TRUE(has_trivial_destructor<const B*>::value); - EXPECT_TRUE(has_trivial_destructor<C**>::value); - - // Verify that pairs and arrays of such types have trivial - // destructors. - typedef int int10[10]; - EXPECT_TRUE((has_trivial_destructor<pair<int, char*> >::value)); - EXPECT_TRUE(has_trivial_destructor<int10>::value); - - // Verify that pairs of types without trivial destructors - // are not marked as trivial. - EXPECT_FALSE((has_trivial_destructor<pair<int, string> >::value)); - EXPECT_FALSE((has_trivial_destructor<pair<string, int> >::value)); - - // Verify that types without trivial destructors are - // correctly marked as such. - EXPECT_FALSE(has_trivial_destructor<string>::value); - EXPECT_FALSE(has_trivial_destructor<vector<int> >::value); - - // Verify that F, which we have declared to have a trivial - // destructor, is correctly marked as such. - EXPECT_TRUE(has_trivial_destructor<F>::value); -} - -// Tests remove_pointer. -TEST(TypeTraitsTest, TestRemovePointer) { - COMPILE_ASSERT_TYPES_EQ(int, remove_pointer<int>::type); - COMPILE_ASSERT_TYPES_EQ(int, remove_pointer<int*>::type); - COMPILE_ASSERT_TYPES_EQ(const int, remove_pointer<const int*>::type); - COMPILE_ASSERT_TYPES_EQ(int, remove_pointer<int* const>::type); - COMPILE_ASSERT_TYPES_EQ(int, remove_pointer<int* volatile>::type); -} - -TEST(TypeTraitsTest, TestRemoveConst) { - COMPILE_ASSERT_TYPES_EQ(int, remove_const<int>::type); - COMPILE_ASSERT_TYPES_EQ(int, remove_const<const int>::type); - COMPILE_ASSERT_TYPES_EQ(int *, remove_const<int * const>::type); - // TR1 examples. - COMPILE_ASSERT_TYPES_EQ(const int *, remove_const<const int *>::type); - COMPILE_ASSERT_TYPES_EQ(volatile int, - remove_const<const volatile int>::type); -} - -TEST(TypeTraitsTest, TestRemoveVolatile) { - COMPILE_ASSERT_TYPES_EQ(int, remove_volatile<int>::type); - COMPILE_ASSERT_TYPES_EQ(int, remove_volatile<volatile int>::type); - COMPILE_ASSERT_TYPES_EQ(int *, remove_volatile<int * volatile>::type); - // TR1 examples. - COMPILE_ASSERT_TYPES_EQ(volatile int *, - remove_volatile<volatile int *>::type); - COMPILE_ASSERT_TYPES_EQ(const int, - remove_volatile<const volatile int>::type); -} - -TEST(TypeTraitsTest, TestRemoveCV) { - COMPILE_ASSERT_TYPES_EQ(int, remove_cv<int>::type); - COMPILE_ASSERT_TYPES_EQ(int, remove_cv<volatile int>::type); - COMPILE_ASSERT_TYPES_EQ(int, remove_cv<const int>::type); - COMPILE_ASSERT_TYPES_EQ(int *, remove_cv<int * const volatile>::type); - // TR1 examples. - COMPILE_ASSERT_TYPES_EQ(const volatile int *, - remove_cv<const volatile int *>::type); - COMPILE_ASSERT_TYPES_EQ(int, - remove_cv<const volatile int>::type); -} - -TEST(TypeTraitsTest, TestRemoveReference) { - COMPILE_ASSERT_TYPES_EQ(int, remove_reference<int>::type); - COMPILE_ASSERT_TYPES_EQ(int, remove_reference<int&>::type); - COMPILE_ASSERT_TYPES_EQ(const int, remove_reference<const int&>::type); - COMPILE_ASSERT_TYPES_EQ(int*, remove_reference<int * &>::type); -} - -TEST(TypeTraitsTest, TestIsSame) { - EXPECT_TRUE((is_same<int32, int32>::value)); - EXPECT_FALSE((is_same<int32, int64>::value)); - EXPECT_FALSE((is_same<int64, int32>::value)); - EXPECT_FALSE((is_same<int, const int>::value)); - - EXPECT_TRUE((is_same<void, void>::value)); - EXPECT_FALSE((is_same<void, int>::value)); - EXPECT_FALSE((is_same<int, void>::value)); - - EXPECT_TRUE((is_same<int*, int*>::value)); - EXPECT_TRUE((is_same<void*, void*>::value)); - EXPECT_FALSE((is_same<int*, void*>::value)); - EXPECT_FALSE((is_same<void*, int*>::value)); - EXPECT_FALSE((is_same<void*, const void*>::value)); - EXPECT_FALSE((is_same<void*, void* const>::value)); - - EXPECT_TRUE((is_same<Base*, Base*>::value)); - EXPECT_TRUE((is_same<Derived*, Derived*>::value)); - EXPECT_FALSE((is_same<Base*, Derived*>::value)); - EXPECT_FALSE((is_same<Derived*, Base*>::value)); -} - -TEST(TypeTraitsTest, TestConvertible) { -#if !(defined(__GNUC__) && __GNUC__ <= 3) - EXPECT_TRUE((is_convertible<int, int>::value)); - EXPECT_TRUE((is_convertible<int, long>::value)); - EXPECT_TRUE((is_convertible<long, int>::value)); - - EXPECT_TRUE((is_convertible<int*, void*>::value)); - EXPECT_FALSE((is_convertible<void*, int*>::value)); - - EXPECT_TRUE((is_convertible<Derived*, Base*>::value)); - EXPECT_FALSE((is_convertible<Base*, Derived*>::value)); - EXPECT_TRUE((is_convertible<Derived*, const Base*>::value)); - EXPECT_FALSE((is_convertible<const Derived*, Base*>::value)); -#endif -} - -} // anonymous namespace -} // namespace internal -} // namespace protobuf -} // namespace google |