nameof_module/test/test.cpp
2021-01-24 08:39:23 +02:00

881 lines
38 KiB
C++

// Licensed under the MIT License <http://opensource.org/licenses/MIT>.
// SPDX-License-Identifier: MIT
// Copyright (c) 2018 - 2021 Daniil Goncharov <neargye@gmail.com>.
//
// Permission is hereby granted, free of charge, to any person obtaining a copy
// of this software and associated documentation files (the "Software"), to deal
// in the Software without restriction, including without limitation the rights
// to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
// copies of the Software, and to permit persons to whom the Software is
// furnished to do so, subject to the following conditions:
//
// The above copyright notice and this permission notice shall be included in all
// copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
// SOFTWARE.
#define CATCH_CONFIG_MAIN
#include <catch.hpp>
#define NAMEOF_ENUM_RANGE_MIN -120
#define NAMEOF_ENUM_RANGE_MAX 120
#include <nameof.hpp>
#include <string>
#include <stdexcept>
#ifdef NDEBUG
# define NAMEOF_DEBUG_REQUIRE(...) REQUIRE(__VA_ARGS__)
#else
# define NAMEOF_DEBUG_REQUIRE(...)
#endif
struct SomeStruct {
int somefield = 0;
void SomeMethod1(int) {
throw std::runtime_error{"should not be called!"};
}
int SomeMethod2() const {
throw std::runtime_error{"should not be called!"};
}
};
void SomeMethod3() {
throw std::runtime_error{"should not be called!"};
}
template <typename T, typename U>
std::string SomeMethod4(U) {
throw std::runtime_error{"should not be called!"};
}
template <typename T>
class SomeClass {
public:
void SomeMethod5() const {
throw std::runtime_error{"should not be called!"};
}
template <typename C>
C SomeMethod6() const {
throw std::runtime_error{"should not be called!"};
}
};
struct Long {
struct LL {
int field = 0;
};
LL ll;
};
enum class Color { RED = -12, GREEN = 7, BLUE = 15 };
enum class Numbers : int { one = 1, two, three, many = 127 };
enum Directions { Up = 85, Down = -42, Right = 120, Left = -120 };
enum number : unsigned long { one = 100, two = 200, three = 300, four = 400 };
enum AnimalFlags {
HasClaws = 1,
CanFly = 2,
EatsFish = 4,
Endangered = 8,
};
enum class BigFlags : std::uint64_t {
A = 1,
B = (static_cast<std::uint64_t>(0x1) << 20),
C = (static_cast<std::uint64_t>(0x1) << 40),
D = (static_cast<std::uint64_t>(0x1) << 63),
};
template <>
struct nameof::customize::enum_range<number> {
static_assert(std::is_enum_v<number>, "nameof::enum_range<number> requires enum type.");
static constexpr int min = 100;
static constexpr int max = 300;
static_assert(max > min, "nameof::enum_range<number> requires max > min.");
};
struct TestRtti{
struct Base { virtual ~Base() = default; };
struct Derived : Base {};
};
SomeStruct struct_var;
Long othervar;
SomeStruct* ptr_s = &struct_var;
SomeStruct& ref_s = struct_var;
SomeClass<int> class_var;
const SomeClass<int> volatile * ptr_c = nullptr;
const Color color = Color::RED;
TEST_CASE("NAMEOF") {
SECTION("variable") {
constexpr auto name = NAMEOF(othervar);
REQUIRE(name == "othervar");
REQUIRE(NAMEOF(struct_var) == "struct_var");
REQUIRE(NAMEOF(::struct_var) == "struct_var");
REQUIRE(NAMEOF(ptr_s) == "ptr_s");
REQUIRE(NAMEOF(color) == "color");
}
SECTION("member") {
REQUIRE(NAMEOF(struct_var.somefield) == "somefield");
REQUIRE(NAMEOF((&struct_var)->somefield) == "somefield");
REQUIRE(NAMEOF(othervar.ll.field) == "field");
}
SECTION("function") {
REQUIRE(NAMEOF(&SomeStruct::SomeMethod1) == "SomeMethod1");
REQUIRE(NAMEOF(struct_var.SomeMethod1(1)) == "SomeMethod1");
REQUIRE(NAMEOF(&SomeStruct::SomeMethod2) == "SomeMethod2");
REQUIRE(NAMEOF(struct_var.SomeMethod2()) == "SomeMethod2");
REQUIRE(NAMEOF(SomeMethod3) == "SomeMethod3");
REQUIRE(NAMEOF(SomeMethod3()) == "SomeMethod3");
REQUIRE(NAMEOF(SomeMethod4<int, float>) == "SomeMethod4");
REQUIRE(NAMEOF(SomeMethod4<int, float>(1.0f)) == "SomeMethod4");
REQUIRE(NAMEOF(&SomeClass<int>::SomeMethod5) == "SomeMethod5");
REQUIRE(NAMEOF(class_var.SomeMethod5()) == "SomeMethod5");
REQUIRE(NAMEOF(&SomeClass<int>::SomeMethod6<long int>) == "SomeMethod6");
REQUIRE(NAMEOF(class_var.SomeMethod6<long int>()) == "SomeMethod6");
}
SECTION("enum") {
REQUIRE(NAMEOF(Color::RED) == "RED");
REQUIRE(NAMEOF(Color::BLUE) == "BLUE");
}
}
TEST_CASE("NAMEOF_FULL") {
SECTION("variable") {
constexpr auto full_name = NAMEOF_FULL(othervar);
REQUIRE(full_name == "othervar");
REQUIRE(NAMEOF_FULL(struct_var) == "struct_var");
REQUIRE(NAMEOF_FULL(::struct_var) == "struct_var");
REQUIRE(NAMEOF_FULL(ptr_s) == "ptr_s");
REQUIRE(NAMEOF_FULL(color) == "color");
}
SECTION("member") {
REQUIRE(NAMEOF_FULL(struct_var.somefield) == "somefield");
REQUIRE(NAMEOF_FULL((&struct_var)->somefield) == "somefield");
REQUIRE(NAMEOF_FULL(othervar.ll.field) == "field");
}
SECTION("function") {
REQUIRE(NAMEOF_FULL(&SomeStruct::SomeMethod1) == "SomeMethod1");
REQUIRE(NAMEOF_FULL(struct_var.SomeMethod1(1)) == "SomeMethod1");
REQUIRE(NAMEOF_FULL(&SomeStruct::SomeMethod2) == "SomeMethod2");
REQUIRE(NAMEOF_FULL(struct_var.SomeMethod2()) == "SomeMethod2");
REQUIRE(NAMEOF_FULL(SomeMethod3) == "SomeMethod3");
REQUIRE(NAMEOF_FULL(SomeMethod3()) == "SomeMethod3");
REQUIRE(NAMEOF_FULL(SomeMethod4<int, float>) == "SomeMethod4<int, float>");
REQUIRE(NAMEOF_FULL(SomeMethod4<int, float>(1.0f)) == "SomeMethod4<int, float>");
REQUIRE(NAMEOF_FULL(&SomeClass<int>::SomeMethod5) == "SomeMethod5");
REQUIRE(NAMEOF_FULL(class_var.SomeMethod5()) == "SomeMethod5");
REQUIRE(NAMEOF_FULL(&SomeClass<int>::SomeMethod6<long int>) == "SomeMethod6<long int>");
REQUIRE(NAMEOF_FULL(class_var.SomeMethod6<long int>()) == "SomeMethod6<long int>");
}
SECTION("enum") {
REQUIRE(NAMEOF_FULL(Color::RED) == "RED");
REQUIRE(NAMEOF_FULL(Color::BLUE) == "BLUE");
}
}
TEST_CASE("NAMEOF_RAW") {
SECTION("variable") {
constexpr auto raw_name = NAMEOF_RAW(othervar);
REQUIRE(raw_name == "othervar");
REQUIRE(NAMEOF_RAW(struct_var) == "struct_var");
REQUIRE(NAMEOF_RAW(&struct_var) == "&struct_var");
REQUIRE(NAMEOF_RAW(::struct_var) == "::struct_var");
REQUIRE(NAMEOF_RAW(ptr_s) == "ptr_s");
REQUIRE(NAMEOF_RAW(*ptr_s) == "*ptr_s");
REQUIRE(NAMEOF_RAW(ptr_s[0]) == "ptr_s[0]");
REQUIRE(NAMEOF_RAW(color) == "color");
}
SECTION("member") {
REQUIRE(NAMEOF_RAW(struct_var.somefield) == "struct_var.somefield");
REQUIRE(NAMEOF_RAW(struct_var.somefield++) == "struct_var.somefield++");
REQUIRE(NAMEOF_RAW((&struct_var)->somefield) == "(&struct_var)->somefield");
REQUIRE(NAMEOF_RAW(othervar.ll.field) == "othervar.ll.field");
REQUIRE(NAMEOF_RAW(+struct_var.somefield) == "+struct_var.somefield");
REQUIRE(NAMEOF_RAW(-struct_var.somefield) == "-struct_var.somefield");
REQUIRE(NAMEOF_RAW(~struct_var.somefield) == "~struct_var.somefield");
REQUIRE(NAMEOF_RAW(!struct_var.somefield) == "!struct_var.somefield");
REQUIRE(NAMEOF_RAW(struct_var.somefield + ref_s.somefield) == "struct_var.somefield + ref_s.somefield");
}
SECTION("function") {
REQUIRE(NAMEOF_RAW(&SomeStruct::SomeMethod1) == "&SomeStruct::SomeMethod1");
REQUIRE(NAMEOF_RAW(struct_var.SomeMethod1(1)) == "struct_var.SomeMethod1(1)");
REQUIRE(NAMEOF_RAW(&SomeStruct::SomeMethod2) == "&SomeStruct::SomeMethod2");
REQUIRE(NAMEOF_RAW(struct_var.SomeMethod2()) == "struct_var.SomeMethod2()");
REQUIRE(NAMEOF_RAW(SomeMethod3) == "SomeMethod3");
REQUIRE(NAMEOF_RAW(SomeMethod3()) == "SomeMethod3()");
REQUIRE(NAMEOF_RAW(SomeMethod4<int, float>) == "SomeMethod4<int, float>");
REQUIRE(NAMEOF_RAW(SomeMethod4<int, float>(1.0f)) == "SomeMethod4<int, float>(1.0f)");
REQUIRE(NAMEOF_RAW(&SomeClass<int>::SomeMethod5) == "&SomeClass<int>::SomeMethod5");
REQUIRE(NAMEOF_RAW(class_var.SomeMethod5()) == "class_var.SomeMethod5()");
REQUIRE(NAMEOF_RAW(&SomeClass<int>::SomeMethod6<long int>) == "&SomeClass<int>::SomeMethod6<long int>");
REQUIRE(NAMEOF_RAW(class_var.SomeMethod6<long int>()) == "class_var.SomeMethod6<long int>()");
}
SECTION("enum") {
REQUIRE(NAMEOF_RAW(Color::RED) == "Color::RED");
REQUIRE(NAMEOF_RAW(Color::BLUE) == "Color::BLUE");
}
SECTION("macro") {
REQUIRE(NAMEOF_RAW(__cplusplus) == "__cplusplus");
REQUIRE(NAMEOF_RAW(__LINE__) == "__LINE__");
REQUIRE(NAMEOF_RAW(__FILE__) == "__FILE__");
}
}
#if defined(NAMEOF_ENUM_SUPPORTED)
static_assert(nameof::is_nameof_enum_supported, "nameof::nameof_enum: Unsupported compiler (https://github.com/Neargye/nameof#compiler-compatibility).");
TEST_CASE("nameof_enum") {
SECTION("automatic storage") {
constexpr Color cr = Color::RED;
constexpr auto cr_name = nameof::nameof_enum(cr);
Color cm[3] = {Color::RED, Color::GREEN, Color::BLUE};
REQUIRE(cr_name == "RED");
REQUIRE(nameof::nameof_enum(Color::BLUE) == "BLUE");
REQUIRE(nameof::nameof_enum(cm[1]) == "GREEN");
NAMEOF_DEBUG_REQUIRE(nameof::nameof_enum(static_cast<Color>(0)).empty());
constexpr Numbers no = Numbers::one;
constexpr auto no_name = nameof::nameof_enum(no);
REQUIRE(no_name == "one");
REQUIRE(nameof::nameof_enum(Numbers::two) == "two");
REQUIRE(nameof::nameof_enum(Numbers::three) == "three");
NAMEOF_DEBUG_REQUIRE(nameof::nameof_enum(Numbers::many).empty());
NAMEOF_DEBUG_REQUIRE(nameof::nameof_enum(static_cast<Numbers>(0)).empty());
constexpr Directions dr = Directions::Right;
constexpr auto dr_name = nameof::nameof_enum(dr);
REQUIRE(nameof::nameof_enum(Directions::Up) == "Up");
REQUIRE(nameof::nameof_enum(Directions::Down) == "Down");
REQUIRE(dr_name == "Right");
REQUIRE(nameof::nameof_enum(Directions::Left) == "Left");
NAMEOF_DEBUG_REQUIRE(nameof::nameof_enum(static_cast<Directions>(0)).empty());
constexpr number nt = number::three;
constexpr auto nt_name = nameof::nameof_enum(nt);
REQUIRE(nameof::nameof_enum(number::one) == "one");
REQUIRE(nameof::nameof_enum(number::two) == "two");
REQUIRE(nt_name == "three");
NAMEOF_DEBUG_REQUIRE(nameof::nameof_enum(number::four).empty());
NAMEOF_DEBUG_REQUIRE(nameof::nameof_enum(static_cast<number>(0)).empty());
}
SECTION("static storage") {
constexpr Color cr = Color::RED;
constexpr auto cr_name = nameof::nameof_enum<cr>();
constexpr Color cm[3] = {Color::RED, Color::GREEN, Color::BLUE};
REQUIRE(cr_name == "RED");
REQUIRE(nameof::nameof_enum<Color::BLUE>() == "BLUE");
REQUIRE(nameof::nameof_enum<cm[1]>() == "GREEN");
constexpr Numbers no = Numbers::one;
constexpr auto no_name = nameof::nameof_enum<no>();
REQUIRE(no_name == "one");
REQUIRE(nameof::nameof_enum<Numbers::two>() == "two");
REQUIRE(nameof::nameof_enum<Numbers::three>() == "three");
REQUIRE(nameof::nameof_enum<Numbers::many>() == "many");
constexpr Directions dr = Directions::Right;
constexpr auto dr_name = nameof::nameof_enum<dr>();
REQUIRE(nameof::nameof_enum<Directions::Up>() == "Up");
REQUIRE(nameof::nameof_enum<Directions::Down>() == "Down");
REQUIRE(dr_name == "Right");
REQUIRE(nameof::nameof_enum<Directions::Left>() == "Left");
constexpr number nt = number::three;
constexpr auto nt_name = nameof::nameof_enum<nt>();
REQUIRE(nameof::nameof_enum<number::one>() == "one");
REQUIRE(nameof::nameof_enum<number::two>() == "two");
REQUIRE(nt_name == "three");
REQUIRE(nameof::nameof_enum<number::four>() == "four");
}
}
TEST_CASE("nameof_enum_flag") {
constexpr AnimalFlags af = AnimalFlags::HasClaws;
auto af_name = nameof::nameof_enum_flag(af);
AnimalFlags afm[3] = {AnimalFlags::HasClaws, AnimalFlags::CanFly, AnimalFlags::EatsFish};
REQUIRE(af_name == "HasClaws");
REQUIRE(nameof::nameof_enum_flag(AnimalFlags::EatsFish) == "EatsFish");
REQUIRE(nameof::nameof_enum_flag(afm[1]) == "CanFly");
NAMEOF_DEBUG_REQUIRE(nameof::nameof_enum_flag(static_cast<AnimalFlags>(0)).empty());
REQUIRE(nameof::nameof_enum_flag(static_cast<AnimalFlags>(1 | 2)) == "HasClaws|CanFly");
REQUIRE(nameof::nameof_enum_flag(static_cast<AnimalFlags>(1 | 2 | 4)) == "HasClaws|CanFly|EatsFish");
REQUIRE(nameof::nameof_enum_flag(static_cast<AnimalFlags>(1 | 0 | 8)) == "HasClaws|Endangered");
NAMEOF_DEBUG_REQUIRE(nameof::nameof_enum_flag(static_cast<AnimalFlags>(0)).empty());
constexpr BigFlags bf = BigFlags::A;
auto bf_name = nameof::nameof_enum_flag(bf);
BigFlags bfm[3] = {BigFlags::A, BigFlags::B, BigFlags::C};
REQUIRE(bf_name == "A");
REQUIRE(nameof::nameof_enum_flag(BigFlags::C) == "C");
REQUIRE(nameof::nameof_enum_flag(bfm[1]) == "B");
NAMEOF_DEBUG_REQUIRE(nameof::nameof_enum_flag(static_cast<BigFlags>(0)).empty());
NAMEOF_DEBUG_REQUIRE(nameof::nameof_enum_flag(static_cast<BigFlags>(1 | 2)).empty());
REQUIRE(nameof::nameof_enum_flag(static_cast<BigFlags>(1 | (static_cast<std::uint64_t>(0x1) << 20))) == "A|B");
REQUIRE(nameof::nameof_enum_flag(static_cast<BigFlags>(1 | (static_cast<std::uint64_t>(0x1) << 20) | (static_cast<std::uint64_t>(0x1) << 63))) == "A|B|D");
REQUIRE(nameof::nameof_enum_flag(static_cast<BigFlags>(1 | 0 | (static_cast<std::uint64_t>(0x1) << 40))) == "A|C");
REQUIRE(nameof::nameof_enum_flag(static_cast<BigFlags>(1 | 0 | (static_cast<std::uint64_t>(0x1) << 40))) == "A|C");
REQUIRE(nameof::nameof_enum_flag(static_cast<BigFlags>((static_cast<std::uint64_t>(0x1) << 63) | 1)) == "A|D");
NAMEOF_DEBUG_REQUIRE(nameof::nameof_enum_flag(static_cast<BigFlags>(2)).empty());
NAMEOF_DEBUG_REQUIRE(nameof::nameof_enum_flag(static_cast<BigFlags>((static_cast<std::uint64_t>(0x1) << 63) | 2)).empty());
}
TEST_CASE("NAMEOF_ENUM") {
constexpr Color cr = Color::RED;
constexpr auto cr_name = NAMEOF_ENUM(cr);
Color cm[3] = {Color::RED, Color::GREEN, Color::BLUE};
REQUIRE(cr_name == "RED");
REQUIRE(NAMEOF_ENUM(Color::BLUE) == "BLUE");
REQUIRE(NAMEOF_ENUM(cm[1]) == "GREEN");
NAMEOF_DEBUG_REQUIRE(NAMEOF_ENUM(static_cast<Color>(0)).empty());
constexpr Numbers no = Numbers::one;
constexpr auto no_name = NAMEOF_ENUM(no);
REQUIRE(no_name == "one");
REQUIRE(NAMEOF_ENUM(Numbers::two) == "two");
REQUIRE(NAMEOF_ENUM(Numbers::three) == "three");
NAMEOF_DEBUG_REQUIRE(NAMEOF_ENUM(Numbers::many).empty());
NAMEOF_DEBUG_REQUIRE(NAMEOF_ENUM(static_cast<Numbers>(0)).empty());
constexpr Directions dr = Directions::Right;
constexpr auto dr_name = NAMEOF_ENUM(dr);
REQUIRE(NAMEOF_ENUM(Directions::Up) == "Up");
REQUIRE(NAMEOF_ENUM(Directions::Down) == "Down");
REQUIRE(dr_name == "Right");
REQUIRE(NAMEOF_ENUM(Directions::Left) == "Left");
NAMEOF_DEBUG_REQUIRE(NAMEOF_ENUM(static_cast<Directions>(0)).empty());
constexpr number nt = number::three;
constexpr auto nt_name = NAMEOF_ENUM(nt);
REQUIRE(NAMEOF_ENUM(number::one) == "one");
REQUIRE(NAMEOF_ENUM(number::two) == "two");
REQUIRE(nt_name == "three");
NAMEOF_DEBUG_REQUIRE(NAMEOF_ENUM(number::four).empty());
NAMEOF_DEBUG_REQUIRE(NAMEOF_ENUM(static_cast<number>(0)).empty());
}
TEST_CASE("NAMEOF_ENUM_CONST") {
constexpr Color cr = Color::RED;
constexpr auto cr_name = NAMEOF_ENUM_CONST(cr);
constexpr Color cm[3] = {Color::RED, Color::GREEN, Color::BLUE};
REQUIRE(cr_name == "RED");
REQUIRE(NAMEOF_ENUM_CONST(Color::BLUE) == "BLUE");
REQUIRE(NAMEOF_ENUM_CONST(cm[1]) == "GREEN");
constexpr Numbers no = Numbers::one;
constexpr auto no_name = NAMEOF_ENUM_CONST(no);
REQUIRE(no_name == "one");
REQUIRE(NAMEOF_ENUM_CONST(Numbers::two) == "two");
REQUIRE(NAMEOF_ENUM_CONST(Numbers::three) == "three");
REQUIRE(NAMEOF_ENUM_CONST(Numbers::many) == "many");
constexpr Directions dr = Directions::Right;
constexpr auto dr_name = NAMEOF_ENUM_CONST(dr);
REQUIRE(NAMEOF_ENUM_CONST(Directions::Up) == "Up");
REQUIRE(NAMEOF_ENUM_CONST(Directions::Down) == "Down");
REQUIRE(dr_name == "Right");
REQUIRE(NAMEOF_ENUM_CONST(Directions::Left) == "Left");
constexpr number nt = number::three;
constexpr auto nt_name = NAMEOF_ENUM_CONST(nt);
REQUIRE(NAMEOF_ENUM_CONST(number::one) == "one");
REQUIRE(NAMEOF_ENUM_CONST(number::two) == "two");
REQUIRE(nt_name == "three");
REQUIRE(NAMEOF_ENUM_CONST(number::four) == "four");
}
TEST_CASE("NAMEOF_ENUM_FLAG") {
constexpr AnimalFlags af = AnimalFlags::HasClaws;
auto af_name = NAMEOF_ENUM_FLAG(af);
AnimalFlags afm[3] = {AnimalFlags::HasClaws, AnimalFlags::CanFly, AnimalFlags::EatsFish};
REQUIRE(af_name == "HasClaws");
REQUIRE(NAMEOF_ENUM_FLAG(afm[1]) == "CanFly");
REQUIRE(NAMEOF_ENUM_FLAG(AnimalFlags::EatsFish) == "EatsFish");
REQUIRE(NAMEOF_ENUM_FLAG(AnimalFlags::Endangered) == "Endangered");
NAMEOF_DEBUG_REQUIRE(NAMEOF_ENUM_FLAG(static_cast<AnimalFlags>(0)).empty());
REQUIRE(NAMEOF_ENUM_FLAG(static_cast<AnimalFlags>(1 | 2)) == "HasClaws|CanFly");
REQUIRE(NAMEOF_ENUM_FLAG(static_cast<AnimalFlags>(1 | 2 | 4)) == "HasClaws|CanFly|EatsFish");
REQUIRE(NAMEOF_ENUM_FLAG(static_cast<AnimalFlags>(1 | 0 | 8)) == "HasClaws|Endangered");
NAMEOF_DEBUG_REQUIRE(NAMEOF_ENUM_FLAG(static_cast<AnimalFlags>(0)).empty());
constexpr BigFlags bf = BigFlags::A;
auto bf_name = NAMEOF_ENUM_FLAG(bf);
BigFlags bfm[3] = {BigFlags::A, BigFlags::B, BigFlags::C};
REQUIRE(bf_name == "A");
REQUIRE(NAMEOF_ENUM_FLAG(bfm[1]) == "B");
REQUIRE(NAMEOF_ENUM_FLAG(BigFlags::C) == "C");
REQUIRE(NAMEOF_ENUM_FLAG(BigFlags::D) == "D");
NAMEOF_DEBUG_REQUIRE(NAMEOF_ENUM_FLAG(static_cast<BigFlags>(0)).empty());
NAMEOF_DEBUG_REQUIRE(NAMEOF_ENUM_FLAG(static_cast<BigFlags>(1 | 2)).empty());
REQUIRE(NAMEOF_ENUM_FLAG(static_cast<BigFlags>(1 | (static_cast<std::uint64_t>(0x1) << 20))) == "A|B");
REQUIRE(NAMEOF_ENUM_FLAG(static_cast<BigFlags>(1 | (static_cast<std::uint64_t>(0x1) << 20) | (static_cast<std::uint64_t>(0x1) << 63))) == "A|B|D");
REQUIRE(NAMEOF_ENUM_FLAG(static_cast<BigFlags>((static_cast<std::uint64_t>(0x1) << 63) | 1)) == "A|D");
NAMEOF_DEBUG_REQUIRE(NAMEOF_ENUM_FLAG(static_cast<BigFlags>(2)).empty());
NAMEOF_DEBUG_REQUIRE(NAMEOF_ENUM_FLAG(static_cast<BigFlags>((static_cast<std::uint64_t>(0x1) << 63) | 2)).empty());
}
#endif
#if defined(NAMEOF_TYPE_SUPPORTED)
static_assert(nameof::is_nameof_type_supported, "nameof::nameof_type: Unsupported compiler (https://github.com/Neargye/nameof#compiler-compatibility).");
TEST_CASE("nameof::nameof_type") {
constexpr auto type_name = nameof::nameof_type<decltype(struct_var)>();
#if defined(__clang__)
REQUIRE(type_name == "SomeStruct");
REQUIRE(nameof::nameof_type<decltype(ptr_s)>() == "SomeStruct *");
REQUIRE(nameof::nameof_type<decltype(ref_s)>() == "SomeStruct");
REQUIRE(nameof::nameof_type<SomeStruct>() == "SomeStruct");
REQUIRE(nameof::nameof_type<SomeStruct *>() == "SomeStruct *");
REQUIRE(nameof::nameof_type<const SomeStruct &>() == "SomeStruct");
REQUIRE(nameof::nameof_type<const SomeStruct volatile *>() == "const volatile SomeStruct *");
REQUIRE(nameof::nameof_type<SomeClass<int>>() == "SomeClass<int>");
REQUIRE(nameof::nameof_type<const SomeClass<int> volatile *>() == "const volatile SomeClass<int> *");
REQUIRE(nameof::nameof_type<decltype(othervar)>() == "Long");
REQUIRE(nameof::nameof_type<Long>() == "Long");
REQUIRE(nameof::nameof_type<Long::LL>() == "Long::LL");
REQUIRE(nameof::nameof_type<Color>() == "Color");
#elif defined(_MSC_VER)
REQUIRE(type_name == "struct SomeStruct");
REQUIRE(nameof::nameof_type<decltype(ptr_s)>() == "struct SomeStruct *");
REQUIRE(nameof::nameof_type<decltype(ref_s)>() == "struct SomeStruct");
REQUIRE(nameof::nameof_type<SomeStruct>() == "struct SomeStruct");
REQUIRE(nameof::nameof_type<SomeStruct *>() == "struct SomeStruct *");
REQUIRE(nameof::nameof_type<const SomeStruct &>() == "struct SomeStruct");
REQUIRE(nameof::nameof_type<const SomeStruct volatile *>() == "struct SomeStruct const volatile *");
REQUIRE(nameof::nameof_type<SomeClass<int>>() == "class SomeClass<int>");
REQUIRE(nameof::nameof_type<const SomeClass<int> volatile *>() == "class SomeClass<int> const volatile *");
REQUIRE(nameof::nameof_type<decltype(othervar)>() == "struct Long");
REQUIRE(nameof::nameof_type<Long>() == "struct Long");
REQUIRE(nameof::nameof_type<Long::LL>() == "struct Long::LL");
REQUIRE(nameof::nameof_type<Color>() == "enum Color");
#elif defined(__GNUC__)
REQUIRE(type_name == "SomeStruct");
REQUIRE(nameof::nameof_type<decltype(ptr_s)>() == "SomeStruct*");
REQUIRE(nameof::nameof_type<decltype(ref_s)>() == "SomeStruct");
REQUIRE(nameof::nameof_type<SomeStruct>() == "SomeStruct");
REQUIRE(nameof::nameof_type<SomeStruct *>() == "SomeStruct*");
REQUIRE(nameof::nameof_type<const SomeStruct &>() == "SomeStruct");
REQUIRE(nameof::nameof_type<const SomeStruct volatile *>() == "const volatile SomeStruct*");
REQUIRE(nameof::nameof_type<SomeClass<int>>() == "SomeClass<int>");
REQUIRE(nameof::nameof_type<const SomeClass<int> volatile *>() == "const volatile SomeClass<int>*");
REQUIRE(nameof::nameof_type<decltype(othervar)>() == "Long");
REQUIRE(nameof::nameof_type<Long>() == "Long");
REQUIRE(nameof::nameof_type<Long::LL>() == "Long::LL");
REQUIRE(nameof::nameof_type<Color>() == "Color");
#endif
}
TEST_CASE("nameof::nameof_full_type") {
constexpr auto type_name = nameof::nameof_full_type<decltype(struct_var)>();
#if defined(__clang__)
REQUIRE(type_name == "SomeStruct");
REQUIRE(nameof::nameof_full_type<decltype(ptr_s)>() == "SomeStruct *");
REQUIRE(nameof::nameof_full_type<decltype(ref_s)>() == "SomeStruct &");
REQUIRE(nameof::nameof_full_type<SomeStruct>() == "SomeStruct");
REQUIRE(nameof::nameof_full_type<SomeStruct *>() == "SomeStruct *");
REQUIRE(nameof::nameof_full_type<SomeStruct &>() == "SomeStruct &");
REQUIRE(nameof::nameof_full_type<const SomeStruct volatile *>() == "const volatile SomeStruct *");
REQUIRE(nameof::nameof_full_type<SomeClass<int>>() == "SomeClass<int>");
REQUIRE(nameof::nameof_full_type<const SomeClass<int> volatile *>() == "const volatile SomeClass<int> *");
REQUIRE(nameof::nameof_full_type<decltype(othervar)>() == "Long");
REQUIRE(nameof::nameof_full_type<Long>() == "Long");
REQUIRE(nameof::nameof_full_type<Long::LL>() == "Long::LL");
REQUIRE(nameof::nameof_full_type<Color>() == "Color");
#elif defined(_MSC_VER)
REQUIRE(type_name == "struct SomeStruct");
REQUIRE(nameof::nameof_full_type<decltype(ptr_s)>() == "struct SomeStruct *");
REQUIRE(nameof::nameof_full_type<decltype(ref_s)>() == "struct SomeStruct &");
REQUIRE(nameof::nameof_full_type<SomeStruct>() == "struct SomeStruct");
REQUIRE(nameof::nameof_full_type<SomeStruct *>() == "struct SomeStruct *");
REQUIRE(nameof::nameof_full_type<SomeStruct &>() == "struct SomeStruct &");
REQUIRE(nameof::nameof_full_type<const SomeStruct volatile *>() == "struct SomeStruct const volatile *");
REQUIRE(nameof::nameof_full_type<SomeClass<int>>() == "class SomeClass<int>");
REQUIRE(nameof::nameof_full_type<const SomeClass<int> volatile *>() == "class SomeClass<int> const volatile *");
REQUIRE(nameof::nameof_full_type<decltype(othervar)>() == "struct Long");
REQUIRE(nameof::nameof_full_type<Long>() == "struct Long");
REQUIRE(nameof::nameof_full_type<Long::LL>() == "struct Long::LL");
REQUIRE(nameof::nameof_full_type<Color>() == "enum Color");
#elif defined(__GNUC__)
REQUIRE(type_name == "SomeStruct");
REQUIRE(nameof::nameof_full_type<decltype(ptr_s)>() == "SomeStruct*");
REQUIRE(nameof::nameof_full_type<decltype(ref_s)>() == "SomeStruct&");
REQUIRE(nameof::nameof_full_type<SomeStruct>() == "SomeStruct");
REQUIRE(nameof::nameof_full_type<SomeStruct *>() == "SomeStruct*");
REQUIRE(nameof::nameof_full_type<SomeStruct &>() == "SomeStruct&");
REQUIRE(nameof::nameof_full_type<const SomeStruct volatile *>() == "const volatile SomeStruct*");
REQUIRE(nameof::nameof_full_type<SomeClass<int>>() == "SomeClass<int>");
REQUIRE(nameof::nameof_full_type<const SomeClass<int> volatile *>() == "const volatile SomeClass<int>*");
REQUIRE(nameof::nameof_full_type<decltype(othervar)>() == "Long");
REQUIRE(nameof::nameof_full_type<Long>() == "Long");
REQUIRE(nameof::nameof_full_type<Long::LL>() == "Long::LL");
REQUIRE(nameof::nameof_full_type<Color>() == "Color");
#endif
}
TEST_CASE("nameof::nameof_short_type") {
constexpr auto type_name = nameof::nameof_short_type<decltype(struct_var)>();
REQUIRE(type_name == "SomeStruct");
REQUIRE(nameof::nameof_short_type<decltype(ref_s)>() == "SomeStruct");
REQUIRE(nameof::nameof_short_type<SomeStruct>() == "SomeStruct");
REQUIRE(nameof::nameof_short_type<SomeStruct &>() == "SomeStruct");
REQUIRE(nameof::nameof_short_type<const SomeStruct volatile>() == "SomeStruct");
REQUIRE(nameof::nameof_short_type<SomeClass<int>>() == "SomeClass");
REQUIRE(nameof::nameof_short_type<const SomeClass<int> volatile>() == "SomeClass");
REQUIRE(nameof::nameof_short_type<decltype(othervar)>() == "Long");
REQUIRE(nameof::nameof_short_type<Long>() == "Long");
REQUIRE(nameof::nameof_short_type<Long::LL>() == "LL");
REQUIRE(nameof::nameof_short_type<Color>() == "Color");
}
TEST_CASE("NAMEOF_TYPE") {
constexpr auto type_name = NAMEOF_TYPE(decltype(struct_var));
#if defined(__clang__)
REQUIRE(type_name == "SomeStruct");
REQUIRE(NAMEOF_TYPE(decltype(ptr_s)) == "SomeStruct *");
REQUIRE(NAMEOF_TYPE(decltype(ref_s)) == "SomeStruct");
REQUIRE(NAMEOF_TYPE(SomeStruct) == "SomeStruct");
REQUIRE(NAMEOF_TYPE(SomeStruct *) == "SomeStruct *");
REQUIRE(NAMEOF_TYPE(const SomeStruct &) == "SomeStruct");
REQUIRE(NAMEOF_TYPE(const SomeStruct volatile *) == "const volatile SomeStruct *");
REQUIRE(NAMEOF_TYPE(SomeClass<int>) == "SomeClass<int>");
REQUIRE(NAMEOF_TYPE(const SomeClass<int> volatile *) == "const volatile SomeClass<int> *");
REQUIRE(NAMEOF_TYPE(decltype(othervar)) == "Long");
REQUIRE(NAMEOF_TYPE(Long) == "Long");
REQUIRE(NAMEOF_TYPE(Long::LL) == "Long::LL");
REQUIRE(NAMEOF_TYPE(Color) == "Color");
#elif defined(_MSC_VER)
REQUIRE(type_name == "struct SomeStruct");
REQUIRE(NAMEOF_TYPE(decltype(ptr_s)) == "struct SomeStruct *");
REQUIRE(NAMEOF_TYPE(decltype(ref_s)) == "struct SomeStruct");
REQUIRE(NAMEOF_TYPE(SomeStruct) == "struct SomeStruct");
REQUIRE(NAMEOF_TYPE(SomeStruct *) == "struct SomeStruct *");
REQUIRE(NAMEOF_TYPE(const SomeStruct &) == "struct SomeStruct");
REQUIRE(NAMEOF_TYPE(const SomeStruct volatile *) == "struct SomeStruct const volatile *");
REQUIRE(NAMEOF_TYPE(SomeClass<int>) == "class SomeClass<int>");
REQUIRE(NAMEOF_TYPE(const SomeClass<int> volatile *) == "class SomeClass<int> const volatile *");
REQUIRE(NAMEOF_TYPE(decltype(othervar)) == "struct Long");
REQUIRE(NAMEOF_TYPE(Long) == "struct Long");
REQUIRE(NAMEOF_TYPE(Long::LL) == "struct Long::LL");
REQUIRE(NAMEOF_TYPE(Color) == "enum Color");
#elif defined(__GNUC__)
REQUIRE(type_name == "SomeStruct");
REQUIRE(NAMEOF_TYPE(decltype(ptr_s)) == "SomeStruct*");
REQUIRE(NAMEOF_TYPE(decltype(ref_s)) == "SomeStruct");
REQUIRE(NAMEOF_TYPE(SomeStruct) == "SomeStruct");
REQUIRE(NAMEOF_TYPE(SomeStruct *) == "SomeStruct*");
REQUIRE(NAMEOF_TYPE(const SomeStruct &) == "SomeStruct");
REQUIRE(NAMEOF_TYPE(const SomeStruct volatile *) == "const volatile SomeStruct*");
REQUIRE(NAMEOF_TYPE(SomeClass<int>) == "SomeClass<int>");
REQUIRE(NAMEOF_TYPE(const SomeClass<int> volatile *) == "const volatile SomeClass<int>*");
REQUIRE(NAMEOF_TYPE(decltype(othervar)) == "Long");
REQUIRE(NAMEOF_TYPE(Long) == "Long");
REQUIRE(NAMEOF_TYPE(Long::LL) == "Long::LL");
REQUIRE(NAMEOF_TYPE(Color) == "Color");
#endif
}
TEST_CASE("NAMEOF_TYPE_EXPR") {
constexpr auto type_name = NAMEOF_TYPE_EXPR(struct_var);
#if defined(__clang__)
REQUIRE(type_name == "SomeStruct");
REQUIRE(NAMEOF_TYPE_EXPR(ptr_s) == "SomeStruct *");
REQUIRE(NAMEOF_TYPE_EXPR(ref_s) == "SomeStruct");
REQUIRE(NAMEOF_TYPE_EXPR(ptr_c) == "const volatile SomeClass<int> *");
REQUIRE(NAMEOF_TYPE_EXPR(othervar) == "Long");
REQUIRE(NAMEOF_TYPE_EXPR(othervar.ll) == "Long::LL");
REQUIRE(NAMEOF_TYPE_EXPR(othervar.ll.field) == "int");
REQUIRE(NAMEOF_TYPE_EXPR(Color::RED) == "Color");
REQUIRE(NAMEOF_TYPE_EXPR(std::declval<const SomeClass<int>>()) == "SomeClass<int>");
#elif defined(_MSC_VER)
REQUIRE(type_name == "struct SomeStruct");
REQUIRE(NAMEOF_TYPE_EXPR(ptr_s) == "struct SomeStruct *");
REQUIRE(NAMEOF_TYPE_EXPR(ref_s) == "struct SomeStruct");
REQUIRE(NAMEOF_TYPE_EXPR(ptr_c) == "class SomeClass<int> const volatile *");
REQUIRE(NAMEOF_TYPE_EXPR(othervar) == "struct Long");
REQUIRE(NAMEOF_TYPE_EXPR(othervar.ll) == "struct Long::LL");
REQUIRE(NAMEOF_TYPE_EXPR(othervar.ll.field) == "int");
REQUIRE(NAMEOF_TYPE_EXPR(Color::RED) == "enum Color");
REQUIRE(NAMEOF_TYPE_EXPR(std::declval<const SomeClass<int>>()) == "class SomeClass<int>");
#elif defined(__GNUC__)
REQUIRE(type_name == "SomeStruct");
REQUIRE(NAMEOF_TYPE_EXPR(ptr_s) == "SomeStruct*");
REQUIRE(NAMEOF_TYPE_EXPR(ref_s) == "SomeStruct");
REQUIRE(NAMEOF_TYPE_EXPR(ptr_c) == "const volatile SomeClass<int>*");
REQUIRE(NAMEOF_TYPE_EXPR(othervar) == "Long");
REQUIRE(NAMEOF_TYPE_EXPR(othervar.ll) == "Long::LL");
REQUIRE(NAMEOF_TYPE_EXPR(othervar.ll.field) == "int");
REQUIRE(NAMEOF_TYPE_EXPR(Color::RED) == "Color");
REQUIRE(NAMEOF_TYPE_EXPR(std::declval<const SomeClass<int>>()) == "SomeClass<int>");
#endif
}
TEST_CASE("NAMEOF_FULL_TYPE") {
constexpr auto type_name = NAMEOF_FULL_TYPE(decltype(struct_var));
#if defined(__clang__)
REQUIRE(type_name == "SomeStruct");
REQUIRE(NAMEOF_FULL_TYPE(decltype(ptr_s)) == "SomeStruct *");
REQUIRE(NAMEOF_FULL_TYPE(decltype(ref_s)) == "SomeStruct &");
REQUIRE(NAMEOF_FULL_TYPE(SomeStruct) == "SomeStruct");
REQUIRE(NAMEOF_FULL_TYPE(SomeStruct *) == "SomeStruct *");
REQUIRE(NAMEOF_FULL_TYPE(SomeStruct &) == "SomeStruct &");
REQUIRE(NAMEOF_FULL_TYPE(const SomeStruct volatile *) == "const volatile SomeStruct *");
REQUIRE(NAMEOF_FULL_TYPE(SomeClass<int>) == "SomeClass<int>");
REQUIRE(NAMEOF_FULL_TYPE(const SomeClass<int> volatile *) == "const volatile SomeClass<int> *");
REQUIRE(NAMEOF_FULL_TYPE(decltype(othervar)) == "Long");
REQUIRE(NAMEOF_FULL_TYPE(Long) == "Long");
REQUIRE(NAMEOF_FULL_TYPE(Long::LL) == "Long::LL");
REQUIRE(NAMEOF_FULL_TYPE(Color) == "Color");
#elif defined(_MSC_VER)
REQUIRE(type_name == "struct SomeStruct");
REQUIRE(NAMEOF_FULL_TYPE(decltype(ptr_s)) == "struct SomeStruct *");
REQUIRE(NAMEOF_FULL_TYPE(decltype(ref_s)) == "struct SomeStruct &");
REQUIRE(NAMEOF_FULL_TYPE(SomeStruct) == "struct SomeStruct");
REQUIRE(NAMEOF_FULL_TYPE(SomeStruct *) == "struct SomeStruct *");
REQUIRE(NAMEOF_FULL_TYPE(SomeStruct &) == "struct SomeStruct &");
REQUIRE(NAMEOF_FULL_TYPE(const SomeStruct volatile *) == "struct SomeStruct const volatile *");
REQUIRE(NAMEOF_FULL_TYPE(SomeClass<int>) == "class SomeClass<int>");
REQUIRE(NAMEOF_FULL_TYPE(const SomeClass<int> volatile *) == "class SomeClass<int> const volatile *");
REQUIRE(NAMEOF_FULL_TYPE(decltype(othervar)) == "struct Long");
REQUIRE(NAMEOF_FULL_TYPE(Long) == "struct Long");
REQUIRE(NAMEOF_FULL_TYPE(Long::LL) == "struct Long::LL");
REQUIRE(NAMEOF_FULL_TYPE(Color) == "enum Color");
#elif defined(__GNUC__)
REQUIRE(type_name == "SomeStruct");
REQUIRE(NAMEOF_FULL_TYPE(decltype(ptr_s)) == "SomeStruct*");
REQUIRE(NAMEOF_FULL_TYPE(decltype(ref_s)) == "SomeStruct&");
REQUIRE(NAMEOF_FULL_TYPE(SomeStruct) == "SomeStruct");
REQUIRE(NAMEOF_FULL_TYPE(SomeStruct *) == "SomeStruct*");
REQUIRE(NAMEOF_FULL_TYPE(SomeStruct &) == "SomeStruct&");
REQUIRE(NAMEOF_FULL_TYPE(const SomeStruct volatile *) == "const volatile SomeStruct*");
REQUIRE(NAMEOF_FULL_TYPE(SomeClass<int>) == "SomeClass<int>");
REQUIRE(NAMEOF_FULL_TYPE(const SomeClass<int> volatile *) == "const volatile SomeClass<int>*");
REQUIRE(NAMEOF_FULL_TYPE(decltype(othervar)) == "Long");
REQUIRE(NAMEOF_FULL_TYPE(Long) == "Long");
REQUIRE(NAMEOF_FULL_TYPE(Long::LL) == "Long::LL");
REQUIRE(NAMEOF_FULL_TYPE(Color) == "Color");
#endif
}
TEST_CASE("NAMEOF_FULL_TYPE_EXPR") {
constexpr auto type_name = NAMEOF_FULL_TYPE_EXPR(struct_var);
#if defined(__clang__)
REQUIRE(type_name == "SomeStruct");
REQUIRE(NAMEOF_FULL_TYPE_EXPR(ptr_s) == "SomeStruct *");
REQUIRE(NAMEOF_FULL_TYPE_EXPR(ref_s) == "SomeStruct &");
REQUIRE(NAMEOF_FULL_TYPE_EXPR(ptr_c) == "const volatile SomeClass<int> *");
REQUIRE(NAMEOF_FULL_TYPE_EXPR(othervar) == "Long");
REQUIRE(NAMEOF_FULL_TYPE_EXPR(othervar.ll) == "Long::LL");
REQUIRE(NAMEOF_FULL_TYPE_EXPR(othervar.ll.field) == "int");
REQUIRE(NAMEOF_FULL_TYPE_EXPR(Color::RED) == "Color");
REQUIRE(NAMEOF_FULL_TYPE_EXPR(std::declval<const SomeClass<int>>()) == "const SomeClass<int> &&");
#elif defined(_MSC_VER)
REQUIRE(type_name == "struct SomeStruct");
REQUIRE(NAMEOF_FULL_TYPE_EXPR(ptr_s) == "struct SomeStruct *");
REQUIRE(NAMEOF_FULL_TYPE_EXPR(ref_s) == "struct SomeStruct &");
REQUIRE(NAMEOF_FULL_TYPE_EXPR(ptr_c) == "class SomeClass<int> const volatile *");
REQUIRE(NAMEOF_FULL_TYPE_EXPR(othervar) == "struct Long");
REQUIRE(NAMEOF_FULL_TYPE_EXPR(othervar.ll) == "struct Long::LL");
REQUIRE(NAMEOF_FULL_TYPE_EXPR(othervar.ll.field) == "int");
REQUIRE(NAMEOF_FULL_TYPE_EXPR(Color::RED) == "enum Color");
REQUIRE(NAMEOF_FULL_TYPE_EXPR(std::declval<const SomeClass<int>>()) == "class SomeClass<int> const &&");
#elif defined(__GNUC__)
REQUIRE(type_name == "SomeStruct");
REQUIRE(NAMEOF_FULL_TYPE_EXPR(ptr_s) == "SomeStruct*");
REQUIRE(NAMEOF_FULL_TYPE_EXPR(ref_s) == "SomeStruct&");
REQUIRE(NAMEOF_FULL_TYPE_EXPR(ptr_c) == "const volatile SomeClass<int>*");
REQUIRE(NAMEOF_FULL_TYPE_EXPR(othervar) == "Long");
REQUIRE(NAMEOF_FULL_TYPE_EXPR(othervar.ll) == "Long::LL");
REQUIRE(NAMEOF_FULL_TYPE_EXPR(othervar.ll.field) == "int");
REQUIRE(NAMEOF_FULL_TYPE_EXPR(Color::RED) == "Color");
REQUIRE(NAMEOF_FULL_TYPE_EXPR(std::declval<const SomeClass<int>>()) == "const SomeClass<int>&&");
#endif
}
TEST_CASE("NAMEOF_SHORT_TYPE") {
constexpr auto type_name = NAMEOF_SHORT_TYPE(decltype(struct_var));
REQUIRE(type_name == "SomeStruct");
REQUIRE(NAMEOF_SHORT_TYPE(decltype(ref_s)) == "SomeStruct");
REQUIRE(NAMEOF_SHORT_TYPE(SomeStruct) == "SomeStruct");
REQUIRE(NAMEOF_SHORT_TYPE(SomeStruct &) == "SomeStruct");
REQUIRE(NAMEOF_SHORT_TYPE(const SomeStruct volatile) == "SomeStruct");
REQUIRE(NAMEOF_SHORT_TYPE(SomeClass<int>) == "SomeClass");
REQUIRE(NAMEOF_SHORT_TYPE(const SomeClass<int> volatile) == "SomeClass");
REQUIRE(NAMEOF_SHORT_TYPE(decltype(othervar)) == "Long");
REQUIRE(NAMEOF_SHORT_TYPE(Long) == "Long");
REQUIRE(NAMEOF_SHORT_TYPE(Long::LL) == "LL");
REQUIRE(NAMEOF_SHORT_TYPE(Color) == "Color");
}
TEST_CASE("NAMEOF_SHORT_TYPE_EXPR") {
constexpr auto type_name = NAMEOF_SHORT_TYPE_EXPR(struct_var);
REQUIRE(type_name == "SomeStruct");
REQUIRE(NAMEOF_SHORT_TYPE_EXPR(ref_s) == "SomeStruct");
REQUIRE(NAMEOF_SHORT_TYPE_EXPR(othervar) == "Long");
REQUIRE(NAMEOF_SHORT_TYPE_EXPR(othervar.ll) == "LL");
REQUIRE(NAMEOF_SHORT_TYPE_EXPR(othervar.ll.field) == "int");
REQUIRE(NAMEOF_SHORT_TYPE_EXPR(Color::RED) == "Color");
REQUIRE(NAMEOF_SHORT_TYPE_EXPR(std::declval<const SomeClass<int>>()) == "SomeClass");
}
#endif
#if defined(NAMEOF_TYPE_RTTI_SUPPORTED) && NAMEOF_TYPE_RTTI_SUPPORTED
TEST_CASE("NAMEOF_TYPE_RTTI") {
TestRtti::Base* ptr = new TestRtti::Derived();
const TestRtti::Base& const_ref = *ptr;
volatile TestRtti::Base& volatile_ref = *ptr;
volatile const TestRtti::Base& cv_ref = *ptr;
#if defined(__clang__) && !defined(_MSC_VER)
REQUIRE(NAMEOF_TYPE_RTTI(*ptr) == "TestRtti::Derived");
REQUIRE(NAMEOF_TYPE_RTTI(const_ref) == "TestRtti::Derived");
REQUIRE(NAMEOF_TYPE_RTTI(volatile_ref) == "TestRtti::Derived");
REQUIRE(NAMEOF_TYPE_RTTI(cv_ref) == "TestRtti::Derived");
#elif defined(_MSC_VER)
REQUIRE(NAMEOF_TYPE_RTTI(*ptr) == "struct TestRtti::Derived");
REQUIRE(NAMEOF_TYPE_RTTI(const_ref) == "struct TestRtti::Derived");
REQUIRE(NAMEOF_TYPE_RTTI(volatile_ref) == "struct TestRtti::Derived");
REQUIRE(NAMEOF_TYPE_RTTI(cv_ref) == "struct TestRtti::Derived");
#elif defined(__GNUC__)
REQUIRE(NAMEOF_TYPE_RTTI(*ptr) == "TestRtti::Derived");
REQUIRE(NAMEOF_TYPE_RTTI(const_ref) == "TestRtti::Derived");
REQUIRE(NAMEOF_TYPE_RTTI(volatile_ref) == "TestRtti::Derived");
REQUIRE(NAMEOF_TYPE_RTTI(cv_ref) == "TestRtti::Derived");
#endif
}
TEST_CASE("NAMEOF_FULL_TYPE_RTTI") {
TestRtti::Base* ptr = new TestRtti::Derived();
const TestRtti::Base& const_ref = *ptr;
volatile TestRtti::Base& volatile_ref = *ptr;
volatile const TestRtti::Base& cv_ref = *ptr;
#if defined(__clang__) && !defined(_MSC_VER)
REQUIRE(NAMEOF_FULL_TYPE_RTTI(*ptr) == "TestRtti::Derived&");
REQUIRE(NAMEOF_FULL_TYPE_RTTI(const_ref) == "const TestRtti::Derived&");
REQUIRE(NAMEOF_FULL_TYPE_RTTI(volatile_ref) == "volatile TestRtti::Derived&");
REQUIRE(NAMEOF_FULL_TYPE_RTTI(cv_ref) == "volatile const TestRtti::Derived&");
#elif defined(_MSC_VER)
REQUIRE(NAMEOF_FULL_TYPE_RTTI(*ptr) == "struct TestRtti::Derived&");
REQUIRE(NAMEOF_FULL_TYPE_RTTI(const_ref) == "const struct TestRtti::Derived&");
REQUIRE(NAMEOF_FULL_TYPE_RTTI(volatile_ref) == "volatile struct TestRtti::Derived&");
REQUIRE(NAMEOF_FULL_TYPE_RTTI(cv_ref) == "volatile const struct TestRtti::Derived&");
#elif defined(__GNUC__)
REQUIRE(NAMEOF_FULL_TYPE_RTTI(*ptr) == "TestRtti::Derived&");
REQUIRE(NAMEOF_FULL_TYPE_RTTI(const_ref) == "const TestRtti::Derived&");
REQUIRE(NAMEOF_FULL_TYPE_RTTI(volatile_ref) == "volatile TestRtti::Derived&");
REQUIRE(NAMEOF_FULL_TYPE_RTTI(cv_ref) == "volatile const TestRtti::Derived&");
#endif
}
TEST_CASE("NAMEOF_SHORT_TYPE_RTTI") {
TestRtti::Base* ptr = new TestRtti::Derived();
const TestRtti::Base& const_ref = *ptr;
volatile TestRtti::Base& volatile_ref = *ptr;
volatile const TestRtti::Base& cv_ref = *ptr;
REQUIRE(NAMEOF_SHORT_TYPE_RTTI(*ptr) == "Derived");
REQUIRE(NAMEOF_SHORT_TYPE_RTTI(const_ref) == "Derived");
REQUIRE(NAMEOF_SHORT_TYPE_RTTI(volatile_ref) == "Derived");
REQUIRE(NAMEOF_SHORT_TYPE_RTTI(cv_ref) == "Derived");
}
#endif