tomato/test/entt/meta/meta_any.cpp

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#include <algorithm>
#include <cstddef>
#include <iterator>
#include <type_traits>
#include <utility>
#include <gtest/gtest.h>
#include <entt/core/hashed_string.hpp>
#include <entt/meta/factory.hpp>
#include <entt/meta/meta.hpp>
#include <entt/meta/resolve.hpp>
#include "../common/config.h"
struct clazz_t {
clazz_t()
: value{0} {}
void member(int i) {
value = i;
}
static void func() {
c = 'd';
}
operator int() const {
return value;
}
static inline char c = 'c';
int value;
};
struct empty_t {
virtual ~empty_t() {
++destructor_counter;
}
static void destroy(empty_t &) {
++destroy_counter;
}
inline static int destroy_counter = 0;
inline static int destructor_counter = 0;
};
struct fat_t: empty_t {
fat_t()
: value{.0, .0, .0, .0} {}
fat_t(double v1, double v2, double v3, double v4)
: value{v1, v2, v3, v4} {}
bool operator==(const fat_t &other) const {
return std::equal(std::begin(value), std::end(value), std::begin(other.value), std::end(other.value));
}
double value[4];
};
enum class enum_class : unsigned short int {
foo = 0u,
bar = 42u
};
struct not_comparable_t {
bool operator==(const not_comparable_t &) const = delete;
};
struct unmanageable_t {
unmanageable_t() = default;
unmanageable_t(const unmanageable_t &) = delete;
unmanageable_t(unmanageable_t &&) = delete;
unmanageable_t &operator=(const unmanageable_t &) = delete;
unmanageable_t &operator=(unmanageable_t &&) = delete;
};
struct MetaAny: ::testing::Test {
void SetUp() override {
using namespace entt::literals;
entt::meta<empty_t>()
.type("empty"_hs)
.dtor<empty_t::destroy>();
entt::meta<fat_t>()
.type("fat"_hs)
.base<empty_t>()
.dtor<fat_t::destroy>();
entt::meta<clazz_t>()
.type("clazz"_hs)
.data<&clazz_t::value>("value"_hs)
.func<&clazz_t::member>("member"_hs)
.func<clazz_t::func>("func"_hs)
.conv<int>();
empty_t::destroy_counter = 0;
empty_t::destructor_counter = 0;
}
void TearDown() override {
entt::meta_reset();
}
};
using MetaAnyDeathTest = MetaAny;
TEST_F(MetaAny, SBO) {
entt::meta_any any{'c'};
ASSERT_TRUE(any);
ASSERT_TRUE(any.owner());
ASSERT_FALSE(any.try_cast<std::size_t>());
ASSERT_EQ(any.cast<char>(), 'c');
ASSERT_NE(any.data(), nullptr);
ASSERT_EQ(any, entt::meta_any{'c'});
ASSERT_NE(entt::meta_any{'h'}, any);
}
TEST_F(MetaAny, NoSBO) {
fat_t instance{.1, .2, .3, .4};
entt::meta_any any{instance};
ASSERT_TRUE(any);
ASSERT_TRUE(any.owner());
ASSERT_FALSE(any.try_cast<std::size_t>());
ASSERT_EQ(any.cast<fat_t>(), instance);
ASSERT_NE(any.data(), nullptr);
ASSERT_EQ(any, entt::meta_any{instance});
ASSERT_NE(any, fat_t{});
}
TEST_F(MetaAny, Empty) {
entt::meta_any any{};
ASSERT_FALSE(any);
ASSERT_FALSE(any.type());
ASSERT_FALSE(any.try_cast<std::size_t>());
ASSERT_EQ(any.data(), nullptr);
ASSERT_EQ(any, entt::meta_any{});
ASSERT_NE(entt::meta_any{'c'}, any);
ASSERT_FALSE(any.as_ref());
ASSERT_FALSE(any.as_sequence_container());
ASSERT_FALSE(any.as_associative_container());
ASSERT_FALSE(std::as_const(any).as_ref());
ASSERT_FALSE(std::as_const(any).as_sequence_container());
ASSERT_FALSE(std::as_const(any).as_associative_container());
}
TEST_F(MetaAny, SBOInPlaceTypeConstruction) {
entt::meta_any any{std::in_place_type<int>, 42};
ASSERT_TRUE(any);
ASSERT_FALSE(any.try_cast<std::size_t>());
ASSERT_EQ(any.cast<int>(), 42);
ASSERT_NE(any.data(), nullptr);
ASSERT_EQ(any, (entt::meta_any{std::in_place_type<int>, 42}));
ASSERT_EQ(any, entt::meta_any{42});
ASSERT_NE(entt::meta_any{3}, any);
}
TEST_F(MetaAny, SBOAsRefConstruction) {
int value = 3;
int compare = 42;
auto any = entt::forward_as_meta(value);
ASSERT_TRUE(any);
ASSERT_FALSE(any.owner());
ASSERT_EQ(any.type(), entt::resolve<int>());
ASSERT_FALSE(any.try_cast<std::size_t>());
ASSERT_EQ(any.cast<int &>(), 3);
ASSERT_EQ(any.cast<const int &>(), 3);
ASSERT_EQ(any.cast<int>(), 3);
ASSERT_EQ(any.data(), &value);
ASSERT_EQ(std::as_const(any).data(), &value);
ASSERT_EQ(any, entt::forward_as_meta(value));
ASSERT_NE(any, entt::forward_as_meta(compare));
ASSERT_NE(any, entt::meta_any{42});
ASSERT_EQ(entt::meta_any{3}, any);
any = entt::forward_as_meta(value);
ASSERT_TRUE(any);
ASSERT_EQ(any.type(), entt::resolve<int>());
ASSERT_EQ(std::as_const(any).data(), &value);
auto other = any.as_ref();
ASSERT_TRUE(other);
ASSERT_EQ(any.type(), entt::resolve<int>());
ASSERT_EQ(any.cast<int>(), 3);
ASSERT_EQ(other.data(), any.data());
}
TEST_F(MetaAny, SBOAsConstRefConstruction) {
const int value = 3;
int compare = 42;
auto any = entt::forward_as_meta(value);
ASSERT_TRUE(any);
ASSERT_FALSE(any.owner());
ASSERT_EQ(any.type(), entt::resolve<int>());
ASSERT_FALSE(any.try_cast<std::size_t>());
ASSERT_EQ(any.cast<const int &>(), 3);
ASSERT_EQ(any.cast<int>(), 3);
ASSERT_EQ(any.data(), nullptr);
ASSERT_EQ(std::as_const(any).data(), &value);
ASSERT_EQ(any, entt::forward_as_meta(value));
ASSERT_NE(any, entt::forward_as_meta(compare));
ASSERT_NE(any, entt::meta_any{42});
ASSERT_EQ(entt::meta_any{3}, any);
any = entt::forward_as_meta(std::as_const(value));
ASSERT_TRUE(any);
ASSERT_EQ(any.type(), entt::resolve<int>());
ASSERT_EQ(std::as_const(any).data(), &value);
auto other = any.as_ref();
ASSERT_TRUE(other);
ASSERT_EQ(any.type(), entt::resolve<int>());
ASSERT_EQ(any.cast<int>(), 3);
ASSERT_EQ(other.data(), any.data());
}
ENTT_DEBUG_TEST_F(MetaAnyDeathTest, SBOAsConstRefConstruction) {
const int value = 3;
auto any = entt::forward_as_meta(value);
ASSERT_TRUE(any);
ASSERT_DEATH(any.cast<int &>() = 3, "");
}
TEST_F(MetaAny, SBOCopyConstruction) {
entt::meta_any any{42};
entt::meta_any other{any};
ASSERT_TRUE(any);
ASSERT_TRUE(other);
ASSERT_FALSE(other.try_cast<std::size_t>());
ASSERT_EQ(other.cast<int>(), 42);
ASSERT_EQ(other, entt::meta_any{42});
ASSERT_NE(other, entt::meta_any{0});
}
TEST_F(MetaAny, SBOCopyAssignment) {
entt::meta_any any{42};
entt::meta_any other{3};
other = any;
ASSERT_TRUE(any);
ASSERT_TRUE(other);
ASSERT_FALSE(other.try_cast<std::size_t>());
ASSERT_EQ(other.cast<int>(), 42);
ASSERT_EQ(other, entt::meta_any{42});
ASSERT_NE(other, entt::meta_any{0});
}
TEST_F(MetaAny, SBOMoveConstruction) {
entt::meta_any any{42};
entt::meta_any other{std::move(any)};
ASSERT_FALSE(any);
ASSERT_TRUE(other);
ASSERT_FALSE(other.try_cast<std::size_t>());
ASSERT_EQ(other.cast<int>(), 42);
ASSERT_EQ(other, entt::meta_any{42});
ASSERT_NE(other, entt::meta_any{0});
}
TEST_F(MetaAny, SBOMoveAssignment) {
entt::meta_any any{42};
entt::meta_any other{3};
other = std::move(any);
ASSERT_FALSE(any);
ASSERT_TRUE(other);
ASSERT_FALSE(other.try_cast<std::size_t>());
ASSERT_EQ(other.cast<int>(), 42);
ASSERT_EQ(other, entt::meta_any{42});
ASSERT_NE(other, entt::meta_any{0});
}
TEST_F(MetaAny, SBODirectAssignment) {
entt::meta_any any{};
any = 42;
ASSERT_FALSE(any.try_cast<std::size_t>());
ASSERT_EQ(any.cast<int>(), 42);
ASSERT_EQ(any, entt::meta_any{42});
ASSERT_NE(entt::meta_any{0}, any);
}
TEST_F(MetaAny, SBOAssignValue) {
entt::meta_any any{42};
entt::meta_any other{3};
entt::meta_any invalid{empty_t{}};
ASSERT_TRUE(any);
ASSERT_EQ(any.cast<int>(), 42);
ASSERT_TRUE(any.assign(other));
ASSERT_FALSE(any.assign(invalid));
ASSERT_EQ(any.cast<int>(), 3);
}
TEST_F(MetaAny, SBOConvertAssignValue) {
entt::meta_any any{42};
entt::meta_any other{3.5};
entt::meta_any invalid{empty_t{}};
ASSERT_TRUE(any);
ASSERT_EQ(any.cast<int>(), 42);
ASSERT_TRUE(any.assign(other));
ASSERT_FALSE(any.assign(invalid));
ASSERT_EQ(any.cast<int>(), 3);
}
TEST_F(MetaAny, SBOAsRefAssignValue) {
int value = 42;
entt::meta_any any{entt::forward_as_meta(value)};
entt::meta_any other{3};
entt::meta_any invalid{empty_t{}};
ASSERT_TRUE(any);
ASSERT_EQ(any.cast<int>(), 42);
ASSERT_TRUE(any.assign(other));
ASSERT_FALSE(any.assign(invalid));
ASSERT_EQ(any.cast<int>(), 3);
ASSERT_EQ(value, 3);
}
TEST_F(MetaAny, SBOAsConstRefAssignValue) {
const int value = 42;
entt::meta_any any{entt::forward_as_meta(value)};
entt::meta_any other{3};
entt::meta_any invalid{empty_t{}};
ASSERT_TRUE(any);
ASSERT_EQ(any.cast<int>(), 42);
ASSERT_FALSE(any.assign(other));
ASSERT_FALSE(any.assign(invalid));
ASSERT_EQ(any.cast<int>(), 42);
ASSERT_EQ(value, 42);
}
TEST_F(MetaAny, SBOTransferValue) {
entt::meta_any any{42};
ASSERT_TRUE(any);
ASSERT_EQ(any.cast<int>(), 42);
ASSERT_TRUE(any.assign(3));
ASSERT_FALSE(any.assign(empty_t{}));
ASSERT_EQ(any.cast<int>(), 3);
}
TEST_F(MetaAny, SBOTransferConstValue) {
const int value = 3;
entt::meta_any any{42};
ASSERT_TRUE(any);
ASSERT_EQ(any.cast<int>(), 42);
ASSERT_TRUE(any.assign(entt::forward_as_meta(value)));
ASSERT_EQ(any.cast<int>(), 3);
}
TEST_F(MetaAny, SBOConvertTransferValue) {
entt::meta_any any{42};
ASSERT_TRUE(any);
ASSERT_EQ(any.cast<int>(), 42);
ASSERT_TRUE(any.assign(3.5));
ASSERT_FALSE(any.assign(empty_t{}));
ASSERT_EQ(any.cast<int>(), 3);
}
TEST_F(MetaAny, SBOAsRefTransferValue) {
int value = 42;
entt::meta_any any{entt::forward_as_meta(value)};
ASSERT_TRUE(any);
ASSERT_EQ(any.cast<int>(), 42);
ASSERT_TRUE(any.assign(3));
ASSERT_FALSE(any.assign(empty_t{}));
ASSERT_EQ(any.cast<int>(), 3);
ASSERT_EQ(value, 3);
}
TEST_F(MetaAny, SBOAsConstRefTransferValue) {
const int value = 42;
entt::meta_any any{entt::forward_as_meta(value)};
ASSERT_TRUE(any);
ASSERT_EQ(any.cast<int>(), 42);
ASSERT_FALSE(any.assign(3));
ASSERT_FALSE(any.assign(empty_t{}));
ASSERT_EQ(any.cast<int>(), 42);
ASSERT_EQ(value, 42);
}
TEST_F(MetaAny, NoSBOInPlaceTypeConstruction) {
fat_t instance{.1, .2, .3, .4};
entt::meta_any any{std::in_place_type<fat_t>, instance};
ASSERT_TRUE(any);
ASSERT_FALSE(any.try_cast<std::size_t>());
ASSERT_EQ(any.cast<fat_t>(), instance);
ASSERT_NE(any.data(), nullptr);
ASSERT_EQ(any, (entt::meta_any{std::in_place_type<fat_t>, instance}));
ASSERT_EQ(any, entt::meta_any{instance});
ASSERT_NE(entt::meta_any{fat_t{}}, any);
}
TEST_F(MetaAny, NoSBOAsRefConstruction) {
fat_t instance{.1, .2, .3, .4};
auto any = entt::forward_as_meta(instance);
ASSERT_TRUE(any);
ASSERT_FALSE(any.owner());
ASSERT_EQ(any.type(), entt::resolve<fat_t>());
ASSERT_FALSE(any.try_cast<std::size_t>());
ASSERT_EQ(any.cast<fat_t &>(), instance);
ASSERT_EQ(any.cast<const fat_t &>(), instance);
ASSERT_EQ(any.cast<fat_t>(), instance);
ASSERT_EQ(any.data(), &instance);
ASSERT_EQ(std::as_const(any).data(), &instance);
ASSERT_EQ(any, entt::forward_as_meta(instance));
ASSERT_EQ(any, entt::meta_any{instance});
ASSERT_NE(entt::meta_any{fat_t{}}, any);
any = entt::forward_as_meta(instance);
ASSERT_TRUE(any);
ASSERT_EQ(any.type(), entt::resolve<fat_t>());
ASSERT_EQ(std::as_const(any).data(), &instance);
auto other = any.as_ref();
ASSERT_TRUE(other);
ASSERT_EQ(any.type(), entt::resolve<fat_t>());
ASSERT_EQ(any, entt::meta_any{instance});
ASSERT_EQ(other.data(), any.data());
}
TEST_F(MetaAny, NoSBOAsConstRefConstruction) {
const fat_t instance{.1, .2, .3, .4};
auto any = entt::forward_as_meta(instance);
ASSERT_TRUE(any);
ASSERT_FALSE(any.owner());
ASSERT_EQ(any.type(), entt::resolve<fat_t>());
ASSERT_FALSE(any.try_cast<std::size_t>());
ASSERT_EQ(any.cast<const fat_t &>(), instance);
ASSERT_EQ(any.cast<fat_t>(), instance);
ASSERT_EQ(any.data(), nullptr);
ASSERT_EQ(std::as_const(any).data(), &instance);
ASSERT_EQ(any, entt::forward_as_meta(instance));
ASSERT_EQ(any, entt::meta_any{instance});
ASSERT_NE(entt::meta_any{fat_t{}}, any);
any = entt::forward_as_meta(std::as_const(instance));
ASSERT_TRUE(any);
ASSERT_EQ(any.type(), entt::resolve<fat_t>());
ASSERT_EQ(std::as_const(any).data(), &instance);
auto other = any.as_ref();
ASSERT_TRUE(other);
ASSERT_EQ(any.type(), entt::resolve<fat_t>());
ASSERT_EQ(any, entt::meta_any{instance});
ASSERT_EQ(other.data(), any.data());
}
ENTT_DEBUG_TEST_F(MetaAnyDeathTest, NoSBOAsConstRefConstruction) {
const fat_t instance{.1, .2, .3, .4};
auto any = entt::forward_as_meta(instance);
ASSERT_TRUE(any);
ASSERT_DEATH(any.cast<fat_t &>() = {}, "");
}
TEST_F(MetaAny, NoSBOCopyConstruction) {
fat_t instance{.1, .2, .3, .4};
entt::meta_any any{instance};
entt::meta_any other{any};
ASSERT_TRUE(any);
ASSERT_TRUE(other);
ASSERT_FALSE(other.try_cast<std::size_t>());
ASSERT_EQ(other.cast<fat_t>(), instance);
ASSERT_EQ(other, entt::meta_any{instance});
ASSERT_NE(other, fat_t{});
}
TEST_F(MetaAny, NoSBOCopyAssignment) {
fat_t instance{.1, .2, .3, .4};
entt::meta_any any{instance};
entt::meta_any other{3};
other = any;
ASSERT_TRUE(any);
ASSERT_TRUE(other);
ASSERT_FALSE(other.try_cast<std::size_t>());
ASSERT_EQ(other.cast<fat_t>(), instance);
ASSERT_EQ(other, entt::meta_any{instance});
ASSERT_NE(other, fat_t{});
}
TEST_F(MetaAny, NoSBOMoveConstruction) {
fat_t instance{.1, .2, .3, .4};
entt::meta_any any{instance};
entt::meta_any other{std::move(any)};
ASSERT_FALSE(any);
ASSERT_TRUE(other);
ASSERT_FALSE(other.try_cast<std::size_t>());
ASSERT_EQ(other.cast<fat_t>(), instance);
ASSERT_EQ(other, entt::meta_any{instance});
ASSERT_NE(other, fat_t{});
}
TEST_F(MetaAny, NoSBOMoveAssignment) {
fat_t instance{.1, .2, .3, .4};
entt::meta_any any{instance};
entt::meta_any other{3};
other = std::move(any);
ASSERT_FALSE(any);
ASSERT_TRUE(other);
ASSERT_FALSE(other.try_cast<std::size_t>());
ASSERT_EQ(other.cast<fat_t>(), instance);
ASSERT_EQ(other, entt::meta_any{instance});
ASSERT_NE(other, fat_t{});
}
TEST_F(MetaAny, NoSBODirectAssignment) {
fat_t instance{.1, .2, .3, .4};
entt::meta_any any{};
any = instance;
ASSERT_FALSE(any.try_cast<std::size_t>());
ASSERT_EQ(any.cast<fat_t>(), instance);
ASSERT_EQ(any, (entt::meta_any{fat_t{.1, .2, .3, .4}}));
ASSERT_NE(any, fat_t{});
}
TEST_F(MetaAny, NoSBOAssignValue) {
entt::meta_any any{fat_t{.1, .2, .3, .4}};
entt::meta_any other{fat_t{.0, .1, .2, .3}};
entt::meta_any invalid{'c'};
const void *addr = std::as_const(any).data();
ASSERT_TRUE(any);
ASSERT_EQ(any.cast<const fat_t &>(), (fat_t{.1, .2, .3, .4}));
ASSERT_TRUE(any.assign(other));
ASSERT_FALSE(any.assign(invalid));
ASSERT_EQ(any.cast<const fat_t &>(), (fat_t{.0, .1, .2, .3}));
ASSERT_EQ(addr, std::as_const(any).data());
}
TEST_F(MetaAny, NoSBOConvertAssignValue) {
entt::meta_any any{empty_t{}};
entt::meta_any other{fat_t{.0, .1, .2, .3}};
entt::meta_any invalid{'c'};
const void *addr = std::as_const(any).data();
ASSERT_TRUE(any);
ASSERT_TRUE(any.assign(other));
ASSERT_FALSE(any.assign(invalid));
ASSERT_EQ(addr, std::as_const(any).data());
}
TEST_F(MetaAny, NoSBOAsRefAssignValue) {
fat_t instance{.1, .2, .3, .4};
entt::meta_any any{entt::forward_as_meta(instance)};
entt::meta_any other{fat_t{.0, .1, .2, .3}};
entt::meta_any invalid{'c'};
ASSERT_TRUE(any);
ASSERT_EQ(any.cast<const fat_t &>(), (fat_t{.1, .2, .3, .4}));
ASSERT_TRUE(any.assign(other));
ASSERT_FALSE(any.assign(invalid));
ASSERT_EQ(any.cast<const fat_t &>(), (fat_t{.0, .1, .2, .3}));
ASSERT_EQ(instance, (fat_t{.0, .1, .2, .3}));
}
TEST_F(MetaAny, NoSBOAsConstRefAssignValue) {
const fat_t instance{.1, .2, .3, .4};
entt::meta_any any{entt::forward_as_meta(instance)};
entt::meta_any other{fat_t{.0, .1, .2, .3}};
entt::meta_any invalid{'c'};
ASSERT_TRUE(any);
ASSERT_EQ(any.cast<const fat_t &>(), (fat_t{.1, .2, .3, .4}));
ASSERT_FALSE(any.assign(other));
ASSERT_FALSE(any.assign(invalid));
ASSERT_EQ(any.cast<const fat_t &>(), (fat_t{.1, .2, .3, .4}));
ASSERT_EQ(instance, (fat_t{.1, .2, .3, .4}));
}
TEST_F(MetaAny, NoSBOTransferValue) {
entt::meta_any any{fat_t{.1, .2, .3, .4}};
const void *addr = std::as_const(any).data();
ASSERT_TRUE(any);
ASSERT_EQ(any.cast<const fat_t &>(), (fat_t{.1, .2, .3, .4}));
ASSERT_TRUE(any.assign(fat_t{.0, .1, .2, .3}));
ASSERT_FALSE(any.assign('c'));
ASSERT_EQ(any.cast<const fat_t &>(), (fat_t{.0, .1, .2, .3}));
ASSERT_EQ(addr, std::as_const(any).data());
}
TEST_F(MetaAny, NoSBOTransferConstValue) {
const fat_t instance{.0, .1, .2, .3};
entt::meta_any any{fat_t{.1, .2, .3, .4}};
const void *addr = std::as_const(any).data();
ASSERT_TRUE(any);
ASSERT_EQ(any.cast<const fat_t &>(), (fat_t{.1, .2, .3, .4}));
ASSERT_TRUE(any.assign(entt::forward_as_meta(instance)));
ASSERT_EQ(any.cast<const fat_t &>(), (fat_t{.0, .1, .2, .3}));
ASSERT_EQ(addr, std::as_const(any).data());
}
TEST_F(MetaAny, NoSBOConvertTransferValue) {
entt::meta_any any{empty_t{}};
const void *addr = std::as_const(any).data();
ASSERT_TRUE(any);
ASSERT_TRUE(any.assign(fat_t{.0, .1, .2, .3}));
ASSERT_FALSE(any.assign('c'));
ASSERT_EQ(addr, std::as_const(any).data());
}
TEST_F(MetaAny, NoSBOAsRefTransferValue) {
fat_t instance{.1, .2, .3, .4};
entt::meta_any any{entt::forward_as_meta(instance)};
const void *addr = std::as_const(any).data();
ASSERT_TRUE(any);
ASSERT_EQ(any.cast<const fat_t &>(), (fat_t{.1, .2, .3, .4}));
ASSERT_TRUE(any.assign(fat_t{.0, .1, .2, .3}));
ASSERT_FALSE(any.assign('c'));
ASSERT_EQ(any.cast<const fat_t &>(), (fat_t{.0, .1, .2, .3}));
ASSERT_EQ(instance, (fat_t{.0, .1, .2, .3}));
ASSERT_EQ(addr, std::as_const(any).data());
}
TEST_F(MetaAny, NoSBOAsConstRefTransferValue) {
const fat_t instance{.1, .2, .3, .4};
entt::meta_any any{entt::forward_as_meta(instance)};
const void *addr = std::as_const(any).data();
ASSERT_TRUE(any);
ASSERT_EQ(any.cast<const fat_t &>(), (fat_t{.1, .2, .3, .4}));
ASSERT_FALSE(any.assign(fat_t{.0, .1, .2, .3}));
ASSERT_FALSE(any.assign('c'));
ASSERT_EQ(any.cast<const fat_t &>(), (fat_t{.1, .2, .3, .4}));
ASSERT_EQ(instance, (fat_t{.1, .2, .3, .4}));
ASSERT_EQ(addr, std::as_const(any).data());
}
TEST_F(MetaAny, VoidInPlaceTypeConstruction) {
entt::meta_any any{std::in_place_type<void>};
ASSERT_TRUE(any);
ASSERT_TRUE(any.owner());
ASSERT_FALSE(any.try_cast<char>());
ASSERT_EQ(any.data(), nullptr);
ASSERT_EQ(any.type(), entt::resolve<void>());
ASSERT_EQ(any, entt::meta_any{std::in_place_type<void>});
ASSERT_NE(entt::meta_any{3}, any);
}
TEST_F(MetaAny, VoidCopyConstruction) {
entt::meta_any any{std::in_place_type<void>};
entt::meta_any other{any};
ASSERT_TRUE(any);
ASSERT_TRUE(other);
ASSERT_EQ(any.type(), entt::resolve<void>());
ASSERT_EQ(other, entt::meta_any{std::in_place_type<void>});
}
TEST_F(MetaAny, VoidCopyAssignment) {
entt::meta_any any{std::in_place_type<void>};
entt::meta_any other{std::in_place_type<void>};
other = any;
ASSERT_TRUE(any);
ASSERT_TRUE(other);
ASSERT_EQ(any.type(), entt::resolve<void>());
ASSERT_EQ(other, entt::meta_any{std::in_place_type<void>});
}
TEST_F(MetaAny, VoidMoveConstruction) {
entt::meta_any any{std::in_place_type<void>};
entt::meta_any other{std::move(any)};
ASSERT_FALSE(any);
ASSERT_TRUE(other);
ASSERT_EQ(other.type(), entt::resolve<void>());
ASSERT_EQ(other, entt::meta_any{std::in_place_type<void>});
}
TEST_F(MetaAny, VoidMoveAssignment) {
entt::meta_any any{std::in_place_type<void>};
entt::meta_any other{std::in_place_type<void>};
other = std::move(any);
ASSERT_FALSE(any);
ASSERT_TRUE(other);
ASSERT_EQ(other.type(), entt::resolve<void>());
ASSERT_EQ(other, entt::meta_any{std::in_place_type<void>});
}
TEST_F(MetaAny, SBOMoveInvalidate) {
entt::meta_any any{42};
entt::meta_any other{std::move(any)};
entt::meta_any valid = std::move(other);
ASSERT_FALSE(any);
ASSERT_FALSE(other);
ASSERT_TRUE(valid);
}
TEST_F(MetaAny, NoSBOMoveInvalidate) {
fat_t instance{.1, .2, .3, .4};
entt::meta_any any{instance};
entt::meta_any other{std::move(any)};
entt::meta_any valid = std::move(other);
ASSERT_FALSE(any);
ASSERT_FALSE(other);
ASSERT_TRUE(valid);
}
TEST_F(MetaAny, VoidMoveInvalidate) {
entt::meta_any any{std::in_place_type<void>};
entt::meta_any other{std::move(any)};
entt::meta_any valid = std::move(other);
ASSERT_FALSE(any);
ASSERT_FALSE(other);
ASSERT_TRUE(valid);
}
TEST_F(MetaAny, SBODestruction) {
{
entt::meta_any any{std::in_place_type<empty_t>};
any.emplace<empty_t>();
any = empty_t{};
entt::meta_any other{std::move(any)};
any = std::move(other);
}
ASSERT_EQ(empty_t::destroy_counter, 3);
ASSERT_EQ(empty_t::destructor_counter, 6);
}
TEST_F(MetaAny, NoSBODestruction) {
{
entt::meta_any any{std::in_place_type<fat_t>, 1., 2., 3., 4.};
any.emplace<fat_t>(1., 2., 3., 4.);
any = fat_t{1., 2., 3., 4.};
entt::meta_any other{std::move(any)};
any = std::move(other);
}
ASSERT_EQ(fat_t::destroy_counter, 3);
ASSERT_EQ(empty_t::destructor_counter, 4);
}
TEST_F(MetaAny, VoidDestruction) {
// just let asan tell us if everything is ok here
[[maybe_unused]] entt::meta_any any{std::in_place_type<void>};
}
TEST_F(MetaAny, Emplace) {
entt::meta_any any{};
any.emplace<int>(42);
ASSERT_TRUE(any);
ASSERT_FALSE(any.try_cast<std::size_t>());
ASSERT_EQ(any.cast<int>(), 42);
ASSERT_NE(any.data(), nullptr);
ASSERT_EQ(any, (entt::meta_any{std::in_place_type<int>, 42}));
ASSERT_EQ(any, entt::meta_any{42});
ASSERT_NE(entt::meta_any{3}, any);
}
TEST_F(MetaAny, EmplaceVoid) {
entt::meta_any any{};
any.emplace<void>();
ASSERT_TRUE(any);
ASSERT_EQ(any.data(), nullptr);
ASSERT_EQ(any.type(), entt::resolve<void>());
ASSERT_EQ(any, (entt::meta_any{std::in_place_type<void>}));
}
TEST_F(MetaAny, Reset) {
entt::meta_any any{42};
ASSERT_TRUE(any);
ASSERT_EQ(any.type(), entt::resolve<int>());
any.reset();
ASSERT_FALSE(any);
ASSERT_EQ(any.type(), entt::meta_type{});
}
TEST_F(MetaAny, SBOSwap) {
entt::meta_any lhs{'c'};
entt::meta_any rhs{42};
std::swap(lhs, rhs);
ASSERT_FALSE(lhs.try_cast<char>());
ASSERT_EQ(lhs.cast<int>(), 42);
ASSERT_FALSE(rhs.try_cast<int>());
ASSERT_EQ(rhs.cast<char>(), 'c');
}
TEST_F(MetaAny, NoSBOSwap) {
entt::meta_any lhs{fat_t{.1, .2, .3, .4}};
entt::meta_any rhs{fat_t{.4, .3, .2, .1}};
std::swap(lhs, rhs);
ASSERT_EQ(lhs.cast<fat_t>(), (fat_t{.4, .3, .2, .1}));
ASSERT_EQ(rhs.cast<fat_t>(), (fat_t{.1, .2, .3, .4}));
}
TEST_F(MetaAny, VoidSwap) {
entt::meta_any lhs{std::in_place_type<void>};
entt::meta_any rhs{std::in_place_type<void>};
const auto *pre = lhs.data();
std::swap(lhs, rhs);
ASSERT_EQ(pre, lhs.data());
}
TEST_F(MetaAny, SBOWithNoSBOSwap) {
entt::meta_any lhs{fat_t{.1, .2, .3, .4}};
entt::meta_any rhs{'c'};
std::swap(lhs, rhs);
ASSERT_FALSE(lhs.try_cast<fat_t>());
ASSERT_EQ(lhs.cast<char>(), 'c');
ASSERT_FALSE(rhs.try_cast<char>());
ASSERT_EQ(rhs.cast<fat_t>(), (fat_t{.1, .2, .3, .4}));
}
TEST_F(MetaAny, SBOWithEmptySwap) {
entt::meta_any lhs{'c'};
entt::meta_any rhs{};
std::swap(lhs, rhs);
ASSERT_FALSE(lhs);
ASSERT_EQ(rhs.cast<char>(), 'c');
std::swap(lhs, rhs);
ASSERT_FALSE(rhs);
ASSERT_EQ(lhs.cast<char>(), 'c');
}
TEST_F(MetaAny, SBOWithVoidSwap) {
entt::meta_any lhs{'c'};
entt::meta_any rhs{std::in_place_type<void>};
std::swap(lhs, rhs);
ASSERT_EQ(lhs.type(), entt::resolve<void>());
ASSERT_EQ(rhs.cast<char>(), 'c');
}
TEST_F(MetaAny, NoSBOWithEmptySwap) {
entt::meta_any lhs{fat_t{.1, .2, .3, .4}};
entt::meta_any rhs{};
std::swap(lhs, rhs);
ASSERT_FALSE(lhs);
ASSERT_EQ(rhs.cast<fat_t>(), (fat_t{.1, .2, .3, .4}));
std::swap(lhs, rhs);
ASSERT_FALSE(rhs);
ASSERT_EQ(lhs.cast<fat_t>(), (fat_t{.1, .2, .3, .4}));
}
TEST_F(MetaAny, NoSBOWithVoidSwap) {
entt::meta_any lhs{fat_t{.1, .2, .3, .4}};
entt::meta_any rhs{std::in_place_type<void>};
std::swap(lhs, rhs);
ASSERT_EQ(lhs.type(), entt::resolve<void>());
ASSERT_EQ(rhs.cast<fat_t>(), (fat_t{.1, .2, .3, .4}));
std::swap(lhs, rhs);
ASSERT_EQ(rhs.type(), entt::resolve<void>());
ASSERT_EQ(lhs.cast<fat_t>(), (fat_t{.1, .2, .3, .4}));
}
TEST_F(MetaAny, AsRef) {
entt::meta_any any{42};
auto ref = any.as_ref();
auto cref = std::as_const(any).as_ref();
ASSERT_EQ(any.try_cast<int>(), any.data());
ASSERT_EQ(ref.try_cast<int>(), any.data());
ASSERT_EQ(cref.try_cast<int>(), nullptr);
ASSERT_EQ(any.try_cast<const int>(), any.data());
ASSERT_EQ(ref.try_cast<const int>(), any.data());
ASSERT_EQ(cref.try_cast<const int>(), any.data());
ASSERT_EQ(any.cast<int>(), 42);
ASSERT_EQ(ref.cast<int>(), 42);
ASSERT_EQ(cref.cast<int>(), 42);
ASSERT_EQ(any.cast<const int>(), 42);
ASSERT_EQ(ref.cast<const int>(), 42);
ASSERT_EQ(cref.cast<const int>(), 42);
ASSERT_EQ(any.cast<int &>(), 42);
ASSERT_EQ(any.cast<const int &>(), 42);
ASSERT_EQ(ref.cast<int &>(), 42);
ASSERT_EQ(ref.cast<const int &>(), 42);
ASSERT_EQ(cref.cast<const int &>(), 42);
any.cast<int &>() = 3;
ASSERT_EQ(any.cast<int>(), 3);
ASSERT_EQ(ref.cast<int>(), 3);
ASSERT_EQ(cref.cast<int>(), 3);
std::swap(ref, cref);
ASSERT_EQ(ref.try_cast<int>(), nullptr);
ASSERT_EQ(cref.try_cast<int>(), any.data());
ref = ref.as_ref();
cref = std::as_const(cref).as_ref();
ASSERT_EQ(ref.try_cast<int>(), nullptr);
ASSERT_EQ(cref.try_cast<int>(), nullptr);
ASSERT_EQ(ref.try_cast<const int>(), any.data());
ASSERT_EQ(cref.try_cast<const int>(), any.data());
ASSERT_EQ(ref.cast<const int &>(), 3);
ASSERT_EQ(cref.cast<const int &>(), 3);
ref = 42;
cref = 42;
ASSERT_NE(ref.try_cast<int>(), nullptr);
ASSERT_NE(cref.try_cast<int>(), nullptr);
ASSERT_EQ(ref.cast<int &>(), 42);
ASSERT_EQ(cref.cast<int &>(), 42);
ASSERT_EQ(ref.cast<const int &>(), 42);
ASSERT_EQ(cref.cast<const int &>(), 42);
ASSERT_NE(ref.try_cast<int>(), any.data());
ASSERT_NE(cref.try_cast<int>(), any.data());
any.emplace<void>();
ref = any.as_ref();
cref = std::as_const(any).as_ref();
ASSERT_TRUE(any);
ASSERT_FALSE(ref);
ASSERT_FALSE(cref);
}
ENTT_DEBUG_TEST_F(MetaAnyDeathTest, AsRef) {
entt::meta_any any{42};
auto cref = std::as_const(any).as_ref();
ASSERT_TRUE(any);
ASSERT_DEATH(cref.cast<int &>() = 3, "");
}
TEST_F(MetaAny, Comparable) {
entt::meta_any any{'c'};
ASSERT_EQ(any, any);
ASSERT_EQ(any, entt::meta_any{'c'});
ASSERT_NE(entt::meta_any{'a'}, any);
ASSERT_NE(any, entt::meta_any{});
ASSERT_TRUE(any == any);
ASSERT_TRUE(any == entt::meta_any{'c'});
ASSERT_FALSE(entt::meta_any{'a'} == any);
ASSERT_TRUE(any != entt::meta_any{'a'});
ASSERT_TRUE(entt::meta_any{} != any);
}
TEST_F(MetaAny, NotComparable) {
entt::meta_any any{not_comparable_t{}};
ASSERT_EQ(any, any);
ASSERT_NE(any, entt::meta_any{not_comparable_t{}});
ASSERT_NE(entt::meta_any{}, any);
ASSERT_TRUE(any == any);
ASSERT_FALSE(any == entt::meta_any{not_comparable_t{}});
ASSERT_TRUE(entt::meta_any{} != any);
}
TEST_F(MetaAny, CompareVoid) {
entt::meta_any any{std::in_place_type<void>};
ASSERT_EQ(any, any);
ASSERT_EQ(any, entt::meta_any{std::in_place_type<void>});
ASSERT_NE(entt::meta_any{'a'}, any);
ASSERT_NE(any, entt::meta_any{});
ASSERT_TRUE(any == any);
ASSERT_TRUE(any == entt::meta_any{std::in_place_type<void>});
ASSERT_FALSE(entt::meta_any{'a'} == any);
ASSERT_TRUE(any != entt::meta_any{'a'});
ASSERT_TRUE(entt::meta_any{} != any);
}
TEST_F(MetaAny, TryCast) {
entt::meta_any any{fat_t{}};
ASSERT_TRUE(any);
ASSERT_EQ(any.type(), entt::resolve<fat_t>());
ASSERT_EQ(any.try_cast<void>(), nullptr);
ASSERT_NE(any.try_cast<empty_t>(), nullptr);
ASSERT_EQ(any.try_cast<fat_t>(), any.data());
ASSERT_EQ(std::as_const(any).try_cast<empty_t>(), any.try_cast<empty_t>());
ASSERT_EQ(std::as_const(any).try_cast<fat_t>(), any.data());
ASSERT_EQ(std::as_const(any).try_cast<int>(), nullptr);
}
TEST_F(MetaAny, Cast) {
entt::meta_any any{fat_t{}};
ASSERT_TRUE(any);
ASSERT_EQ(any.type(), entt::resolve<fat_t>());
ASSERT_EQ(std::as_const(any).cast<const fat_t &>(), fat_t{});
ASSERT_EQ(any.cast<const fat_t>(), fat_t{});
ASSERT_EQ(any.cast<fat_t &>(), fat_t{});
ASSERT_EQ(any.cast<fat_t>(), fat_t{});
ASSERT_EQ(any.cast<fat_t>().value[0u], 0.);
any.cast<fat_t &>().value[0u] = 3.;
ASSERT_EQ(any.cast<fat_t>().value[0u], 3.);
}
TEST_F(MetaAny, AllowCast) {
entt::meta_any clazz{clazz_t{}};
entt::meta_any fat{fat_t{}};
entt::meta_any arithmetic{42};
auto as_cref = entt::forward_as_meta(arithmetic.cast<const int &>());
ASSERT_TRUE(clazz);
ASSERT_TRUE(fat);
ASSERT_TRUE(arithmetic);
ASSERT_TRUE(as_cref);
ASSERT_TRUE(clazz.allow_cast<clazz_t>());
ASSERT_TRUE(clazz.allow_cast<clazz_t &>());
ASSERT_TRUE(clazz.allow_cast<const clazz_t &>());
ASSERT_EQ(clazz.type(), entt::resolve<clazz_t>());
ASSERT_TRUE(clazz.allow_cast<const int &>());
ASSERT_EQ(clazz.type(), entt::resolve<int>());
ASSERT_TRUE(clazz.allow_cast<int>());
ASSERT_TRUE(clazz.allow_cast<int &>());
ASSERT_TRUE(clazz.allow_cast<const int &>());
ASSERT_TRUE(fat.allow_cast<fat_t>());
ASSERT_TRUE(fat.allow_cast<fat_t &>());
ASSERT_TRUE(fat.allow_cast<const empty_t &>());
ASSERT_EQ(fat.type(), entt::resolve<fat_t>());
ASSERT_FALSE(fat.allow_cast<int>());
ASSERT_TRUE(std::as_const(fat).allow_cast<fat_t>());
ASSERT_FALSE(std::as_const(fat).allow_cast<fat_t &>());
ASSERT_TRUE(std::as_const(fat).allow_cast<const empty_t &>());
ASSERT_EQ(fat.type(), entt::resolve<fat_t>());
ASSERT_FALSE(fat.allow_cast<int>());
ASSERT_TRUE(arithmetic.allow_cast<int>());
ASSERT_TRUE(arithmetic.allow_cast<int &>());
ASSERT_TRUE(arithmetic.allow_cast<const int &>());
ASSERT_EQ(arithmetic.type(), entt::resolve<int>());
ASSERT_FALSE(arithmetic.allow_cast<fat_t>());
ASSERT_TRUE(arithmetic.allow_cast<double &>());
ASSERT_EQ(arithmetic.type(), entt::resolve<double>());
ASSERT_EQ(arithmetic.cast<double &>(), 42.);
ASSERT_TRUE(arithmetic.allow_cast<const float &>());
ASSERT_EQ(arithmetic.type(), entt::resolve<float>());
ASSERT_EQ(arithmetic.cast<float &>(), 42.f);
ASSERT_TRUE(as_cref.allow_cast<int>());
ASSERT_FALSE(as_cref.allow_cast<int &>());
ASSERT_TRUE(as_cref.allow_cast<const int &>());
ASSERT_EQ(as_cref.type(), entt::resolve<int>());
ASSERT_FALSE(as_cref.allow_cast<fat_t>());
ASSERT_TRUE(as_cref.allow_cast<double &>());
ASSERT_EQ(as_cref.type(), entt::resolve<double>());
}
TEST_F(MetaAny, OpaqueAllowCast) {
entt::meta_any clazz{clazz_t{}};
entt::meta_any fat{fat_t{}};
entt::meta_any arithmetic{42};
auto as_cref = entt::forward_as_meta(arithmetic.cast<const int &>());
ASSERT_TRUE(clazz);
ASSERT_TRUE(fat);
ASSERT_TRUE(arithmetic);
ASSERT_TRUE(as_cref);
ASSERT_TRUE(clazz.allow_cast(entt::resolve<clazz_t>()));
ASSERT_EQ(clazz.type(), entt::resolve<clazz_t>());
ASSERT_TRUE(clazz.allow_cast(entt::resolve<int>()));
ASSERT_EQ(clazz.type(), entt::resolve<int>());
ASSERT_TRUE(clazz.allow_cast(entt::resolve<int>()));
ASSERT_TRUE(fat.allow_cast(entt::resolve<fat_t>()));
ASSERT_TRUE(fat.allow_cast(entt::resolve<empty_t>()));
ASSERT_EQ(fat.type(), entt::resolve<fat_t>());
ASSERT_FALSE(fat.allow_cast(entt::resolve<int>()));
ASSERT_TRUE(std::as_const(fat).allow_cast(entt::resolve<fat_t>()));
ASSERT_TRUE(std::as_const(fat).allow_cast(entt::resolve<empty_t>()));
ASSERT_EQ(fat.type(), entt::resolve<fat_t>());
ASSERT_FALSE(fat.allow_cast(entt::resolve<int>()));
ASSERT_TRUE(arithmetic.allow_cast(entt::resolve<int>()));
ASSERT_EQ(arithmetic.type(), entt::resolve<int>());
ASSERT_FALSE(arithmetic.allow_cast(entt::resolve<fat_t>()));
ASSERT_TRUE(arithmetic.allow_cast(entt::resolve<double>()));
ASSERT_EQ(arithmetic.type(), entt::resolve<double>());
ASSERT_EQ(arithmetic.cast<double &>(), 42.);
ASSERT_TRUE(arithmetic.allow_cast(entt::resolve<float>()));
ASSERT_EQ(arithmetic.type(), entt::resolve<float>());
ASSERT_EQ(arithmetic.cast<float &>(), 42.f);
ASSERT_TRUE(as_cref.allow_cast(entt::resolve<int>()));
ASSERT_EQ(as_cref.type(), entt::resolve<int>());
ASSERT_FALSE(as_cref.allow_cast(entt::resolve<fat_t>()));
ASSERT_TRUE(as_cref.allow_cast(entt::resolve<double>()));
ASSERT_EQ(as_cref.type(), entt::resolve<double>());
}
TEST_F(MetaAny, Convert) {
entt::meta_any any{clazz_t{}};
any.cast<clazz_t &>().value = 42;
auto as_int = std::as_const(any).allow_cast<int>();
ASSERT_TRUE(any);
ASSERT_EQ(any.type(), entt::resolve<clazz_t>());
ASSERT_TRUE(any.allow_cast<clazz_t>());
ASSERT_EQ(any.type(), entt::resolve<clazz_t>());
ASSERT_TRUE(any.allow_cast<int>());
ASSERT_EQ(any.type(), entt::resolve<int>());
ASSERT_EQ(any.cast<int>(), 42);
ASSERT_TRUE(as_int);
ASSERT_EQ(as_int.type(), entt::resolve<int>());
ASSERT_EQ(as_int.cast<int>(), 42);
ASSERT_TRUE(as_int.allow_cast<char>());
ASSERT_EQ(as_int.type(), entt::resolve<char>());
ASSERT_EQ(as_int.cast<char>(), char{42});
}
TEST_F(MetaAny, ArithmeticConversion) {
entt::meta_any any{'c'};
ASSERT_EQ(any.type(), entt::resolve<char>());
ASSERT_EQ(any.cast<char>(), 'c');
ASSERT_TRUE(any.allow_cast<double>());
ASSERT_EQ(any.type(), entt::resolve<double>());
ASSERT_EQ(any.cast<double>(), static_cast<double>('c'));
any = 3.1;
ASSERT_TRUE(any.allow_cast(entt::resolve<int>()));
ASSERT_EQ(any.type(), entt::resolve<int>());
ASSERT_EQ(any.cast<int>(), 3);
ASSERT_TRUE(any.allow_cast<float>());
ASSERT_EQ(any.type(), entt::resolve<float>());
ASSERT_EQ(any.cast<float>(), 3.f);
any = static_cast<float>('c');
ASSERT_TRUE(any.allow_cast<char>());
ASSERT_EQ(any.type(), entt::resolve<char>());
ASSERT_EQ(any.cast<char>(), 'c');
}
TEST_F(MetaAny, EnumConversion) {
entt::meta_any any{enum_class::foo};
ASSERT_EQ(any.type(), entt::resolve<enum_class>());
ASSERT_EQ(any.cast<enum_class>(), enum_class::foo);
ASSERT_TRUE(any.allow_cast<double>());
ASSERT_EQ(any.type(), entt::resolve<double>());
ASSERT_EQ(any.cast<double>(), 0.);
any = enum_class::bar;
ASSERT_TRUE(any.allow_cast(entt::resolve<int>()));
ASSERT_EQ(any.type(), entt::resolve<int>());
ASSERT_EQ(any.cast<int>(), 42);
ASSERT_TRUE(any.allow_cast<enum_class>());
ASSERT_EQ(any.type(), entt::resolve<enum_class>());
ASSERT_EQ(any.cast<enum_class>(), enum_class::bar);
any = 0;
ASSERT_TRUE(any.allow_cast(entt::resolve<enum_class>()));
ASSERT_EQ(any.type(), entt::resolve<enum_class>());
ASSERT_EQ(any.cast<enum_class>(), enum_class::foo);
}
TEST_F(MetaAny, UnmanageableType) {
unmanageable_t instance;
auto any = entt::forward_as_meta(instance);
entt::meta_any other = any.as_ref();
std::swap(any, other);
ASSERT_TRUE(any);
ASSERT_TRUE(other);
ASSERT_EQ(any.type(), entt::resolve<unmanageable_t>());
ASSERT_NE(any.data(), nullptr);
ASSERT_EQ(any.try_cast<int>(), nullptr);
ASSERT_NE(any.try_cast<unmanageable_t>(), nullptr);
ASSERT_TRUE(any.allow_cast<unmanageable_t>());
ASSERT_FALSE(any.allow_cast<int>());
ASSERT_TRUE(std::as_const(any).allow_cast<unmanageable_t>());
ASSERT_FALSE(std::as_const(any).allow_cast<int>());
}
TEST_F(MetaAny, Invoke) {
using namespace entt::literals;
clazz_t instance;
auto any = entt::forward_as_meta(instance);
ASSERT_TRUE(any.invoke("func"_hs));
ASSERT_TRUE(any.invoke("member"_hs, 42));
ASSERT_FALSE(std::as_const(any).invoke("member"_hs, 42));
ASSERT_FALSE(std::as_const(any).as_ref().invoke("member"_hs, 42));
ASSERT_FALSE(any.invoke("non_existent"_hs, 42));
ASSERT_EQ(clazz_t::c, 'd');
ASSERT_EQ(instance.value, 42);
}
TEST_F(MetaAny, SetGet) {
using namespace entt::literals;
clazz_t instance;
auto any = entt::forward_as_meta(instance);
ASSERT_TRUE(any.set("value"_hs, 42));
const auto value = std::as_const(any).get("value"_hs);
ASSERT_TRUE(value);
ASSERT_EQ(value, any.get("value"_hs));
ASSERT_EQ(value, std::as_const(any).as_ref().get("value"_hs));
ASSERT_NE(value.try_cast<int>(), nullptr);
ASSERT_EQ(value.cast<int>(), 42);
ASSERT_EQ(instance.value, 42);
ASSERT_FALSE(any.set("non_existent"_hs, 42));
ASSERT_FALSE(any.get("non_existent"_hs));
}
TEST_F(MetaAny, ForwardAsMeta) {
int value = 42;
auto ref = entt::forward_as_meta(value);
auto cref = entt::forward_as_meta(std::as_const(value));
auto any = entt::forward_as_meta(std::move(value));
ASSERT_TRUE(any);
ASSERT_TRUE(ref);
ASSERT_TRUE(cref);
ASSERT_NE(any.try_cast<int>(), nullptr);
ASSERT_NE(ref.try_cast<int>(), nullptr);
ASSERT_EQ(cref.try_cast<int>(), nullptr);
ASSERT_EQ(any.cast<const int &>(), 42);
ASSERT_EQ(ref.cast<const int &>(), 42);
ASSERT_EQ(cref.cast<const int &>(), 42);
ASSERT_NE(any.data(), &value);
ASSERT_EQ(ref.data(), &value);
}