tomato/test/entt/entity/observer.cpp

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#include <utility>
#include <gtest/gtest.h>
#include <entt/entity/observer.hpp>
#include <entt/entity/registry.hpp>
TEST(Observer, Functionalities) {
entt::registry registry;
entt::observer observer{registry, entt::collector.group<int>()};
ASSERT_EQ(observer.size(), 0u);
ASSERT_TRUE(observer.empty());
ASSERT_EQ(observer.begin(), observer.end());
const auto entity = registry.create();
registry.emplace<int>(entity);
ASSERT_EQ(observer.size(), 1u);
ASSERT_FALSE(observer.empty());
ASSERT_EQ(*observer.data(), entity);
ASSERT_NE(observer.begin(), observer.end());
ASSERT_EQ(++observer.begin(), observer.end());
ASSERT_EQ(*observer.begin(), entity);
observer.clear();
ASSERT_EQ(observer.size(), 0u);
ASSERT_TRUE(observer.empty());
observer.disconnect();
registry.erase<int>(entity);
registry.emplace<int>(entity);
ASSERT_EQ(observer.size(), 0u);
ASSERT_TRUE(observer.empty());
}
TEST(Observer, AllOf) {
constexpr auto collector =
entt::collector
.group<int, char>(entt::exclude<float>)
.group<int, double>();
entt::registry registry;
entt::observer observer{registry, collector};
const auto entity = registry.create();
ASSERT_TRUE(observer.empty());
registry.emplace<int>(entity);
registry.emplace<char>(entity);
ASSERT_EQ(observer.size(), 1u);
ASSERT_FALSE(observer.empty());
ASSERT_EQ(*observer.data(), entity);
registry.emplace<double>(entity);
ASSERT_FALSE(observer.empty());
registry.erase<int>(entity);
ASSERT_TRUE(observer.empty());
registry.emplace<float>(entity);
registry.emplace<int>(entity);
ASSERT_FALSE(observer.empty());
registry.erase<double>(entity);
ASSERT_TRUE(observer.empty());
registry.emplace<double>(entity);
observer.clear();
ASSERT_TRUE(observer.empty());
observer.disconnect();
registry.emplace_or_replace<int>(entity);
registry.emplace_or_replace<char>(entity);
registry.erase<float>(entity);
ASSERT_TRUE(observer.empty());
}
TEST(Observer, AllOfFiltered) {
constexpr auto collector =
entt::collector
.group<int>()
.where<char>(entt::exclude<double>);
entt::registry registry;
entt::observer observer{registry, collector};
const auto entity = registry.create();
ASSERT_TRUE(observer.empty());
registry.emplace<int>(entity);
ASSERT_EQ(observer.size(), 0u);
ASSERT_TRUE(observer.empty());
registry.erase<int>(entity);
registry.emplace<char>(entity);
registry.emplace<double>(entity);
registry.emplace<int>(entity);
ASSERT_TRUE(observer.empty());
registry.erase<int>(entity);
registry.erase<double>(entity);
registry.emplace<int>(entity);
ASSERT_EQ(observer.size(), 1u);
ASSERT_FALSE(observer.empty());
ASSERT_EQ(*observer.data(), entity);
registry.emplace<double>(entity);
ASSERT_TRUE(observer.empty());
registry.erase<double>(entity);
ASSERT_TRUE(observer.empty());
observer.disconnect();
registry.erase<int>(entity);
registry.emplace<int>(entity);
ASSERT_TRUE(observer.empty());
}
TEST(Observer, Observe) {
entt::registry registry;
entt::observer observer{registry, entt::collector.update<int>().update<char>()};
const auto entity = registry.create();
ASSERT_TRUE(observer.empty());
registry.emplace<int>(entity);
registry.emplace<char>(entity);
ASSERT_TRUE(observer.empty());
registry.emplace_or_replace<int>(entity);
ASSERT_EQ(observer.size(), 1u);
ASSERT_FALSE(observer.empty());
ASSERT_EQ(*observer.data(), entity);
observer.clear();
registry.replace<char>(entity);
ASSERT_FALSE(observer.empty());
observer.clear();
ASSERT_TRUE(observer.empty());
observer.disconnect();
registry.emplace_or_replace<int>(entity);
registry.emplace_or_replace<char>(entity);
ASSERT_TRUE(observer.empty());
}
TEST(Observer, ObserveFiltered) {
constexpr auto collector =
entt::collector
.update<int>()
.where<char>(entt::exclude<double>);
entt::registry registry;
entt::observer observer{registry, collector};
const auto entity = registry.create();
ASSERT_TRUE(observer.empty());
registry.emplace<int>(entity);
registry.replace<int>(entity);
ASSERT_EQ(observer.size(), 0u);
ASSERT_TRUE(observer.empty());
registry.emplace<char>(entity);
registry.emplace<double>(entity);
registry.replace<int>(entity);
ASSERT_TRUE(observer.empty());
registry.erase<double>(entity);
registry.replace<int>(entity);
ASSERT_EQ(observer.size(), 1u);
ASSERT_FALSE(observer.empty());
ASSERT_EQ(*observer.data(), entity);
registry.emplace<double>(entity);
ASSERT_TRUE(observer.empty());
registry.erase<double>(entity);
ASSERT_TRUE(observer.empty());
observer.disconnect();
registry.replace<int>(entity);
ASSERT_TRUE(observer.empty());
}
TEST(Observer, AllOfObserve) {
entt::registry registry;
entt::observer observer{};
const auto entity = registry.create();
observer.connect(registry, entt::collector.group<int>().update<char>());
ASSERT_TRUE(observer.empty());
registry.emplace<int>(entity);
registry.emplace<char>(entity);
registry.replace<char>(entity);
registry.erase<int>(entity);
ASSERT_EQ(observer.size(), 1u);
ASSERT_FALSE(observer.empty());
ASSERT_EQ(*observer.data(), entity);
registry.erase<char>(entity);
registry.emplace<char>(entity);
ASSERT_TRUE(observer.empty());
registry.replace<char>(entity);
observer.clear();
ASSERT_TRUE(observer.empty());
observer.disconnect();
registry.emplace_or_replace<int>(entity);
registry.emplace_or_replace<char>(entity);
ASSERT_TRUE(observer.empty());
}
TEST(Observer, CrossRulesCornerCase) {
entt::registry registry;
entt::observer observer{registry, entt::collector.group<int>().group<char>()};
const auto entity = registry.create();
registry.emplace<int>(entity);
observer.clear();
ASSERT_TRUE(observer.empty());
registry.emplace<char>(entity);
registry.erase<int>(entity);
ASSERT_FALSE(observer.empty());
}
TEST(Observer, Each) {
entt::registry registry;
entt::observer observer{registry, entt::collector.group<int>()};
const auto entity = registry.create();
registry.emplace<int>(entity);
ASSERT_FALSE(observer.empty());
ASSERT_EQ(observer.size(), 1u);
std::as_const(observer).each([entity](const auto entt) {
ASSERT_EQ(entity, entt);
});
ASSERT_FALSE(observer.empty());
ASSERT_EQ(observer.size(), 1u);
observer.each([entity](const auto entt) {
ASSERT_EQ(entity, entt);
});
ASSERT_TRUE(observer.empty());
ASSERT_EQ(observer.size(), 0u);
}
TEST(Observer, MultipleFilters) {
constexpr auto collector =
entt::collector
.update<int>()
.where<char>()
.update<double>()
.where<float>();
entt::registry registry;
entt::observer observer{registry, collector};
const auto entity = registry.create();
ASSERT_TRUE(observer.empty());
registry.emplace_or_replace<int>(entity);
registry.emplace<char>(entity);
ASSERT_TRUE(observer.empty());
registry.emplace_or_replace<int>(entity);
ASSERT_EQ(observer.size(), 1u);
ASSERT_FALSE(observer.empty());
ASSERT_EQ(*observer.data(), entity);
observer.clear();
registry.emplace<double>(entity);
ASSERT_TRUE(observer.empty());
registry.emplace_or_replace<double>(entity);
registry.emplace<float>(entity);
ASSERT_TRUE(observer.empty());
registry.emplace_or_replace<double>(entity);
ASSERT_EQ(observer.size(), 1u);
ASSERT_FALSE(observer.empty());
ASSERT_EQ(*observer.data(), entity);
registry.erase<float>(entity);
ASSERT_TRUE(observer.empty());
registry.emplace_or_replace<int>(entity);
ASSERT_EQ(observer.size(), 1u);
ASSERT_FALSE(observer.empty());
ASSERT_EQ(*observer.data(), entity);
observer.clear();
observer.disconnect();
registry.emplace_or_replace<int>(entity);
ASSERT_TRUE(observer.empty());
}
TEST(Observer, GroupCornerCase) {
constexpr auto add_collector = entt::collector.group<int>(entt::exclude<char>);
constexpr auto remove_collector = entt::collector.group<int, char>();
entt::registry registry;
entt::observer add_observer{registry, add_collector};
entt::observer remove_observer{registry, remove_collector};
const auto entity = registry.create();
registry.emplace<int>(entity);
ASSERT_FALSE(add_observer.empty());
ASSERT_TRUE(remove_observer.empty());
add_observer.clear();
registry.emplace<char>(entity);
ASSERT_TRUE(add_observer.empty());
ASSERT_FALSE(remove_observer.empty());
remove_observer.clear();
registry.erase<char>(entity);
ASSERT_FALSE(add_observer.empty());
ASSERT_TRUE(remove_observer.empty());
}