// // Created by Иван Ильин on 03.10.2021. // #include #include "Animation.h" #include "Timeline.h" Timeline* Timeline::_instance = nullptr; void Timeline::init() { _instance = new Timeline(); } void Timeline::animate(const AnimationListTag& listName, Animation* anim) { if(!_instance) { return; } _instance->_animations[listName].emplace_back(anim); } void Timeline::deleteAllAnimations() { if(!_instance) { return; } for (auto& [listName, animationList] : _instance->_animations) { auto it = animationList.begin(); while(it != animationList.end()) { delete *(it++); } animationList.clear(); } _instance->_animations.clear(); } void Timeline::deleteAnimationList(const AnimationListTag& listName) { if(!_instance) { return; } _instance->_animations[listName].clear(); _instance->_animations.erase(listName); } [[nodiscard]] bool Timeline::isInAnimList(const AnimationListTag& listName) { if(!_instance) { return false; } return !_instance->_animations[listName].empty(); } void Timeline::update() { if(!_instance) { return; } for (auto& [listName, animationList] : _instance->_animations) { if (animationList.empty()) { continue; } auto it = animationList.begin(); // If it the front animation is 'a_wait()' we should wait until waiting time is over if (it.operator*()->waitFor()) { if (!it.operator*()->updateState()) { animationList.erase(it); } continue; } // Otherwise we iterate over all animation until we meet animations.end() or wait animation while (!animationList.empty() && (it != animationList.end()) && (!it.operator*()->waitFor())) { if (!it.operator*()->updateState()) { animationList.erase(it++); } else { it++; } } } } void Timeline::free() { Timeline::deleteAllAnimations(); delete _instance; _instance = nullptr; }