2023-03-06 03:44:39 +00:00
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#include "Animation.h"
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2023-03-07 12:39:41 +00:00
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Animation::Animation(float _d, std::function<void()> _cb, bool _l)
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:duration(_d), callback(_cb), loop(_l), elapsed(0.0f) {}
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2023-03-07 01:54:23 +00:00
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2023-03-06 03:44:39 +00:00
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// linear interpolation constructor
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template<typename T>
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2023-03-07 12:39:41 +00:00
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LerpAnimation<T>::LerpAnimation(float _d, T _ev, T _sv, std::function<void()> _cb, std::function<void(T)> _w, bool _l)
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:Animation(_d, _cb, _l), //duration(_d), target(_t), callback(_cb), loop(_l),elapsed(0.0f),
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startvalue(_sv), endvalue(_ev), write(_w) {}
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2023-03-06 03:44:39 +00:00
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// discrete values constructor
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template<typename T>
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DiscreteAnimation<T>::DiscreteAnimation(float _d, std::vector<T> _v, std::function<void()> _cb, std::function<void(T)> _w, bool _l)
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:Animation(_d, _cb, _l), //duration(_d), target(_t), callback(_cb), loop(_l), elapsed(0.0f),
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index(0), nonelapsed(0.0f), values(_v), write(_w) {
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timestep = _v.size() / _d;
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}
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2023-03-07 01:54:23 +00:00
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/* // don't call virtual functions (like cancel()) from base class destructor
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* // child classes destructors' are called first anyway
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Animation::~Animation() {
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2023-03-06 03:44:39 +00:00
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// deconstructor sets target to desired end state (no partial values)
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cancel();
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}
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2023-03-07 01:54:23 +00:00
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*/
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2023-03-06 03:44:39 +00:00
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template<>
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void LerpAnimation<std::string>::lerp() {
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//*(std::string*)target = ;
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write(endvalue.substr(0, endvalue.length() * (elapsed / duration)));
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}
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template<>
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void LerpAnimation<int>::lerp() {
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int delta = endvalue - startvalue;
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2023-03-07 12:39:41 +00:00
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//*(int*)target = ;
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write(startvalue + (elapsed / duration * delta));
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2023-03-06 03:44:39 +00:00
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}
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template<>
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void LerpAnimation<float>::lerp() {
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int delta = endvalue - startvalue;
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//*(float*)target = ;
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write(startvalue + (elapsed / duration * delta));
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2023-03-06 03:44:39 +00:00
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}
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template<>
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void LerpAnimation<sf::Vector2f>::lerp() {
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std::cout << "sf::Vector2f implementation of lerp." << std::endl;
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int delta_x = endvalue.x - startvalue.x;
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int delta_y = endvalue.y - startvalue.y;
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std::cout << "Start: " << startvalue.x << ", " << startvalue.y << "; End: " << endvalue.x << ", " << endvalue.y << std::endl;
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std::cout << "Delta: " << delta_x << ", " << delta_y << std::endl;
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//((sf::Vector2f*)target)->x = startvalue.x + (elapsed / duration * delta_x);
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//((sf::Vector2f*)target)->y = startvalue.y + (elapsed / duration * delta_y);
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write(sf::Vector2f(startvalue.x + (elapsed / duration * delta_x),
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startvalue.y + (elapsed / duration * delta_y)));
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}
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template<>
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void LerpAnimation<sf::Vector2i>::lerp() {
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int delta_x = endvalue.x - startvalue.y;
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int delta_y = endvalue.y - startvalue.y;
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2023-03-07 12:39:41 +00:00
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//((sf::Vector2i*)target)->x = startvalue.x + (elapsed / duration * delta_x);
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//((sf::Vector2i*)target)->y = startvalue.y + (elapsed / duration * delta_y);
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write(sf::Vector2i(startvalue.x + (elapsed / duration * delta_x),
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startvalue.y + (elapsed / duration * delta_y)));
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}
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template<typename T>
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void LerpAnimation<T>::step(float delta) {
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elapsed += delta;
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std::cout << "LerpAnimation step function. Elapsed: " << elapsed <<std::endl;
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lerp();
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if (isDone()) cancel(); //use the exact value, not my math
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}
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template<typename T>
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void DiscreteAnimation<T>::step(float delta)
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{
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nonelapsed += delta;
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if (nonelapsed < timestep) return;
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if (index == values.size() - 1) return;
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elapsed += nonelapsed; // or should it be += timestep?
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nonelapsed = 0; // or should it -= timestep?
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index++;
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2023-03-07 12:39:41 +00:00
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//*(T*)target = values[index];
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write(values[index]);
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2023-03-07 01:54:23 +00:00
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if (isDone()) cancel(); //use the exact value, not my math
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2023-03-06 03:44:39 +00:00
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}
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template<typename T>
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void LerpAnimation<T>::cancel() {
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//*(T*)target = endvalue;
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write(endvalue);
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}
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template<typename T>
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void DiscreteAnimation<T>::cancel() {
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//*(T*)target = values[values.size() - 1];
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write(values[values.size() - 1]);
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}
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bool Animation::isDone() {
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return elapsed + Animation::EPSILON >= duration;
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}
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namespace animation_template_implementations {
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// instantiate to compile concrete templates
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//LerpAnimation<sf::Vector2f> implement_vector2f;
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auto implement_v2f_const = LerpAnimation<sf::Vector2<float>>(4.0, sf::Vector2<float>(), sf::Vector2f(1,1), [](){}, [](sf::Vector2f v){}, false);
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//LerpAnimation<sf::Vector2i> implement_vector2i;
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//LerpAnimation<int> implment_int;
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//LerpAnimation<std::string> implment_string;
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//LerpAnimation<float> implement_float;
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//DiscreteAnimation<int> implement_int_discrete;
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}
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