/* * Sprite.cpp * * Created on: 11.08.2012 * Author: Felix */ #include "Sprite.h" #include #include "../util/Loader.h" #include "../util/Log.h" #include "../util/ResourceManager.h" #include "../util/Yaml.h" /** * Initializes sprite data. * * @param data Container holding construction parameters. * @param config Additional construction parameters */ Sprite::Sprite(const Data& data, const Yaml& config) : mCategory(data.category), mMask(data.mask), mDelete(false) { // Init shape float radius = config.get(YAML_KEY::RADIUS, 0.0f); sf::Vector2f size = config.get(YAML_KEY::SIZE, sf::Vector2f()); if (radius != 0.0f) { mShape.type = Shape::Type::CIRCLE; mShape.shape = std::unique_ptr(new sf::CircleShape(radius)); mShape.shape->setOrigin(radius, radius); mShape.shape->setTextureRect(sf::IntRect(sf::Vector2i(0, 0), sf::Vector2i(radius * 2, radius * 2))); } else if (size == sf::Vector2f()) { LOG_E("Failed to read size or radius from " << config.getFilename() << ", using texture size."); size = sf::Vector2f(mTexture->getSize()); } else if (size != sf::Vector2f()) { mShape.type = Shape::Type::RECTANGLE; mShape.shape = std::unique_ptr(new sf::RectangleShape(size)); mShape.shape->setOrigin(size / 2.0f); mShape.shape->setTextureRect(sf::IntRect(sf::Vector2i(0, 0), sf::Vector2i(size))); } // Init texture std::string texture = config.get(YAML_KEY::TEXTURE, ""); if (texture != "") { try { mTexture = ResourceManager::i().acquire(Loader::i() .fromFile(texture)); mShape.shape->setTexture(&*mTexture, false); } catch (thor::ResourceLoadingException&) { LOG_W("Failed to load texture " << texture << ", coloring red."); mShape.shape->setFillColor(sf::Color(255, 0, 0)); } } else { LOG_W("Failed to read texture file name from YAML file " << config.getFilename() << ", coloring red."); mShape.shape->setFillColor(sf::Color(255, 0, 0)); } setPosition(data.position); setDirection(data.direction); } /** * Used to make this class pure virtual without any pure virtual function. */ Sprite::~Sprite() { } /** * Initializes container. */ Sprite::Data::Data(const sf::Vector2f& position, Category category, unsigned short mask, const sf::Vector2f& direction) : position(position), direction(direction), category(category), mask(mask) { } /** * Returns the position of the sprite (center). */ sf::Vector2f Sprite::getPosition() const { return mShape.shape->getPosition(); } /** * Returns the movement speed of the sprite. */ sf::Vector2f Sprite::getSpeed() const { return mSpeed; } /** * Returns the angle of the sprite. */ sf::Vector2f Sprite::getDirection() const { return thor::rotatedVector(sf::Vector2f(1, 0), mShape.shape->getRotation()); } /** * Returns true if this object should be deleted. */ bool Sprite::getDelete() const { return mDelete; } /** * Returns the Category of this object. */ Sprite::Category Sprite::getCategory() const { return mCategory; } /** * Returns the size of the sprite as a vector (bottom left to top right), * does not consider rotation. */ sf::Vector2f Sprite::getSize() const { sf::FloatRect bounds = mShape.shape->getLocalBounds(); return sf::Vector2f(bounds.width, bounds.height); } void Sprite::draw(sf::RenderTarget& target, sf::RenderStates states) const { target.draw(*mShape.shape, states); } /** * Returns true if collisions with that category are enabled through mask. */ bool Sprite::collisionEnabled(Category category) const { return (category & mMask) != 0; } /** * Called when a collision with another Sprite occured. Override this method * to manage collision events. * * @param other The other Sprite in the collision. */ void Sprite::onCollide(std::shared_ptr other) { } /** * Set to true to mark this object for deletion from the world. */ void Sprite::setDelete(bool value) { mDelete = value; } /** * Sets movement speed and direction of the Sprite. Set either value to zero to stop movement. * * @param direction The direction the Sprite moves in, does not have to be normalized. * @param speed Movement speed in pixels per second. */ void Sprite::setSpeed(sf::Vector2f direction, float speed) { if (direction != sf::Vector2f()) thor::setLength(direction, speed); mSpeed = direction; } void Sprite::setDirection(const sf::Vector2f& direction) { if (direction != sf::Vector2f()) mShape.shape->setRotation(thor::polarAngle(direction) + 90); } /** * Sets the position of thr Sprite. */ void Sprite::setPosition(const sf::Vector2f& position) { mShape.shape->setPosition(position); } /** * Returns the radius of this sprite. Will fail if this is not a circle. * * @return The radius of this sprite. */ float Sprite::getRadius() const { std::shared_ptr circleShape = std::dynamic_pointer_cast(mShape.shape); assert(circleShape); return circleShape->getRadius(); }