/* * Actor.cpp * * Created on: 02.09.2012 * Author: Felix */ #include "Character.h" #include #include "../items/Weapon.h" #include "../sprites/Corpse.h" #include "../util/Log.h" #include "../util/Yaml.h" #include "../World.h" #include "../Pathfinder.h" const float Character::VISION_DISTANCE = 500.0f; /** * Saves pointer to this instance in static var for think(). */ Character::Character(const sf::Vector2f& position, Category category, unsigned short mask, const Yaml& config, World& world, Pathfinder& pathfinder) : Circle(position, category, mask, config), mWorld(world), mPathfinder(pathfinder), mMaxHealth(config.get(YAML_KEY::HEALTH, YAML_DEFAULT::HEALTH)), mCurrentHealth(mMaxHealth), mMovementSpeed(config.get(YAML_KEY::SPEED, YAML_DEFAULT::SPEED)), mWeapon(new Weapon(world, *this, Yaml(config.get(YAML_KEY::WEAPON, YAML_DEFAULT::WEAPON)))), mLastPosition(getPosition()) { } Character::~Character() { } /** * Subtracts health from Actor. Calls onDeath() when health reaches zero and marks * object for deletion. * * @param damage Amount of health to subtract. */ void Character::onDamage(int damage) { mCurrentHealth -= damage; if (mCurrentHealth <= 0) { mCurrentHealth = 0; onDeath(); setDelete(true); } } /** * Implement this function for any (periodical) AI computations. * If overwritten, this function should always be called from the overwriting function. * * @param elapsed Amount of time to simulate. */ void Character::onThink(int elapsed) { mWeapon->onThink(elapsed); move(); } /** * Called when health reaches zero. Default implementation drops a corpse at * the current position. */ void Character::onDeath() { mWorld.insert(std::shared_ptr(new Corpse(getPosition()))); } /** * Gets the default movement speed (walking) of the character. */ float Character::getMovementSpeed() const { return mMovementSpeed; } /** * Pull the trigger on the attached weapon. */ void Character::pullTrigger() { mWeapon->pullTrigger(); } /** * Release the trigger on the attached weapon. */ void Character::releaseTrigger() { mWeapon->releaseTrigger(); } /** * Set a destination to be walked to. Call move() to actually * perform the movement. * * @param destination An absolute point to move towards. Set to current * position to stop movement. * @return True if a path was found. */ bool Character::setDestination(const sf::Vector2f& destination) { if (destination == getPosition()) { mPath.clear(); return true; } mPath = mPathfinder.getPath(getPosition(), destination, getRadius()); if (!mPath.empty()) setSpeed(mPath.back() - getPosition(), mMovementSpeed); else { setSpeed(sf::Vector2f(), 0); LOG_W("No path found to destination."); } return !mPath.empty(); } /** * Move towards a destination. Call setDestination() for setting the destination. * This is automatically called from onThink(). */ void Character::move() { sf::Vector2f distanceTraveled = mLastPosition - getPosition(); mLastPosition = getPosition(); if (!mPath.empty()) { // Point reached (during next time step). if (thor::length(mPath.back() - getPosition()) < thor::length(distanceTraveled)) { mPath.pop_back(); (!mPath.empty()) ? setSpeed(mPath.back() - getPosition(), mMovementSpeed) : setSpeed(sf::Vector2f(), 0); } } } /** * Returns true if the character is currently moving. */ bool Character::isMoving() const { return !mPath.empty(); } /** * Tests if a target is visible from the current position. */ bool Character::isVisible(const sf::Vector2f& target) const { return mWorld.raycast(getPosition(), target); } /** * Calls World::getCharacters with current position. */ std::vector > Character::getCharacters() const { return mWorld.getCharacters(getPosition(), VISION_DISTANCE); }