/* * Copyright (c) 2010-2013 OTClient * * Permission is hereby granted, free of charge, to any person obtaining a copy * of this software and associated documentation files (the "Software"), to deal * in the Software without restriction, including without limitation the rights * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell * copies of the Software, and to permit persons to whom the Software is * furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included in * all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN * THE SOFTWARE. */ #include "particle.h" #include "particleaffector.h" #include ParticleAffector::ParticleAffector() { m_active = false; m_finished = false; m_delay = 0; m_duration = 0; m_elapsedTime = 0; } void ParticleAffector::update(float elapsedTime) { if(m_duration >= 0 && m_elapsedTime >= m_duration + m_delay) { m_finished = true; return; } if(!m_active && m_elapsedTime > m_delay) m_active = true; m_elapsedTime += elapsedTime; } void ParticleAffector::load(const OTMLNodePtr& node) { float minDelay = 0, maxDelay = 0; float minDuration = -1, maxDuration = -1; for(const OTMLNodePtr& childNode : node->children()) { if(childNode->tag() == "delay") { minDelay = childNode->value(); maxDelay = childNode->value(); } else if(childNode->tag() == "min-delay") minDelay = childNode->value(); else if(childNode->tag() == "max-delay") maxDelay = childNode->value(); else if(childNode->tag() == "duration") { minDuration = childNode->value(); maxDuration = childNode->value(); } else if(childNode->tag() == "min-duration") minDuration = childNode->value(); else if(childNode->tag() == "max-duration") maxDuration = childNode->value(); } m_delay = stdext::random_range(minDelay, maxDelay); m_duration = stdext::random_range(minDuration, maxDuration); } void GravityAffector::load(const OTMLNodePtr& node) { ParticleAffector::load(node); m_angle = 270 * DEG_TO_RAD; m_gravity = 9.8; for(const OTMLNodePtr& childNode : node->children()) { if(childNode->tag() == "angle") m_angle = childNode->value() * DEG_TO_RAD; else if(childNode->tag() == "gravity") m_gravity = childNode->value(); } } void GravityAffector::updateParticle(const ParticlePtr& particle, float elapsedTime) { if(!m_active) return; PointF velocity = particle->getVelocity(); velocity += PointF(m_gravity * elapsedTime * std::cos(m_angle), m_gravity * elapsedTime * std::sin(m_angle)); particle->setVelocity(velocity); } void AttractionAffector::load(const OTMLNodePtr& node) { ParticleAffector::load(node); m_acceleration = 32; m_reduction = 0; m_repelish = false; for(const OTMLNodePtr& childNode : node->children()) { if(childNode->tag() == "position") m_position = childNode->value(); else if(childNode->tag() == "acceleration") m_acceleration = childNode->value(); else if(childNode->tag() == "velocity-reduction-percent") m_reduction = childNode->value(); else if(childNode->tag() == "repelish") m_repelish = childNode->value(); } } void AttractionAffector::updateParticle(const ParticlePtr& particle, float elapsedTime) { if(!m_active) return; PointF pPosition = particle->getPosition(); PointF d = PointF(m_position.x - pPosition.x, pPosition.y - m_position.y); if(d.length() == 0) return; PointF direction = PointF(1, 1); if(m_repelish) direction = PointF(-1, -1); PointF pVelocity = particle->getVelocity() + (d / d.length() * m_acceleration * elapsedTime) * direction; particle->setVelocity(pVelocity - pVelocity * m_reduction/100.0 * elapsedTime); }