/* * ORXONOX - the hottest 3D action shooter ever to exist * > www.orxonox.net < * * * License notice: * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * as published by the Free Software Foundation; either version 2 * of the License, or (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. * * Author: * Fabian 'x3n' Landau * Co-authors: * ... * */ #include "OrxonoxStableHeaders.h" #include "SpaceShip.h" #include #include #include #include #include #include "tinyxml/tinyxml.h" #include "ois/OIS.h" #include "util/Convert.h" #include "util/Math.h" #include "core/CoreIncludes.h" #include "core/ConfigValueIncludes.h" #include "core/Debug.h" #include "GraphicsEngine.h" #include "core/InputManager.h" #include "particle/ParticleInterface.h" #include "Projectile.h" #include "core/XMLPort.h" #include "core/ConsoleCommand.h" namespace orxonox { ConsoleCommand(SpaceShip, setMaxSpeedTest, AccessLevel::Debug, false); ConsoleCommandGeneric(test1, SpaceShip, createExecutor(createFunctor(&SpaceShip::setMaxSpeedTest), "setMaxSpeed", AccessLevel::Debug), false); ConsoleCommandGeneric(test2, SpaceShip, createExecutor(createFunctor(&SpaceShip::setMaxSpeedTest), "setMaxBlubber", AccessLevel::Debug), false); ConsoleCommandGeneric(test3, SpaceShip, createExecutor(createFunctor(&SpaceShip::setMaxSpeedTest), "setRofl", AccessLevel::Debug), false); CreateFactory(SpaceShip); SpaceShip* SpaceShip::instance_s; SpaceShip::SpaceShip() { RegisterObject(SpaceShip); this->registerAllVariables(); SpaceShip::instance_s = this; this->setConfigValues(); this->setMouseEventCallback_ = false; this->bLMousePressed_ = false; this->bRMousePressed_ = false; this->mouseX_ = 0; this->mouseY_ = 0; this->camNode_ = 0; this->tt_ = 0; this->redNode_ = 0; this->greenNode_ = 0; this->blinkTime_ = 0; this->timeToReload_ = 0; this->maxSpeed_ = 0; this->maxSideAndBackSpeed_ = 0; this->maxRotation_ = 0; this->translationAcceleration_ = 0; this->rotationAcceleration_ = 0; this->translationDamping_ = 0; this->rotationDamping_ = 0; this->maxRotationRadian_ = 0; this->rotationAccelerationRadian_ = 0; this->rotationDampingRadian_ = 0; this->zeroRadian_ = Radian(0); this->setRotationAxis(1, 0, 0); this->setStatic(false); /* this->moveForward_ = 0; this->rotateUp_ = 0; this->rotateDown_ = 0; this->rotateRight_ = 0; this->rotateLeft_ = 0; this->loopRight_ = 0; this->loopLeft_ = 0; this->brakeForward_ = 0; this->brakeRotate_ = 0; this->brakeLoop_ = 0; this->speedForward_ = 0; this->speedRotateUpDown_ = 0; this->speedRotateRightLeft_ = 0; this->speedLoopRightLeft_ = 0; this->maxSpeedForward_ = 0; this->maxSpeedRotateUpDown_ = 0; this->maxSpeedRotateRightLeft_ = 0; this->maxSpeedLoopRightLeft_ = 0; this->accelerationForward_ = 0; this->accelerationRotateUpDown_ = 0; this->accelerationRotateRightLeft_ = 0; this->accelerationLoopRightLeft_ = 0; this->speed = 250; this->loop = 100; this->rotate = 10; this->mouseX = 0; this->mouseY = 0; this->maxMouseX = 0; this->minMouseX = 0; this->moved = false; this->brakeRotate(rotate*10); this->brakeLoop(loop); */ // this->create(); COUT(3) << "Info: SpaceShip was loaded" << std::endl; } SpaceShip::~SpaceShip() { if (this->tt_) delete this->tt_; } bool SpaceShip::create(){ if(Model::create()) this->init(); else return false; return true; } void SpaceShip::registerAllVariables(){ Model::registerAllVariables(); } void SpaceShip::init() { // START CREATING THRUSTER this->tt_ = new ParticleInterface(GraphicsEngine::getSingleton().getSceneManager(),"twinthruster" + this->getName(),"Orxonox/engineglow"); this->tt_->getParticleSystem()->setParameter("local_space","true"); this->tt_->newEmitter(); /* this->tt_->setDirection(Vector3(0,0,1)); this->tt_->setPositionOfEmitter(0, Vector3(20,-1,-15)); this->tt_->setPositionOfEmitter(1, Vector3(-20,-1,-15)); */ this->tt_->setDirection(Vector3(-1,0,0)); this->tt_->setPositionOfEmitter(0, Vector3(-15,20,-1)); this->tt_->setPositionOfEmitter(1, Vector3(-15,-20,-1)); this->tt_->setVelocity(50); emitterRate_ = tt_->getRate(); Ogre::SceneNode* node2 = this->getNode()->createChildSceneNode(this->getName() + "particle2"); node2->setInheritScale(false); tt_->addToSceneNode(node2); // END CREATING THRUSTER // START CREATING BLINKING LIGHTS this->redBillboard_.setBillboardSet("Examples/Flare", ColourValue(1.0, 0.0, 0.0), 1); this->greenBillboard_.setBillboardSet("Examples/Flare", ColourValue(0.0, 1.0, 0.0), 1); this->redNode_ = this->getNode()->createChildSceneNode(this->getName() + "red", Vector3(0.3, 4.7, -0.3)); this->redNode_->setInheritScale(false); this->greenNode_ = this->getNode()->createChildSceneNode(this->getName() + "green", Vector3(0.3, -4.7, -0.3)); this->greenNode_->setInheritScale(false); this->redNode_->attachObject(this->redBillboard_.getBillboardSet()); this->redNode_->setScale(0.3, 0.3, 0.3); this->greenNode_->attachObject(this->greenBillboard_.getBillboardSet()); this->greenNode_->setScale(0.3, 0.3, 0.3); // END CREATING BLINKING LIGHTS // START of testing crosshair this->crosshairNear_.setBillboardSet("Orxonox/Crosshair", ColourValue(1.0, 1.0, 0.0), 1); this->crosshairFar_.setBillboardSet("Orxonox/Crosshair", ColourValue(1.0, 1.0, 0.0), 1); this->chNearNode_ = this->getNode()->createChildSceneNode(this->getName() + "near", Vector3(50.0, 0.0, 0.0)); this->chNearNode_->setInheritScale(false); this->chFarNode_ = this->getNode()->createChildSceneNode(this->getName() + "far", Vector3(200.0, 0.0, 0.0)); this->chFarNode_->setInheritScale(false); this->chNearNode_->attachObject(this->crosshairNear_.getBillboardSet()); this->chNearNode_->setScale(0.2, 0.2, 0.2); this->chFarNode_->attachObject(this->crosshairFar_.getBillboardSet()); this->chFarNode_->setScale(0.4, 0.4, 0.4); // END of testing crosshair } void SpaceShip::setConfigValues() { SetConfigValue(bInvertYAxis_, false).description("Set this to true for joystick-like mouse behaviour (mouse up = ship down)."); SetConfigValue(reloadTime_, 0.125).description("The reload time of the weapon in seconds"); SetConfigValue(testvector_, Vector3()).description("asdfblah"); } void SpaceShip::loadParams(TiXmlElement* xmlElem) { Model::loadParams(xmlElem); this->create(); /* if (xmlElem->Attribute("forward") && xmlElem->Attribute("rotateupdown") && xmlElem->Attribute("rotaterightleft") && xmlElem->Attribute("looprightleft")) { std::string forwardStr = xmlElem->Attribute("forward"); std::string rotateupdownStr = xmlElem->Attribute("rotateupdown"); std::string rotaterightleftStr = xmlElem->Attribute("rotaterightleft"); std::string looprightleftStr = xmlElem->Attribute("looprightleft"); String2Number(this->maxSpeedForward_, forwardStr); String2Number(this->maxSpeedRotateUpDown_, rotateupdownStr); String2Number(this->maxSpeedRotateRightLeft_, rotaterightleftStr); String2Number(this->maxSpeedLoopRightLeft_, looprightleftStr); COUT(4) << "Loader: Initialized spaceship steering with values " << maxSpeedForward_ << " " << maxSpeedRotateUpDown_ << " " << maxSpeedRotateRightLeft_ << " " << maxSpeedLoopRightLeft_ << " " << std::endl; } */ if (xmlElem->Attribute("maxSpeed") && xmlElem->Attribute("maxSideAndBackSpeed") && xmlElem->Attribute("maxRotation") && xmlElem->Attribute("transAcc") && xmlElem->Attribute("rotAcc") && xmlElem->Attribute("transDamp") && xmlElem->Attribute("rotDamp")) { std::string msStr = xmlElem->Attribute("maxSpeed"); std::string msabsStr = xmlElem->Attribute("maxSideAndBackSpeed"); std::string mrStr = xmlElem->Attribute("maxRotation"); std::string taStr = xmlElem->Attribute("transAcc"); std::string raStr = xmlElem->Attribute("rotAcc"); std::string tdStr = xmlElem->Attribute("transDamp"); std::string rdStr = xmlElem->Attribute("rotDamp"); convertValue(&this->maxSpeed_, msStr); convertValue(&this->maxSideAndBackSpeed_, msabsStr); convertValue(&this->maxRotation_, mrStr); convertValue(&this->translationAcceleration_, taStr); convertValue(&this->rotationAcceleration_, raStr); convertValue(&this->translationDamping_, tdStr); convertValue(&this->rotationDamping_, rdStr); this->maxRotationRadian_ = Radian(this->maxRotation_); this->rotationAccelerationRadian_ = Radian(this->rotationAcceleration_); this->rotationDampingRadian_ = Radian(this->rotationDamping_); COUT(4) << "Loader: Initialized SpaceShip" << std::endl; } if (xmlElem->Attribute("camera")) { this->setCamera(); } } void SpaceShip::setCamera(const std::string& camera) { Ogre::Camera *cam = GraphicsEngine::getSingleton().getSceneManager()->createCamera("ShipCam"); this->camNode_ = this->getNode()->createChildSceneNode("CamNode"); /* // node->setInheritOrientation(false); cam->setPosition(Vector3(0,50,-150)); cam->lookAt(Vector3(0,20,0)); cam->roll(Degree(0)); */ cam->setPosition(Vector3(-200,0,35)); // cam->setPosition(Vector3(0,-350,0)); cam->lookAt(Vector3(0,0,35)); cam->roll(Degree(-90)); this->camNode_->attachObject(cam); GraphicsEngine::getSingleton().getRenderWindow()->addViewport(cam); } void SpaceShip::setMaxSpeed(float value) { this->maxSpeed_ = value; } void SpaceShip::setMaxSideAndBackSpeed(float value) { this->maxSideAndBackSpeed_ = value; } void SpaceShip::setMaxRotation(float value) { this->maxRotation_ = value; this->maxRotationRadian_ = Radian(value); } void SpaceShip::setTransAcc(float value) { this->translationAcceleration_ = value; } void SpaceShip::setRotAcc(float value) { this->rotationAcceleration_ = value; this->rotationAccelerationRadian_ = Radian(value); } void SpaceShip::setTransDamp(float value) { this->translationDamping_ = value; } void SpaceShip::setRotDamp(float value) { this->rotationDamping_ = value; this->rotationDampingRadian_ = Radian(value); } /** @brief XML loading and saving. @param xmlelement The XML-element @param loading Loading (true) or saving (false) @return The XML-element */ void SpaceShip::XMLPort(Element& xmlelement, XMLPort::Mode mode) { Model::XMLPort(xmlelement, mode); XMLPortParamLoadOnly(SpaceShip, "camera", setCamera, xmlelement, mode); XMLPortParamLoadOnly(SpaceShip, "maxSpeed", setMaxSpeed, xmlelement, mode); XMLPortParamLoadOnly(SpaceShip, "maxSideAndBackSpeed", setMaxSideAndBackSpeed, xmlelement, mode); XMLPortParamLoadOnly(SpaceShip, "maxRotation", setMaxRotation, xmlelement, mode); XMLPortParamLoadOnly(SpaceShip, "transAcc", setTransAcc, xmlelement, mode); XMLPortParamLoadOnly(SpaceShip, "rotAcc", setRotAcc, xmlelement, mode); XMLPortParamLoadOnly(SpaceShip, "transDamp", setTransDamp, xmlelement, mode); XMLPortParamLoadOnly(SpaceShip, "rotDamp", setRotDamp, xmlelement, mode); } int sgn(float x) { if (x >= 0) return 1; else return -1; } bool SpaceShip::mouseMoved(const OIS::MouseEvent &e) { /* this->mouseX += e.state.X.rel; if (this->bInvertMouse_) this->mouseY += e.state.Y.rel; else this->mouseY -= e.state.Y.rel; // if(mouseX>maxMouseX) maxMouseX = mouseX; // if(mouseXmoved = true; */ if (this->bRMousePressed_) { this->camNode_->roll(Degree(-e.state.X.rel * 0.10)); this->camNode_->yaw(Degree(e.state.Y.rel * 0.10)); } else { float minDimension = e.state.height; if (e.state.width < minDimension) minDimension = e.state.width; this->mouseX_ += e.state.X.rel; if (this->mouseX_ < -minDimension) this->mouseX_ = -minDimension; if (this->mouseX_ > minDimension) this->mouseX_ = minDimension; this->mouseY_ += e.state.Y.rel; if (this->mouseY_ < -minDimension) this->mouseY_ = -minDimension; if (this->mouseY_ > minDimension) this->mouseY_ = minDimension; float xRotation = this->mouseX_ / minDimension; xRotation = xRotation*xRotation * sgn(xRotation); xRotation *= -this->rotationAcceleration_; if (xRotation > this->maxRotation_) xRotation = this->maxRotation_; if (xRotation < -this->maxRotation_) xRotation = -this->maxRotation_; this->mouseXRotation_ = Radian(xRotation); float yRotation = this->mouseY_ / minDimension; yRotation = yRotation*yRotation * sgn(yRotation); yRotation *= this->rotationAcceleration_; if (yRotation > this->maxRotation_) yRotation = this->maxRotation_; if (yRotation < -this->maxRotation_) yRotation = -this->maxRotation_; this->mouseYRotation_ = Radian(yRotation); } return true; } bool SpaceShip::mousePressed(const OIS::MouseEvent &e, OIS::MouseButtonID id) { if (id == OIS::MB_Left) this->bLMousePressed_ = true; else if (id == OIS::MB_Right) this->bRMousePressed_ = true; return true; } bool SpaceShip::mouseReleased(const OIS::MouseEvent &e, OIS::MouseButtonID id) { if (id == OIS::MB_Left) this->bLMousePressed_ = false; else if (id == OIS::MB_Right) { this->bRMousePressed_ = false; this->camNode_->resetOrientation(); } return true; } void SpaceShip::tick(float dt) { if (!setMouseEventCallback_) { InputManager::addMouseHandler(this, "SpaceShip"); setMouseEventCallback_ = true; } if (this->redNode_ && this->greenNode_) { this->blinkTime_ += dt; float redScale = 0.15 + 0.15 * sin(this->blinkTime_ * 10.0); float greenScale = 0.15 - 0.15 * sin(this->blinkTime_ * 10.0); this->redNode_->setScale(redScale, redScale, redScale); this->greenNode_->setScale(greenScale, greenScale, greenScale); } if (this->timeToReload_ > 0) this->timeToReload_ -= dt; else this->timeToReload_ = 0; if (this->bLMousePressed_ && this->timeToReload_ <= 0) { new Projectile(this); this->timeToReload_ = this->reloadTime_; } OIS::Keyboard* mKeyboard = InputManager::getKeyboard(); // ##################################### // ############# STEERING ############## // ##################################### if (this->velocity_.x > this->maxSpeed_) this->velocity_.x = this->maxSpeed_; if (this->velocity_.x < -this->maxSideAndBackSpeed_) this->velocity_.x = -this->maxSideAndBackSpeed_; if (this->velocity_.y > this->maxSideAndBackSpeed_) this->velocity_.y = this->maxSideAndBackSpeed_; if (this->velocity_.y < -this->maxSideAndBackSpeed_) this->velocity_.y = -this->maxSideAndBackSpeed_; if (this->rotationRate_ > this->maxRotationRadian_) this->rotationRate_ = this->maxRotationRadian_; if (this->rotationRate_ < -this->maxRotationRadian_) this->rotationRate_ = -this->maxRotationRadian_; if (this->acceleration_.x == 0) { if (this->velocity_.x > 0) { this->velocity_.x -= (this->translationDamping_ * dt); if (this->velocity_.x < 0) this->velocity_.x = 0; } else if (this->velocity_.x < 0) { this->velocity_.x += (this->translationDamping_ * dt); if (this->velocity_.x > 0) this->velocity_.x = 0; } } if (this->acceleration_.y == 0) { if (this->velocity_.y > 0) { this->velocity_.y -= (this->translationDamping_ * dt); if (this->velocity_.y < 0) this->velocity_.y = 0; } else if (this->velocity_.y < 0) { this->velocity_.y += (this->translationDamping_ * dt); if (this->velocity_.y > 0) this->velocity_.y = 0; } } if (this->momentum_ == this->zeroRadian_) { if (this->rotationRate_ > this->zeroRadian_) { this->rotationRate_ -= (this->rotationDampingRadian_ * dt); if (this->rotationRate_ < this->zeroRadian_) this->rotationRate_ = 0; } else if (this->rotationRate_ < this->zeroRadian_) { this->rotationRate_ += (this->rotationDampingRadian_ * dt); if (this->rotationRate_ > this->zeroRadian_) this->rotationRate_ = 0; } } if (mKeyboard->isKeyDown(OIS::KC_UP) || mKeyboard->isKeyDown(OIS::KC_W)) this->acceleration_.x = this->translationAcceleration_; else if(mKeyboard->isKeyDown(OIS::KC_DOWN) || mKeyboard->isKeyDown(OIS::KC_S)) this->acceleration_.x = -this->translationAcceleration_; else this->acceleration_.x = 0; if (mKeyboard->isKeyDown(OIS::KC_RIGHT) || mKeyboard->isKeyDown(OIS::KC_D)) this->acceleration_.y = -this->translationAcceleration_; else if (mKeyboard->isKeyDown(OIS::KC_LEFT) || mKeyboard->isKeyDown(OIS::KC_A)) this->acceleration_.y = this->translationAcceleration_; else this->acceleration_.y = 0; if (mKeyboard->isKeyDown(OIS::KC_DELETE) || mKeyboard->isKeyDown(OIS::KC_Q)) this->momentum_ = Radian(-this->rotationAccelerationRadian_); else if (mKeyboard->isKeyDown(OIS::KC_PGDOWN) || mKeyboard->isKeyDown(OIS::KC_E)) this->momentum_ = Radian(this->rotationAccelerationRadian_); else this->momentum_ = 0; WorldEntity::tick(dt); this->roll(this->mouseXRotation_ * dt); if (this->bInvertYAxis_) this->yaw(Radian(-this->mouseYRotation_ * dt)); else this->yaw(Radian(this->mouseYRotation_ * dt)); if (this->acceleration_.x > 0) this->tt_->setRate(emitterRate_); else this->tt_->setRate(0); /* if (mKeyboard->isKeyDown(OIS::KC_UP) || mKeyboard->isKeyDown(OIS::KC_W)) this->moveForward(speed); else this->moveForward(0); if(mKeyboard->isKeyDown(OIS::KC_DOWN) || mKeyboard->isKeyDown(OIS::KC_S)) this->brakeForward(speed); else this->brakeForward(speed/10); if (mKeyboard->isKeyDown(OIS::KC_RIGHT) || mKeyboard->isKeyDown(OIS::KC_D)) this->loopRight(loop); else this->loopRight(0); if (mKeyboard->isKeyDown(OIS::KC_LEFT) || mKeyboard->isKeyDown(OIS::KC_A)) this->loopLeft(loop); else this->loopLeft(0); if(moved) { if (mouseY<=0) this->rotateUp(-mouseY*rotate); if (mouseY>0) this->rotateDown(mouseY*rotate); if (mouseX>0) this->rotateRight(mouseX*rotate); if (mouseX<=0) this->rotateLeft(-mouseX*rotate); mouseY = 0; mouseX = 0; moved = false; }*/ /* else { this->rotateUp(0); this->rotateDown(0); this->rotateRight(0); this->rotateLeft(0); }*/ /* if(moveForward_ > 0) { accelerationForward_ = moveForward_; if(speedForward_ < maxSpeedForward_) speedForward_ += accelerationForward_*dt; if(speedForward_ > maxSpeedForward_) speedForward_ = maxSpeedForward_; } if(moveForward_ <= 0) { accelerationForward_ = -brakeForward_; if(speedForward_ > 0) speedForward_ += accelerationForward_*dt; if(speedForward_ < 0) speedForward_ = 0; } if(rotateUp_ > 0) { accelerationRotateUpDown_ = rotateUp_; if(speedRotateUpDown_ < maxSpeedRotateUpDown_) speedRotateUpDown_ += accelerationRotateUpDown_*dt; if(speedRotateUpDown_ > maxSpeedRotateUpDown_) speedRotateUpDown_ = maxSpeedRotateUpDown_; } if(rotateDown_ > 0) { accelerationRotateUpDown_ = rotateDown_; if(speedRotateUpDown_ > -maxSpeedRotateUpDown_) speedRotateUpDown_ -= accelerationRotateUpDown_*dt; if(speedRotateUpDown_ < -maxSpeedRotateUpDown_) speedRotateUpDown_ = -maxSpeedRotateUpDown_; } if(rotateUp_ == 0 && rotateDown_ == 0) { accelerationRotateUpDown_ = brakeRotate_; if(speedRotateUpDown_ > 0) speedRotateUpDown_ -= accelerationRotateUpDown_*dt; if(speedRotateUpDown_ < 0) speedRotateUpDown_ += accelerationRotateUpDown_*dt; if(fabs(speedRotateUpDown_) < accelerationRotateUpDown_*dt) speedRotateUpDown_ = 0; } if(rotateRight_ > 0) { accelerationRotateRightLeft_ = rotateRight_; if(speedRotateRightLeft_ > -maxSpeedRotateRightLeft_) speedRotateRightLeft_ -= accelerationRotateRightLeft_*dt; if(speedRotateRightLeft_ < -maxSpeedRotateRightLeft_) speedRotateRightLeft_ = -maxSpeedRotateRightLeft_; } if(rotateLeft_ > 0) { accelerationRotateRightLeft_ = rotateLeft_; if(speedRotateRightLeft_ < maxSpeedRotateRightLeft_) speedRotateRightLeft_ += accelerationRotateRightLeft_*dt; if(speedRotateRightLeft_ > maxSpeedRotateRightLeft_) speedRotateRightLeft_ = maxSpeedRotateRightLeft_; } if(rotateRight_ == 0 && rotateLeft_ == 0) { accelerationRotateRightLeft_ = brakeRotate_; if(speedRotateRightLeft_ > 0) speedRotateRightLeft_ -= accelerationRotateRightLeft_*dt; if(speedRotateRightLeft_ < 0) speedRotateRightLeft_ += accelerationRotateRightLeft_*dt; if(fabs(speedRotateRightLeft_) < accelerationRotateRightLeft_*dt) speedRotateRightLeft_ = 0; } if(loopRight_ > 0) { accelerationLoopRightLeft_ = loopRight_; if(speedLoopRightLeft_ < maxSpeedLoopRightLeft_) speedLoopRightLeft_ += accelerationLoopRightLeft_*dt; if(speedLoopRightLeft_ > maxSpeedLoopRightLeft_) speedLoopRightLeft_ = maxSpeedLoopRightLeft_; } if(loopLeft_ > 0) { accelerationLoopRightLeft_ = loopLeft_; if(speedLoopRightLeft_ > -maxSpeedLoopRightLeft_) speedLoopRightLeft_ -= accelerationLoopRightLeft_*dt; if(speedLoopRightLeft_ < -maxSpeedLoopRightLeft_) speedLoopRightLeft_ = -maxSpeedLoopRightLeft_; } if(loopLeft_ == 0 && loopRight_ == 0) { accelerationLoopRightLeft_ = brakeLoop_; if(speedLoopRightLeft_ > 0) speedLoopRightLeft_ -= accelerationLoopRightLeft_*dt; if(speedLoopRightLeft_ < 0) speedLoopRightLeft_ += accelerationLoopRightLeft_*dt; if(fabs(speedLoopRightLeft_) < accelerationLoopRightLeft_*dt) speedLoopRightLeft_ = 0; } Vector3 transVector = Vector3::ZERO; */ /* transVector.z = 1; this->translate(transVector*speedForward_*dt, Ogre::Node::TS_LOCAL); this->pitch(Degree(speedRotateUpDown_*dt), Ogre::Node::TS_LOCAL); this->yaw(Degree(speedRotateRightLeft_*dt), Ogre::Node::TS_LOCAL); this->roll(Degree(speedLoopRightLeft_*dt), Ogre::Node::TS_LOCAL); */ /* transVector.x = 1; this->translate(transVector*speedForward_*dt, Ogre::Node::TS_LOCAL); this->yaw(Degree(speedRotateUpDown_*dt), Ogre::Node::TS_LOCAL); this->roll(Degree(speedRotateRightLeft_*dt), Ogre::Node::TS_LOCAL); this->pitch(Degree(speedLoopRightLeft_*dt), Ogre::Node::TS_LOCAL); */ } /* void SpaceShip::moveForward(float moveForward) { moveForward_ = moveForward; } void SpaceShip::rotateUp(float rotateUp) { rotateUp_ = rotateUp; } void SpaceShip::rotateDown(float rotateDown) { rotateDown_ = rotateDown; } void SpaceShip::rotateLeft(float rotateLeft) { rotateLeft_ = rotateLeft; } void SpaceShip::rotateRight(float rotateRight) { rotateRight_ = rotateRight; } void SpaceShip::loopLeft(float loopLeft) { loopLeft_ = loopLeft; } void SpaceShip::loopRight(float loopRight) { loopRight_ = loopRight; } void SpaceShip::brakeForward(float brakeForward) { brakeForward_ = brakeForward; } void SpaceShip::brakeRotate(float brakeRotate) { brakeRotate_ = brakeRotate; } void SpaceShip::brakeLoop(float brakeLoop) { brakeLoop_ = brakeLoop; } void SpaceShip::maxSpeedForward(float maxSpeedForward) { maxSpeedForward_ = maxSpeedForward; } void SpaceShip::maxSpeedRotateUpDown(float maxSpeedRotateUpDown) { maxSpeedRotateUpDown_ = maxSpeedRotateUpDown; } void SpaceShip::maxSpeedRotateRightLeft(float maxSpeedRotateRightLeft) { maxSpeedRotateRightLeft_ = maxSpeedRotateRightLeft; } void SpaceShip::maxSpeedLoopRightLeft(float maxSpeedLoopRightLeft) { maxSpeedLoopRightLeft_ = maxSpeedLoopRightLeft; } */ }