/* * 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: * Oli Scheuss * Co-authors: * Damian 'Mozork' Frick * */ #include "AutonomousDrone.h" #include "core/CoreIncludes.h" #include "BulletDynamics/Dynamics/btRigidBody.h" namespace orxonox { //TODO: Put your code in here: // Create the factory for the drone. /** @brief Constructor. Registers the object and initializes some default values. @param creator The creator of this object. */ RegisterClass(AutonomousDrone); AutonomousDrone::AutonomousDrone(Context* context) : ControllableEntity(context) { //TODO: Put your code in here: // Register the drone class to the core. RegisterObject(AutonomousDrone); this->myController_ = NULL; this->localLinearAcceleration_.setValue(0, 0, 0); this->localAngularAcceleration_.setValue(0, 0, 0); this->primaryThrust_ = 100; this->auxiliaryThrust_ = 100; this->rotationThrust_ = 10; this->setCollisionType(WorldEntity::Dynamic); //this->myController_ = new AutonomousDroneController(this); // Creates a new controller and passes our this pointer to it as creator. } /** @brief Destructor. Destroys controller, if present. */ AutonomousDrone::~AutonomousDrone() { // Deletes the controller if the object was initialized and the pointer to the controller is not NULL. if( this->isInitialized() && this->myController_ != NULL ) delete this->myController_; } /** @brief Method for creating a AutonomousDrone through XML. */ void AutonomousDrone::XMLPort(Element& xmlelement, XMLPort::Mode mode) { // This calls the XMLPort function of the parent class SUPER(AutonomousDrone, XMLPort, xmlelement, mode); XMLPortParam(AutonomousDrone, "primaryThrust", setPrimaryThrust, getPrimaryThrust, xmlelement, mode); XMLPortParam(AutonomousDrone, "auxiliaryThrust", setAuxiliaryThrust, getAuxiliaryThrust, xmlelement, mode); XMLPortParam(AutonomousDrone, "rotationThrust", setRotationThrust, getRotationThrust, xmlelement, mode); //TODO: Put your code in here: // Make sure you add the variables auxiliaryThrust_ and rotationThrust_ to XMLPort. // Variables can be added by the following command // XMLPortParam(Classname, "xml-attribute-name (i.e. variablename)", setFunctionName, getFunctionName, xmlelement, mode); // Also make sure that you also create the get- and set-functions in AutonomousDrone.h. As you can see, the get- and set-functions for the variable primaryThrust_ has already been specified there, so you can get your inspiration from there. } /** @brief Defines which actions the AutonomousDrone has to take in each tick. @param dt The length of the tick. */ void AutonomousDrone::tick(float dt) { SUPER(AutonomousDrone, tick, dt); this->localLinearAcceleration_.setX(this->localLinearAcceleration_.x() * getMass() * this->auxiliaryThrust_); this->localLinearAcceleration_.setY(this->localLinearAcceleration_.y() * getMass() * this->auxiliaryThrust_); if (this->localLinearAcceleration_.z() > 0) this->localLinearAcceleration_.setZ(this->localLinearAcceleration_.z() * getMass() * this->auxiliaryThrust_); else this->localLinearAcceleration_.setZ(this->localLinearAcceleration_.z() * getMass() * this->primaryThrust_); this->physicalBody_->applyCentralForce(physicalBody_->getWorldTransform().getBasis() * this->localLinearAcceleration_); this->localLinearAcceleration_.setValue(0, 0, 0); this->localAngularAcceleration_ *= this->getLocalInertia() * this->rotationThrust_; this->physicalBody_->applyTorque(physicalBody_->getWorldTransform().getBasis() * this->localAngularAcceleration_); this->localAngularAcceleration_.setValue(0, 0, 0); } /** @brief Moves the AutonomousDrone in the negative z-direction (Front/Back) by an amount specified by the first component of the input 2-dim vector. @param value The vector determining the amount of the movement. */ void AutonomousDrone::moveFrontBack(const Vector2& value) { this->localLinearAcceleration_.setZ(this->localLinearAcceleration_.z() - value.x); } /** @brief Moves the AutonomousDrone in the x-direction (Right/Left) by an amount specified by the first component of the input 2-dim vector. @param value The vector determining the amount of the movement. */ void AutonomousDrone::moveRightLeft(const Vector2& value) { this->localLinearAcceleration_.setX(this->localLinearAcceleration_.x() + value.x); } /** @brief Moves the AutonomousDrone in the y-direction (Up/Down) by an amount specified by the first component of the input 2-dim vector. @param value The vector determining the amount of the movement. */ void AutonomousDrone::moveUpDown(const Vector2& value) { this->localLinearAcceleration_.setY(this->localLinearAcceleration_.y() + value.x); } /** @brief Rotates the AutonomousDrone around the y-axis by the amount specified by the first component of the input 2-dim vector. @param value The vector determining the amount of the angular movement. */ void AutonomousDrone::rotateYaw(const Vector2& value) { this->localAngularAcceleration_.setY(this->localAngularAcceleration_.y() - value.x); } /** @brief Rotates the AutonomousDrone around the x-axis by the amount specified by the first component of the input 2-dim vector. @param value The vector determining the amount of the angular movement. */ void AutonomousDrone::rotatePitch(const Vector2& value) { this->localAngularAcceleration_.setX(this->localAngularAcceleration_.x() + value.x); } /** @brief Rotates the AutonomousDrone around the z-axis by the amount specified by the first component of the input 2-dim vector. @param value The vector determining the amount of the angular movement. */ void AutonomousDrone::rotateRoll(const Vector2& value) { this->localAngularAcceleration_.setZ(this->localAngularAcceleration_.z() + value.x); } }