/******************************************************************************** * ReactPhysics3D physics library, http://www.reactphysics3d.com * * Copyright (c) 2010-2016 Daniel Chappuis * ********************************************************************************* * * * This software is provided 'as-is', without any express or implied warranty. * * In no event will the authors be held liable for any damages arising from the * * use of this software. * * * * Permission is granted to anyone to use this software for any purpose, * * including commercial applications, and to alter it and redistribute it * * freely, subject to the following restrictions: * * * * 1. The origin of this software must not be misrepresented; you must not claim * * that you wrote the original software. If you use this software in a * * product, an acknowledgment in the product documentation would be * * appreciated but is not required. * * * * 2. Altered source versions must be plainly marked as such, and must not be * * misrepresented as being the original software. * * * * 3. This notice may not be removed or altered from any source distribution. * * * ********************************************************************************/ #ifndef COLLISION_DETECTION_SCENE_H #define COLLISION_DETECTION_SCENE_H // Libraries #include #include "openglframework.h" #include "reactphysics3d.h" #include "SceneDemo.h" #include "Sphere.h" #include "Box.h" #include "Capsule.h" #include "Line.h" #include "ConvexMesh.h" #include "ConcaveMesh.h" #include "HeightField.h" #include "Dumbbell.h" #include "VisualContactPoint.h" namespace collisiondetectionscene { // Constants const float SCENE_RADIUS = 30.0f; const openglframework::Vector3 BOX_SIZE(4, 2, 1); const float SPHERE_RADIUS = 3.0f; const float CONE_RADIUS = 3.0f; const float CONE_HEIGHT = 5.0f; const float CYLINDER_RADIUS = 3.0f; const float CYLINDER_HEIGHT = 5.0f; const float CAPSULE_RADIUS = 1.0f; const float CAPSULE_HEIGHT = 1.0f; const float DUMBBELL_HEIGHT = 5.0f; const int NB_RAYS = 100; const float RAY_LENGTH = 30.0f; const int NB_BODIES = 9; // Contact manager class ContactManager : public rp3d::CollisionCallback { private: /// All the visual contact points std::vector mContactPoints; /// Contact point mesh folder path std::string mMeshFolderPath; public: ContactManager(openglframework::Shader& shader, const std::string& meshFolderPath) : mMeshFolderPath(meshFolderPath) { } /// This method will be called for each reported contact point virtual void notifyContact(const CollisionCallbackInfo& collisionCallbackInfo) override { // For each contact manifold rp3d::ContactManifoldListElement* manifoldElement = collisionCallbackInfo.contactManifoldElements; while (manifoldElement != nullptr) { // Get the contact manifold rp3d::ContactManifold* contactManifold = manifoldElement->getContactManifold(); // For each contact point rp3d::ContactPoint* contactPoint = contactManifold->getContactPoints(); while (contactPoint != nullptr) { // Contact normal rp3d::Vector3 normal = contactPoint->getNormal(); openglframework::Vector3 contactNormal(normal.x, normal.y, normal.z); rp3d::Vector3 point1 = contactPoint->getLocalPointOnShape1(); point1 = collisionCallbackInfo.proxyShape1->getLocalToWorldTransform() * point1; openglframework::Vector3 position1(point1.x, point1.y, point1.z); mContactPoints.push_back(ContactPoint(position1, contactNormal, openglframework::Color::red())); rp3d::Vector3 point2 = contactPoint->getLocalPointOnShape2(); point2 = collisionCallbackInfo.proxyShape2->getLocalToWorldTransform() * point2; openglframework::Vector3 position2(point2.x, point2.y, point2.z); mContactPoints.push_back(ContactPoint(position2, contactNormal, openglframework::Color::blue())); contactPoint = contactPoint->getNext(); } manifoldElement = manifoldElement->getNext(); } } void resetPoints() { mContactPoints.clear(); } std::vector getContactPoints() const { return mContactPoints; } }; // Class CollisionDetectionScene class CollisionDetectionScene : public SceneDemo { private : // -------------------- Attributes -------------------- // /// Contact point mesh folder path std::string mMeshFolderPath; /// Contact manager ContactManager mContactManager; bool mAreNormalsDisplayed; /// All objects on the scene //Box* mBox; Sphere* mSphere1; Sphere* mSphere2; Capsule* mCapsule1; Capsule* mCapsule2; Box* mBox1; Box* mBox2; ConvexMesh* mConvexMesh; //Dumbbell* mDumbbell; ConcaveMesh* mConcaveMesh; HeightField* mHeightField; std::vector mAllShapes; unsigned int mSelectedShapeIndex; /// Select the next shape void selectNextShape(); public: // -------------------- Methods -------------------- // /// Constructor CollisionDetectionScene(const std::string& name, EngineSettings& settings); /// Destructor virtual ~CollisionDetectionScene() override; /// Take a step for the simulation virtual void update() override; /// Reset the scene virtual void reset() override; /// Display or not the surface normals at hit points void showHideNormals(); /// Called when a keyboard event occurs virtual bool keyboardEvent(int key, int scancode, int action, int mods) override; /// Enabled/Disable the shadow mapping virtual void setIsShadowMappingEnabled(bool isShadowMappingEnabled) override; /// Display/Hide the contact points virtual void setIsContactPointsDisplayed(bool display) override; /// Return all the contact points of the scene virtual std::vector getContactPoints() override; }; // Display or not the surface normals at hit points inline void CollisionDetectionScene::showHideNormals() { mAreNormalsDisplayed = !mAreNormalsDisplayed; } // Enabled/Disable the shadow mapping inline void CollisionDetectionScene::setIsShadowMappingEnabled(bool isShadowMappingEnabled) { SceneDemo::setIsShadowMappingEnabled(false); } // Display/Hide the contact points inline void CollisionDetectionScene::setIsContactPointsDisplayed(bool display) { SceneDemo::setIsContactPointsDisplayed(true); } // Return all the contact points of the scene inline std::vector CollisionDetectionScene::getContactPoints() { return mContactManager.getContactPoints(); } } #endif