diff --git a/CMakeLists.txt b/CMakeLists.txt index fa156a9a..52efef81 100644 --- a/CMakeLists.txt +++ b/CMakeLists.txt @@ -53,6 +53,9 @@ SET (REACTPHYSICS3D_SOURCES "src/collision/broadphase/BroadPhaseAlgorithm.cpp" "src/collision/broadphase/DynamicAABBTree.h" "src/collision/broadphase/DynamicAABBTree.cpp" + "src/collision/narrowphase/CollisionDispatch.h" + "src/collision/narrowphase/DefaultCollisionDispatch.h" + "src/collision/narrowphase/DefaultCollisionDispatch.cpp" "src/collision/narrowphase/EPA/EdgeEPA.h" "src/collision/narrowphase/EPA/EdgeEPA.cpp" "src/collision/narrowphase/EPA/EPAAlgorithm.h" diff --git a/src/collision/CollisionDetection.cpp b/src/collision/CollisionDetection.cpp index 1de5779c..334c33a6 100644 --- a/src/collision/CollisionDetection.cpp +++ b/src/collision/CollisionDetection.cpp @@ -42,11 +42,15 @@ using namespace std; // Constructor CollisionDetection::CollisionDetection(CollisionWorld* world, MemoryAllocator& memoryAllocator) - : mWorld(world), mBroadPhaseAlgorithm(*this), - mNarrowPhaseGJKAlgorithm(memoryAllocator), - mNarrowPhaseSphereVsSphereAlgorithm(memoryAllocator), + : mMemoryAllocator(memoryAllocator), + mWorld(world), mBroadPhaseAlgorithm(*this), mIsCollisionShapesAdded(false) { + // Set the default collision dispatch configuration + setCollisionDispatch(&mDefaultCollisionDispatch); + + // Fill-in the collision detection matrix with algorithms + fillInCollisionMatrix(); } // Destructor @@ -209,16 +213,16 @@ void CollisionDetection::computeNarrowPhase() { if (mNoCollisionPairs.count(bodiesIndex) > 0) continue; // Select the narrow phase algorithm to use according to the two collision shapes - NarrowPhaseAlgorithm& narrowPhaseAlgorithm = selectNarrowPhaseAlgorithm( - shape1->getCollisionShape(), - shape2->getCollisionShape()); + const CollisionShapeType shape1Type = shape1->getCollisionShape()->getType(); + const CollisionShapeType shape2Type = shape2->getCollisionShape()->getType(); + NarrowPhaseAlgorithm* narrowPhaseAlgorithm = mCollisionMatrix[shape1Type][shape2Type]; // Notify the narrow-phase algorithm about the overlapping pair we are going to test - narrowPhaseAlgorithm.setCurrentOverlappingPair(pair); + narrowPhaseAlgorithm->setCurrentOverlappingPair(pair); // Use the narrow-phase collision detection algorithm to check // if there really is a collision - if (narrowPhaseAlgorithm.testCollision(shape1, shape2, contactInfo)) { + if (narrowPhaseAlgorithm->testCollision(shape1, shape2, contactInfo)) { assert(contactInfo != NULL); // If it is the first contact since the pair are overlapping @@ -316,16 +320,16 @@ void CollisionDetection::computeNarrowPhaseBetweenShapes(CollisionCallback* call if (body1->isSleeping() && body2->isSleeping()) continue; // Select the narrow phase algorithm to use according to the two collision shapes - NarrowPhaseAlgorithm& narrowPhaseAlgorithm = selectNarrowPhaseAlgorithm( - shape1->getCollisionShape(), - shape2->getCollisionShape()); + const CollisionShapeType shape1Type = shape1->getCollisionShape()->getType(); + const CollisionShapeType shape2Type = shape2->getCollisionShape()->getType(); + NarrowPhaseAlgorithm* narrowPhaseAlgorithm = mCollisionMatrix[shape1Type][shape2Type]; // Notify the narrow-phase algorithm about the overlapping pair we are going to test - narrowPhaseAlgorithm.setCurrentOverlappingPair(pair); + narrowPhaseAlgorithm->setCurrentOverlappingPair(pair); // Use the narrow-phase collision detection algorithm to check // if there really is a collision - if (narrowPhaseAlgorithm.testCollision(shape1, shape2, contactInfo)) { + if (narrowPhaseAlgorithm->testCollision(shape1, shape2, contactInfo)) { assert(contactInfo != NULL); // Create a new contact @@ -452,3 +456,15 @@ void CollisionDetection::clearContactPoints() { it->second->clearContactPoints(); } } + +// Fill-in the collision detection matrix +void CollisionDetection::fillInCollisionMatrix() { + + // For each possible type of collision shape + for (int i=0; iselectAlgorithm(i, j); + assert(mCollisionMatrix[i][j] != NULL); + } + } +} diff --git a/src/collision/CollisionDetection.h b/src/collision/CollisionDetection.h index 53ca5873..10ba13b1 100644 --- a/src/collision/CollisionDetection.h +++ b/src/collision/CollisionDetection.h @@ -30,8 +30,7 @@ #include "body/CollisionBody.h" #include "broadphase/BroadPhaseAlgorithm.h" #include "engine/OverlappingPair.h" -#include "narrowphase/GJK/GJKAlgorithm.h" -#include "narrowphase/SphereVsSphereAlgorithm.h" +#include "narrowphase/DefaultCollisionDispatch.h" #include "memory/MemoryAllocator.h" #include "constraint/ContactPoint.h" #include @@ -60,6 +59,18 @@ class CollisionDetection { // -------------------- Attributes -------------------- // + /// Collision Detection Dispatch configuration + CollisionDispatch* mCollisionDispatch; + + /// Default collision dispatch configuration + DefaultCollisionDispatch mDefaultCollisionDispatch; + + /// Collision detection matrix (algorithms to use) + NarrowPhaseAlgorithm* mCollisionMatrix[NB_COLLISION_SHAPE_TYPES][NB_COLLISION_SHAPE_TYPES]; + + /// Reference to the memory allocator + MemoryAllocator& mMemoryAllocator; + /// Pointer to the physics world CollisionWorld* mWorld; @@ -70,9 +81,11 @@ class CollisionDetection { BroadPhaseAlgorithm mBroadPhaseAlgorithm; /// Narrow-phase GJK algorithm + // TODO : Delete this GJKAlgorithm mNarrowPhaseGJKAlgorithm; /// Narrow-phase Sphere vs Sphere algorithm + // TODO : Delete this SphereVsSphereAlgorithm mNarrowPhaseSphereVsSphereAlgorithm; /// Set of pair of bodies that cannot collide between each other @@ -95,10 +108,6 @@ class CollisionDetection { /// Compute the narrow-phase collision detection void computeNarrowPhase(); - /// Select the narrow phase algorithm to use given two collision shapes - NarrowPhaseAlgorithm& selectNarrowPhaseAlgorithm(const CollisionShape* collisionShape1, - const CollisionShape* collisionShape2); - /// Create a new contact void createContact(OverlappingPair* overlappingPair, const ContactPointInfo* contactInfo); @@ -109,6 +118,9 @@ class CollisionDetection { /// Delete all the contact points in the currently overlapping pairs void clearContactPoints(); + + /// Fill-in the collision detection matrix + void fillInCollisionMatrix(); public : @@ -120,6 +132,9 @@ class CollisionDetection { /// Destructor ~CollisionDetection(); + /// Set the collision dispatch configuration + void setCollisionDispatch(CollisionDispatch* collisionDispatch); + /// Add a proxy collision shape to the collision detection void addProxyCollisionShape(ProxyShape* proxyShape, const AABB& aabb); @@ -178,19 +193,15 @@ class CollisionDetection { friend class ConvexMeshShape; }; -// Select the narrow-phase collision algorithm to use given two collision shapes -inline NarrowPhaseAlgorithm& CollisionDetection::selectNarrowPhaseAlgorithm( - const CollisionShape* collisionShape1, - const CollisionShape* collisionShape2) { - - // Sphere vs Sphere algorithm - if (collisionShape1->getType() == SPHERE && collisionShape2->getType() == SPHERE) { - return mNarrowPhaseSphereVsSphereAlgorithm; - } - else { // GJK algorithm - return mNarrowPhaseGJKAlgorithm; - } -} +/// Set the collision dispatch configuration +inline void CollisionDetection::setCollisionDispatch(CollisionDispatch* collisionDispatch) { + mCollisionDispatch = collisionDispatch; + + mCollisionDispatch->init(&mMemoryAllocator); + + // Fill-in the collision matrix with the new algorithms to use + fillInCollisionMatrix(); +} // Add a body to the collision detection inline void CollisionDetection::addProxyCollisionShape(ProxyShape* proxyShape, diff --git a/src/collision/narrowphase/CollisionDispatch.h b/src/collision/narrowphase/CollisionDispatch.h new file mode 100644 index 00000000..b8ee2954 --- /dev/null +++ b/src/collision/narrowphase/CollisionDispatch.h @@ -0,0 +1,66 @@ +/******************************************************************************** +* ReactPhysics3D physics library, http://www.reactphysics3d.com * +* Copyright (c) 2010-2015 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 REACTPHYSICS3D_COLLISION_DISPATCH_H +#define REACTPHYSICS3D_COLLISION_DISPATCH_H + +// Libraries +#include "NarrowPhaseAlgorithm.h" + +namespace reactphysics3d { + +// Class CollisionDispatch +/** + * This is the abstract base class for dispatching the narrow-phase + * collision detection algorithm. Collision dispatching decides which collision + * algorithm to use given two types of proxy collision shapes. + */ +class CollisionDispatch { + + protected: + + public: + + /// Constructor + CollisionDispatch() {} + + /// Destructor + virtual ~CollisionDispatch() {} + + /// Initialize the collision dispatch configuration + virtual void init(MemoryAllocator* memoryAllocator) { + + } + + /// Select and return the narrow-phase collision detection algorithm to + /// use between two types of collision shapes. + virtual NarrowPhaseAlgorithm* selectAlgorithm(int shape1Type, + int shape2Type)=0; +}; + +} + +#endif + diff --git a/src/collision/narrowphase/DefaultCollisionDispatch.cpp b/src/collision/narrowphase/DefaultCollisionDispatch.cpp new file mode 100644 index 00000000..d7997c19 --- /dev/null +++ b/src/collision/narrowphase/DefaultCollisionDispatch.cpp @@ -0,0 +1,61 @@ +/******************************************************************************** +* ReactPhysics3D physics library, http://www.reactphysics3d.com * +* Copyright (c) 2010-2015 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. * +* * +********************************************************************************/ + +// Libraries +#include "DefaultCollisionDispatch.h" + +using namespace reactphysics3d; + +// Constructor +DefaultCollisionDispatch::DefaultCollisionDispatch() { + +} + +// Destructor +DefaultCollisionDispatch::~DefaultCollisionDispatch() { + +} + +/// Initialize the collision dispatch configuration +void DefaultCollisionDispatch::init(MemoryAllocator* memoryAllocator) { + + // Initialize the collision algorithms + mSphereVsSphereAlgorithm.init(memoryAllocator); + mGJKAlgorithm.init(memoryAllocator); +} + +// Select and return the narrow-phase collision detection algorithm to +// use between two types of collision shapes. +NarrowPhaseAlgorithm* DefaultCollisionDispatch::selectAlgorithm(int shape1Type, + int shape2Type) { + + // Sphere vs Sphere algorithm + if (shape1Type == SPHERE && shape2Type == SPHERE) { + return &mSphereVsSphereAlgorithm; + } + else { // GJK algorithm + return &mGJKAlgorithm; + } +} diff --git a/src/collision/narrowphase/DefaultCollisionDispatch.h b/src/collision/narrowphase/DefaultCollisionDispatch.h new file mode 100644 index 00000000..d369f951 --- /dev/null +++ b/src/collision/narrowphase/DefaultCollisionDispatch.h @@ -0,0 +1,74 @@ +/******************************************************************************** +* ReactPhysics3D physics library, http://www.reactphysics3d.com * +* Copyright (c) 2010-2015 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 REACTPHYSICS3D_DEFAULT_COLLISION_DISPATCH_H +#define REACTPHYSICS3D_DEFAULT_COLLISION_DISPATCH_H + +// Libraries +#include "CollisionDispatch.h" +#include "SphereVsSphereAlgorithm.h" +#include "GJK/GJKAlgorithm.h" + +namespace reactphysics3d { + +// Class DefaultCollisionDispatch +/** + * This is the default collision dispatch configuration use in ReactPhysics3D. + * Collision dispatching decides which collision + * algorithm to use given two types of proxy collision shapes. + */ +class DefaultCollisionDispatch : public CollisionDispatch { + + protected: + + /// Sphere vs Sphere collision algorithm + SphereVsSphereAlgorithm mSphereVsSphereAlgorithm; + + /// GJK Algorithm + GJKAlgorithm mGJKAlgorithm; + + public: + + /// Constructor + DefaultCollisionDispatch(); + + /// Destructor + virtual ~DefaultCollisionDispatch(); + + /// Initialize the collision dispatch configuration + virtual void init(MemoryAllocator* memoryAllocator); + + /// Select and return the narrow-phase collision detection algorithm to + /// use between two types of collision shapes. + virtual NarrowPhaseAlgorithm* selectAlgorithm(int shape1Type, + int shape2Type); +}; + +} + +#endif + + + diff --git a/src/collision/narrowphase/EPA/EPAAlgorithm.cpp b/src/collision/narrowphase/EPA/EPAAlgorithm.cpp index c41b51b6..689407e0 100644 --- a/src/collision/narrowphase/EPA/EPAAlgorithm.cpp +++ b/src/collision/narrowphase/EPA/EPAAlgorithm.cpp @@ -32,8 +32,7 @@ using namespace reactphysics3d; // Constructor -EPAAlgorithm::EPAAlgorithm(MemoryAllocator& memoryAllocator) - : mMemoryAllocator(memoryAllocator) { +EPAAlgorithm::EPAAlgorithm() { } @@ -418,7 +417,7 @@ bool EPAAlgorithm::computePenetrationDepthAndContactPoints(const Simplex& simple assert(penetrationDepth > 0.0); // Create the contact info object - contactInfo = new (mMemoryAllocator.allocate(sizeof(ContactPointInfo))) + contactInfo = new (mMemoryAllocator->allocate(sizeof(ContactPointInfo))) ContactPointInfo(collisionShape1, collisionShape2, normal, penetrationDepth, pALocal, pBLocal); diff --git a/src/collision/narrowphase/EPA/EPAAlgorithm.h b/src/collision/narrowphase/EPA/EPAAlgorithm.h index cac960a9..69298d02 100644 --- a/src/collision/narrowphase/EPA/EPAAlgorithm.h +++ b/src/collision/narrowphase/EPA/EPAAlgorithm.h @@ -86,7 +86,7 @@ class EPAAlgorithm { // -------------------- Attributes -------------------- // /// Reference to the memory allocator - MemoryAllocator& mMemoryAllocator; + MemoryAllocator* mMemoryAllocator; /// Triangle comparison operator TriangleComparison mTriangleComparison; @@ -112,11 +112,14 @@ class EPAAlgorithm { // -------------------- Methods -------------------- // /// Constructor - EPAAlgorithm(MemoryAllocator& memoryAllocator); + EPAAlgorithm(); /// Destructor ~EPAAlgorithm(); + /// Initalize the algorithm + void init(MemoryAllocator* memoryAllocator); + /// Compute the penetration depth with EPA algorithm. bool computePenetrationDepthAndContactPoints(const Simplex& simplex, ProxyShape* collisionShape1, @@ -144,6 +147,11 @@ inline void EPAAlgorithm::addFaceCandidate(TriangleEPA* triangle, TriangleEPA** } } +// Initalize the algorithm +inline void EPAAlgorithm::init(MemoryAllocator* memoryAllocator) { + mMemoryAllocator = memoryAllocator; +} + } #endif diff --git a/src/collision/narrowphase/GJK/GJKAlgorithm.cpp b/src/collision/narrowphase/GJK/GJKAlgorithm.cpp index 20654c89..b4d50ecd 100644 --- a/src/collision/narrowphase/GJK/GJKAlgorithm.cpp +++ b/src/collision/narrowphase/GJK/GJKAlgorithm.cpp @@ -37,9 +37,8 @@ using namespace reactphysics3d; // Constructor -GJKAlgorithm::GJKAlgorithm(MemoryAllocator& memoryAllocator) - :NarrowPhaseAlgorithm(memoryAllocator), mAlgoEPA(memoryAllocator) { - +GJKAlgorithm::GJKAlgorithm() : NarrowPhaseAlgorithm() { + } // Destructor @@ -140,7 +139,7 @@ bool GJKAlgorithm::testCollision(ProxyShape* collisionShape1, ProxyShape* collis if (penetrationDepth <= 0.0) return false; // Create the contact info object - contactInfo = new (mMemoryAllocator.allocate(sizeof(ContactPointInfo))) + contactInfo = new (mMemoryAllocator->allocate(sizeof(ContactPointInfo))) ContactPointInfo(collisionShape1, collisionShape2, normal, penetrationDepth, pA, pB); @@ -172,7 +171,7 @@ bool GJKAlgorithm::testCollision(ProxyShape* collisionShape1, ProxyShape* collis if (penetrationDepth <= 0.0) return false; // Create the contact info object - contactInfo = new (mMemoryAllocator.allocate(sizeof(ContactPointInfo))) + contactInfo = new (mMemoryAllocator->allocate(sizeof(ContactPointInfo))) ContactPointInfo(collisionShape1, collisionShape2, normal, penetrationDepth, pA, pB); @@ -202,7 +201,7 @@ bool GJKAlgorithm::testCollision(ProxyShape* collisionShape1, ProxyShape* collis if (penetrationDepth <= 0.0) return false; // Create the contact info object - contactInfo = new (mMemoryAllocator.allocate(sizeof(ContactPointInfo))) + contactInfo = new (mMemoryAllocator->allocate(sizeof(ContactPointInfo))) ContactPointInfo(collisionShape1, collisionShape2, normal, penetrationDepth, pA, pB); @@ -239,7 +238,7 @@ bool GJKAlgorithm::testCollision(ProxyShape* collisionShape1, ProxyShape* collis if (penetrationDepth <= 0.0) return false; // Create the contact info object - contactInfo = new (mMemoryAllocator.allocate(sizeof(ContactPointInfo))) + contactInfo = new (mMemoryAllocator->allocate(sizeof(ContactPointInfo))) ContactPointInfo(collisionShape1, collisionShape2, normal, penetrationDepth, pA, pB); diff --git a/src/collision/narrowphase/GJK/GJKAlgorithm.h b/src/collision/narrowphase/GJK/GJKAlgorithm.h index c685d068..ba50f3ff 100644 --- a/src/collision/narrowphase/GJK/GJKAlgorithm.h +++ b/src/collision/narrowphase/GJK/GJKAlgorithm.h @@ -86,11 +86,14 @@ class GJKAlgorithm : public NarrowPhaseAlgorithm { // -------------------- Methods -------------------- // /// Constructor - GJKAlgorithm(MemoryAllocator& memoryAllocator); + GJKAlgorithm(); /// Destructor ~GJKAlgorithm(); + /// Initalize the algorithm + virtual void init(MemoryAllocator* memoryAllocator); + /// Return true and compute a contact info if the two bounding volumes collide. virtual bool testCollision(ProxyShape* collisionShape1, ProxyShape* collisionShape2, ContactPointInfo*& contactInfo); @@ -102,6 +105,12 @@ class GJKAlgorithm : public NarrowPhaseAlgorithm { bool raycast(const Ray& ray, ProxyShape* collisionShape, RaycastInfo& raycastInfo); }; +// Initalize the algorithm +inline void GJKAlgorithm::init(MemoryAllocator* memoryAllocator) { + NarrowPhaseAlgorithm::init(memoryAllocator); + mAlgoEPA.init(memoryAllocator); +} + } #endif diff --git a/src/collision/narrowphase/NarrowPhaseAlgorithm.cpp b/src/collision/narrowphase/NarrowPhaseAlgorithm.cpp index 40bfa921..0eb78a41 100644 --- a/src/collision/narrowphase/NarrowPhaseAlgorithm.cpp +++ b/src/collision/narrowphase/NarrowPhaseAlgorithm.cpp @@ -30,8 +30,8 @@ using namespace reactphysics3d; // Constructor -NarrowPhaseAlgorithm::NarrowPhaseAlgorithm(MemoryAllocator& memoryAllocator) - :mMemoryAllocator(memoryAllocator), mCurrentOverlappingPair(NULL) { +NarrowPhaseAlgorithm::NarrowPhaseAlgorithm() + : mMemoryAllocator(NULL), mCurrentOverlappingPair(NULL) { } @@ -39,3 +39,8 @@ NarrowPhaseAlgorithm::NarrowPhaseAlgorithm(MemoryAllocator& memoryAllocator) NarrowPhaseAlgorithm::~NarrowPhaseAlgorithm() { } + +// Initalize the algorithm +void NarrowPhaseAlgorithm::init(MemoryAllocator* memoryAllocator) { + mMemoryAllocator = memoryAllocator; +} diff --git a/src/collision/narrowphase/NarrowPhaseAlgorithm.h b/src/collision/narrowphase/NarrowPhaseAlgorithm.h index 5e2e7fce..46ba8b1d 100644 --- a/src/collision/narrowphase/NarrowPhaseAlgorithm.h +++ b/src/collision/narrowphase/NarrowPhaseAlgorithm.h @@ -38,10 +38,9 @@ namespace reactphysics3d { // Class NarrowPhaseAlgorithm /** - * This class is an abstract class that represents an algorithm - * used to perform the narrow-phase of a collision detection. The - * goal of the narrow phase algorithm is to compute contact - * informations of a collision between two bodies. + * This abstract class is the base class for a narrow-phase collision + * detection algorithm. The goal of the narrow phase algorithm is to + * compute information about the contact between two proxy shapes. */ class NarrowPhaseAlgorithm { @@ -49,8 +48,8 @@ class NarrowPhaseAlgorithm { // -------------------- Attributes -------------------- // - /// Reference to the memory allocator - MemoryAllocator& mMemoryAllocator; + /// Pointer to the memory allocator + MemoryAllocator* mMemoryAllocator; /// Overlapping pair of the bodies currently tested for collision OverlappingPair* mCurrentOverlappingPair; @@ -68,10 +67,13 @@ class NarrowPhaseAlgorithm { // -------------------- Methods -------------------- // /// Constructor - NarrowPhaseAlgorithm(MemoryAllocator& memoryAllocator); + NarrowPhaseAlgorithm(); /// Destructor virtual ~NarrowPhaseAlgorithm(); + + /// Initalize the algorithm + virtual void init(MemoryAllocator* memoryAllocator); /// Set the current overlapping pair of bodies void setCurrentOverlappingPair(OverlappingPair* overlappingPair); diff --git a/src/collision/narrowphase/SphereVsSphereAlgorithm.cpp b/src/collision/narrowphase/SphereVsSphereAlgorithm.cpp index ceeb528a..e4a708f1 100644 --- a/src/collision/narrowphase/SphereVsSphereAlgorithm.cpp +++ b/src/collision/narrowphase/SphereVsSphereAlgorithm.cpp @@ -31,8 +31,7 @@ using namespace reactphysics3d; // Constructor -SphereVsSphereAlgorithm::SphereVsSphereAlgorithm(MemoryAllocator& memoryAllocator) - :NarrowPhaseAlgorithm(memoryAllocator) { +SphereVsSphereAlgorithm::SphereVsSphereAlgorithm() : NarrowPhaseAlgorithm() { } @@ -75,7 +74,7 @@ bool SphereVsSphereAlgorithm::testCollision(ProxyShape* collisionShape1, decimal penetrationDepth = sumRadius - std::sqrt(squaredDistanceBetweenCenters); // Create the contact info object - contactInfo = new (mMemoryAllocator.allocate(sizeof(ContactPointInfo))) + contactInfo = new (mMemoryAllocator->allocate(sizeof(ContactPointInfo))) ContactPointInfo(collisionShape1, collisionShape2, vectorBetweenCenters.getUnit(), penetrationDepth, intersectionOnBody1, intersectionOnBody2); diff --git a/src/collision/narrowphase/SphereVsSphereAlgorithm.h b/src/collision/narrowphase/SphereVsSphereAlgorithm.h index d87cff18..629c6431 100644 --- a/src/collision/narrowphase/SphereVsSphereAlgorithm.h +++ b/src/collision/narrowphase/SphereVsSphereAlgorithm.h @@ -57,7 +57,7 @@ class SphereVsSphereAlgorithm : public NarrowPhaseAlgorithm { // -------------------- Methods -------------------- // /// Constructor - SphereVsSphereAlgorithm(MemoryAllocator& memoryAllocator); + SphereVsSphereAlgorithm(); /// Destructor virtual ~SphereVsSphereAlgorithm(); diff --git a/src/collision/shapes/CollisionShape.h b/src/collision/shapes/CollisionShape.h index c57ba2b3..d2aeabe7 100644 --- a/src/collision/shapes/CollisionShape.h +++ b/src/collision/shapes/CollisionShape.h @@ -41,6 +41,7 @@ namespace reactphysics3d { /// Type of the collision shape enum CollisionShapeType {BOX, SPHERE, CONE, CYLINDER, CAPSULE, CONVEX_MESH}; +const int NB_COLLISION_SHAPE_TYPES = 6; // Declarations class ProxyShape; diff --git a/src/engine/CollisionWorld.h b/src/engine/CollisionWorld.h index c2f529f7..1c32e78f 100644 --- a/src/engine/CollisionWorld.h +++ b/src/engine/CollisionWorld.h @@ -123,6 +123,9 @@ class CollisionWorld { /// Destroy a collision body void destroyCollisionBody(CollisionBody* collisionBody); + /// Set the collision dispatch configuration + void setCollisionDispatch(CollisionDispatch* collisionDispatch); + /// Ray cast method void raycast(const Ray& ray, RaycastCallback* raycastCallback, unsigned short raycastWithCategoryMaskBits = 0xFFFF) const; @@ -182,6 +185,17 @@ inline std::set::iterator CollisionWorld::getBodiesEndIterator() return mBodies.end(); } +// Set the collision dispatch configuration +/// This can be used to replace default collision detection algorithms by your +/// custom algorithm for instance. +/** + * @param CollisionDispatch Pointer to a collision dispatch object describing + * which collision detection algorithm to use for two given collision shapes + */ +inline void CollisionWorld::setCollisionDispatch(CollisionDispatch* collisionDispatch) { + mCollisionDetection.setCollisionDispatch(collisionDispatch); +} + // Ray cast method /** * @param ray Ray to use for raycasting