diff --git a/CHANGELOG.md b/CHANGELOG.md index 9c1a1cbf..d10a1d92 100644 --- a/CHANGELOG.md +++ b/CHANGELOG.md @@ -2,6 +2,15 @@ ## Develop +### Added + + - It is now possible to change the size of a BoxShape using the BoxShape::setHalfExtents() method + - It is now possible to change the radius of a SphereShape using the SphereShape::setRadius() method + - It is now possible to change the height and radius of a CapsuleShape using the CapsuleShape::setHeight() and CapsuleShape::setRadius methods + - It is now possible to change the scale of a ConvexMeshShape using the ConvexMeshShape::setScale() method + - It is now possible to change the scale of a ConcaveMeshShape using the ConcaveMeshShape::setScale() method + - It is now possible to change the scale of a HeightFieldShape using the HeightFieldShape::setScale() method + ### Changed - The CollisionWorld::testCollision() methods do not have the 'categoryMaskBits' parameter anymore. @@ -16,6 +25,7 @@ - The Logger has to be instanciated using the PhysicsCommon::createLogger() method instead of using its constructor. - The Profiler has to be instanciated using the PhysicsCommon::createProfiler() method instead of using its constructor. - There is now a single MemoryManager (with memory allocators) per PhysicsWorld. The memory allocators are no longer shared between worlds. + - The Box::getExtent() method has been renamed to Box::getHalfExtents() - An instance of the BoxShape class cannot be instanciated directly anymore. You need to use the PhysicsCommon::createBoxShape() method. - An instance of the SphereShape class cannot be instanciated directly anymore. You need to use the PhysicsCommon::createSphereShape() method. - An instance of the CapsuleShape class cannot be instanciated directly anymore. You need to use the PhysicsCommon::createCapsuleShape() method. @@ -25,6 +35,7 @@ - An instance of the PolyhedronMesh class cannot be instanciated directly anymore. You need to use the PhysicsCommon::createPolyhedronMesh() method. - An instance of the TriangleMesh class cannot be instanciated directly anymore. You need to use the PhysicsCommon::createTriangleMesh() method. - The ProxyShape class has been renamed to Collider. The CollisionBody::addCollider(), RigidBody::addCollider() methods have to be used to create and add a collider to a body. Then methods CollisionBody::removeCollider(), RigidBody::removeCollider() need to be used to remove a collider. + - The rendering in the testbed application has been improved ### Removed diff --git a/src/collision/shapes/AABB.h b/src/collision/shapes/AABB.h index 65e404a6..5a7b4740 100644 --- a/src/collision/shapes/AABB.h +++ b/src/collision/shapes/AABB.h @@ -112,6 +112,9 @@ class AABB { /// Return true if the ray intersects the AABB bool testRayIntersect(const Ray& ray) const; + /// Apply a scale factor to the AABB + void applyScale(const Vector3& scale); + /// Create and return an AABB for a triangle static AABB createAABBForTriangle(const Vector3* trianglePoints); @@ -199,6 +202,12 @@ inline bool AABB::contains(const Vector3& point) const { point.z >= mMinCoordinates.z - MACHINE_EPSILON && point.z <= mMaxCoordinates.z + MACHINE_EPSILON); } +// Apply a scale factor to the AABB +inline void AABB::applyScale(const Vector3& scale) { + mMinCoordinates = mMinCoordinates * scale; + mMaxCoordinates = mMaxCoordinates * scale; +} + // Assignment operator inline AABB& AABB::operator=(const AABB& aabb) { if (this != &aabb) { diff --git a/src/collision/shapes/BoxShape.cpp b/src/collision/shapes/BoxShape.cpp index 54290977..01b3c08c 100644 --- a/src/collision/shapes/BoxShape.cpp +++ b/src/collision/shapes/BoxShape.cpp @@ -35,15 +35,15 @@ using namespace reactphysics3d; // Constructor /** - * @param extent The vector with the three extents of the box (in meters) + * @param halfExtents The vector with the three half-extents of the box */ -BoxShape::BoxShape(const Vector3& extent, MemoryAllocator& allocator) - : ConvexPolyhedronShape(CollisionShapeName::BOX), mExtent(extent), +BoxShape::BoxShape(const Vector3& halfExtents, MemoryAllocator& allocator) + : ConvexPolyhedronShape(CollisionShapeName::BOX), mHalfExtents(halfExtents), mHalfEdgeStructure(allocator, 6, 8, 24) { - assert(extent.x > decimal(0.0)); - assert(extent.y > decimal(0.0)); - assert(extent.z > decimal(0.0)); + assert(halfExtents.x > decimal(0.0)); + assert(halfExtents.y > decimal(0.0)); + assert(halfExtents.z > decimal(0.0)); // Vertices mHalfEdgeStructure.addVertex(0); @@ -87,9 +87,9 @@ BoxShape::BoxShape(const Vector3& extent, MemoryAllocator& allocator) */ void BoxShape::computeLocalInertiaTensor(Matrix3x3& tensor, decimal mass) const { decimal factor = (decimal(1.0) / decimal(3.0)) * mass; - decimal xSquare = mExtent.x * mExtent.x; - decimal ySquare = mExtent.y * mExtent.y; - decimal zSquare = mExtent.z * mExtent.z; + decimal xSquare = mHalfExtents.x * mHalfExtents.x; + decimal ySquare = mHalfExtents.y * mHalfExtents.y; + decimal zSquare = mHalfExtents.z * mHalfExtents.z; tensor.setAllValues(factor * (ySquare + zSquare), 0.0, 0.0, 0.0, factor * (xSquare + zSquare), 0.0, 0.0, 0.0, factor * (xSquare + ySquare)); @@ -111,17 +111,17 @@ bool BoxShape::raycast(const Ray& ray, RaycastInfo& raycastInfo, Collider* colli if (std::abs(rayDirection[i]) < MACHINE_EPSILON) { // If the ray's origin is not inside the slab, there is no hit - if (ray.point1[i] > mExtent[i] || ray.point1[i] < -mExtent[i]) return false; + if (ray.point1[i] > mHalfExtents[i] || ray.point1[i] < -mHalfExtents[i]) return false; } else { // Compute the intersection of the ray with the near and far plane of the slab decimal oneOverD = decimal(1.0) / rayDirection[i]; - decimal t1 = (-mExtent[i] - ray.point1[i]) * oneOverD; - decimal t2 = (mExtent[i] - ray.point1[i]) * oneOverD; - currentNormal[0] = (i == 0) ? -mExtent[i] : decimal(0.0); - currentNormal[1] = (i == 1) ? -mExtent[i] : decimal(0.0); - currentNormal[2] = (i == 2) ? -mExtent[i] : decimal(0.0); + decimal t1 = (-mHalfExtents[i] - ray.point1[i]) * oneOverD; + decimal t2 = (mHalfExtents[i] - ray.point1[i]) * oneOverD; + currentNormal[0] = (i == 0) ? -mHalfExtents[i] : decimal(0.0); + currentNormal[1] = (i == 1) ? -mHalfExtents[i] : decimal(0.0); + currentNormal[2] = (i == 2) ? -mHalfExtents[i] : decimal(0.0); // Swap t1 and t2 if need so that t1 is intersection with near plane and // t2 with far plane diff --git a/src/collision/shapes/BoxShape.h b/src/collision/shapes/BoxShape.h index 0db3633a..ebec551c 100644 --- a/src/collision/shapes/BoxShape.h +++ b/src/collision/shapes/BoxShape.h @@ -50,8 +50,8 @@ class BoxShape : public ConvexPolyhedronShape { // -------------------- Attributes -------------------- // - /// Extent sizes of the box in the x, y and z direction - Vector3 mExtent; + /// Half-extents of the box in the x, y and z direction + Vector3 mHalfExtents; /// Half-edge structure of the polyhedron HalfEdgeStructure mHalfEdgeStructure; @@ -59,7 +59,7 @@ class BoxShape : public ConvexPolyhedronShape { // -------------------- Methods -------------------- // /// Constructor - BoxShape(const Vector3& extent, MemoryAllocator& allocator); + BoxShape(const Vector3& halfExtents, MemoryAllocator& allocator); /// Return a local support point in a given direction without the object margin virtual Vector3 getLocalSupportPointWithoutMargin(const Vector3& direction) const override; @@ -86,8 +86,11 @@ class BoxShape : public ConvexPolyhedronShape { /// Deleted assignment operator BoxShape& operator=(const BoxShape& shape) = delete; - /// Return the extents of the box - Vector3 getExtent() const; + /// Return the half-extents of the box + Vector3 getHalfExtents() const; + + /// Set the half-extents of the box + void setHalfExtents(const Vector3& halfExtents); /// Return the local bounds of the shape in x, y and z directions virtual void getLocalBounds(Vector3& min, Vector3& max) const override; @@ -132,10 +135,20 @@ class BoxShape : public ConvexPolyhedronShape { // Return the extents of the box /** - * @return The vector with the three extents of the box shape (in meters) + * @return The vector with the three half-extents of the box shape */ -inline Vector3 BoxShape::getExtent() const { - return mExtent; +inline Vector3 BoxShape::getHalfExtents() const { + return mHalfExtents; +} + +// Set the half-extents of the box +/// Note that you might want to recompute the inertia tensor and center of mass of the body +/// after changing the size of the collision shape +/** + * @param halfExtents The vector with the three half-extents of the box + */ +inline void BoxShape::setHalfExtents(const Vector3& halfExtents) { + mHalfExtents = halfExtents; } // Return the local bounds of the shape in x, y and z directions @@ -147,7 +160,7 @@ inline Vector3 BoxShape::getExtent() const { inline void BoxShape::getLocalBounds(Vector3& min, Vector3& max) const { // Maximum bounds - max = mExtent; + max = mHalfExtents; // Minimum bounds min = -max; @@ -161,16 +174,16 @@ inline size_t BoxShape::getSizeInBytes() const { // Return a local support point in a given direction without the object margin inline Vector3 BoxShape::getLocalSupportPointWithoutMargin(const Vector3& direction) const { - return Vector3(direction.x < decimal(0.0) ? -mExtent.x : mExtent.x, - direction.y < decimal(0.0) ? -mExtent.y : mExtent.y, - direction.z < decimal(0.0) ? -mExtent.z : mExtent.z); + return Vector3(direction.x < decimal(0.0) ? -mHalfExtents.x : mHalfExtents.x, + direction.y < decimal(0.0) ? -mHalfExtents.y : mHalfExtents.y, + direction.z < decimal(0.0) ? -mHalfExtents.z : mHalfExtents.z); } // Return true if a point is inside the collision shape inline bool BoxShape::testPointInside(const Vector3& localPoint, Collider* collider) const { - return (localPoint.x < mExtent[0] && localPoint.x > -mExtent[0] && - localPoint.y < mExtent[1] && localPoint.y > -mExtent[1] && - localPoint.z < mExtent[2] && localPoint.z > -mExtent[2]); + return (localPoint.x < mHalfExtents[0] && localPoint.x > -mHalfExtents[0] && + localPoint.y < mHalfExtents[1] && localPoint.y > -mHalfExtents[1] && + localPoint.z < mHalfExtents[2] && localPoint.z > -mHalfExtents[2]); } // Return the number of faces of the polyhedron @@ -199,7 +212,7 @@ inline HalfEdgeStructure::Vertex BoxShape::getVertex(uint vertexIndex) const { inline Vector3 BoxShape::getVertexPosition(uint vertexIndex) const { assert(vertexIndex < getNbVertices()); - Vector3 extent = getExtent(); + Vector3 extent = getHalfExtents(); switch(vertexIndex) { case 0: return Vector3(-extent.x, -extent.y, extent.z); @@ -240,7 +253,7 @@ inline Vector3 BoxShape::getCentroid() const { // Return the string representation of the shape inline std::string BoxShape::to_string() const { - return "BoxShape{extents=" + mExtent.to_string() + "}"; + return "BoxShape{extents=" + mHalfExtents.to_string() + "}"; } // Return the number of half-edges of the polyhedron diff --git a/src/collision/shapes/CapsuleShape.cpp b/src/collision/shapes/CapsuleShape.cpp index 85aa8653..7730c5fa 100644 --- a/src/collision/shapes/CapsuleShape.cpp +++ b/src/collision/shapes/CapsuleShape.cpp @@ -39,6 +39,7 @@ using namespace reactphysics3d; */ CapsuleShape::CapsuleShape(decimal radius, decimal height) : ConvexShape(CollisionShapeName::CAPSULE, CollisionShapeType::CAPSULE, radius), mHalfHeight(height * decimal(0.5)) { + // TODO : Throw a library error here if radius or height is not larger than zero assert(radius > decimal(0.0)); assert(height > decimal(0.0)); } diff --git a/src/collision/shapes/CapsuleShape.h b/src/collision/shapes/CapsuleShape.h index 24c48519..37d87d55 100644 --- a/src/collision/shapes/CapsuleShape.h +++ b/src/collision/shapes/CapsuleShape.h @@ -93,9 +93,15 @@ class CapsuleShape : public ConvexShape { /// Return the radius of the capsule decimal getRadius() const; + /// Set the radius of the capsule + void setRadius(decimal radius); + /// Return the height of the capsule decimal getHeight() const; + /// Set the height of the capsule + void setHeight(decimal height); + /// Return the local bounds of the shape in x, y and z directions virtual void getLocalBounds(Vector3& min, Vector3& max) const override; @@ -121,6 +127,18 @@ inline decimal CapsuleShape::getRadius() const { return mMargin; } +// Set the radius of the capsule +/// Note that you might want to recompute the inertia tensor and center of mass of the body +/// after changing the radius of the collision shape +/** + * @param radius The radius of the capsule (in meters) + */ +inline void CapsuleShape::setRadius(decimal radius) { + // TODO : Throw a library error here if radius is not larger than zero + assert(radius > decimal(0.0)); + mMargin = radius; +} + // Return the height of the capsule /** * @return The height of the capsule shape (in meters) @@ -129,6 +147,19 @@ inline decimal CapsuleShape::getHeight() const { return mHalfHeight + mHalfHeight; } +// Set the height of the capsule +/// Note that you might want to recompute the inertia tensor and center of mass of the body +/// after changing the height of the collision shape +/** + * @param height The height of the capsule (in meters) + */ +inline void CapsuleShape::setHeight(decimal height) { + + // TODO : Throw a library error here if radius is not larger than zero + assert(height > decimal(0.0)); + mHalfHeight = height * decimal(0.5); +} + // Return the number of bytes used by the collision shape inline size_t CapsuleShape::getSizeInBytes() const { return sizeof(CapsuleShape); diff --git a/src/collision/shapes/ConcaveMeshShape.cpp b/src/collision/shapes/ConcaveMeshShape.cpp index 65cd1c19..0a332914 100644 --- a/src/collision/shapes/ConcaveMeshShape.cpp +++ b/src/collision/shapes/ConcaveMeshShape.cpp @@ -35,8 +35,8 @@ using namespace reactphysics3d; // Constructor ConcaveMeshShape::ConcaveMeshShape(TriangleMesh* triangleMesh, MemoryAllocator& allocator, const Vector3& scaling) - : ConcaveShape(CollisionShapeName::TRIANGLE_MESH), mDynamicAABBTree(allocator), - mScaling(scaling) { + : ConcaveShape(CollisionShapeName::TRIANGLE_MESH, scaling), mDynamicAABBTree(allocator) { + mTriangleMesh = triangleMesh; mRaycastTestType = TriangleRaycastSide::FRONT; @@ -63,17 +63,6 @@ void ConcaveMeshShape::initBVHTree() { // Get the triangle vertices triangleVertexArray->getTriangleVertices(triangleIndex, trianglePoints); - // Apply the scaling factor to the vertices - trianglePoints[0].x *= mScaling.x; - trianglePoints[0].y *= mScaling.y; - trianglePoints[0].z *= mScaling.z; - trianglePoints[1].x *= mScaling.x; - trianglePoints[1].y *= mScaling.y; - trianglePoints[1].z *= mScaling.z; - trianglePoints[2].x *= mScaling.x; - trianglePoints[2].y *= mScaling.y; - trianglePoints[2].z *= mScaling.z; - // Create the AABB for the triangle AABB aabb = AABB::createAABBForTriangle(trianglePoints); @@ -93,15 +82,15 @@ void ConcaveMeshShape::getTriangleVertices(uint subPart, uint triangleIndex, Vec triangleVertexArray->getTriangleVertices(triangleIndex, outTriangleVertices); // Apply the scaling factor to the vertices - outTriangleVertices[0].x *= mScaling.x; - outTriangleVertices[0].y *= mScaling.y; - outTriangleVertices[0].z *= mScaling.z; - outTriangleVertices[1].x *= mScaling.x; - outTriangleVertices[1].y *= mScaling.y; - outTriangleVertices[1].z *= mScaling.z; - outTriangleVertices[2].x *= mScaling.x; - outTriangleVertices[2].y *= mScaling.y; - outTriangleVertices[2].z *= mScaling.z; + outTriangleVertices[0].x *= mScale.x; + outTriangleVertices[0].y *= mScale.y; + outTriangleVertices[0].z *= mScale.z; + outTriangleVertices[1].x *= mScale.x; + outTriangleVertices[1].y *= mScale.y; + outTriangleVertices[1].z *= mScale.z; + outTriangleVertices[2].x *= mScale.x; + outTriangleVertices[2].y *= mScale.y; + outTriangleVertices[2].z *= mScale.z; } // Return the three vertex normals (in the array outVerticesNormals) of a triangle @@ -144,9 +133,14 @@ void ConcaveMeshShape::computeOverlappingTriangles(const AABB& localAABB, List overlappingNodes(allocator); - mDynamicAABBTree.reportAllShapesOverlappingWithAABB(localAABB, overlappingNodes); + mDynamicAABBTree.reportAllShapesOverlappingWithAABB(aabb, overlappingNodes); const uint nbOverlappingNodes = overlappingNodes.size(); @@ -180,8 +174,13 @@ bool ConcaveMeshShape::raycast(const Ray& ray, RaycastInfo& raycastInfo, Collide RP3D_PROFILE("ConcaveMeshShape::raycast()", mProfiler); + // Apply the concave mesh inverse scale factor because the mesh is stored without scaling + // inside the dynamic AABB tree + const Vector3 inverseScale(decimal(1.0) / mScale.x, decimal(1.0) / mScale.y, decimal(1.0) / mScale.z); + Ray scaledRay(ray.point1 * inverseScale, ray.point2 * inverseScale, ray.maxFraction); + // Create the callback object that will compute ray casting against triangles - ConcaveMeshRaycastCallback raycastCallback(mDynamicAABBTree, *this, collider, raycastInfo, ray, allocator); + ConcaveMeshRaycastCallback raycastCallback(mDynamicAABBTree, *this, collider, raycastInfo, scaledRay, mScale, allocator); #ifdef IS_PROFILING_ACTIVE @@ -193,7 +192,7 @@ bool ConcaveMeshShape::raycast(const Ray& ray, RaycastInfo& raycastInfo, Collide // Ask the Dynamic AABB Tree to report all AABB nodes that are hit by the ray. // The raycastCallback object will then compute ray casting against the triangles // in the hit AABBs. - mDynamicAABBTree.raycast(ray, raycastCallback); + mDynamicAABBTree.raycast(scaledRay, raycastCallback); raycastCallback.raycastTriangles(); @@ -269,7 +268,7 @@ void ConcaveMeshRaycastCallback::raycastTriangles() { mRaycastInfo.body = raycastInfo.body; mRaycastInfo.collider = raycastInfo.collider; mRaycastInfo.hitFraction = raycastInfo.hitFraction; - mRaycastInfo.worldPoint = raycastInfo.worldPoint; + mRaycastInfo.worldPoint = raycastInfo.worldPoint * mMeshScale; mRaycastInfo.worldNormal = raycastInfo.worldNormal; mRaycastInfo.meshSubpart = data[0]; mRaycastInfo.triangleIndex = data[1]; @@ -277,7 +276,6 @@ void ConcaveMeshRaycastCallback::raycastTriangles() { smallestHitFraction = raycastInfo.hitFraction; mIsHit = true; } - } } diff --git a/src/collision/shapes/ConcaveMeshShape.h b/src/collision/shapes/ConcaveMeshShape.h index 70829827..40bb8448 100644 --- a/src/collision/shapes/ConcaveMeshShape.h +++ b/src/collision/shapes/ConcaveMeshShape.h @@ -80,6 +80,7 @@ class ConcaveMeshRaycastCallback : public DynamicAABBTreeRaycastCallback { const Ray& mRay; bool mIsHit; MemoryAllocator& mAllocator; + const Vector3& mMeshScale; #ifdef IS_PROFILING_ACTIVE @@ -92,9 +93,9 @@ class ConcaveMeshRaycastCallback : public DynamicAABBTreeRaycastCallback { // Constructor ConcaveMeshRaycastCallback(const DynamicAABBTree& dynamicAABBTree, const ConcaveMeshShape& concaveMeshShape, - Collider* collider, RaycastInfo& raycastInfo, const Ray& ray, MemoryAllocator& allocator) + Collider* collider, RaycastInfo& raycastInfo, const Ray& ray, const Vector3& meshScale, MemoryAllocator& allocator) : mHitAABBNodes(allocator), mDynamicAABBTree(dynamicAABBTree), mConcaveMeshShape(concaveMeshShape), mCollider(collider), - mRaycastInfo(raycastInfo), mRay(ray), mIsHit(false), mAllocator(allocator) { + mRaycastInfo(raycastInfo), mRay(ray), mIsHit(false), mAllocator(allocator), mMeshScale(meshScale) { } @@ -131,7 +132,7 @@ class ConcaveMeshShape : public ConcaveShape { // -------------------- Attributes -------------------- // - /// Triangle mesh + /// Pointer to the triangle mesh TriangleMesh* mTriangleMesh; /// Dynamic AABB tree to accelerate collision with the triangles @@ -141,9 +142,6 @@ class ConcaveMeshShape : public ConcaveShape { /// if the user did not provide its own vertices normals) Vector3** mComputedVerticesNormals; - /// Scaling - const Vector3 mScaling; - // -------------------- Methods -------------------- // /// Constructor @@ -168,7 +166,7 @@ class ConcaveMeshShape : public ConcaveShape { uint computeTriangleShapeId(uint subPart, uint triangleIndex) const; /// Compute all the triangles of the mesh that are overlapping with the AABB in parameter - virtual void computeOverlappingTriangles(const AABB& localAABB, List &triangleVertices, + virtual void computeOverlappingTriangles(const AABB& localAABB, List& triangleVertices, List &triangleVerticesNormals, List& shapeIds, MemoryAllocator& allocator) const override; @@ -183,9 +181,6 @@ class ConcaveMeshShape : public ConcaveShape { /// Deleted assignment operator ConcaveMeshShape& operator=(const ConcaveMeshShape& shape) = delete; - /// Return the scaling vector - const Vector3& getScaling() const; - /// Return the number of sub parts contained in this mesh uint getNbSubparts() const; @@ -223,11 +218,6 @@ inline size_t ConcaveMeshShape::getSizeInBytes() const { return sizeof(ConcaveMeshShape); } -// Return the scaling vector -inline const Vector3& ConcaveMeshShape::getScaling() const { - return mScaling; -} - // Return the local bounds of the shape in x, y and z directions. // This method is used to compute the AABB of the box /** diff --git a/src/collision/shapes/ConcaveShape.cpp b/src/collision/shapes/ConcaveShape.cpp index 3d7aa38b..de8dae05 100644 --- a/src/collision/shapes/ConcaveShape.cpp +++ b/src/collision/shapes/ConcaveShape.cpp @@ -31,7 +31,8 @@ using namespace reactphysics3d; // Constructor -ConcaveShape::ConcaveShape(CollisionShapeName name) - : CollisionShape(name, CollisionShapeType::CONCAVE_SHAPE), mRaycastTestType(TriangleRaycastSide::FRONT) { +ConcaveShape::ConcaveShape(CollisionShapeName name, const Vector3& scaling) + : CollisionShape(name, CollisionShapeType::CONCAVE_SHAPE), mRaycastTestType(TriangleRaycastSide::FRONT), + mScale(scaling) { } diff --git a/src/collision/shapes/ConcaveShape.h b/src/collision/shapes/ConcaveShape.h index 2953d9ce..bebf12f2 100644 --- a/src/collision/shapes/ConcaveShape.h +++ b/src/collision/shapes/ConcaveShape.h @@ -65,6 +65,9 @@ class ConcaveShape : public CollisionShape { /// Raycast test type for the triangle (front, back, front-back) TriangleRaycastSide mRaycastTestType; + /// Scale of the shape + Vector3 mScale; + // -------------------- Methods -------------------- // /// Return true if a point is inside the collision shape @@ -75,7 +78,7 @@ class ConcaveShape : public CollisionShape { // -------------------- Methods -------------------- // /// Constructor - ConcaveShape(CollisionShapeName name); + ConcaveShape(CollisionShapeName name, const Vector3& scaling); /// Destructor virtual ~ConcaveShape() override = default; @@ -92,6 +95,12 @@ class ConcaveShape : public CollisionShape { // Set the raycast test type (front, back, front-back) void setRaycastTestType(TriangleRaycastSide testType); + /// Return the scale of the shape + const Vector3& getScale() const; + + /// Set the scale of the shape + void setScale(const Vector3& scale); + /// Return true if the collision shape is convex, false if it is concave virtual bool isConvex() const override; @@ -132,6 +141,18 @@ inline void ConcaveShape::setRaycastTestType(TriangleRaycastSide testType) { mRaycastTestType = testType; } +// Return the scale of the shape +inline const Vector3& ConcaveShape::getScale() const { + return mScale; +} + +// Set the scale of the shape +/// Note that you might want to recompute the inertia tensor and center of mass of the body +/// after changing the scale of a collision shape +inline void ConcaveShape::setScale(const Vector3& scale) { + mScale = scale; +} + } #endif diff --git a/src/collision/shapes/ConvexMeshShape.cpp b/src/collision/shapes/ConvexMeshShape.cpp index 6165a119..6cc1322f 100644 --- a/src/collision/shapes/ConvexMeshShape.cpp +++ b/src/collision/shapes/ConvexMeshShape.cpp @@ -39,9 +39,9 @@ using namespace reactphysics3d; * @param stride Stride between the beginning of two elements in the vertices array * @param margin Collision margin (in meters) around the collision shape */ -ConvexMeshShape::ConvexMeshShape(PolyhedronMesh* polyhedronMesh, const Vector3& scaling) +ConvexMeshShape::ConvexMeshShape(PolyhedronMesh* polyhedronMesh, const Vector3& scale) : ConvexPolyhedronShape(CollisionShapeName::CONVEX_MESH), mPolyhedronMesh(polyhedronMesh), - mMinBounds(0, 0, 0), mMaxBounds(0, 0, 0), mScaling(scaling) { + mMinBounds(0, 0, 0), mMaxBounds(0, 0, 0), mScale(scale) { // Recalculate the bounds of the mesh recalculateBounds(); @@ -76,7 +76,7 @@ Vector3 ConvexMeshShape::getLocalSupportPointWithoutMargin(const Vector3& direct assert(maxDotProduct >= decimal(0.0)); // Return the vertex with the largest dot product in the support direction - return mPolyhedronMesh->getVertex(indexMaxDotProduct) * mScaling; + return mPolyhedronMesh->getVertex(indexMaxDotProduct) * mScale; } // Recompute the bounds of the mesh @@ -99,8 +99,8 @@ void ConvexMeshShape::recalculateBounds() { } // Apply the local scaling factor - mMaxBounds = mMaxBounds * mScaling; - mMinBounds = mMinBounds * mScaling; + mMaxBounds = mMaxBounds * mScale; + mMinBounds = mMinBounds * mScale; } // Raycast method with feedback information diff --git a/src/collision/shapes/ConvexMeshShape.h b/src/collision/shapes/ConvexMeshShape.h index a3aeff53..bbcc8319 100644 --- a/src/collision/shapes/ConvexMeshShape.h +++ b/src/collision/shapes/ConvexMeshShape.h @@ -60,13 +60,13 @@ class ConvexMeshShape : public ConvexPolyhedronShape { /// Mesh maximum bounds in the three local x, y and z directions Vector3 mMaxBounds; - /// Local scaling - const Vector3 mScaling; + /// Scale of the mesh + Vector3 mScale; // -------------------- Methods -------------------- // /// Constructor - ConvexMeshShape(PolyhedronMesh* polyhedronMesh, const Vector3& scaling = Vector3(1,1,1)); + ConvexMeshShape(PolyhedronMesh* polyhedronMesh, const Vector3& scale = Vector3(1,1,1)); /// Recompute the bounds of the mesh void recalculateBounds(); @@ -96,8 +96,11 @@ class ConvexMeshShape : public ConvexPolyhedronShape { /// Deleted assignment operator ConvexMeshShape& operator=(const ConvexMeshShape& shape) = delete; - /// Return the scaling vector - const Vector3& getScaling() const; + /// Return the scale + const Vector3& getScale() const; + + /// Set the scale + void setScale(const Vector3& scale); /// Return the local bounds of the shape in x, y and z directions virtual void getLocalBounds(Vector3& min, Vector3& max) const override; @@ -146,8 +149,16 @@ inline size_t ConvexMeshShape::getSizeInBytes() const { } // Return the scaling vector -inline const Vector3& ConvexMeshShape::getScaling() const { - return mScaling; +inline const Vector3& ConvexMeshShape::getScale() const { + return mScale; +} + +// Set the scale +/// Note that you might want to recompute the inertia tensor and center of mass of the body +/// after changing the scale of a collision shape +inline void ConvexMeshShape::setScale(const Vector3& scale) { + mScale = scale; + recalculateBounds(); } // Return the local bounds of the shape in x, y and z directions @@ -216,7 +227,7 @@ inline const HalfEdgeStructure::Edge& ConvexMeshShape::getHalfEdge(uint edgeInde // Return the position of a given vertex inline Vector3 ConvexMeshShape::getVertexPosition(uint vertexIndex) const { assert(vertexIndex < getNbVertices()); - return mPolyhedronMesh->getVertex(vertexIndex) * mScaling; + return mPolyhedronMesh->getVertex(vertexIndex) * mScale; } // Return the normal vector of a given face of the polyhedron @@ -227,7 +238,7 @@ inline Vector3 ConvexMeshShape::getFaceNormal(uint faceIndex) const { // Return the centroid of the polyhedron inline Vector3 ConvexMeshShape::getCentroid() const { - return mPolyhedronMesh->getCentroid() * mScaling; + return mPolyhedronMesh->getCentroid() * mScale; } } diff --git a/src/collision/shapes/HeightFieldShape.cpp b/src/collision/shapes/HeightFieldShape.cpp index a5e52cc6..e038d6a1 100644 --- a/src/collision/shapes/HeightFieldShape.cpp +++ b/src/collision/shapes/HeightFieldShape.cpp @@ -44,10 +44,10 @@ using namespace reactphysics3d; HeightFieldShape::HeightFieldShape(int nbGridColumns, int nbGridRows, decimal minHeight, decimal maxHeight, const void* heightFieldData, HeightDataType dataType, int upAxis, decimal integerHeightScale, const Vector3& scaling) - : ConcaveShape(CollisionShapeName::HEIGHTFIELD), mNbColumns(nbGridColumns), mNbRows(nbGridRows), + : ConcaveShape(CollisionShapeName::HEIGHTFIELD, scaling), mNbColumns(nbGridColumns), mNbRows(nbGridRows), mWidth(nbGridColumns - 1), mLength(nbGridRows - 1), mMinHeight(minHeight), mMaxHeight(maxHeight), mUpAxis(upAxis), mIntegerHeightScale(integerHeightScale), - mHeightDataType(dataType), mScaling(scaling) { + mHeightDataType(dataType) { assert(nbGridColumns >= 2); assert(nbGridRows >= 2); @@ -83,8 +83,8 @@ HeightFieldShape::HeightFieldShape(int nbGridColumns, int nbGridRows, decimal mi * @param max The maximum bounds of the shape in local-space coordinates */ void HeightFieldShape::getLocalBounds(Vector3& min, Vector3& max) const { - min = mAABB.getMin() * mScaling; - max = mAABB.getMax() * mScaling; + min = mAABB.getMin() * mScale; + max = mAABB.getMax() * mScale; } // Test collision with the triangles of the height field shape. The idea is to use the AABB @@ -98,8 +98,8 @@ void HeightFieldShape::computeOverlappingTriangles(const AABB& localAABB, List decimal(0.0)); + mMargin = radius; +} + // Return true if the collision shape is a polyhedron /** * @return False because the sphere shape is not a polyhedron diff --git a/test/tests/collision/TestAABB.h b/test/tests/collision/TestAABB.h index 9e6cb16d..073c7391 100644 --- a/test/tests/collision/TestAABB.h +++ b/test/tests/collision/TestAABB.h @@ -177,6 +177,18 @@ class TestAABB : public Test { rp3d_test(approxEqual(mAABB1.getVolume(), 8000)); rp3d_test(approxEqual(mAABB2.getVolume(), 2880)); + + // -------- Test applyScale() -------- // + + AABB aabb7(Vector3(1,2,3), Vector3(5, 6, 7)); + aabb7.applyScale(Vector3(1, 2, 3)); + + rp3d_test(approxEqual(aabb7.getMin().x, 1)); + rp3d_test(approxEqual(aabb7.getMin().y, 4)); + rp3d_test(approxEqual(aabb7.getMin().z, 9)); + rp3d_test(approxEqual(aabb7.getMax().x, 5)); + rp3d_test(approxEqual(aabb7.getMax().y, 12)); + rp3d_test(approxEqual(aabb7.getMax().z, 21)); } void testMergeMethods() { diff --git a/testbed/common/ConcaveMesh.cpp b/testbed/common/ConcaveMesh.cpp index bd6d79d8..e3d1e81b 100644 --- a/testbed/common/ConcaveMesh.cpp +++ b/testbed/common/ConcaveMesh.cpp @@ -27,52 +27,7 @@ #include "ConcaveMesh.h" // Constructor -ConcaveMesh::ConcaveMesh(rp3d::PhysicsCommon& physicsCommon, rp3d::PhysicsWorld* world, const std::string& meshPath) - : PhysicsObject(physicsCommon, meshPath), mVBOVertices(GL_ARRAY_BUFFER), - mVBONormals(GL_ARRAY_BUFFER), mVBOTextureCoords(GL_ARRAY_BUFFER), - mVBOIndices(GL_ELEMENT_ARRAY_BUFFER) { - - mPhysicsTriangleMesh = mPhysicsCommon.createTriangleMesh(); - - // Compute the scaling matrix - mScalingMatrix = openglframework::Matrix4::identity(); - - mPhysicsTriangleMesh = mPhysicsCommon.createTriangleMesh(); - - // For each subpart of the mesh - for (unsigned int i=0; iaddSubpart(vertexArray); - } - - // Create the collision shape for the rigid body (convex mesh shape) and - // do not forget to delete it at the end - mConcaveShape = mPhysicsCommon.createConcaveMeshShape(mPhysicsTriangleMesh); - - mPreviousTransform = rp3d::Transform::identity(); - - // Create a rigid body corresponding to the sphere in the physics world - mBody = world->createCollisionBody(mPreviousTransform); - - // Add a collision shape to the body and specify the mass of the collision shape - mCollider = mBody->addCollider(mConcaveShape, rp3d::Transform::identity()); - - // Create the VBOs and VAO - createVBOAndVAO(); - - mTransformMatrix = mTransformMatrix * mScalingMatrix; -} - -// Constructor -ConcaveMesh::ConcaveMesh(float mass, reactphysics3d::PhysicsCommon& physicsCommon, rp3d::PhysicsWorld* physicsWorld, const std::string& meshPath) +ConcaveMesh::ConcaveMesh(bool createRigidBody, float mass, reactphysics3d::PhysicsCommon& physicsCommon, rp3d::PhysicsWorld* physicsWorld, const std::string& meshPath) : PhysicsObject(physicsCommon, meshPath), mVBOVertices(GL_ARRAY_BUFFER), mVBONormals(GL_ARRAY_BUFFER), mVBOTextureCoords(GL_ARRAY_BUFFER), mVBOIndices(GL_ELEMENT_ARRAY_BUFFER) { @@ -102,13 +57,16 @@ ConcaveMesh::ConcaveMesh(float mass, reactphysics3d::PhysicsCommon& physicsCommo mPreviousTransform = rp3d::Transform::identity(); - // Create a rigid body corresponding to the sphere in the physics world - rp3d::RigidBody* body = physicsWorld->createRigidBody(mPreviousTransform); - - // Add a collision shape to the body and specify the mass of the collision shape - mCollider = body->addCollider(mConcaveShape, rp3d::Transform::identity(), mass); - - mBody = body; + // Create the body + if (createRigidBody) { + rp3d::RigidBody* body = physicsWorld->createRigidBody(mPreviousTransform); + mCollider = body->addCollider(mConcaveShape, rp3d::Transform::identity(), mass); + mBody = body; + } + else { + mBody = physicsWorld->createCollisionBody(mPreviousTransform); + mCollider = mBody->addCollider(mConcaveShape, rp3d::Transform::identity()); + } // Create the VBOs and VAO createVBOAndVAO(); diff --git a/testbed/common/ConcaveMesh.h b/testbed/common/ConcaveMesh.h index 345363f4..8fadf835 100644 --- a/testbed/common/ConcaveMesh.h +++ b/testbed/common/ConcaveMesh.h @@ -73,10 +73,7 @@ class ConcaveMesh : public PhysicsObject { // -------------------- Methods -------------------- // /// Constructor - ConcaveMesh(reactphysics3d::PhysicsCommon& physicsCommon, rp3d::PhysicsWorld* world, const std::string& meshPath); - - /// Constructor - ConcaveMesh(float mass, reactphysics3d::PhysicsCommon& physicsCommon, rp3d::PhysicsWorld* physicsWorld, const std::string& meshPath); + ConcaveMesh(bool createRigidBody, float mass, reactphysics3d::PhysicsCommon& physicsCommon, rp3d::PhysicsWorld* physicsWorld, const std::string& meshPath); /// Destructor virtual ~ConcaveMesh() override; diff --git a/testbed/common/ConvexMesh.cpp b/testbed/common/ConvexMesh.cpp index 15663c34..77d4f5c5 100644 --- a/testbed/common/ConvexMesh.cpp +++ b/testbed/common/ConvexMesh.cpp @@ -28,67 +28,7 @@ #include // Constructor -ConvexMesh::ConvexMesh(rp3d::PhysicsCommon& physicsCommon, rp3d::PhysicsWorld* world, const std::string& meshPath) - : PhysicsObject(physicsCommon, meshPath), mVBOVertices(GL_ARRAY_BUFFER), - mVBONormals(GL_ARRAY_BUFFER), mVBOTextureCoords(GL_ARRAY_BUFFER), - mVBOIndices(GL_ELEMENT_ARRAY_BUFFER) { - - // Compute the scaling matrix - mScalingMatrix = openglframework::Matrix4::identity(); - - // Polygon faces descriptions for the polyhedron - mPolygonFaces = new rp3d::PolygonVertexArray::PolygonFace[getNbFaces(0)]; - rp3d::PolygonVertexArray::PolygonFace* face = mPolygonFaces; - for (int f=0; f < getNbFaces(0); f++) { - - for (int v = 0; v < 3; v++) { - - const openglframework::Vector3 vertex = mVertices[mIndices[0][f*3 + v]]; - int vIndex = findVertexIndex(mConvexMeshVertices, vertex); - if (vIndex == -1) { - vIndex = mConvexMeshVertices.size(); - mConvexMeshVertices.push_back(vertex); - } - - mConvexMeshIndices.push_back(vIndex); - } - - face->indexBase = f * 3; - face->nbVertices = 3; - face++; - } - - // Create the polygon vertex array - mPolygonVertexArray = - new rp3d::PolygonVertexArray(mConvexMeshVertices.size(), &(mConvexMeshVertices[0]), sizeof(openglframework::Vector3), - &(mConvexMeshIndices[0]), sizeof(int), - getNbFaces(0), mPolygonFaces, - rp3d::PolygonVertexArray::VertexDataType::VERTEX_FLOAT_TYPE, - rp3d::PolygonVertexArray::IndexDataType::INDEX_INTEGER_TYPE); - - // Create the polyhedron mesh - mPolyhedronMesh = mPhysicsCommon.createPolyhedronMesh(mPolygonVertexArray); - - // Create the collision shape for the rigid body (convex mesh shape) and - // do not forget to delete it at the end - mConvexShape = mPhysicsCommon.createConvexMeshShape(mPolyhedronMesh); - - mPreviousTransform = rp3d::Transform::identity(); - - // Create a rigid body corresponding to the sphere in the physics world - mBody = world->createCollisionBody(mPreviousTransform); - - // Add a collision shape to the body and specify the mass of the collision shape - mCollider = mBody->addCollider(mConvexShape, rp3d::Transform::identity()); - - // Create the VBOs and VAO - createVBOAndVAO(); - - mTransformMatrix = mTransformMatrix * mScalingMatrix; -} - -// Constructor -ConvexMesh::ConvexMesh(float mass, rp3d::PhysicsCommon& physicsCommon, rp3d::PhysicsWorld* physicsWorld, const std::string& meshPath) +ConvexMesh::ConvexMesh(bool createRigidBody, float mass, rp3d::PhysicsCommon& physicsCommon, rp3d::PhysicsWorld* physicsWorld, const std::string& meshPath) : PhysicsObject(physicsCommon, meshPath), mVBOVertices(GL_ARRAY_BUFFER), mVBONormals(GL_ARRAY_BUFFER), mVBOTextureCoords(GL_ARRAY_BUFFER), mVBOIndices(GL_ELEMENT_ARRAY_BUFFER) { @@ -136,12 +76,16 @@ ConvexMesh::ConvexMesh(float mass, rp3d::PhysicsCommon& physicsCommon, rp3d::Phy mPreviousTransform = rp3d::Transform::identity(); // Create a rigid body corresponding to the sphere in the physics world - rp3d::RigidBody* body = physicsWorld->createRigidBody(mPreviousTransform); + if (createRigidBody) { + rp3d::RigidBody* body = physicsWorld->createRigidBody(mPreviousTransform); + mCollider = body->addCollider(mConvexShape, rp3d::Transform::identity(), mass); + mBody = body; + } + else { - // Add a collision shape to the body and specify the mass of the collision shape - mCollider = body->addCollider(mConvexShape, rp3d::Transform::identity(), mass); - - mBody = body; + mBody = physicsWorld->createCollisionBody(mPreviousTransform); + mCollider = mBody->addCollider(mConvexShape, rp3d::Transform::identity()); + } // Create the VBOs and VAO createVBOAndVAO(); diff --git a/testbed/common/ConvexMesh.h b/testbed/common/ConvexMesh.h index ae25149d..eac1e86c 100644 --- a/testbed/common/ConvexMesh.h +++ b/testbed/common/ConvexMesh.h @@ -86,10 +86,7 @@ class ConvexMesh : public PhysicsObject { // -------------------- Methods -------------------- // /// Constructor - ConvexMesh(rp3d::PhysicsCommon& physicsCommon, reactphysics3d::PhysicsWorld* world, const std::string& meshPath); - - /// Constructor - ConvexMesh(float mass, rp3d::PhysicsCommon& physicsCommon, rp3d::PhysicsWorld* physicsWorld, const std::string& meshPath); + ConvexMesh(bool createRigidBody, float mass, rp3d::PhysicsCommon& physicsCommon, rp3d::PhysicsWorld* physicsWorld, const std::string& meshPath); /// Destructor virtual ~ConvexMesh() override; diff --git a/testbed/common/HeightField.cpp b/testbed/common/HeightField.cpp index af3ad301..0238d6b8 100644 --- a/testbed/common/HeightField.cpp +++ b/testbed/common/HeightField.cpp @@ -28,47 +28,14 @@ #include "PerlinNoise.h" // Constructor -HeightField::HeightField(rp3d::PhysicsCommon& physicsCommon, rp3d::PhysicsWorld* world) +HeightField::HeightField(bool createRigidBody, float mass, reactphysics3d::PhysicsCommon& physicsCommon, rp3d::PhysicsWorld* physicsWorld) : PhysicsObject(physicsCommon), mVBOVertices(GL_ARRAY_BUFFER), mVBONormals(GL_ARRAY_BUFFER), mVBOTextureCoords(GL_ARRAY_BUFFER), mVBOIndices(GL_ELEMENT_ARRAY_BUFFER) { // Compute the scaling matrix - mScalingMatrix = openglframework::Matrix4::identity(); - - // Generate the height field - generateHeightField(); - - // Generate the graphics mesh - generateGraphicsMesh(); - - // Create the collision shape for the rigid body (convex mesh shape) and - // do not forget to delete it at the end - mHeightFieldShape = mPhysicsCommon.createHeightFieldShape(NB_POINTS_WIDTH, NB_POINTS_LENGTH, mMinHeight, mMaxHeight, - mHeightData, rp3d::HeightFieldShape::HeightDataType::HEIGHT_FLOAT_TYPE); - - mPreviousTransform = rp3d::Transform::identity(); - - // Create a rigid body corresponding to the sphere in the physics world - mBody = world->createCollisionBody(mPreviousTransform); - - // Add a collision shape to the body and specify the mass of the collision shape - mCollider = mBody->addCollider(mHeightFieldShape, rp3d::Transform::identity()); - - // Create the VBOs and VAO - createVBOAndVAO(); - - mTransformMatrix = mTransformMatrix * mScalingMatrix; -} - -// Constructor -HeightField::HeightField(float mass, reactphysics3d::PhysicsCommon& physicsCommon, rp3d::PhysicsWorld* physicsWorld) - : PhysicsObject(physicsCommon), mVBOVertices(GL_ARRAY_BUFFER), - mVBONormals(GL_ARRAY_BUFFER), mVBOTextureCoords(GL_ARRAY_BUFFER), - mVBOIndices(GL_ELEMENT_ARRAY_BUFFER) { - - // Compute the scaling matrix - mScalingMatrix = openglframework::Matrix4::identity(); + //mScalingMatrix = openglframework::Matrix4::identity(); + mScalingMatrix = openglframework::Matrix4(2, 0, 0, 0, 0, 2, 0, 0, 0, 0, 2, 0, 0, 0, 0, 1); // Generate the height field generateHeightField(); @@ -80,16 +47,20 @@ HeightField::HeightField(float mass, reactphysics3d::PhysicsCommon& physicsCommo // do not forget to delete it at the end mHeightFieldShape = mPhysicsCommon.createHeightFieldShape(NB_POINTS_WIDTH, NB_POINTS_LENGTH, mMinHeight, mMaxHeight, mHeightData, rp3d::HeightFieldShape::HeightDataType::HEIGHT_FLOAT_TYPE); + mHeightFieldShape->setScale(rp3d::Vector3(2, 2, 2)); mPreviousTransform = rp3d::Transform::identity(); - // Create a rigid body corresponding to the sphere in the physics world - rp3d::RigidBody* body = physicsWorld->createRigidBody(mPreviousTransform); - - // Add a collision shape to the body and specify the mass of the collision shape - mCollider = body->addCollider(mHeightFieldShape, rp3d::Transform::identity(), mass); - - mBody = body; + // Create a body + if (createRigidBody) { + rp3d::RigidBody* body = physicsWorld->createRigidBody(mPreviousTransform); + mCollider = body->addCollider(mHeightFieldShape, rp3d::Transform::identity(), mass); + mBody = body; + } + else { + mBody = physicsWorld->createCollisionBody(mPreviousTransform); + mCollider = mBody->addCollider(mHeightFieldShape, rp3d::Transform::identity()); + } // Create the VBOs and VAO createVBOAndVAO(); diff --git a/testbed/common/HeightField.h b/testbed/common/HeightField.h index 1599aa79..fde7c026 100644 --- a/testbed/common/HeightField.h +++ b/testbed/common/HeightField.h @@ -86,10 +86,7 @@ class HeightField : public PhysicsObject { // -------------------- Methods -------------------- // /// Constructor - HeightField(reactphysics3d::PhysicsCommon& physicsCommon, reactphysics3d::PhysicsWorld* world); - - /// Constructor - HeightField(float mass, rp3d::PhysicsCommon& physicsCommon, rp3d::PhysicsWorld* physicsWorld); + HeightField(bool createRigidBody, float mass, rp3d::PhysicsCommon& physicsCommon, rp3d::PhysicsWorld* physicsWorld); /// Destructor virtual ~HeightField() override; diff --git a/testbed/scenes/collisiondetection/CollisionDetectionScene.cpp b/testbed/scenes/collisiondetection/CollisionDetectionScene.cpp index 2ffc9fb5..542adfaf 100644 --- a/testbed/scenes/collisiondetection/CollisionDetectionScene.cpp +++ b/testbed/scenes/collisiondetection/CollisionDetectionScene.cpp @@ -103,7 +103,7 @@ CollisionDetectionScene::CollisionDetectionScene(const std::string& name, Engine // ---------- Concave Mesh ---------- // // Create a convex mesh and a corresponding collision body in the physics world - mConcaveMesh = new ConcaveMesh(mPhysicsCommon, mPhysicsWorld, mMeshFolderPath + "city.obj"); + mConcaveMesh = new ConcaveMesh(false, 1.0f, mPhysicsCommon, mPhysicsWorld, mMeshFolderPath + "city.obj"); mAllShapes.push_back(mConcaveMesh); // Set the color @@ -136,7 +136,7 @@ CollisionDetectionScene::CollisionDetectionScene(const std::string& name, Engine // ---------- Convex Mesh ---------- // // Create a convex mesh and a corresponding collision body in the physics world - mConvexMesh = new ConvexMesh(mPhysicsCommon, mPhysicsWorld, mMeshFolderPath + "convexmesh.obj"); + mConvexMesh = new ConvexMesh(false, 1.0f, mPhysicsCommon, mPhysicsWorld, mMeshFolderPath + "convexmesh.obj"); mAllShapes.push_back(mConvexMesh); // Set the color @@ -147,7 +147,7 @@ CollisionDetectionScene::CollisionDetectionScene(const std::string& name, Engine // ---------- Heightfield ---------- // // Create a convex mesh and a corresponding collision body in the physics world - mHeightField = new HeightField(mPhysicsCommon, mPhysicsWorld); + mHeightField = new HeightField(false, 1.0f, mPhysicsCommon, mPhysicsWorld); // Set the color mHeightField->setColor(mObjectColorDemo); diff --git a/testbed/scenes/collisionshapes/CollisionShapesScene.cpp b/testbed/scenes/collisionshapes/CollisionShapesScene.cpp index e8601c5f..07fb1b0d 100644 --- a/testbed/scenes/collisionshapes/CollisionShapesScene.cpp +++ b/testbed/scenes/collisionshapes/CollisionShapesScene.cpp @@ -142,7 +142,7 @@ CollisionShapesScene::CollisionShapesScene(const std::string& name, EngineSettin for (int i=0; isetColor(mObjectColorDemo); diff --git a/testbed/scenes/concavemesh/ConcaveMeshScene.cpp b/testbed/scenes/concavemesh/ConcaveMeshScene.cpp index 7e7d6cfa..fcbd925a 100644 --- a/testbed/scenes/concavemesh/ConcaveMeshScene.cpp +++ b/testbed/scenes/concavemesh/ConcaveMeshScene.cpp @@ -143,7 +143,7 @@ ConcaveMeshScene::ConcaveMeshScene(const std::string& name, EngineSettings& sett for (int i = 0; isetColor(mObjectColorDemo); @@ -164,7 +164,7 @@ ConcaveMeshScene::ConcaveMeshScene(const std::string& name, EngineSettings& sett rp3d::decimal mass = 1.0; // Create a convex mesh and a corresponding rigid in the physics world - mConcaveMesh = new ConcaveMesh(mass, mPhysicsCommon, mPhysicsWorld, meshFolderPath + "city.obj"); + mConcaveMesh = new ConcaveMesh(true, mass, mPhysicsCommon, mPhysicsWorld, meshFolderPath + "city.obj"); // Set the mesh as beeing static mConcaveMesh->getRigidBody()->setType(rp3d::BodyType::STATIC); diff --git a/testbed/scenes/heightfield/HeightFieldScene.cpp b/testbed/scenes/heightfield/HeightFieldScene.cpp index 3d41046c..27d8e97e 100644 --- a/testbed/scenes/heightfield/HeightFieldScene.cpp +++ b/testbed/scenes/heightfield/HeightFieldScene.cpp @@ -142,7 +142,7 @@ HeightFieldScene::HeightFieldScene(const std::string& name, EngineSettings& sett for (int i = 0; isetColor(mObjectColorDemo); @@ -163,7 +163,7 @@ HeightFieldScene::HeightFieldScene(const std::string& name, EngineSettings& sett rp3d::decimal mass = 1.0; // Create a convex mesh and a corresponding rigid in the physics world - mHeightField = new HeightField(mass, mPhysicsCommon, mPhysicsWorld); + mHeightField = new HeightField(true, mass, mPhysicsCommon, mPhysicsWorld); // Set the mesh as beeing static mHeightField->getRigidBody()->setType(rp3d::BodyType::STATIC); diff --git a/testbed/scenes/pile/PileScene.cpp b/testbed/scenes/pile/PileScene.cpp index ceb3b9c8..83ad00ce 100644 --- a/testbed/scenes/pile/PileScene.cpp +++ b/testbed/scenes/pile/PileScene.cpp @@ -140,7 +140,7 @@ PileScene::PileScene(const std::string& name, EngineSettings& settings) for (int i=0; isetColor(mObjectColorDemo); @@ -161,7 +161,7 @@ PileScene::PileScene(const std::string& name, EngineSettings& settings) rp3d::decimal mass = 1.0; // Create a convex mesh and a corresponding rigid in the physics world - mSandbox = new ConcaveMesh(mass, mPhysicsCommon, mPhysicsWorld, meshFolderPath + "sandbox.obj"); + mSandbox = new ConcaveMesh(true, mass, mPhysicsCommon, mPhysicsWorld, meshFolderPath + "sandbox.obj"); // Set the mesh as beeing static mSandbox->getRigidBody()->setType(rp3d::BodyType::STATIC); diff --git a/testbed/scenes/raycast/RaycastScene.cpp b/testbed/scenes/raycast/RaycastScene.cpp index d47c9715..02d3a114 100644 --- a/testbed/scenes/raycast/RaycastScene.cpp +++ b/testbed/scenes/raycast/RaycastScene.cpp @@ -95,7 +95,7 @@ RaycastScene::RaycastScene(const std::string& name, EngineSettings& settings) // ---------- Convex Mesh ---------- // // Create a convex mesh and a corresponding collision body in the physics world - mConvexMesh = new ConvexMesh(mPhysicsCommon, mPhysicsWorld, mMeshFolderPath + "convexmesh.obj"); + mConvexMesh = new ConvexMesh(false, 1.0f, mPhysicsCommon, mPhysicsWorld, mMeshFolderPath + "convexmesh.obj"); // Set the color mConvexMesh->setColor(mObjectColorDemo); @@ -105,7 +105,7 @@ RaycastScene::RaycastScene(const std::string& name, EngineSettings& settings) // ---------- Concave Mesh ---------- // // Create a convex mesh and a corresponding collision body in the physics world - mConcaveMesh = new ConcaveMesh(mPhysicsCommon, mPhysicsWorld, mMeshFolderPath + "city.obj"); + mConcaveMesh = new ConcaveMesh(false, 1.0f, mPhysicsCommon, mPhysicsWorld, mMeshFolderPath + "city.obj"); // Set the color mConcaveMesh->setColor(mObjectColorDemo); @@ -115,7 +115,7 @@ RaycastScene::RaycastScene(const std::string& name, EngineSettings& settings) // ---------- Heightfield ---------- // // Create a convex mesh and a corresponding collision body in the physics world - mHeightField = new HeightField(mPhysicsCommon, mPhysicsWorld); + mHeightField = new HeightField(false, 1.0f, mPhysicsCommon, mPhysicsWorld); // Set the color mHeightField->setColor(mObjectColorDemo);