Exemplo n.º 1
0
        public override void Run()
        {
            var conf = new DefaultCollisionConfiguration();
            var dispatcher = new CollisionDispatcher(conf);
            var broadphase = new AxisSweep3(new Vector3(-1000, -1000, -1000), new Vector3(1000, 1000, 1000));
            world = new DiscreteDynamicsWorld(dispatcher, broadphase, null, conf);

            var indexVertexArray = new TriangleIndexVertexArray(TorusMesh.Indices, TorusMesh.Vertices);
            foreach (var indexedMesh in indexVertexArray.IndexedMeshArray)
            {
                indexedMesh.ToString();
            }
            AddToDisposeQueue(indexVertexArray);

            var gImpactMesh = new GImpactMeshShape(indexVertexArray);
            Vector3 aabbMin, aabbMax;
            gImpactMesh.GetAabb(Matrix.Identity, out aabbMin, out aabbMax);
            CreateBody(1.0f, gImpactMesh, Vector3.Zero);
            AddToDisposeQueue(gImpactMesh);
            gImpactMesh = null;

            var triangleMesh = new BvhTriangleMeshShape(indexVertexArray, true);
            triangleMesh.CalculateLocalInertia(1.0f);
            triangleMesh.GetAabb(Matrix.Identity, out aabbMin, out aabbMax);
            CreateBody(1.0f, triangleMesh, Vector3.Zero);
            AddToDisposeQueue(triangleMesh);
            triangleMesh = null;

            indexVertexArray = null;

            AddToDisposeQueue(conf);
            AddToDisposeQueue(dispatcher);
            AddToDisposeQueue(broadphase);
            AddToDisposeQueue(world);

            //conf.Dispose();
            conf = null;
            //dispatcher.Dispose();
            dispatcher = null;
            //broadphase.Dispose();
            broadphase = null;
            for (int i = 0; i < 600; i++)
            {
                world.StepSimulation(1.0f / 60.0f);
            }
            world.Dispose();
            world = null;

            ForceGC();
            TestWeakRefs();
            ClearRefs();
        }
Exemplo n.º 2
0
        static void TestAxisSweepOverlapCallback()
        {
            var conf = new DefaultCollisionConfiguration();
            var dispatcher = new CollisionDispatcher(conf);
            var broadphase = new AxisSweep3(new Vector3(-1000, -1000, -1000), new Vector3(1000, 1000, 1000));
            world = new DiscreteDynamicsWorld(dispatcher, broadphase, null, conf);

            //broadphase.OverlappingPairUserCallback = new AxisSweepUserCallback();
            //AddToDisposeQueue(broadphase.OverlappingPairUserCallback);

            CreateBody(10.0f, new SphereShape(1.0f), new Vector3(2, 2, 0));
            CreateBody(1.0f, new SphereShape(1.0f), new Vector3(0, 2, 0));

            CustomBroadphaseAabbCallback aabbCallback = new CustomBroadphaseAabbCallback();
            broadphase.AabbTest(new Vector3(-1000, -1000, -1000), new Vector3(1000, 1000, 1000), aabbCallback);
            AddToDisposeQueue(aabbCallback);
            aabbCallback = null;

            // FIXME: RayTest crashes for DbvtBroadphase
            CustomBroadphaseRayTestCallback rayCallback = new CustomBroadphaseRayTestCallback();
            //broadphase.RayTest(new Vector3(0, 2, 0), new Vector3(2, 2, 0), rayCallback);
            AddToDisposeQueue(rayCallback);
            rayCallback = null;

            broadphase = null;

            world.StepSimulation(1.0f / 60.0f);

            world.Dispose();
            world = null;

            GC.Collect(GC.MaxGeneration, GCCollectionMode.Forced);
            GC.WaitForPendingFinalizers();

            TestWeakRefs();
            disposeQueue.Clear();
        }
Exemplo n.º 3
0
        static void TestGCCollection()
        {
            var conf = new DefaultCollisionConfiguration();
            var dispatcher = new CollisionDispatcher(conf);
            var broadphase = new DbvtBroadphase();
            //var broadphase = new AxisSweep3(new Vector3(-1000, -1000, -1000), new Vector3(1000, 1000, 1000));
            world = new DiscreteDynamicsWorld(dispatcher, broadphase, null, conf);
            world.Gravity = new Vector3(0, -10, 0);
            dispatcher.NearCallback = DispatcherNearCallback;

            CreateBody(0.0f, new BoxShape(50, 1, 50), Vector3.Zero);
            var dynamicObject = CreateBody(10.0f, new SphereShape(1.0f), new Vector3(2, 2, 0));
            var dynamicObject2 = CreateBody(1.0f, new SphereShape(1.0f), new Vector3(0, 2, 0));

            var ghostPairCallback = new GhostPairCallback();
            broadphase.OverlappingPairCache.SetInternalGhostPairCallback(ghostPairCallback);
            AddToDisposeQueue(ghostPairCallback);
            ghostPairCallback = null;
            var ghostObject = new PairCachingGhostObject();
            ghostObject.CollisionShape = new BoxShape(2);
            ghostObject.WorldTransform = Matrix.Translation(2,2,0);
            world.AddCollisionObject(ghostObject);

            var trimesh = new TriangleMesh();
            Vector3 v0 = new Vector3(0, 0, 0);
            Vector3 v1 = new Vector3(1, 0, 0);
            Vector3 v2 = new Vector3(0, 1, 0);
            Vector3 v3 = new Vector3(1, 1, 0);
            trimesh.AddTriangle(v0, v1, v2);
            trimesh.AddTriangle(v1, v3, v2);
            var triangleMeshShape = new BvhTriangleMeshShape(trimesh, false);
            var triMeshObject = CreateBody(0, triangleMeshShape, new Vector3(20,0,20));
            AddToDisposeQueue(triangleMeshShape);
            AddToDisposeQueue(trimesh);
            AddToDisposeQueue(triMeshObject);
            triangleMeshShape = null;
            trimesh = null;

            AddToDisposeQueue(conf);
            AddToDisposeQueue(dispatcher);
            AddToDisposeQueue(broadphase);
            AddToDisposeQueue(world);

            //conf.Dispose();
            conf = null;
            //dispatcher.Dispose();
            dispatcher = null;
            //broadphase.Dispose();
            broadphase = null;
            world.DebugDrawer = new DebugDrawTest();
            AddToDisposeQueue(world.DebugDrawer);
            world.SetInternalTickCallback(WorldPreTickCallback);
            for (int i = 0; i < 600; i++)
            {
                world.StepSimulation(1.0f / 60.0f);
            }

            world.DispatchInfo.DebugDraw = new DebugDrawTest2();
            AddToDisposeQueue(world.DispatchInfo.DebugDraw);
            world.DispatchInfo.DebugDraw = world.DispatchInfo.DebugDraw;
            AddToDisposeQueue(world.DispatchInfo.DebugDraw);
            world.DispatchInfo.DebugDraw = null;
            world.DebugDrawer = null;
            world.DebugDrawer = new DebugDrawTest2();
            world.StepSimulation(1.0f / 60.0f);
            world.DebugDrawWorld();
            AddToDisposeQueue(world.DispatchInfo.DebugDraw);

            world.DebugDrawer = new DebugDrawTest();
            world.DebugDrawWorld();
            AddToDisposeQueue(world.DebugDrawer);
            world.DebugDrawer = null;

            TestContactTest(dynamicObject, dynamicObject2);
            TestGhostObjectPairs(ghostObject);
            TestRayCast(dynamicObject);
            TestTriangleMeshRayCast(triMeshObject);
            dynamicObject = null;
            dynamicObject2 = null;
            triMeshObject = null;

            //world.SetInternalTickCallback(null);
            world.Dispose();
            world = null;

            GC.Collect(GC.MaxGeneration, GCCollectionMode.Forced);
            GC.WaitForPendingFinalizers();

            TestWeakRefs();
            disposeQueue.Clear();
        }
    void Start()
    {
        //Create a World
        Debug.Log("Initialize physics");
        List<CollisionShape> CollisionShapes = new List<CollisionShape>();

        DefaultCollisionConfiguration CollisionConf = new DefaultCollisionConfiguration();
        CollisionDispatcher Dispatcher = new CollisionDispatcher(CollisionConf);

        DbvtBroadphase Broadphase = new DbvtBroadphase();

        DiscreteDynamicsWorld World = new DiscreteDynamicsWorld(Dispatcher, Broadphase, null, CollisionConf);
        World.Gravity = new BulletSharp.Math.Vector3(0, -10, 0);

        // create a few dynamic rigidbodies
        const float mass = 1.0f;
        //Add a single cube
        RigidBody fallRigidBody;
        BoxShape shape = new BoxShape(1f, 1f, 1f);
        BulletSharp.Math.Vector3 localInertia = BulletSharp.Math.Vector3.Zero;
        shape.CalculateLocalInertia(mass, out localInertia);
        RigidBodyConstructionInfo rbInfo = new RigidBodyConstructionInfo(mass, null, shape, localInertia);
        fallRigidBody = new RigidBody(rbInfo);
        rbInfo.Dispose();
        Matrix st = Matrix.Translation(new BulletSharp.Math.Vector3(0f, 10f, 0f));
        fallRigidBody.WorldTransform = st;
        World.AddRigidBody(fallRigidBody);

        //Step the simulation 300 steps
        for (int i = 0; i < 300; i++)
        {
            World.StepSimulation(1f / 60f, 10);

            Matrix trans;
            fallRigidBody.GetWorldTransform(out trans);

            Debug.Log("box height: " + trans.Origin);
        }

        //Clean up.
        World.RemoveRigidBody(fallRigidBody);
        fallRigidBody.Dispose();

        UnityEngine.Debug.Log("ExitPhysics");
        if (World != null)
        {
            //remove/dispose constraints
            int i;
            for (i = World.NumConstraints - 1; i >= 0; i--)
            {
                TypedConstraint constraint = World.GetConstraint(i);
                World.RemoveConstraint(constraint);
                constraint.Dispose();
            }

            //remove the rigidbodies from the dynamics world and delete them
            for (i = World.NumCollisionObjects - 1; i >= 0; i--)
            {
                CollisionObject obj = World.CollisionObjectArray[i];
                RigidBody body = obj as RigidBody;
                if (body != null && body.MotionState != null)
                {
                    body.MotionState.Dispose();
                }
                World.RemoveCollisionObject(obj);
                obj.Dispose();
            }

            //delete collision shapes
            foreach (CollisionShape ss in CollisionShapes)
                ss.Dispose();
            CollisionShapes.Clear();

            World.Dispose();
            Broadphase.Dispose();
            Dispatcher.Dispose();
            CollisionConf.Dispose();
        }

        if (Broadphase != null)
        {
            Broadphase.Dispose();
        }
        if (Dispatcher != null)
        {
            Dispatcher.Dispose();
        }
        if (CollisionConf != null)
        {
            CollisionConf.Dispose();
        }
    }
    //IMPORTANT Time.fixedTime must match the timestep being used here.
    public static List<UnityEngine.Vector3> SimulateBall(BRigidBody ballRb, UnityEngine.Vector3 ballThrowForce, int numberOfSimulationSteps, bool reverseOrder)
    {
        var ballPositions = new List<UnityEngine.Vector3>(numberOfSimulationSteps);

        //Create a World
        Debug.Log("Initialize physics");

        CollisionConfiguration CollisionConf;
        CollisionDispatcher Dispatcher;
        BroadphaseInterface Broadphase;
        CollisionWorld cw;
        SequentialImpulseConstraintSolver Solver;
        BulletSharp.SoftBody.SoftBodyWorldInfo softBodyWorldInfo;

        //This should create a copy of the BPhysicsWorld with the same settings
        BPhysicsWorld bw = BPhysicsWorld.Get();
        bw.CreatePhysicsWorld(out cw, out CollisionConf, out Dispatcher, out Broadphase, out Solver, out softBodyWorldInfo);
        World = (DiscreteDynamicsWorld) cw;

        //Copy all existing rigidbodies in scene
        // IMPORTANT rigidbodies must be added to the offline world in the same order that they are in the source world
        // this is because collisions must be resolved in the same order for the sim to be deterministic
        DiscreteDynamicsWorld sourceWorld = (DiscreteDynamicsWorld) bw.world;
        BulletSharp.RigidBody bulletBallRb = null;
        BulletSharp.Math.Matrix mm = BulletSharp.Math.Matrix.Identity;
        for(int i = 0; i < sourceWorld.NumCollisionObjects; i++)
        {
            CollisionObject co = sourceWorld.CollisionObjectArray[i];
            if (co != null && co.UserObject is BRigidBody)
            {
                BRigidBody rb = (BRigidBody) co.UserObject;
                float mass = rb.isDynamic() ? rb.mass : 0f;
                BCollisionShape existingShape = rb.GetComponent<BCollisionShape>();
                CollisionShape shape = null;
                if (existingShape is BSphereShape)
                {
                    shape = ((BSphereShape)existingShape).CopyCollisionShape();
                }
                else if (existingShape is BBoxShape)
                {
                    shape = ((BBoxShape)existingShape).CopyCollisionShape();
                }

                RigidBody bulletRB = null;
                BulletSharp.Math.Vector3 localInertia = new BulletSharp.Math.Vector3();
                rb.CreateOrConfigureRigidBody(ref bulletRB, ref localInertia, shape, null);
                BulletSharp.Math.Vector3 pos = rb.GetCollisionObject().WorldTransform.Origin;
                BulletSharp.Math.Quaternion rot = rb.GetCollisionObject().WorldTransform.GetOrientation();
                BulletSharp.Math.Matrix.AffineTransformation(1f, ref rot, ref pos, out mm);
                bulletRB.WorldTransform = mm;
                World.AddRigidBody(bulletRB, rb.groupsIBelongTo, rb.collisionMask);
                if (rb == ballRb)
                {
                    bulletBallRb = bulletRB;
                    bulletRB.ApplyCentralImpulse(ballThrowForce.ToBullet());
                }
            }
        }

        //Step the simulation numberOfSimulationSteps times
        for (int i = 0; i < numberOfSimulationSteps; i++)
        {
            int numSteps = World.StepSimulation(1f / 60f, 10, 1f / 60f);
            ballPositions.Add(bulletBallRb.WorldTransform.Origin.ToUnity());
        }

        UnityEngine.Debug.Log("ExitPhysics");
        if (World != null)
        {
            //remove/dispose constraints
            int i;
            for (i = World.NumConstraints - 1; i >= 0; i--)
            {
                TypedConstraint constraint = World.GetConstraint(i);
                World.RemoveConstraint(constraint);
                constraint.Dispose();
            }

            //remove the rigidbodies from the dynamics world and delete them
            for (i = World.NumCollisionObjects - 1; i >= 0; i--)
            {
                CollisionObject obj = World.CollisionObjectArray[i];
                RigidBody body = obj as RigidBody;
                if (body != null && body.MotionState != null)
                {
                    body.MotionState.Dispose();
                }
                World.RemoveCollisionObject(obj);
                obj.Dispose();
            }

            World.Dispose();
            Broadphase.Dispose();
            Dispatcher.Dispose();
            CollisionConf.Dispose();
        }

        if (Broadphase != null)
        {
            Broadphase.Dispose();
        }
        if (Dispatcher != null)
        {
            Dispatcher.Dispose();
        }
        if (CollisionConf != null)
        {
            CollisionConf.Dispose();
        }

        return ballPositions;
    }
Exemplo n.º 6
0
        void TestAxisSweepOverlapCallback()
        {
            var conf = new DefaultCollisionConfiguration();
            var dispatcher = new CollisionDispatcher(conf);
            var broadphase = new AxisSweep3(new Vector3(-1000, -1000, -1000), new Vector3(1000, 1000, 1000));
            world = new DiscreteDynamicsWorld(dispatcher, broadphase, null, conf);

            broadphase.OverlappingPairUserCallback = new AxisSweepUserCallback();
            AddToDisposeQueue(broadphase.OverlappingPairUserCallback);

            CreateBody(10.0f, new SphereShape(1.0f), new Vector3(2, 2, 0));
            CreateBody(1.0f, new SphereShape(1.0f), new Vector3(0, 2, 0));

            CustomBroadphaseAabbCallback aabbCallback = new CustomBroadphaseAabbCallback();
            broadphase.AabbTest(new Vector3(-1000, -1000, -1000), new Vector3(1000, 1000, 1000), aabbCallback);
            AddToDisposeQueue(aabbCallback);
            aabbCallback = null;

            var rayFromWorld = new Vector3(-2, 2, 0);
            var rayToWorld = new Vector3(4, 2, 0);
            CustomBroadphaseRayTestCallback rayCallback = new CustomBroadphaseRayTestCallback(ref rayFromWorld, ref rayToWorld);
            broadphase.RayTest(rayFromWorld, rayToWorld, rayCallback, Vector3.Zero, Vector3.Zero);
            if (!rayCallback.HasHit)
            {
                Console.WriteLine("Broadphase ray test FAILED!");
            }
            AddToDisposeQueue(rayCallback);
            rayCallback = null;

            broadphase = null;

            world.StepSimulation(1.0f / 60.0f);

            world.Dispose();
            world = null;

            ForceGC();
            TestWeakRefs();
            ClearRefs();
        }