public void OrthographicViewVolumeTest() { var s = new OrthographicViewVolume(-1, 0, -1, 0, 0.1f, 10); var v0 = s.GetVolume(0.001f, 10); var m = s.GetMesh(0.001f, 10); var s1 = new TriangleMeshShape(m); var v1 = m.GetVolume(); Assert.IsTrue(Numeric.AreEqual(v0, v1, 0.01f * (1 + v0))); // 1% error is allowed. }
// Creates a lot of random objects. private void CreateRandomObjects() { var random = new Random(); var isFirstHeightField = true; int currentShape = 0; int numberOfObjects = 0; while (true) { numberOfObjects++; if (numberOfObjects > ObjectsPerType) { currentShape++; numberOfObjects = 0; } Shape shape; switch (currentShape) { case 0: // Box shape = new BoxShape(ObjectSize, ObjectSize * 2, ObjectSize * 3); break; case 1: // Capsule shape = new CapsuleShape(0.3f * ObjectSize, 2 * ObjectSize); break; case 2: // Cone shape = new ConeShape(1 * ObjectSize, 2 * ObjectSize); break; case 3: // Cylinder shape = new CylinderShape(0.4f * ObjectSize, 2 * ObjectSize); break; case 4: // Sphere shape = new SphereShape(ObjectSize); break; case 5: // Convex hull of several points. ConvexHullOfPoints hull = new ConvexHullOfPoints(); hull.Points.Add(new Vector3F(-1 * ObjectSize, -2 * ObjectSize, -1 * ObjectSize)); hull.Points.Add(new Vector3F(2 * ObjectSize, -1 * ObjectSize, -0.5f * ObjectSize)); hull.Points.Add(new Vector3F(1 * ObjectSize, 2 * ObjectSize, 1 * ObjectSize)); hull.Points.Add(new Vector3F(-1 * ObjectSize, 2 * ObjectSize, 1 * ObjectSize)); hull.Points.Add(new Vector3F(-1 * ObjectSize, 0.7f * ObjectSize, -0.6f * ObjectSize)); shape = hull; break; case 6: // A composite shape: two boxes that form a "T" shape. var composite = new CompositeShape(); composite.Children.Add( new GeometricObject( new BoxShape(ObjectSize, 3 * ObjectSize, ObjectSize), new Pose(new Vector3F(0, 0, 0)))); composite.Children.Add( new GeometricObject( new BoxShape(2 * ObjectSize, ObjectSize, ObjectSize), new Pose(new Vector3F(0, 2 * ObjectSize, 0)))); shape = composite; break; case 7: shape = new CircleShape(ObjectSize); break; case 8: { var compBvh = new CompositeShape(); compBvh.Children.Add(new GeometricObject(new BoxShape(0.5f, 1, 0.5f), new Pose(new Vector3F(0, 0.5f, 0), Matrix33F.Identity))); compBvh.Children.Add(new GeometricObject(new BoxShape(0.8f, 0.5f, 0.5f), new Pose(new Vector3F(0.5f, 0.7f, 0), Matrix33F.CreateRotationZ(-MathHelper.ToRadians(15))))); compBvh.Children.Add(new GeometricObject(new SphereShape(0.3f), new Pose(new Vector3F(0, 1.15f, 0), Matrix33F.Identity))); compBvh.Children.Add(new GeometricObject(new CapsuleShape(0.2f, 1), new Pose(new Vector3F(0.6f, 1.15f, 0), Matrix33F.CreateRotationX(0.3f)))); compBvh.Partition = new AabbTree<int>(); shape = compBvh; break; } case 9: CompositeShape comp = new CompositeShape(); comp.Children.Add(new GeometricObject(new BoxShape(0.5f * ObjectSize, 1 * ObjectSize, 0.5f * ObjectSize), new Pose(new Vector3F(0, 0.5f * ObjectSize, 0), QuaternionF.Identity))); comp.Children.Add(new GeometricObject(new BoxShape(0.8f * ObjectSize, 0.5f * ObjectSize, 0.5f * ObjectSize), new Pose(new Vector3F(0.3f * ObjectSize, 0.7f * ObjectSize, 0), QuaternionF.CreateRotationZ(-MathHelper.ToRadians(45))))); comp.Children.Add(new GeometricObject(new SphereShape(0.3f * ObjectSize), new Pose(new Vector3F(0, 1.15f * ObjectSize, 0), QuaternionF.Identity))); shape = comp; break; case 10: shape = new ConvexHullOfPoints(new[] { new Vector3F(-1 * ObjectSize, -2 * ObjectSize, -1 * ObjectSize), new Vector3F(2 * ObjectSize, -1 * ObjectSize, -0.5f * ObjectSize), new Vector3F(1 * ObjectSize, 2 * ObjectSize, 1 * ObjectSize), new Vector3F(-1 * ObjectSize, 2 * ObjectSize, 1 * ObjectSize), new Vector3F(-1 * ObjectSize, 0.7f * ObjectSize, -0.6f * ObjectSize) }); break; case 11: ConvexHullOfShapes shapeHull = new ConvexHullOfShapes(); shapeHull.Children.Add(new GeometricObject(new SphereShape(0.3f * ObjectSize), new Pose(new Vector3F(0, 2 * ObjectSize, 0), Matrix33F.Identity))); shapeHull.Children.Add(new GeometricObject(new BoxShape(1 * ObjectSize, 2 * ObjectSize, 3 * ObjectSize), Pose.Identity)); shape = shapeHull; break; case 12: shape = Shape.Empty; break; case 13: var numberOfSamplesX = 10; var numberOfSamplesZ = 10; var samples = new float[numberOfSamplesX * numberOfSamplesZ]; for (int z = 0; z < numberOfSamplesZ; z++) for (int x = 0; x < numberOfSamplesX; x++) samples[z * numberOfSamplesX + x] = (float)(Math.Cos(z / 3f) * Math.Sin(x / 2f) * BoxSize / 6); HeightField heightField = new HeightField(0, 0, 2 * BoxSize, 2 * BoxSize, samples, numberOfSamplesX, numberOfSamplesZ); shape = heightField; break; //case 14: //shape = new LineShape(new Vector3F(0.1f, 0.2f, 0.3f), new Vector3F(0.1f, 0.2f, -0.3f).Normalized); //break; case 15: shape = new LineSegmentShape( new Vector3F(0.1f, 0.2f, 0.3f), new Vector3F(0.1f, 0.2f, 0.3f) + 3 * ObjectSize * new Vector3F(0.1f, 0.2f, -0.3f)); break; case 16: shape = new MinkowskiDifferenceShape { ObjectA = new GeometricObject(new SphereShape(0.1f * ObjectSize)), ObjectB = new GeometricObject(new BoxShape(1 * ObjectSize, 2 * ObjectSize, 3 * ObjectSize)) }; break; case 17: shape = new MinkowskiSumShape { ObjectA = new GeometricObject(new SphereShape(0.1f * ObjectSize)), ObjectB = new GeometricObject(new BoxShape(1 * ObjectSize, 2 * ObjectSize, 3 * ObjectSize)), }; break; case 18: shape = new OrthographicViewVolume(0, ObjectSize, 0, ObjectSize, ObjectSize / 2, ObjectSize * 2); break; case 19: shape = new PerspectiveViewVolume(MathHelper.ToRadians(60f), 16f / 10, ObjectSize / 2, ObjectSize * 3); break; case 20: shape = new PointShape(0.1f, 0.3f, 0.2f); break; case 21: shape = new RayShape(new Vector3F(0.2f, 0, -0.12f), new Vector3F(1, 2, 3).Normalized, ObjectSize * 2); break; case 22: shape = new RayShape(new Vector3F(0.2f, 0, -0.12f), new Vector3F(1, 2, 3).Normalized, ObjectSize * 2) { StopsAtFirstHit = true }; break; case 23: shape = new RectangleShape(ObjectSize, ObjectSize * 2); break; case 24: shape = new TransformedShape( new GeometricObject( new BoxShape(1 * ObjectSize, 2 * ObjectSize, 3 * ObjectSize), new Pose(new Vector3F(0.1f, 1, -0.2f)))); break; case 25: shape = new TriangleShape( new Vector3F(ObjectSize, 0, 0), new Vector3F(0, ObjectSize, 0), new Vector3F(ObjectSize, ObjectSize, ObjectSize)); break; //case 26: // { // // Create a composite object from which we get the mesh. // CompositeShape compBvh = new CompositeShape(); // compBvh.Children.Add(new GeometricObject(new BoxShape(0.5f, 1, 0.5f), new Pose(new Vector3F(0, 0.5f, 0), Matrix33F.Identity))); // compBvh.Children.Add( // new GeometricObject( // new BoxShape(0.8f, 0.5f, 0.5f), // new Pose(new Vector3F(0.5f, 0.7f, 0), Matrix33F.CreateRotationZ(-(float)MathHelper.ToRadians(15))))); // compBvh.Children.Add(new GeometricObject(new SphereShape(0.3f), new Pose(new Vector3F(0, 1.15f, 0), Matrix33F.Identity))); // compBvh.Children.Add( // new GeometricObject(new CapsuleShape(0.2f, 1), new Pose(new Vector3F(0.6f, 1.15f, 0), Matrix33F.CreateRotationX(0.3f)))); // TriangleMeshShape meshBvhShape = new TriangleMeshShape { Mesh = compBvh.GetMesh(0.01f, 3) }; // meshBvhShape.Partition = new AabbTree<int>(); // shape = meshBvhShape; // break; // } //case 27: // { // // Create a composite object from which we get the mesh. // CompositeShape compBvh = new CompositeShape(); // compBvh.Children.Add(new GeometricObject(new BoxShape(0.5f, 1, 0.5f), new Pose(new Vector3F(0, 0.5f, 0), QuaternionF.Identity))); // compBvh.Children.Add( // new GeometricObject( // new BoxShape(0.8f, 0.5f, 0.5f), // new Pose(new Vector3F(0.5f, 0.7f, 0), QuaternionF.CreateRotationZ(-(float)MathHelper.ToRadians(15))))); // compBvh.Children.Add(new GeometricObject(new SphereShape(0.3f), new Pose(new Vector3F(0, 1.15f, 0), QuaternionF.Identity))); // compBvh.Children.Add( // new GeometricObject(new CapsuleShape(0.2f, 1), new Pose(new Vector3F(0.6f, 1.15f, 0), QuaternionF.CreateRotationX(0.3f)))); // TriangleMeshShape meshBvhShape = new TriangleMeshShape { Mesh = compBvh.GetMesh(0.01f, 3) }; // meshBvhShape.Partition = new AabbTree<int>(); // shape = meshBvhShape; // break; // } case 28: shape = new ConvexPolyhedron(new[] { new Vector3F(-1 * ObjectSize, -2 * ObjectSize, -1 * ObjectSize), new Vector3F(2 * ObjectSize, -1 * ObjectSize, -0.5f * ObjectSize), new Vector3F(1 * ObjectSize, 2 * ObjectSize, 1 * ObjectSize), new Vector3F(-1 * ObjectSize, 2 * ObjectSize, 1 * ObjectSize), new Vector3F(-1 * ObjectSize, 0.7f * ObjectSize, -0.6f * ObjectSize) }); break; case 29: return; default: currentShape++; continue; } // Create an object with the random shape, pose, color and velocity. Pose randomPose = new Pose( random.NextVector3F(-BoxSize + ObjectSize * 2, BoxSize - ObjectSize * 2), random.NextQuaternionF()); var newObject = new MovingGeometricObject { Pose = randomPose, Shape = shape, LinearVelocity = random.NextQuaternionF().Rotate(new Vector3F(MaxLinearVelocity, 0, 0)), AngularVelocity = random.NextQuaternionF().Rotate(Vector3F.Forward) * RandomHelper.Random.NextFloat(0, MaxAngularVelocity), }; if (RandomHelper.Random.NextBool()) newObject.LinearVelocity = Vector3F.Zero; if (RandomHelper.Random.NextBool()) newObject.AngularVelocity = Vector3F.Zero; if (shape is LineShape || shape is HeightField) { // Do not move lines or the height field. newObject.LinearVelocity = Vector3F.Zero; newObject.AngularVelocity = Vector3F.Zero; } // Create only 1 heightField! if (shape is HeightField) { if (isFirstHeightField) { isFirstHeightField = true; newObject.Pose = new Pose(new Vector3F(-BoxSize, -BoxSize, -BoxSize)); } else { currentShape++; numberOfObjects = 0; continue; } } // Add collision object to collision domain. _domain.CollisionObjects.Add(new CollisionObject(newObject)); //co.Type = CollisionObjectType.Trigger; //co.Name = "Object" + shape.GetType().Name + "_" + i; } }
//-------------------------------------------------------------- /// <summary> /// Initializes a new instance of the <see cref="OrthographicProjection"/> class. /// </summary> public OrthographicProjection() { ViewVolume = new OrthographicViewVolume(); Set(DefaultWidth, DefaultHeight, DefaultNear, DefaultFar); }