///<summary>
/// Initializes the pair handler.
///</summary>
///<param name="entryA">First entry in the pair.</param>
///<param name="entryB">Second entry in the pair.</param>
public override void Initialize(BroadPhaseEntry entryA, BroadPhaseEntry entryB)
{
instancedMesh = entryA as InstancedMesh;
convex = entryB as ConvexCollidable;
if (instancedMesh == null || convex == null)
{
instancedMesh = entryB as InstancedMesh;
convex = entryA as ConvexCollidable;
if (instancedMesh == null || convex == null)
throw new Exception("Inappropriate types used to initialize pair.");
}
//Contact normal goes from A to B.
broadPhaseOverlap.entryA = convex;
broadPhaseOverlap.entryB = instancedMesh;
UpdateMaterialProperties(convex.entity != null ? convex.entity.material : null, instancedMesh.material);
base.Initialize(entryA, entryB);
}
/// <summary>
/// Creates and instance of InstancedTriangleMesh
/// Call the Static Method GetInstacedMesh to get the InstancedMeshShape obj
/// </summary>
/// <param name="InstancedMeshShape">The instanced mesh shape.</param>
/// <param name="pos">The pos.</param>
/// <param name="rotation">The rotation.</param>
/// <param name="scale">The scale.</param>
/// <param name="materialDescription">The material description.</param>
/// <param name="TriangleSidedness">The triangle sidedness.</param>
public InstancedTriangleMeshObject(InstancedMeshShape InstancedMeshShape, Vector3 pos, Matrix rotation, Vector3 scale, MaterialDescription materialDescription, TriangleSidedness TriangleSidedness = TriangleSidedness.Counterclockwise)
{
instancedMesh = new InstancedMesh(InstancedMeshShape,new BEPUphysics.MathExtensions.AffineTransform(scale,Quaternion.CreateFromRotationMatrix(rotation),pos));
instancedMesh.Material = new BEPUphysics.Materials.Material(materialDescription.StaticFriction, materialDescription.DynamicFriction, materialDescription.Bounciness);
instancedMesh.Sidedness = TriangleSidedness;
this.rotation = rotation;
this.scale = scale;
}
/// <summary>
/// Construct a new immovable Prop.
/// </summary>
/// <param name="modelName">Name of the model.</param>
/// <param name="translation">The position.</param>
/// <param name="orientation">The orientation.</param>
/// <param name="scale">The amount to scale by.</param>
public Prop(String modelName, Vector3 translation, Quaternion orientation, Vector3 scale)
{
mRenderable = new InanimateModel(modelName);
StaticCollidable = new InstancedMesh(
CollisionMeshManager.LookupStaticMesh(modelName),
new AffineTransform(scale, orientation, translation)
);
Position = translation;
XNAOrientationMatrix = Matrix.CreateFromQuaternion(orientation);
Scale = scale;
}
///<summary>
/// Initializes the pair handler.
///</summary>
///<param name="entryA">First entry in the pair.</param>
///<param name="entryB">Second entry in the pair.</param>
public override void Initialize(BroadPhaseEntry entryA, BroadPhaseEntry entryB)
{
mesh = entryA as InstancedMesh;
if (mesh == null)
{
mesh = entryB as InstancedMesh;
if (mesh == null)
{
throw new Exception("Inappropriate types used to initialize pair.");
}
}
base.Initialize(entryA, entryB);
}
/// <summary>
/// Constructs a new demo.
/// </summary>
/// <param name="game">Game owning this demo.</param>
public InstancedMeshDemo(DemosGame game)
: base(game)
{
Vector3[] vertices;
int[] indices;
TriangleMesh.GetVerticesAndIndicesFromModel(game.Content.Load<Model>("guy"), out vertices, out indices);
var meshShape = new InstancedMeshShape(vertices, indices);
var random = new Random();
for (int i = 0; i < 10; i++)
{
for (int j = 0; j < 10; j++)
{
//Create a transform and the instance of the mesh.
var transform = new AffineTransform(
new Vector3((float)random.NextDouble() * 6 + .5f, (float)random.NextDouble() * 6 + .5f, (float)random.NextDouble() * 6 + .5f),
Quaternion.CreateFromAxisAngle(Vector3.Normalize(new Vector3((float)random.NextDouble(), (float)random.NextDouble(), (float)random.NextDouble())), (float)random.NextDouble() * 100),
new Vector3(i * 2, 3, j * 2));
var mesh = new InstancedMesh(meshShape, transform);
//Making the triangles one-sided makes collision detection a bit more robust, since the backsides of triangles won't try to collide with things
//and 'pull' them back into the mesh.
mesh.Sidedness = TriangleSidedness.Counterclockwise;
Space.Add(mesh);
game.ModelDrawer.Add(mesh);
}
}
for (int i = 0; i < 5; i++)
{
for (int j = 0; j < 5; j++)
{
//Drop a box on the mesh.
Space.Add(new Box(new Vector3((i + 1) * 4, 10, (j + 1) * 4), 1, 1, 1, 10));
}
}
Space.Add(new Box(new Vector3(10, 0, 10), 20, 1, 20));
game.Camera.Position = new Vector3(10, 6, 30);
}
/// <summary>
/// Constructs a new demo.
/// </summary>
/// <param name="game">Game owning this demo.</param>
public StaticGroupDemo(DemosGame game)
: base(game)
{
//Creating a bunch of separate StaticMeshes or kinematic Entity objects for an environment can pollute the broad phase.
//This is because the broad phase implementation doesn't have guarantees about what elements can collide, so it has to
//traverse the acceleration structure all the way down to pairs to figure it out. That can get expensive!
//Individual objects, like StaticMeshes, can have very complicated geometry without hurting the broad phase because the broad phase
//has no knowledge of the thousands of triangles in the mesh. The StaticMesh itself knows that the triangles within the mesh
//never need to collide, so it never needs to test them against each other.
//Similarly, the StaticGroup can be given a bunch of separate collidables. The broad phase doesn't directly know about these child collidables-
//it only sees the StaticGroup. The StaticGroup knows that the things inside it can't ever collide with each other, so no tests are needed.
//This avoids the performance problem!
//To demonstrate, we'll be creating a set of static objects and giving them to a group to manage.
List<Collidable> collidables = new List<Collidable>();
//Start with a whole bunch of boxes. These are entity collidables, but without entities!
float xSpacing = 6;
float ySpacing = 6;
float zSpacing = 6;
//NOTE: You might notice this demo takes a while to start, especially on the Xbox360. Do not fear! That's due to the creation of the graphics data, not the physics.
//The physics can handle over 100,000 static objects pretty easily. The graphics, not so much :)
//Try disabling the game.ModelDrawer.Add() lines and increasing the number of static objects.
int xCount = 15;
int yCount = 7;
int zCount = 15;
var random = new Random();
for (int i = 0; i < xCount; i++)
{
for (int j = 0; j < yCount; j++)
{
for (int k = 0; k < zCount; k++)
{
//Create a transform and the instance of the mesh.
var collidable = new ConvexCollidable<BoxShape>(new BoxShape((float)random.NextDouble() * 6 + .5f, (float)random.NextDouble() * 6 + .5f, (float)random.NextDouble() * 6 + .5f));
//This EntityCollidable isn't associated with an entity, so we must manually tell it where to sit by setting the WorldTransform.
//This also updates its bounding box.
collidable.WorldTransform = new RigidTransform(
new Vector3(i * xSpacing - xCount * xSpacing * .5f, j * ySpacing + 3, k * zSpacing - zCount * zSpacing * .5f),
Quaternion.CreateFromAxisAngle(Vector3.Normalize(new Vector3((float)random.NextDouble(), (float)random.NextDouble(), (float)random.NextDouble())), (float)random.NextDouble() * 100));
collidables.Add(collidable);
game.ModelDrawer.Add(collidable);
}
}
}
//Now create a bunch of instanced meshes too.
xSpacing = 6;
ySpacing = 6;
zSpacing = 6;
xCount = 10;
yCount = 2;
zCount = 10;
Vector3[] vertices;
int[] indices;
TriangleMesh.GetVerticesAndIndicesFromModel(game.Content.Load<Model>("fish"), out vertices, out indices);
var meshShape = new InstancedMeshShape(vertices, indices);
for (int i = 0; i < xCount; i++)
{
for (int j = 0; j < yCount; j++)
{
for (int k = 0; k < zCount; k++)
{
//Create a transform and the instance of the mesh.
var transform = new AffineTransform(
new Vector3((float)random.NextDouble() * 6 + .5f, (float)random.NextDouble() * 6 + .5f, (float)random.NextDouble() * 6 + .5f),
Quaternion.CreateFromAxisAngle(Vector3.Normalize(new Vector3((float)random.NextDouble(), (float)random.NextDouble(), (float)random.NextDouble())), (float)random.NextDouble() * 100),
new Vector3(i * xSpacing - xCount * xSpacing * .5f, j * ySpacing + 50, k * zSpacing - zCount * zSpacing * .5f));
var mesh = new InstancedMesh(meshShape, transform);
//Making the triangles one-sided makes collision detection a bit more robust, since the backsides of triangles won't try to collide with things
//and 'pull' them back into the mesh.
mesh.Sidedness = TriangleSidedness.Counterclockwise;
collidables.Add(mesh);
game.ModelDrawer.Add(mesh);
}
}
}
StaticGroup group = new StaticGroup(collidables);
Space.Add(group);
//Create a bunch of dynamic boxes to drop on the staticswarm.
xCount = 8;
yCount = 3;
zCount = 8;
xSpacing = 3f;
ySpacing = 5f;
zSpacing = 3f;
for (int i = 0; i < xCount; i++)
for (int j = 0; j < zCount; j++)
for (int k = 0; k < yCount; k++)
{
Space.Add(new Box(new Vector3(
xSpacing * i - (xCount - 1) * xSpacing / 2f,
100 + k * (ySpacing),
2 + zSpacing * j - (zCount - 1) * zSpacing / 2f),
1, 1, 1, 10));
}
Box ground = new Box(new Vector3(0, -3f, 0), 200, 1, 200);
Space.Add(ground);
game.Camera.Position = new Vector3(0, 60, 90);
}
///<summary>
/// Initializes the manifold.
///</summary>
///<param name="newCollidableA">First collidable.</param>
///<param name="newCollidableB">Second collidable.</param>
public override void Initialize(Collidable newCollidableA, Collidable newCollidableB)
{
convex = newCollidableA as ConvexCollidable;
mesh = newCollidableB as InstancedMesh;
if (convex == null || mesh == null)
{
convex = newCollidableB as ConvexCollidable;
mesh = newCollidableA as InstancedMesh;
if (convex == null || mesh == null)
throw new Exception("Inappropriate types used to initialize contact manifold.");
}
}
///<summary>
/// Cleans up the manifold.
///</summary>
public override void CleanUp()
{
mesh = null;
convex = null;
base.CleanUp();
}
///<summary>
/// Cleans up the pair handler.
///</summary>
public override void CleanUp()
{
base.CleanUp();
mesh = null;
}
///<summary>
/// Cleans up the pair handler.
///</summary>
public override void CleanUp()
{
base.CleanUp();
instancedMesh = null;
convex = null;
}
