|
public AddTriangles ( List |
||
| triangles | List |
|
| return | void | |
/**
* Create a new BSPTree instance from @mesh using @transform
* to transform all vertices, normals, and tangents.
*/
public static BSPTree FromMesh(Mesh mesh, Matrix4x4 transform)
{
BSPTree tree = new BSPTree();
// get a list of all triangles in @mesh
List <Triangle> meshTriangles = GetMeshTriangles(mesh);
// loop through each triangle and transform its vertices by @transform
for (int i = 0; i < meshTriangles.Count; i++)
{
Triangle tri = meshTriangles[i];
for (int vi = 0; vi < 3; vi++)
{
Vertex vtx = TransformVertex(tri.GetVertexByIndex(vi), transform);
tri.SetVertexByIndex(vi, vtx);
}
tri.RebuildOrientationPlane();
meshTriangles[i] = tri;
}
tree.AddTriangles(meshTriangles);
return(tree);
}
/**
* Returns geometry corresponding to volume @a that is divided into
* two separate pieces by @b. Return results in the form of two BSPTree
* instances: @side and @side2.
*/
public static void Slice(BSPTree a, BSPTree b, out BSPTree side1, out BSPTree side2)
{
side1 = a.Clone();
BSPTree bClone = b.Clone();
List <Triangle> side1Discarded = new List <Triangle>();
bClone.Invert();
bClone.ClipByTree(a, false);
side1.ClipByTree(b, true, side1Discarded);
side1.AddTriangles(bClone.GetAllTriangles());
bClone.Invert();
side2 = new BSPTree();
side2.AddTriangles(bClone.GetAllTriangles());
side2.AddTriangles(side1Discarded);
}
/**
* Returns geometry corresponding to volume that is occupied by @a,
* but not by @b.
*/
public static BSPTree Subtract(BSPTree a, BSPTree b)
{
BSPTree aClone = a.Clone();
BSPTree bClone = b.Clone();
float startTime = Time.realtimeSinceStartup;
bClone.Invert();
bClone.ClipByTree(a, false);
aClone.ClipByTree(b);
aClone.AddTriangles(bClone.GetAllTriangles());
return(aClone);
}
/**
* Returns geometry corresponding to volume @a that is divided into
* two separate pieces by @b. Return results in the form of two BSPTree
* instances: @side and @side2.
*/
public static void Slice(BSPTree a, BSPTree b, out BSPTree side1, out BSPTree side2)
{
side1 = a.Clone();
BSPTree bClone = b.Clone();
List<Triangle> side1Discarded = new List<Triangle>();
bClone.Invert ();
bClone.ClipByTree (a, false);
side1.ClipByTree (b, true, side1Discarded);
side1.AddTriangles(bClone.GetAllTriangles());
bClone.Invert();
side2 = new BSPTree();
side2.AddTriangles(bClone.GetAllTriangles());
side2.AddTriangles(side1Discarded);
}
