public void Precompute_SingleVectorBarycentric()
{
int N = DisplaceMesh.MaxTriangleID;
BaryFaceDisplacements = new BaryDisplace[N];
//foreach ( int vid in DisplaceMesh.VertexIndices() ) {
gParallel.ForEach <int>(DisplaceMesh.VertexIndices(), (vid) => {
Vector3d pos = DisplaceMesh.GetVertex(vid);
int tid = BaseSpatial.FindNearestTriangle(pos);
DistPoint3Triangle3 dist = MeshQueries.TriangleDistance(BaseMesh, tid, pos);
Vector3f dv = (Vector3f)(pos - dist.TriangleClosest);
Frame3f triFrame = BaseMesh.GetTriFrame(tid);
Vector3f relVec = triFrame.ToFrameV(dv);
BaryFaceDisplacements[vid] = new BaryDisplace()
{
tID = tid,
a = (float)dist.TriangleBaryCoords.x,
b = (float)dist.TriangleBaryCoords.y,
c = (float)dist.TriangleBaryCoords.z,
dv = relVec
};
});
}
protected override void update_vertices(FScene s)
{
if (Target.Timestamp == target_timestamp)
{
return;
}
target_timestamp = Target.Timestamp;
DMesh3 Mesh = Target.Mesh;
for (int i = 0; i < VertexCount; ++i)
{
SurfaceVertexRef r = SurfacePoints[i];
Vector3d vSum = Vector3d.Zero;
Frame3f f = Mesh.GetTriFrame(r.tid);
Index3i tv = Mesh.GetTriangle(r.tid);
for (int j = 0; j < 3; ++j)
{
f.Origin = (Vector3f)Mesh.GetVertex(tv[j]);
Vector3d v = f.FromFrameP(r.offsets[j]);
vSum += v;
}
vSum /= 3;
this[i] = SceneTransforms.ObjectToSceneP(Target, vSum);
}
}
public override void AppendVertex(Vector3d v)
{
base.AppendVertex(v);
// map v to mesh
v = SceneTransforms.SceneToObjectP(Target, v);
// TODO encode vertices by normals ??
DMesh3 Mesh = Target.Mesh;
DMeshAABBTree3 Spatial = Target.Spatial;
SurfaceVertexRef r = new SurfaceVertexRef();
r.tid = Spatial.FindNearestTriangle(v);
Frame3f f = Mesh.GetTriFrame(r.tid);
Index3i tv = Mesh.GetTriangle(r.tid);
for (int j = 0; j < 3; ++j)
{
f.Origin = (Vector3f)Mesh.GetVertex(tv[j]);
Vector3d dv = f.ToFrameP(v);
r.offsets[j] = dv;
}
SurfacePoints.Add(r);
if (Curve.VertexCount != SurfacePoints.Count)
{
throw new Exception("SurfaceCurvePreview: counts are out of sync!!");
}
}
public static void test_normals()
{
// check that frames are ok
DMesh3 mesh = TestUtil.LoadTestInputMesh("bunny_solid.obj");
foreach (int tid in mesh.TriangleIndices())
{
Vector3f n = (Vector3f)mesh.GetTriNormal(tid);
for (int j = 0; j < 3; ++j)
{
Frame3f f = mesh.GetTriFrame(tid, j);
if (Math.Abs(f.X.Dot(f.Y)) > MathUtil.ZeroTolerancef ||
Math.Abs(f.X.Dot(f.Z)) > MathUtil.ZeroTolerancef ||
Math.Abs(f.Y.Dot(f.Z)) > MathUtil.ZeroTolerancef)
{
throw new Exception("argh");
}
Vector3f fn = f.Z;
if (fn.Dot(n) < 0.99)
{
throw new Exception("shit");
}
}
}
MeshNormals.QuickCompute(mesh);
foreach (int vid in mesh.VertexIndices())
{
Vector3f n = mesh.GetVertexNormal(vid);
for (int j = 1; j <= 2; ++j)
{
Frame3f f = mesh.GetVertexFrame(vid, (j == 1) ? true : false);
Vector3f fn = f.GetAxis(j);
if (Math.Abs(f.X.Dot(f.Y)) > MathUtil.ZeroTolerancef ||
Math.Abs(f.X.Dot(f.Z)) > MathUtil.ZeroTolerancef ||
Math.Abs(f.Y.Dot(f.Z)) > MathUtil.ZeroTolerancef)
{
throw new Exception("argh");
}
if (fn.Dot(n) < 0.99)
{
throw new Exception("shit2");
}
}
}
}
public static void test_local_param()
{
//DMesh3 mesh = TestUtil.LoadTestInputMesh("plane_250v.obj");
//DMesh3 mesh = TestUtil.LoadTestInputMesh("hemisphere_nicemesh_3k.obj");
DMesh3 mesh = TestUtil.LoadTestInputMesh("bunny_open_base.obj");
mesh.EnableVertexUVs(Vector2f.Zero);
DMeshAABBTree3 spatial = new DMeshAABBTree3(mesh);
spatial.Build();
//int tid = spatial.FindNearestTriangle(Vector3d.Zero);
//Frame3f seedF = new Frame3f(Vector3d.Zero, Vector3d.AxisY);
int tid = 3137;
Frame3f seedF = mesh.GetTriFrame(tid);
Index3i seedNbrs = mesh.GetTriangle(tid);
MeshLocalParam param = new MeshLocalParam(mesh.MaxVertexID,
mesh.GetVertexf, mesh.GetVertexNormal, mesh.VtxVerticesItr);
param.ComputeToMaxDistance(seedF, seedNbrs, float.MaxValue);
float fR = param.MaxUVDistance;
param.TransformUV(0.5f / fR, 0.5f * Vector2f.One);
param.ApplyUVs((vid, uv) => { mesh.SetVertexUV(vid, uv); });
TestUtil.SetColorsFromScalarF(mesh, (vid) => { return(param.GetUV(vid).Distance(0.5f * Vector2f.One)); }, new Vector2f(0, 0.5f));
OBJWriter writer = new OBJWriter();
var s = new System.IO.StreamWriter(Program.TEST_OUTPUT_PATH + "mesh_local_param.obj", false);
List <WriteMesh> wm = new List <WriteMesh>()
{
new WriteMesh(mesh)
};
WriteOptions opt = new WriteOptions()
{
bCombineMeshes = false, bWriteGroups = false, bPerVertexColors = true, bPerVertexUVs = true,
AsciiHeaderFunc = () => { return("mttllib checkerboard.mtl\r\nusemtl checkerboard\r\n"); }
};
writer.Write(s, wm, opt);
s.Close();
}
DMesh3 compute_partial_hole(Vector3d start, Vector3d end, double tol)
{
DMesh3 origMesh = MeshSource.GetDMeshUnsafe();
DMeshAABBTree3 origSpatial = MeshSource.GetSpatial() as DMeshAABBTree3;
DMesh3 cutMesh = new DMesh3(origMesh);
Polygon2d polygon = Polygon2d.MakeCircle(hole_size / 2, hole_subdivisions);
Vector3f axis = (Vector3f)(start - end).Normalized;
int start_tid = origSpatial.FindNearestTriangle(start);
Frame3f start_frame = origMesh.GetTriFrame(start_tid);
start_frame.Origin = (Vector3f)start;
start_frame.AlignAxis(2, axis);
int end_tid = origSpatial.FindNearestTriangle(end);
//Frame3f end_frame = origMesh.GetTriFrame(end_tid); end_frame.Origin = (Vector3f)end;
Frame3f end_frame = start_frame; end_frame.Origin = (Vector3f)end;
// [TODO] we don't need to Simplify here...is more robust?
MeshInsertProjectedPolygon start_insert = new MeshInsertProjectedPolygon(cutMesh, polygon, start_frame, start_tid);
bool start_ok = start_insert.Insert();
if (start_ok == false)
{
throw new Exception("CutPolygonHoleOp.compute_partial_hole: start or end insertion failed!");
}
EdgeLoop outLoop = start_insert.InsertedLoop;
MeshExtrudeLoop extrude = new MeshExtrudeLoop(cutMesh, outLoop);
extrude.PositionF = (v, n, vid) => {
cutMesh.GetVertex(vid);
return(end_frame.ProjectToPlane((Vector3f)v, 2));
};
extrude.Extrude();
SimpleHoleFiller filler = new SimpleHoleFiller(cutMesh, extrude.NewLoop);
filler.Fill();
return(cutMesh);
}
DMesh3 compute_through_hole(Vector3d start, Vector3d end, double tol)
{
DMesh3 origMesh = MeshSource.GetDMeshUnsafe();
DMeshAABBTree3 origSpatial = MeshSource.GetSpatial() as DMeshAABBTree3;
DMesh3 cutMesh = new DMesh3(origMesh);
Polygon2d polygon = Polygon2d.MakeCircle(hole_size / 2, hole_subdivisions);
Vector3f axis = (Vector3f)(start - end).Normalized;
int start_tid = origSpatial.FindNearestTriangle(start);
Frame3f start_frame = origMesh.GetTriFrame(start_tid);
start_frame.Origin = (Vector3f)start;
start_frame.AlignAxis(2, axis);
int end_tid = origSpatial.FindNearestTriangle(end);
//Frame3f end_frame = origMesh.GetTriFrame(end_tid); end_frame.Origin = (Vector3f)end;
Frame3f end_frame = start_frame; end_frame.Origin = (Vector3f)end;
MeshInsertProjectedPolygon start_insert = new MeshInsertProjectedPolygon(cutMesh, polygon, start_frame, start_tid);
bool start_ok = start_insert.Insert();
MeshInsertProjectedPolygon end_insert = new MeshInsertProjectedPolygon(cutMesh, polygon, end_frame, end_tid);
bool end_ok = end_insert.Insert();
if (start_ok == false || end_ok == false)
{
throw new Exception("CutPolygonHoleOp.compute_through_hole: start or end insertion failed!");
}
MeshEditor editor = new MeshEditor(cutMesh);
EdgeLoop l0 = start_insert.InsertedLoop;
EdgeLoop l1 = end_insert.InsertedLoop;
l1.Reverse();
editor.StitchLoop(l0.Vertices, l1.Vertices);
return(cutMesh);
}
