public void DebugMesh(ISpriteMeshData spriteMeshData, Vector2[] vertices, Edge[] edges, Vector2[] controlPoints, Edge[] bones, int[] pins)
{
var boneSamples = SampleBones(controlPoints, bones, kNumSamples);
var verticesList = new List <Vector2>(vertices.Length + controlPoints.Length + boneSamples.Length);
var edgesList = new List <Edge>(edges);
var indicesList = new List <int>();
verticesList.AddRange(vertices);
verticesList.AddRange(controlPoints);
verticesList.AddRange(boneSamples);
TriangulationUtility.Triangulate(verticesList, edgesList, indicesList, Allocator.Temp);
spriteMeshData.Clear();
verticesList.ForEach(v => spriteMeshData.AddVertex(v, new BoneWeight()));
spriteMeshData.edges.AddRange(edgesList);
spriteMeshData.indices.AddRange(indicesList);
}
public void Triangulate(IList <Vector2> vertices, IList <Edge> edges, IList <int> indices)
{
TriangulationUtility.Triangulate(vertices, edges, indices);
}
public void Tessellate(float minAngle, float maxAngle, float meshAreaFactor, float largestTriangleAreaFactor, int smoothIterations, IList <Vector2> vertices, IList <Edge> edges, IList <int> indices)
{
TriangulationUtility.Tessellate(minAngle, maxAngle, meshAreaFactor, largestTriangleAreaFactor, smoothIterations, vertices, edges, indices);
}
public void Tessellate(float minAngle, float maxAngle, float meshAreaFactor, float largestTriangleAreaFactor, float areaThreshold, int smoothIterations, IList <Vector2> vertices, IList <Edge> edges, IList <int> indices)
{
TriangulationUtility.Tessellate(minAngle, maxAngle, meshAreaFactor, largestTriangleAreaFactor, areaThreshold, 10, smoothIterations, vertices, edges, indices, Allocator.Persistent);
}
internal BoneWeight[] CalculateInternal(string name, Vector2[] vertices, int[] indices, Edge[] edges, Vector2[] controlPoints, Edge[] bones, int[] pins, int numSamples, bool subdivide, ref bool done)
{
done = false;
var weights = new BoneWeight[vertices.Length];
for (var i = 0; i < weights.Length; ++i)
{
weights[i] = defaultWeight;
}
if (vertices.Length < 3)
{
return(weights);
}
var boneSamples = SampleBones(controlPoints, bones, numSamples);
var verticesList = new List <Vector2>(vertices.Length + controlPoints.Length + boneSamples.Length);
Round(vertices);
Round(controlPoints);
Round(boneSamples);
verticesList.AddRange(vertices);
verticesList.AddRange(controlPoints);
verticesList.AddRange(boneSamples);
var utEdges = new List <Edge>(edges);
var utIndices = new List <int>();
var utVertices = new List <Vector2>(vertices);
// Input Vertices are well refined and smoothed, just triangulate with bones and cages.
bool ok = TriangulationUtility.TriangulateSafe(utVertices, utEdges, utIndices);
if (!ok || utIndices.Count == 0)
{
utIndices.AddRange(indices);
utVertices.AddRange(vertices);
}
else if (subdivide)
{
var targetArea = TriangulationUtility.FindTargetAreaForWeightMesh(utVertices, utIndices, kMeshAreaFactor, kLargestTriangleAreaFactor);
TriangulationUtility.TessellateSafe(0, 0, 0, 0, targetArea, 1, 0, utVertices, utEdges, utIndices);
}
if (utIndices.Count == 0)
{
return(weights);
}
// Copy Original Indices.
var coIndices = new List <int>(utIndices);
utIndices.Clear();
for (int i = 0; i < coIndices.Count / 3; ++i)
{
int i1 = coIndices[0 + (i * 3)];
int i2 = coIndices[1 + (i * 3)];
int i3 = coIndices[2 + (i * 3)];
float2 v1 = utVertices[i1];
float2 v2 = utVertices[i2];
float2 v3 = utVertices[i3];
var rt = (float)Math.Round(ModuleHandle.OrientFast(v1, v2, v3), 2);
if (rt != 0)
{
utIndices.Add(i1);
utIndices.Add(i2);
utIndices.Add(i3);
}
}
// Insert Samplers.
var internalPoints = new List <int>();
for (int i = 0; i < utVertices.Count; ++i)
{
if (utIndices.Count(x => x == i) == 0)
{
internalPoints.Add(i);
}
}
TriangulationUtility.TriangulateInternal(internalPoints.ToArray(), utVertices, utIndices);
TriangulationUtility.TriangulateSamplers(boneSamples, utVertices, utIndices);
TriangulationUtility.TriangulateSamplers(controlPoints, utVertices, utIndices);
var tessellatedIndices = utIndices.ToArray();
var tessellatedVertices = utVertices.ToArray();
GCHandle verticesHandle = GCHandle.Alloc(tessellatedVertices, GCHandleType.Pinned);
GCHandle indicesHandle = GCHandle.Alloc(tessellatedIndices, GCHandleType.Pinned);
GCHandle controlPointsHandle = GCHandle.Alloc(controlPoints, GCHandleType.Pinned);
GCHandle bonesHandle = GCHandle.Alloc(bones, GCHandleType.Pinned);
GCHandle pinsHandle = GCHandle.Alloc(pins, GCHandleType.Pinned);
GCHandle weightsHandle = GCHandle.Alloc(weights, GCHandleType.Pinned);
int result = Bbw(kNumIterations,
verticesHandle.AddrOfPinnedObject(), tessellatedVertices.Length, vertices.Length,
indicesHandle.AddrOfPinnedObject(), tessellatedIndices.Length,
controlPointsHandle.AddrOfPinnedObject(), controlPoints.Length,
bonesHandle.AddrOfPinnedObject(), bones.Length,
pinsHandle.AddrOfPinnedObject(), pins.Length,
weightsHandle.AddrOfPinnedObject());
switch (result)
{
case 1:
case 2:
Debug.LogWarning($"Weight generation failure due to unexpected mesh input. Re-generate the mesh with a different Outline Detail value to resolve the issue. Error Code: {result}");
break;
case 3:
if (!PlayerSettings.suppressCommonWarnings)
{
Debug.LogWarning($"Internal weight generation error. Error Code: {result}");
}
break;
}
verticesHandle.Free();
indicesHandle.Free();
controlPointsHandle.Free();
bonesHandle.Free();
pinsHandle.Free();
weightsHandle.Free();
// OhmDebugger.WriteStatisticsText(verticesList.ToArray(), edges, bones, boneSamples, weights, tessellatedVertices, tessellatedIndices, vertices.Length, controlPoints.Length, boneSamples.Length, "UTess", 1000);
for (var i = 0; i < weights.Length; ++i)
{
var weight = weights[i];
if (weight.Sum() == 0f)
{
weights[i] = defaultWeight;
}
else if (!done)
{
done = (weight.boneIndex0 != 0 || weight.boneIndex1 != 0 || weight.boneIndex2 != 0 || weight.boneIndex3 != 0);
}
}
return(weights);
}
public BoneWeight[] Calculate(Vector2[] vertices, Edge[] edges, Vector2[] controlPoints, Edge[] bones, int[] pins)
{
var weights = new BoneWeight[vertices.Length];
for (var i = 0; i < weights.Length; ++i)
{
weights[i] = defaultWeight;
}
var indices = new List <int>(vertices.Length);
TriangulationUtility.Triangulate(vertices, edges, indices);
if (indices.Count < 3)
{
return(weights);
}
var boneSamples = SampleBones(controlPoints, bones, kNumSamples);
var verticesList = new List <Vector2>(vertices.Length + controlPoints.Length + boneSamples.Length);
var edgesList = new List <Edge>(edges);
var indicesList = new List <int>();
verticesList.AddRange(vertices);
verticesList.AddRange(controlPoints);
verticesList.AddRange(boneSamples);
try
{
TriangulationUtility.Tessellate(kMinAngle, 0f, kMeshAreaFactor, kLargestTriangleAreaFactor, 0, verticesList, edgesList, indicesList);
}
catch (Exception)
{
return(weights);
}
var tessellatedVertices = verticesList.ToArray();
var tessellatedIndices = indicesList.ToArray();
GCHandle verticesHandle = GCHandle.Alloc(tessellatedVertices, GCHandleType.Pinned);
GCHandle indicesHandle = GCHandle.Alloc(tessellatedIndices, GCHandleType.Pinned);
GCHandle controlPointsHandle = GCHandle.Alloc(controlPoints, GCHandleType.Pinned);
GCHandle bonesHandle = GCHandle.Alloc(bones, GCHandleType.Pinned);
GCHandle pinsHandle = GCHandle.Alloc(pins, GCHandleType.Pinned);
GCHandle weightsHandle = GCHandle.Alloc(weights, GCHandleType.Pinned);
Bbw(kNumIterations,
verticesHandle.AddrOfPinnedObject(), tessellatedVertices.Length, vertices.Length,
indicesHandle.AddrOfPinnedObject(), tessellatedIndices.Length,
controlPointsHandle.AddrOfPinnedObject(), controlPoints.Length,
bonesHandle.AddrOfPinnedObject(), bones.Length,
pinsHandle.AddrOfPinnedObject(), pins.Length,
weightsHandle.AddrOfPinnedObject());
verticesHandle.Free();
indicesHandle.Free();
controlPointsHandle.Free();
bonesHandle.Free();
pinsHandle.Free();
weightsHandle.Free();
for (var i = 0; i < weights.Length; ++i)
{
var weight = weights[i];
if (weight.Sum() == 0f)
{
weights[i] = defaultWeight;
}
}
return(weights);
}
