public static XwVector Mean(XwVector v1, XwVector v0)
{
XwVector v;
v = XwVector.Add(v1, v0);
v = XwVector.Multiply(v, 0.5);
return(v);
}
public static XwVector NormalizeAndMultiply(XwVector v0, double value)
{
double length = v0.Length();
if (length <= 0.0)
{
return(new XwVector(0.0, 0.0, 0.0));
}
else
{
return(XwVector.Multiply(v0, value / length));
}
}
static void XwParseOpt(OptFile opt, int meshIndex, Face face, out XwVector outNormal, out double outAngle, out double outAngleSum)
{
var verticesVertex = new List <XwVector>(face.VerticesCount);
var verticesLength = new List <double>(face.VerticesCount);
var verticesAngle = new List <double>(face.VerticesCount);
for (int index = 0; index < face.VerticesCount; index++)
{
int index2 = XwOptGetVertexIndex(index + 1, face.VerticesCount);
XwVector v1 = new XwVector(opt.Meshes[meshIndex].Vertices[face.VerticesIndex.AtIndex(index)]);
XwVector v0 = new XwVector(opt.Meshes[meshIndex].Vertices[face.VerticesIndex.AtIndex(index2)]);
XwVector v = XwVector.Substract(v1, v0);
verticesVertex.Add(v);
verticesLength.Add(v.Length());
}
outAngleSum = 0.0;
for (int index = 0; index < face.VerticesCount; index++)
{
int index2 = XwOptGetVertexIndex(index - 1, face.VerticesCount);
double angle = XwVector.AngleRadianToDegree(XwVector.Angle(verticesVertex[index2], verticesVertex[index]));
verticesAngle.Add(angle);
outAngleSum += angle;
}
int maxLengthVertexIndex = 0;
for (int index = 1; index < face.VerticesCount; index++)
{
if (verticesLength[maxLengthVertexIndex] < verticesLength[index])
{
maxLengthVertexIndex = index;
}
}
if (verticesLength[XwOptGetVertexIndex(maxLengthVertexIndex - 1, face.VerticesCount)] < verticesLength[XwOptGetVertexIndex(maxLengthVertexIndex + 1, face.VerticesCount)])
{
maxLengthVertexIndex = XwOptGetVertexIndex(maxLengthVertexIndex + 1, face.VerticesCount);
}
XwVector crossV0 = XwVector.Multiply(verticesVertex[XwOptGetVertexIndex(maxLengthVertexIndex - 1, face.VerticesCount)], -1.0);
XwVector crossV1 = verticesVertex[maxLengthVertexIndex];
XwVector normal = XwVector.NormalizeAndMultiply(XwVector.CrossProduct(crossV0, crossV1), 1.0);
XwVector ebpC8 = new XwVector(0.0, 0.0, 0.0);
XwVector ebpD4 = new XwVector(0.0, 0.0, 0.0);
XwVector ebpE0 = new XwVector(0.0, 0.0, 0.0);
XwVector ebpEC = new XwVector(0.0, 0.0, 0.0);
if (face.VerticesCount == 4)
{
maxLengthVertexIndex = XwOptGetVertexIndex(maxLengthVertexIndex + 2, face.VerticesCount);
int index2 = XwOptGetVertexIndex(maxLengthVertexIndex - 1, face.VerticesCount);
ebpC8 = XwVector.Multiply(verticesVertex[index2], -1.0);
ebpD4 = verticesVertex[maxLengthVertexIndex];
ebpE0 = XwVector.NormalizeAndMultiply(XwVector.CrossProduct(ebpC8, ebpD4), 1.0);
ebpEC = XwVector.NormalizeAndMultiply(XwVector.Add(normal, ebpE0), 1.0);
}
outAngle = XwVector.AngleRadianToDegree(XwVector.Angle(normal, new XwVector(face.Normal)));
outNormal = normal;
}