public static List <IsoTri> CalcIsoSurfaces(Mesh m, uint dataIndex, double isoCount, Testing_openTK_again.Del valueToColor, ColorMapControl.ColorMap.Mode mode)
{
List <IsoTri> isoTri = new List <IsoTri>();
double min, max;
m.GetMinMaxValues(dataIndex, out min, out max);
double isoStep = (max - min) / isoCount;
double iso = min + isoStep * 0.5;
for (int ic = 0; ic < isoCount; ++ic)
{
foreach (Zone z in m.Zones)
{
foreach (Element e in z.Elements)
{
List <double> data = new List <double>();
for (int i = 0; i < e.vertInOrder.Length; ++i)
{
data.Add(z.Vertices[e.vertInOrder[i]].Data[dataIndex]);
}
var elementCase = ISOSurface.GetElementCase(data.ToArray(), iso);
var edges = ISOSurface.GetCaseEdges(elementCase);
for (int i = 0; i < edges.Length; i += 3)
{
if (edges[i] < 0 || edges[i] > 16)
{
break;
}
isoTri.Add(new IsoTri());
//triangles.Add(new List<Point3>());
for (int j = 0; j < 3; ++j)
{
var edge = ISOSurface.GetEdgePoints(edges[i + j]);
var startVert = z.Vertices[e.vertInOrder[edge.Start]];
var endVert = z.Vertices[e.vertInOrder[edge.End]];
var alpha = (iso - startVert.Data[dataIndex]) / (endVert.Data[dataIndex] - startVert.Data[dataIndex]);
var p = Lerp(startVert.Position, endVert.Position, alpha);
//var p = process(iso, startVert.Position, endVert.Position, startVert.Data[dataIndex], startVert.Data[dataIndex]);
isoTri[isoTri.Count - 1].triangle.Add(p);
Color c = valueToColor(mode, (float)(iso - endVert.Data[dataIndex] + startVert.Data[dataIndex]));
//Color c = valueToColor(mode, (float)(iso));// (float)(iso - endVert.Data[dataIndex] + startVert.Data[dataIndex]));
isoTri[isoTri.Count - 1].color = new double[] { c.R / 255.0, c.G / 255.0, c.B / 255.0 };
}
}
}
}
iso += isoStep;
}
return(isoTri);
}
public void MarchingCubeCount()
{
isoTri = new List <IsoTri>();
int isoCount = (int)numericUpDown1.Value;
m.GetMinMaxValues(dataIndex, out min, out max);
double isoStep = (max - min) / isoCount;
double iso = min + isoStep * 0.5;
for (int ic = 0; ic < isoCount; ++ic)
{
foreach (Zone z in m.Zones)
{
foreach (Element e in z.Elements)
{
List <double> data = new List <double>();
for (int i = 0; i < e.vertInOrder.Length; ++i)
{
data.Add(z.Vertices[e.vertInOrder[i]].Data[dataIndex]);
}
var elementCase = ISOSurface.GetElementCase(data.ToArray(), iso);
var edges = ISOSurface.GetCaseEdges(elementCase);
for (int i = 0; i < edges.Length; i += 3)
{
if (edges[i] < 0 || edges[i] > 16)
{
break;
}
isoTri.Add(new IsoTri());
//triangles.Add(new List<Point3>());
for (int j = 0; j < 3; ++j)
{
var edge = ISOSurface.GetEdgePoints(edges[i + j]);
var startVert = z.Vertices[e.vertInOrder[edge.Start]];
var endVert = z.Vertices[e.vertInOrder[edge.End]];
var alpha = (iso - startVert.Data[dataIndex]) / (endVert.Data[dataIndex] - startVert.Data[dataIndex]);
var p = Lerp(startVert.Position, endVert.Position, alpha);
//var p = process(iso, startVert.Position, endVert.Position, startVert.Data[dataIndex], startVert.Data[dataIndex]);
isoTri[isoTri.Count - 1].triangle.Add(p);
Color c = colorMap1.ValueToColor(colorMap1.GetMode(), (float)(iso));// (float)(iso - endVert.Data[dataIndex] + startVert.Data[dataIndex]));
isoTri[isoTri.Count - 1].color = new double[] { c.R / 255.0, c.G / 255.0, c.B / 255.0 };
}
}
}
}
iso += isoStep;
}
//MessageBox.Show(isoTri.Count.ToString());
}
