static ColladaGeometry GetGeometry(CL.UpAxisType up, CL.geometry geo, CL.library_materials matlib, CL.library_effects fxlib)
{
var conv = new ColladaGeometry()
{
FVF = D3DFVF.XYZ
};
conv.Name = string.IsNullOrEmpty(geo.name) ? geo.id : geo.name;
var msh = geo.Item as CL.mesh;
if (msh == null)
{
return(null);
}
List <VertexPositionNormalDiffuseTextureTwo> vertices = new List <VertexPositionNormalDiffuseTextureTwo>();
List <int> hashes = new List <int>();
List <ushort> indices = new List <ushort>();
List <ColladaDrawcall> drawcalls = new List <ColladaDrawcall>();
Dictionary <string, GeometrySource> sources = new Dictionary <string, GeometrySource>();
Dictionary <string, float[]> arrays = new Dictionary <string, float[]>();
Dictionary <string, GeometrySource> verticesRefs = new Dictionary <string, GeometrySource>();
int placeHolderIdx = 0;
//Get arrays
foreach (var acc in msh.source)
{
var arr = acc.Item as CL.float_array;
arrays.Add(arr.id, FloatArray(arr.Text));
}
//Accessors
foreach (var acc in msh.source)
{
sources.Add(acc.id, new GeometrySource(acc, arrays));
}
//Process geometry
foreach (var item in msh.Items)
{
if (!(item is CL.triangles || item is CL.polylist || item is CL.polygons))
{
FLLog.Warning("Collada", "Ignoring " + item.GetType().Name + " element.");
}
}
int totalTriangles = 0;
foreach (var item in msh.Items.Where(x => x is CL.triangles || x is CL.polylist || x is CL.polygons))
{
if (item is CL.triangles)
{
totalTriangles += (int)((CL.triangles)item).count;
}
else if (item is CL.polylist plist)
{
totalTriangles += (int)plist.count;
}
else
{
totalTriangles += (int)((CL.polygons)item).count;
}
}
if (totalTriangles > 21845)
{
throw new Exception(string.Format(
"Overflow!\nCollada geometry {0} has {1} triangles\nVMeshData has limit of 21845",
string.IsNullOrEmpty(geo.name) ? geo.id : geo.name,
totalTriangles));
}
foreach (var item in msh.Items.Where(x => x is CL.triangles || x is CL.polylist || x is CL.polygons))
{
CL.InputLocalOffset[] inputs;
int[] pRefs;
int indexCount;
string materialRef;
ColladaMaterial material;
if (item is CL.triangles)
{
var triangles = (CL.triangles)item;
indexCount = (int)(triangles.count * 3);
pRefs = IntArray(triangles.p);
inputs = triangles.input;
materialRef = triangles.material;
}
else if (item is CL.polygons polygons)
{
indexCount = (int)(polygons.count * 3);
int j = 0;
pRefs = new int[indexCount];
foreach (var arr in polygons.Items)
{
if (!(arr is string))
{
throw new Exception("Polygons: ph element unsupported");
}
var ints = IntArray((string)arr);
if (ints.Length != 3)
{
throw new Exception("Polygons: non-triangle geometry not supported");
}
pRefs[j] = ints[0];
pRefs[j + 1] = ints[1];
pRefs[j + 2] = ints[2];
j += 3;
}
inputs = polygons.input;
materialRef = polygons.material;
}
else
{
var plist = (CL.polylist)item;
pRefs = IntArray(plist.p);
foreach (var c in IntArray(plist.vcount))
{
if (c != 3)
{
throw new Exception("Polylist: non-triangle geometry");
}
}
materialRef = plist.material;
inputs = plist.input;
indexCount = (int)(plist.count * 3);
}
if (indexCount == 0)
{
continue; //Skip empty
}
material = ParseMaterial(materialRef, matlib, fxlib);
int pStride = 0;
foreach (var input in inputs)
{
pStride = Math.Max((int)input.offset, pStride);
}
pStride++;
GeometrySource sourceXYZ = null; int offXYZ = int.MinValue;
GeometrySource sourceNORMAL = null; int offNORMAL = int.MinValue;
GeometrySource sourceCOLOR = null; int offCOLOR = int.MinValue;
GeometrySource sourceUV1 = null; int offUV1 = int.MinValue;
GeometrySource sourceUV2 = null; int offUV2 = int.MinValue;
int texCount = 0;
int startIdx = indices.Count;
foreach (var input in inputs)
{
switch (input.semantic)
{
case SEM_VERTEX:
if (CheckURI(input.source) != msh.vertices.id)
{
throw new Exception("VERTEX doesn't match mesh vertices");
}
foreach (var ip2 in msh.vertices.input)
{
switch (ip2.semantic)
{
case SEM_POSITION:
offXYZ = (int)input.offset;
sourceXYZ = sources[CheckURI(ip2.source)];
break;
case SEM_NORMAL:
offNORMAL = (int)input.offset;
sourceNORMAL = sources[CheckURI(ip2.source)];
conv.FVF |= D3DFVF.NORMAL;
break;
case SEM_COLOR:
offCOLOR = (int)input.offset;
sourceCOLOR = sources[CheckURI(ip2.source)];
conv.FVF |= D3DFVF.DIFFUSE;
break;
case SEM_TEXCOORD:
if (texCount == 2)
{
throw new Exception("Too many texcoords!");
}
if (texCount == 1)
{
offUV2 = (int)input.offset;
sourceUV2 = sources[CheckURI(ip2.source)];
conv.FVF &= ~D3DFVF.TEX1;
conv.FVF |= D3DFVF.TEX2;
}
else
{
offUV1 = (int)input.offset;
sourceUV1 = sources[CheckURI(ip2.source)];
if ((conv.FVF & D3DFVF.TEX2) != D3DFVF.TEX2)
{
conv.FVF |= D3DFVF.TEX1;
}
}
texCount++;
break;
}
}
break;
case SEM_POSITION:
offXYZ = (int)input.offset;
sourceXYZ = sources[CheckURI(input.source)];
break;
case SEM_NORMAL:
offNORMAL = (int)input.offset;
sourceNORMAL = sources[CheckURI(input.source)];
conv.FVF |= D3DFVF.NORMAL;
break;
case SEM_COLOR:
offCOLOR = (int)input.offset;
sourceCOLOR = sources[CheckURI(input.source)];
conv.FVF |= D3DFVF.DIFFUSE;
break;
case SEM_TEXCOORD:
if (texCount == 2)
{
throw new Exception("Too many texcoords!");
}
if (texCount == 1)
{
offUV2 = (int)input.offset;
sourceUV2 = sources[CheckURI(input.source)];
conv.FVF &= ~D3DFVF.TEX1;
conv.FVF |= D3DFVF.TEX2;
}
else
{
offUV1 = (int)input.offset;
sourceUV1 = sources[CheckURI(input.source)];
if ((conv.FVF & D3DFVF.TEX2) != D3DFVF.TEX2)
{
conv.FVF |= D3DFVF.TEX1;
}
}
texCount++;
break;
}
}
int vertexOffset = vertices.Count;
for (int i = 0; i < indexCount; i++)
{
int idx = i * pStride;
var vert = new VertexPositionNormalDiffuseTextureTwo(
VecAxis(up, sourceXYZ.GetXYZ(pRefs[idx + offXYZ])),
offNORMAL == int.MinValue ? Vector3.Zero : VecAxis(up, sourceNORMAL.GetXYZ(pRefs[idx + offNORMAL])),
offCOLOR == int.MinValue ? (uint)Color4.White.ToRgba() : (uint)sourceCOLOR.GetColor(pRefs[idx + offCOLOR]).ToRgba(),
offUV1 == int.MinValue ? Vector2.Zero : sourceUV1.GetUV(pRefs[idx + offUV1]),
offUV2 == int.MinValue ? Vector2.Zero : sourceUV2.GetUV(pRefs[idx + offUV2])
);
var hash = HashVert(ref vert);
var vertIdx = FindDuplicate(hashes, vertices, vertexOffset, ref vert, hash);
if (indices.Count >= ushort.MaxValue)
{
throw new Exception("Too many indices");
}
if (vertIdx == -1)
{
if (vertices.Count + 1 >= ushort.MaxValue)
{
throw new Exception("Too many vertices");
}
indices.Add((ushort)(vertices.Count - vertexOffset));
vertices.Add(vert);
hashes.Add(hash);
}
else
{
indices.Add((ushort)(vertIdx - vertexOffset));
}
}
drawcalls.Add(new ColladaDrawcall()
{
StartIndex = startIdx,
StartVertex = vertexOffset,
EndVertex = vertices.Count - 1,
TriCount = (indices.Count - startIdx) / 3,
Material = material
});
}
conv.Indices = indices.ToArray();
conv.Vertices = vertices.ToArray();
conv.Drawcalls = drawcalls.ToArray();
conv.CalculateDimensions();
return(conv);
}
static ColladaGeometry GetGeometry(CL.UpAxisType up, CL.geometry geo)
{
var conv = new ColladaGeometry()
{
FVF = D3DFVF.XYZ
};
var msh = geo.Item as CL.mesh;
if (msh == null)
{
return(null);
}
List <VertexPositionNormalDiffuseTextureTwo> vertices = new List <VertexPositionNormalDiffuseTextureTwo>();
List <ushort> indices = new List <ushort>();
List <ColladaDrawcall> drawcalls = new List <ColladaDrawcall>();
Dictionary <string, GeometrySource> sources = new Dictionary <string, GeometrySource>();
Dictionary <string, float[]> arrays = new Dictionary <string, float[]>();
Dictionary <string, GeometrySource> verticesRefs = new Dictionary <string, GeometrySource>();
//Get arrays
foreach (var acc in msh.source)
{
var arr = acc.Item as CL.float_array;
arrays.Add(arr.id, FloatArray(arr.Text));
}
//Accessors
foreach (var acc in msh.source)
{
sources.Add(acc.id, new GeometrySource(acc, arrays));
}
//Process geometry
if (msh.Items.Where(x => x is CL.triangles || x is CL.polylist).Count() != msh.Items.Length)
{
throw new Exception("Non-triangle geometry");
}
foreach (var item in msh.Items.Where(x => x is CL.triangles || x is CL.polylist))
{
CL.InputLocalOffset[] inputs;
int[] pRefs;
int triangleCount;
string material;
if (item is CL.triangles)
{
var triangles = (CL.triangles)item;
pRefs = IntArray(triangles.p);
inputs = triangles.input;
triangleCount = (int)(triangles.count * 3);
material = triangles.material;
}
else
{
var plist = (CL.polylist)item;
pRefs = IntArray(plist.p);
foreach (var c in IntArray(plist.vcount))
{
if (c != 3)
{
throw new Exception("Polylist: non-triangle geometry");
}
}
material = plist.material;
inputs = plist.input;
triangleCount = (int)(plist.count * 3);
}
int pStride = 0;
foreach (var input in inputs)
{
pStride = Math.Max((int)input.offset, pStride);
}
pStride++;
GeometrySource sourceXYZ = null; int offXYZ = int.MinValue;
GeometrySource sourceNORMAL = null; int offNORMAL = int.MinValue;
GeometrySource sourceCOLOR = null; int offCOLOR = int.MinValue;
GeometrySource sourceUV1 = null; int offUV1 = int.MinValue;
GeometrySource sourceUV2 = null; int offUV2 = int.MinValue;
int texCount = 0;
int startIdx = indices.Count;
foreach (var input in inputs)
{
switch (input.semantic)
{
case SEM_VERTEX:
if (CheckURI(input.source) != msh.vertices.id)
{
throw new Exception("VERTEX doesn't match mesh vertices");
}
foreach (var ip2 in msh.vertices.input)
{
switch (ip2.semantic)
{
case SEM_POSITION:
offXYZ = (int)input.offset;
sourceXYZ = sources[CheckURI(ip2.source)];
break;
case SEM_NORMAL:
offNORMAL = (int)input.offset;
sourceNORMAL = sources[CheckURI(ip2.source)];
conv.FVF |= D3DFVF.NORMAL;
break;
case SEM_COLOR:
offCOLOR = (int)input.offset;
sourceCOLOR = sources[CheckURI(ip2.source)];
conv.FVF |= D3DFVF.DIFFUSE;
break;
case SEM_TEXCOORD:
if (texCount == 2)
{
throw new Exception("Too many texcoords!");
}
if (texCount == 1)
{
offUV2 = (int)input.offset;
sourceUV2 = sources[CheckURI(ip2.source)];
conv.FVF &= ~D3DFVF.TEX1;
conv.FVF |= D3DFVF.TEX2;
}
else
{
offUV1 = (int)input.offset;
sourceUV1 = sources[CheckURI(ip2.source)];
if ((conv.FVF & D3DFVF.TEX2) != D3DFVF.TEX2)
{
conv.FVF |= D3DFVF.TEX1;
}
}
texCount++;
break;
}
}
break;
case SEM_POSITION:
offXYZ = (int)input.offset;
sourceXYZ = sources[CheckURI(input.source)];
break;
case SEM_NORMAL:
offNORMAL = (int)input.offset;
sourceNORMAL = sources[CheckURI(input.source)];
conv.FVF |= D3DFVF.NORMAL;
break;
case SEM_COLOR:
offCOLOR = (int)input.offset;
sourceCOLOR = sources[CheckURI(input.source)];
conv.FVF |= D3DFVF.DIFFUSE;
break;
case SEM_TEXCOORD:
if (texCount == 2)
{
throw new Exception("Too many texcoords!");
}
if (texCount == 1)
{
offUV2 = (int)input.offset;
sourceUV2 = sources[CheckURI(input.source)];
conv.FVF &= ~D3DFVF.TEX1;
conv.FVF |= D3DFVF.TEX2;
}
else
{
offUV1 = (int)input.offset;
sourceUV1 = sources[CheckURI(input.source)];
if ((conv.FVF & D3DFVF.TEX2) != D3DFVF.TEX2)
{
conv.FVF |= D3DFVF.TEX1;
}
}
texCount++;
break;
}
}
for (int i = 0; i < triangleCount; i++)
{
int idx = i * pStride;
var vert = new VertexPositionNormalDiffuseTextureTwo(
VecAxis(up, sourceXYZ.GetXYZ(pRefs[idx + offXYZ])),
offNORMAL == int.MinValue ? Vector3.Zero : VecAxis(up, sourceNORMAL.GetXYZ(pRefs[idx + offNORMAL])),
offCOLOR == int.MinValue ? Color4.White : sourceCOLOR.GetColor(pRefs[idx + offCOLOR]),
offUV1 == int.MinValue ? Vector2.Zero : sourceUV1.GetUV(pRefs[idx + offUV1]),
offUV2 == int.MinValue ? Vector2.Zero : sourceUV2.GetUV(pRefs[idx + offUV2])
);
var vertIdx = vertices.IndexOf(vert);
if (indices.Count >= ushort.MaxValue)
{
throw new Exception("Too many indices");
}
if (vertIdx == -1)
{
if (vertices.Count + 1 >= ushort.MaxValue)
{
throw new Exception("Overflow");
}
indices.Add((ushort)vertices.Count);
vertices.Add(vert);
}
else
{
indices.Add((ushort)vertIdx);
}
}
drawcalls.Add(new ColladaDrawcall()
{
Start = startIdx,
TriCount = (indices.Count - startIdx) / 3,
Material = string.IsNullOrEmpty(material) ? "NullMaterial" : material
});
}
conv.Indices = indices.ToArray();
conv.Vertices = vertices.ToArray();
conv.Drawcalls = drawcalls.ToArray();
conv.CalculateDimensions();
return(conv);
}