public RealGeometryFile Collect(RawGeometryFile rawGeom)
{
RealGeometryFile geom = new RealGeometryFile();
Hashtable MatTex = new Hashtable();
LoadMaterialHT();
for (int i = 0; i < rawGeom.Header.NumMaterials; i++)
{
MatTexStringPair pair = new MatTexStringPair();
string mat = rawGeom.Header.MatNames[i].Data;
if (materialHT.ContainsKey(mat))
{
mat = (string)materialHT[mat];
}
string[] split = mat.Split('/');
if (split.Length < 2)
{
Compiler.WarningOutput(string.Format("Material {0} has invalid name.", mat));
pair.Material = "DEFAULT";
pair.Texture = "DEFAULT";
}
else
{
pair.Material = split[0];
pair.Texture = split[1];
}
MatTex.Add(i, pair);
}
ArrayList mountPointObjects = new ArrayList();
//ArrayList transparentObjects = new ArrayList(new string[] {"base_a","kit00_front_window_a","kit00_left_headlight_a"});
ArrayList transparentObjects = new ArrayList();
int diffuse;
ArrayList basePartObjects = new ArrayList();
for (int i = 0; i < rawGeom.Header.NumObjects; i++)
{
Compiler.VerboseOutput(string.Format("Compiling object {0}: {1}", i + 1, rawGeom.Header.ObjHeaders[i].ObjName));
if (rawGeom.Header.ObjHeaders[i].ObjName.Data.StartsWith("#"))
{
string mountName;
uint mountHash;
mountName = rawGeom.Header.ObjHeaders[i].ObjName.Data.Substring(1).ToUpper();
if (mountName.IndexOf("[") > -1)
{
mountName = mountName.Substring(0, mountName.IndexOf("["));
}
if (mountName.StartsWith("0x"))
{
mountHash = uint.Parse(mountName.Substring(2), NumberStyles.HexNumber);
}
else
{
mountHash = RealHash(mountName);
}
Compiler.VerboseOutput(string.Format(" + Mount Point Name: {0}", mountName));
Compiler.VerboseOutput(string.Format(" + Compiled Hash: 0x{0:x}", mountHash));
RealMountPoint mp = new RealMountPoint();
mp.Hash = mountHash;
mp.Transform = new RealMatrix();
mp.Transform.m = new float[16];
float[] transform = rawGeom.Header.ObjHeaders[i].Transform;
mp.Transform.m[0] = 1.0f;
mp.Transform.m[5] = 1.0f;
mp.Transform.m[10] = 1.0f;
mp.Transform.m[15] = 1.0f;
mp.Transform.m[12] = transform[14]; //z
mp.Transform.m[13] = transform[12]; //x
mp.Transform.m[14] = transform[13]; //y
mountPointObjects.Add(mp);
}
else
{
Hashtable subMeshes = new Hashtable();
UniqueList textures = new UniqueList();
UniqueList materials = new UniqueList();
if (transparentObjects.Contains(rawGeom.Header.ObjHeaders[i].ObjName.ToString()))
{
diffuse = 0x7FFFFFFF;
}
else
{
diffuse = -1;
}
for (int j = 0; j < rawGeom.Header.ObjHeaders[i].NumFaces; j++)
{
SubMesh subMesh;
RawFace face = rawGeom.Objects[i].Faces[j];
MatTexPair pair = new MatTexPair();
MatTexStringPair strPair = (MatTexStringPair)MatTex[face.MatIndex];
pair.Material = materials.Add(strPair.Material);
pair.Texture = textures.Add(strPair.Texture);
if (subMeshes.ContainsKey(pair))
{
subMesh = subMeshes[pair] as SubMesh;
}
else
{
subMesh = new SubMesh();
subMesh.TextureId = pair.Texture;
subMesh.MaterialId = pair.Material;
subMeshes.Add(pair, subMesh);
}
// note ZM default = CCW, MW = CW
RawVertex v1 = rawGeom.Objects[i].Vertices[face.I3];
RawVertex v2 = rawGeom.Objects[i].Vertices[face.I2];
RawVertex v3 = rawGeom.Objects[i].Vertices[face.I1];
RealVertex rv;
// v1
rv = new RealVertex();
rv.Initialize(true, 0);
/*
* rv.Position.x =-v1.X;
* rv.Position.y = v1.Z;
* rv.Position.z = v1.Y;
* rv.Normal.x =-v1.nX;
* rv.Normal.y = v1.nZ;
* rv.Normal.z = v1.nY;
*/
rv.Position.x = v1.Z;
rv.Position.y = v1.X;
rv.Position.z = v1.Y;
rv.Normal.x = v1.nZ;
rv.Normal.y = v1.nX;
rv.Normal.z = v1.nY;
rv.Diffuse = diffuse;
rv.UV.u = face.tU3;
rv.UV.v = face.tV3;
subMesh.IndexList.Add((ushort)subMesh.VertexList.Add(rv));
// v2
rv = new RealVertex();
rv.Initialize(true, 0);
/*
* rv.Position.x =-v2.X;
* rv.Position.y = v2.Z;
* rv.Position.z = v2.Y;
* rv.Normal.x =-v2.nX;
* rv.Normal.y = v2.nZ;
* rv.Normal.z = v2.nY;
*/
rv.Position.x = v2.Z;
rv.Position.y = v2.X;
rv.Position.z = v2.Y;
rv.Normal.x = v2.nZ;
rv.Normal.y = v2.nX;
rv.Normal.z = v2.nY;
rv.Diffuse = diffuse;
rv.UV.u = face.tU2;
rv.UV.v = face.tV2;
subMesh.IndexList.Add((ushort)subMesh.VertexList.Add(rv));
// v3
rv = new RealVertex();
rv.Initialize(true, 0);
/*
* rv.Position.x =-v3.X;
* rv.Position.y = v3.Z;
* rv.Position.z = v3.Y;
* rv.Normal.x =-v3.nX;
* rv.Normal.y = v3.nZ;
* rv.Normal.z = v3.nY;
*/
rv.Position.x = v3.Z;
rv.Position.y = v3.X;
rv.Position.z = v3.Y;
rv.Normal.x = v3.nZ;
rv.Normal.y = v3.nX;
rv.Normal.z = v3.nY;
rv.Diffuse = diffuse;
rv.UV.u = face.tU1;
rv.UV.v = face.tV1;
subMesh.IndexList.Add((ushort)subMesh.VertexList.Add(rv));
}
Compiler.VerboseOutput(string.Format(" + Compiled into {0} submeshes", subMeshes.Count));
SubMesh[] subMeshList = new SubMesh[subMeshes.Count];
subMeshes.Values.CopyTo(subMeshList, 0);
for (int j = 0; j < subMeshes.Count; j++)
{
SubMesh subMesh = subMeshList[j];
Compiler.VerboseOutput(string.Format(" + Submesh {0}:", j + 1));
Compiler.VerboseOutput(string.Format(" + Material: {0}", materials[subMesh.MaterialId]));
Compiler.VerboseOutput(string.Format(" + Texture: {0}", textures[subMesh.TextureId]));
Compiler.VerboseOutput(string.Format(" + Vertices: {0}", subMesh.VertexList.Count));
Compiler.VerboseOutput(string.Format(" + Triangles: {0}", subMesh.IndexList.Count / 3));
}
Compiler.VerboseOutput(string.Format("Creating part data for binary object file..."));
RealGeometryPart part = new RealGeometryPart();
//----- part info ----------
RealVector4 boundsMin;
RealVector4 boundsMax;
if (rawGeom.Header.ObjHeaders[i].ObjName.Data.ToUpper().StartsWith("BASE_"))
{
basePartObjects.Add(part);
}
string resolvedName = ResolveRealNameForce(rawGeom.Header.ObjHeaders[i].ObjName.Data);
part.PartInfo.Hash = RealHash(resolvedName);
part.PartInfo.PartName = new FixedLenString(resolvedName);
part.PartInfo.ShaderCount = (byte)materials.Count;
part.PartInfo.Shaders = new uint[materials.Count];
for (int j = 0; j < materials.Count; j++)
{
string matName = materials[j] as string;
if (matName.StartsWith("0x"))
{
part.PartInfo.Shaders[j] = uint.Parse(matName.Substring(2), NumberStyles.HexNumber);
}
else
{
part.PartInfo.Shaders[j] = RealHash(matName);
}
}
part.PartInfo.TextureCount = (byte)textures.Count;
part.PartInfo.Textures = new uint[textures.Count];
for (int j = 0; j < textures.Count; j++)
{
string texName = textures[j] as string;
if (texName.StartsWith("0x"))
{
part.PartInfo.Textures[j] = uint.Parse(texName.Substring(2), NumberStyles.HexNumber);
}
else
{
part.PartInfo.Textures[j] = RealHash(ResolveRealName(texName));
}
}
part.PartInfo.Transform.m = rawGeom.Header.ObjHeaders[i].Transform;
/*
* part.PartInfo.Transform.m = new float[16];
* part.PartInfo.Transform.m[0] = 1.0f;
* part.PartInfo.Transform.m[5] = 1.0f;
* part.PartInfo.Transform.m[10] = 1.0f;
* part.PartInfo.Transform.m[15] = 1.0f;
*/
part.PartInfo.TriangleCount = rawGeom.Header.ObjHeaders[i].NumFaces;
part.PartInfo.Unk1 = 0x00400018;
part.PartInfo.Unk2 = 0x000EA550;
part.PartInfo.Unk3 = 0x000EA550;
part.PartInfo.Unk4_MW = 0;
part.PartInfo.Unk5_MW = 1;
part.PartInfo.Unk6_MW = part.PartInfo.TriangleCount;
//----- part data ----------
part.PartData.Flags = 0x000080 + /* 0x000100 */ +0x004000 /* + 0x010000*/;
part.PartData.GroupCount = subMeshList.Length;
part.PartData.Groups = new RealShadingGroup[subMeshList.Length];
int indexOffset = 0;
for (int j = 0; j < subMeshList.Length; j++)
{
SubMesh subMesh = subMeshList[j];
part.PartData.Groups[j] = new RealShadingGroup();
boundsMin = new RealVector4();
boundsMax = new RealVector4();
if (subMesh.VertexList.Count > 0)
{
RealVector3 v = ((RealVertex)subMesh.VertexList[0]).Position;
boundsMin.x = v.x;
boundsMin.y = v.y;
boundsMin.z = v.z;
boundsMax = boundsMin;
}
for (int k = 1; k < subMesh.VertexList.Count; k++)
{
RealVector3 v = ((RealVertex)subMesh.VertexList[k]).Position;
if (v.x > boundsMax.x)
{
boundsMax.x = v.x;
}
if (v.y > boundsMax.y)
{
boundsMax.y = v.y;
}
if (v.z > boundsMax.z)
{
boundsMax.z = v.z;
}
if (v.x < boundsMin.x)
{
boundsMin.x = v.x;
}
if (v.y < boundsMin.y)
{
boundsMin.y = v.y;
}
if (v.z < boundsMin.z)
{
boundsMin.z = v.z;
}
}
part.PartData.Groups[j].BoundsMax = new RealVector3(boundsMax.x, boundsMax.y, boundsMax.z);
part.PartData.Groups[j].BoundsMin = new RealVector3(boundsMin.x, boundsMin.y, boundsMin.z);
part.PartData.Groups[j].Length = subMesh.IndexList.Count;
part.PartData.Groups[j].TextureIndex0 = (byte)subMesh.TextureId;
part.PartData.Groups[j].TextureIndex1 = (byte)subMesh.TextureId;
part.PartData.Groups[j].TextureIndex2 = (byte)subMesh.TextureId;
part.PartData.Groups[j].TextureIndex3 = (byte)subMesh.TextureId;
part.PartData.Groups[j].TextureIndex4 = (byte)subMesh.TextureId;
part.PartData.Groups[j].ShaderIndex0 = (byte)subMesh.MaterialId;
part.PartData.Groups[j].Unk1 = 0x4;
part.PartData.Groups[j].Flags = part.PartData.Flags;
part.PartData.Groups[j].VertexCount = subMesh.VertexList.Count;
part.PartData.Groups[j].TriangleCount = subMesh.IndexList.Count / 3;
part.PartData.Groups[j].Offset = indexOffset;
indexOffset += subMesh.IndexList.Count;
}
// -- bit of partinfo here -- caclulate bounds
boundsMin = new RealVector4();
boundsMax = new RealVector4();
if (part.PartData.Groups.Length > 0)
{
RealVector3 v = part.PartData.Groups[0].BoundsMin;
boundsMin.x = v.x;
boundsMin.y = v.y;
boundsMin.z = v.z;
v = part.PartData.Groups[0].BoundsMax;
boundsMax.x = v.x;
boundsMax.y = v.y;
boundsMax.z = v.z;
}
for (int j = 1; j < part.PartData.Groups.Length; j++)
{
RealVector3 v = part.PartData.Groups[j].BoundsMax;
if (v.x > boundsMax.x)
{
boundsMax.x = v.x;
}
if (v.y > boundsMax.y)
{
boundsMax.y = v.y;
}
if (v.z > boundsMax.z)
{
boundsMax.z = v.z;
}
v = part.PartData.Groups[j].BoundsMin;
if (v.x < boundsMin.x)
{
boundsMin.x = v.x;
}
if (v.y < boundsMin.y)
{
boundsMin.y = v.y;
}
if (v.z < boundsMin.z)
{
boundsMin.z = v.z;
}
}
part.PartInfo.BoundMax = boundsMax;
part.PartInfo.BoundMin = boundsMin;
// -- end --
part.PartData.IndexCount = indexOffset;
part.PartData.Indices = new ushort[indexOffset];
int vertexOffset = 0;
indexOffset = 0;
for (int j = 0; j < subMeshList.Length; j++)
{
for (int k = 0; k < subMeshList[j].IndexList.Count; k++)
{
part.PartData.Indices[indexOffset++] = (ushort)((ushort)subMeshList[j].IndexList[k] + vertexOffset);
}
vertexOffset += subMeshList[j].VertexList.Count;
}
part.PartData.TriangleCount = indexOffset / 3;
part.PartData.Unk1 = 0x12;
part.PartData.VBCount = 1;
part.PartData.Vertices = new RealVertex[vertexOffset];
vertexOffset = 0;
for (int j = 0; j < subMeshList.Length; j++)
{
for (int k = 0; k < subMeshList[j].VertexList.Count; k++)
{
part.PartData.Vertices[vertexOffset++] = (RealVertex)subMeshList[j].VertexList[k];
}
}
geom.AddPart(part);
}
Compiler.VerboseOutput(" + Complete.");
}
if (mountPointObjects.Count > 0)
{
Compiler.VerboseOutput("Merging mount points into base parts...");
if (basePartObjects.Count == 0)
{
Compiler.WarningOutput("Mount points provided without any base parts! Ignoring mount points.");
}
else
{
RealMountPoint[] mountPoints = new RealMountPoint[mountPointObjects.Count];
mountPointObjects.CopyTo(mountPoints);
foreach (RealGeometryPart part in basePartObjects)
{
part.PartInfo.MountPoints = mountPoints;
}
}
Compiler.VerboseOutput(" + Complete.");
}
Compiler.VerboseOutput("Collecting part cross links...");
LoadCrossLinks(geom);
geom.GeometryInfo.PartCount = geom.PartCount;
geom.GeometryInfo.Unk1 = 0x1D;
geom.GeometryInfo.Unk2 = 0x80;
geom.GeometryInfo.ClassType = new FixedLenString("DEFAULT", 0x20);
geom.GeometryInfo.RelFilePath = new FixedLenString("GEOMETRY.BIN", 0x38);
Compiler.VerboseOutput("Data successfully collected.");
return(geom);
}
static int Main(string[] args)
{
if (!Options.CollectOptions(args))
{
PrintBanner();
PrintUsage();
return(1);
}
else
{
//if (Options["nobanner"] == null)
PrintBanner();
VerboseOutput("Source: " + Options["source"]);
VerboseOutput("Target: " + Options["target"]);
Options.CollectExtraOptions();
VerboseOutput("X-Name: " + Options["xname"]);
VerboseOutput("Loading source...");
DataCollector dc = new DataCollector();
RealGeometryFile rgf = null;
FileInfo fileInfo = new FileInfo(Options["source"]);
if (fileInfo.Extension.ToLower() == ".mwr")
{
RawGeometryFile rg = new RawGeometryFile();
rg.Read(Options["source"]);
VerboseOutput("Collecting data [Most Wanted Raw]...");
try
{
rgf = dc.Collect(rg);
}
catch (Exception e)
{
ErrorOutput("Exception: " + e.Message);
return(1);
}
}
else if (fileInfo.Extension.ToLower() == ".ase")
{
AseFile ase = new AseFile();
try
{
ase.Open(Options["source"]);
}
catch (Exception e)
{
ErrorOutput("ASE Exception: " + e.Message);
return(1);
}
VerboseOutput("Collecting data [Ascii Scene Export]...");
try
{
rgf = dc.Collect(ase);
}
catch (Exception e)
{
ErrorOutput("Exception: " + e.Message);
}
}
else
{
ErrorOutput("Unsupported source file extension.");
return(1);
}
if (rgf == null)
{
ErrorOutput("Failed to collect data.");
return(1);
}
else
{
VerboseOutput("Writing target file...");
rgf.Save(Options["target"]);
VerboseOutput("Completed successfully.");
}
}
if (Options["nowait"] == null)
{
Console.WriteLine();
Console.WriteLine("Press any key to continue...");
Console.ReadLine();
}
return(0);
}
