public NJS_MESHSET(byte[] file, int address, uint imageBase, Dictionary <int, string> labels)
{
MaterialID = ByteConverter.ToUInt16(file, address);
PolyType = (Basic_PolyType)(MaterialID >> 0xE);
MaterialID &= 0x3FFF;
Poly[] polys = new Poly[ByteConverter.ToInt16(file, address + 2)];
int tmpaddr = (int)(ByteConverter.ToUInt32(file, address + 4) - imageBase);
if (labels.ContainsKey(tmpaddr))
{
PolyName = labels[tmpaddr];
}
else
{
PolyName = "poly_" + tmpaddr.ToString("X8");
}
int striptotal = 0;
for (int i = 0; i < polys.Length; i++)
{
polys[i] = SAModel.Poly.CreatePoly(PolyType, file, tmpaddr);
striptotal += polys[i].Indexes.Length;
tmpaddr += polys[i].Size;
}
Poly = new ReadOnlyCollection <Poly>(polys);
PAttr = ByteConverter.ToInt32(file, address + 8);
tmpaddr = ByteConverter.ToInt32(file, address + 0xC);
if (tmpaddr != 0)
{
tmpaddr = (int)unchecked ((uint)tmpaddr - imageBase);
if (labels.ContainsKey(tmpaddr))
{
PolyNormalName = labels[tmpaddr];
}
else
{
PolyNormalName = "polynormal_" + tmpaddr.ToString("X8");
}
PolyNormal = new Vertex[polys.Length];
for (int i = 0; i < polys.Length; i++)
{
PolyNormal[i] = new Vertex(file, tmpaddr);
tmpaddr += Vertex.Size;
}
}
else
{
PolyNormalName = "polynormal_" + Extensions.GenerateIdentifier();
}
tmpaddr = ByteConverter.ToInt32(file, address + 0x10);
if (tmpaddr != 0)
{
tmpaddr = (int)unchecked ((uint)tmpaddr - imageBase);
if (labels.ContainsKey(tmpaddr))
{
VColorName = labels[tmpaddr];
}
else
{
VColorName = "vcolor_" + tmpaddr.ToString("X8");
}
VColor = new Color[striptotal];
for (int i = 0; i < striptotal; i++)
{
VColor[i] = SAModel.VColor.FromBytes(file, tmpaddr);
tmpaddr += SAModel.VColor.Size(ColorType.ARGB8888_32);
}
}
else
{
VColorName = "vcolor_" + Extensions.GenerateIdentifier();
}
tmpaddr = ByteConverter.ToInt32(file, address + 0x14);
if (tmpaddr != 0)
{
tmpaddr = (int)unchecked ((uint)tmpaddr - imageBase);
if (labels.ContainsKey(tmpaddr))
{
UVName = labels[tmpaddr];
}
else
{
UVName = "uv_" + tmpaddr.ToString("X8");
}
UV = new UV[striptotal];
for (int i = 0; i < striptotal; i++)
{
UV[i] = new UV(file, tmpaddr);
tmpaddr += SAModel.UV.Size;
}
}
else
{
UVName = "uv_" + Extensions.GenerateIdentifier();
}
}
private List <MeshInfo> ProcessPolyList(string name, List <PolyChunk> strips, int start)
{
List <MeshInfo> result = new List <MeshInfo>();
for (int i = start; i < strips.Count; i++)
{
PolyChunk chunk = strips[i];
switch (chunk.Type)
{
case ChunkType.Bits_BlendAlpha:
{
PolyChunkBitsBlendAlpha c2 = (PolyChunkBitsBlendAlpha)chunk;
MaterialBuffer.SourceAlpha = c2.SourceAlpha;
MaterialBuffer.DestinationAlpha = c2.DestinationAlpha;
}
break;
case ChunkType.Bits_MipmapDAdjust:
break;
case ChunkType.Bits_SpecularExponent:
MaterialBuffer.Exponent = ((PolyChunkBitsSpecularExponent)chunk).SpecularExponent;
break;
case ChunkType.Bits_CachePolygonList:
byte cachenum = ((PolyChunkBitsCachePolygonList)chunk).List;
#if modellog
Extensions.Log("Caching Poly List " + name + "[" + (i + 1) + "] to cache #" + cachenum + Environment.NewLine);
#endif
PolyCache[cachenum] = new CachedPoly(name, strips, i + 1);
return(result);
case ChunkType.Bits_DrawPolygonList:
cachenum = ((PolyChunkBitsDrawPolygonList)chunk).List;
CachedPoly cached = PolyCache[cachenum];
#if modellog
Extensions.Log("Drawing Poly List " + cached.Name + "[" + cached.Index + "] from cache #" + cachenum + Environment.NewLine);
#endif
result.AddRange(ProcessPolyList(cached.Name, cached.Polys, cached.Index));
break;
case ChunkType.Tiny_TextureID:
case ChunkType.Tiny_TextureID2:
{
PolyChunkTinyTextureID c2 = (PolyChunkTinyTextureID)chunk;
MaterialBuffer.ClampU = c2.ClampU;
MaterialBuffer.ClampV = c2.ClampV;
MaterialBuffer.FilterMode = c2.FilterMode;
MaterialBuffer.FlipU = c2.FlipU;
MaterialBuffer.FlipV = c2.FlipV;
MaterialBuffer.SuperSample = c2.SuperSample;
MaterialBuffer.TextureID = c2.TextureID;
}
break;
case ChunkType.Material_Diffuse:
case ChunkType.Material_Ambient:
case ChunkType.Material_DiffuseAmbient:
case ChunkType.Material_Specular:
case ChunkType.Material_DiffuseSpecular:
case ChunkType.Material_AmbientSpecular:
case ChunkType.Material_DiffuseAmbientSpecular:
case ChunkType.Material_Diffuse2:
case ChunkType.Material_Ambient2:
case ChunkType.Material_DiffuseAmbient2:
case ChunkType.Material_Specular2:
case ChunkType.Material_DiffuseSpecular2:
case ChunkType.Material_AmbientSpecular2:
case ChunkType.Material_DiffuseAmbientSpecular2:
{
PolyChunkMaterial c2 = (PolyChunkMaterial)chunk;
MaterialBuffer.SourceAlpha = c2.SourceAlpha;
MaterialBuffer.DestinationAlpha = c2.DestinationAlpha;
if (c2.Diffuse.HasValue)
{
MaterialBuffer.DiffuseColor = c2.Diffuse.Value;
}
if (c2.Specular.HasValue)
{
MaterialBuffer.SpecularColor = c2.Specular.Value;
MaterialBuffer.Exponent = c2.SpecularExponent;
}
}
break;
case ChunkType.Strip_Strip:
case ChunkType.Strip_StripUVN:
case ChunkType.Strip_StripUVH:
case ChunkType.Strip_StripNormal:
case ChunkType.Strip_StripUVNNormal:
case ChunkType.Strip_StripUVHNormal:
case ChunkType.Strip_StripColor:
case ChunkType.Strip_StripUVNColor:
case ChunkType.Strip_StripUVHColor:
case ChunkType.Strip_Strip2:
case ChunkType.Strip_StripUVN2:
case ChunkType.Strip_StripUVH2:
{
PolyChunkStrip c2 = (PolyChunkStrip)chunk;
#if modellog
Extensions.Log("Strip " + c2.Type + Environment.NewLine);
#endif
MaterialBuffer.DoubleSided = c2.DoubleSide;
MaterialBuffer.EnvironmentMap = c2.EnvironmentMapping;
MaterialBuffer.FlatShading = c2.FlatShading;
MaterialBuffer.IgnoreLighting = c2.IgnoreLight;
MaterialBuffer.IgnoreSpecular = c2.IgnoreSpecular;
MaterialBuffer.UseAlpha = c2.UseAlpha;
bool hasVColor = false;
switch (chunk.Type)
{
case ChunkType.Strip_StripColor:
case ChunkType.Strip_StripUVNColor:
case ChunkType.Strip_StripUVHColor:
hasVColor = true;
break;
}
bool hasUV = false;
switch (chunk.Type)
{
case ChunkType.Strip_StripUVN:
case ChunkType.Strip_StripUVH:
case ChunkType.Strip_StripUVNColor:
case ChunkType.Strip_StripUVHColor:
case ChunkType.Strip_StripUVN2:
case ChunkType.Strip_StripUVH2:
hasUV = true;
break;
}
List <Poly> polys = new List <Poly>();
List <VertexData> verts = new List <VertexData>();
#if modellog
List <ushort> indexes = new List <ushort>();
#endif
foreach (PolyChunkStrip.Strip strip in c2.Strips)
{
#if modellog
indexes.AddRange(strip.Indexes);
#endif
Strip str = new Strip(strip.Indexes.Length, strip.Reversed);
for (int k = 0; k < strip.Indexes.Length; k++)
{
str.Indexes[k] = (ushort)verts.Count;
verts.Add(new VertexData(
VertexBuffer[strip.Indexes[k]].Position,
VertexBuffer[strip.Indexes[k]].Normal,
hasVColor ? (Color?)strip.VColors[k] : VertexBuffer[strip.Indexes[k]].Color,
hasUV ? strip.UVs[k] : null));
}
polys.Add(str);
}
#if modellog
indexes = new List <ushort>(System.Linq.Enumerable.Distinct(indexes));
indexes.Sort();
StringBuilder sb = new StringBuilder("Vertex Usage: ");
ushort ist = indexes[0];
for (int k = 0; k < indexes.Count - 1; k++)
{
if (indexes[k + 1] != indexes[k] + 1)
{
sb.Append(" " + ist);
if (indexes[k] != ist)
{
sb.Append("-" + indexes[k]);
}
ist = indexes[++k];
}
}
sb.Append(" " + ist);
if (indexes[indexes.Count - 1] != ist)
{
sb.Append("-" + indexes[indexes.Count - 1]);
}
sb.Append(Environment.NewLine);
Extensions.Log(sb.ToString());
#endif
result.Add(new MeshInfo(MaterialBuffer, polys.ToArray(), verts.ToArray(), hasUV, hasVColor));
MaterialBuffer = new NJS_MATERIAL(MaterialBuffer);
}
break;
}
}
return(result);
}
public LandTable(byte[] file, int address, uint imageBase, LandTableFormat format, Dictionary <int, string> labels)
{
Format = format;
if (labels.ContainsKey(address))
{
Name = labels[address];
}
else
{
Name = "landtable_" + address.ToString("X8");
}
short colcnt = ByteConverter.ToInt16(file, address);
Dictionary <int, Attach> attaches = new Dictionary <int, Attach>();
switch (format)
{
case LandTableFormat.SA1:
case LandTableFormat.SADX:
short anicnt = ByteConverter.ToInt16(file, address + 2);
Flags = ByteConverter.ToInt32(file, address + 4);
Unknown1 = ByteConverter.ToSingle(file, address + 8);
COL = new List <COL>();
int tmpaddr = ByteConverter.ToInt32(file, address + 0xC);
if (tmpaddr != 0)
{
tmpaddr = (int)unchecked ((uint)tmpaddr - imageBase);
if (labels.ContainsKey(tmpaddr))
{
COLName = labels[tmpaddr];
}
else
{
COLName = "collist_" + tmpaddr.ToString("X8");
}
for (int i = 0; i < colcnt; i++)
{
COL.Add(new COL(file, tmpaddr, imageBase, format, labels, attaches));
tmpaddr += SAModel.COL.Size(format);
}
}
else
{
COLName = "collist_" + Extensions.GenerateIdentifier();
}
Anim = new List <GeoAnimData>();
tmpaddr = ByteConverter.ToInt32(file, address + 0x10);
if (tmpaddr != 0)
{
tmpaddr = (int)unchecked ((uint)tmpaddr - imageBase);
if (labels.ContainsKey(tmpaddr))
{
AnimName = labels[tmpaddr];
}
else
{
AnimName = "animlist_" + tmpaddr.ToString("X8");
}
for (int i = 0; i < anicnt; i++)
{
Anim.Add(new GeoAnimData(file, tmpaddr, imageBase, format, labels, attaches));
tmpaddr += GeoAnimData.Size;
}
}
else
{
AnimName = "animlist_" + Extensions.GenerateIdentifier();
}
tmpaddr = ByteConverter.ToInt32(file, address + 0x14);
if (tmpaddr != 0)
{
tmpaddr = (int)unchecked ((uint)tmpaddr - imageBase);
TextureFileName = file.GetCString(tmpaddr, Encoding.ASCII);
}
TextureList = ByteConverter.ToUInt32(file, address + 0x18);
Unknown2 = ByteConverter.ToInt32(file, address + 0x1C);
Unknown3 = ByteConverter.ToInt32(file, address + 0x20);
break;
case LandTableFormat.SA2:
case LandTableFormat.SA2B:
short cnkcnt = ByteConverter.ToInt16(file, address + 2);
Unknown1 = ByteConverter.ToSingle(file, address + 0xC);
COL = new List <COL>();
tmpaddr = ByteConverter.ToInt32(file, address + 0x10);
if (tmpaddr != 0)
{
tmpaddr = (int)unchecked ((uint)tmpaddr - imageBase);
if (labels.ContainsKey(tmpaddr))
{
COLName = labels[tmpaddr];
}
else
{
COLName = "collist_" + tmpaddr.ToString("X8");
}
for (int i = 0; i < colcnt; i++)
{
COL.Add(new COL(file, tmpaddr, imageBase, format, labels, cnkcnt < 0 ? null : (bool?)(i >= cnkcnt), attaches));
tmpaddr += SAModel.COL.Size(format);
}
}
else
{
COLName = "collist_" + Extensions.GenerateIdentifier();
}
Anim = new List <GeoAnimData>();
AnimName = "animlist_" + Extensions.GenerateIdentifier();
tmpaddr = ByteConverter.ToInt32(file, address + 0x18);
if (tmpaddr != 0)
{
tmpaddr = (int)unchecked ((uint)tmpaddr - imageBase);
TextureFileName = file.GetCString(tmpaddr, Encoding.ASCII);
}
TextureList = ByteConverter.ToUInt32(file, address + 0x1C);
break;
}
Metadata = new Dictionary <uint, byte[]>();
}
public ChunkAttach()
{
Name = "attach_" + Extensions.GenerateIdentifier();
Bounds = new BoundingSphere();
}
