public EventEntity(byte[] file, int address, uint imageBase, bool battle, Dictionary <string, NJS_OBJECT> models, List <NJS_MOTION> motions)
{
Model = Event.GetModel(file, address, imageBase, models);
if (battle)
{
Motion = motions[ByteConverter.ToInt32(file, address + 4)];
ShapeMotion = motions[ByteConverter.ToInt32(file, address + 8)];
GCModel = Event.GetGCModel(file, address + 12, imageBase, models);
ShadowModel = Event.GetModel(file, address + 16, imageBase, models);
Position = new Vertex(file, address + 24);
Flags = ByteConverter.ToUInt32(file, address + 36);
Layer = ByteConverter.ToUInt32(file, address + 40);
}
else
{
int ptr = file.GetPointer(address + 4, imageBase);
if (ptr != 0)
{
Motion = new NJS_MOTION(file, ptr, imageBase, Model.CountAnimated());
}
ptr = file.GetPointer(address + 8, imageBase);
if (ptr != 0)
{
ShapeMotion = new NJS_MOTION(file, ptr, imageBase, Model.CountMorph());
}
Position = new Vertex(file, address + 16);
Flags = ByteConverter.ToUInt32(file, address + 28);
}
}
// Scan for Actions in a specific range
static int ScanActions(uint addr, uint nummdl, ModelFormat modelfmt)
{
int count = 0;
ByteConverter.BigEndian = BigEndian;
if (nummdl == 0)
{
return(0);
}
for (uint address = addr; address < datafile.Length - 8; address += 1)
{
CurrentAddress = address;
if (CancelScan)
{
break;
}
if (ByteConverter.ToUInt32(datafile, (int)address) != addr + ImageBase)
{
continue;
}
uint motaddr = ByteConverter.ToUInt32(datafile, (int)address + 4);
if (motaddr < ImageBase)
{
continue;
}
try
{
NJS_MOTION mot = new NJS_MOTION(datafile, (int)(motaddr - ImageBase), ImageBase, (int)nummdl, null, false);
if (mot.Models.Count == 0)
{
continue;
}
addresslist.Add(motaddr - ImageBase, "NJS_MOTION");
Console.WriteLine("\rMotion found for model {0} at address {1}", addr.ToString("X8"), (motaddr - ImageBase).ToString("X"));
string fileOutputPath = Path.Combine(OutputFolder, "actions", (motaddr - ImageBase).ToString("X8"));
if (SingleOutputFolder)
{
fileOutputPath = Path.Combine(OutputFolder, (motaddr - ImageBase).ToString("X8"));
}
mot.Save(fileOutputPath + ".saanim", NoMeta);
uint[] arr = new uint[2];
arr[0] = addr;
arr[1] = nummdl;
actionlist.Add(motaddr - ImageBase, arr);
AddAction(addr, motaddr - ImageBase);
address += 7;
count++;
}
catch (Exception)
{
continue;
}
}
return(count);
}
public EventScene(byte[] file, int address, uint imageBase, bool battle, Dictionary <string, NJS_OBJECT> models, List <NJS_MOTION> motions)
{
int ptr = file.GetPointer(address, imageBase);
if (ptr != 0)
{
int cnt = ByteConverter.ToInt32(file, address + 4);
Entities = new List <EventEntity>(cnt);
for (int i = 0; i < cnt; i++)
{
Entities.Add(new EventEntity(file, ptr, imageBase, battle, models, motions));
ptr += EventEntity.Size(battle);
}
}
ptr = file.GetPointer(address + 8, imageBase);
if (ptr != 0)
{
int cnt = ByteConverter.ToInt32(file, address + 12);
CameraMotions = new List <NJS_MOTION>(cnt);
for (int i = 0; i < cnt; i++)
{
if (battle)
{
CameraMotions.Add(motions[ByteConverter.ToInt32(file, ptr)]);
}
else
{
CameraMotions.Add(new NJS_MOTION(file, file.GetPointer(ptr, imageBase), imageBase, 1));
}
ptr += sizeof(int);
}
}
ptr = file.GetPointer(address + 24, imageBase);
if (ptr != 0)
{
Big = new EventBig(file, ptr, imageBase, battle, models, motions);
}
FrameCount = ByteConverter.ToInt32(file, address + 28);
}
public static List <NJS_MOTION> ReadMotionFile(string filename)
{
List <NJS_MOTION> motions = new List <NJS_MOTION>();
byte[] fc = File.ReadAllBytes(filename);
int addr = 0;
while (ByteConverter.ToInt64(fc, addr) != 0)
{
int ptr = ByteConverter.ToInt32(fc, addr);
if (ptr == -1)
{
motions.Add(null);
}
else
{
motions.Add(new NJS_MOTION(fc, ptr, 0, ByteConverter.ToInt32(fc, addr + 4)));
}
addr += 8;
}
return(motions);
}
public byte[] GetBytes(uint imageBase, LandTableFormat format, Dictionary <string, uint> labels, out uint address)
{
List <byte> result = new List <byte>();
byte[] tmpbyte;
uint[] colmdladdrs = new uint[COL.Count];
uint tmpaddr;
List <COL> cnk = new List <COL>();
List <COL> bas = new List <COL>();
foreach (COL item in COL)
{
if (item.Model.Attach is BasicAttach)
{
bas.Add(item);
}
else
{
cnk.Add(item);
}
}
COL.Clear();
COL.AddRange(cnk);
COL.AddRange(bas);
for (int i = 0; i < COL.Count; i++)
{
if (labels.ContainsKey(COL[i].Model.Name))
{
colmdladdrs[i] = labels[COL[i].Model.Name];
}
else
{
result.Align(4);
tmpbyte = COL[i].Model.GetBytes(imageBase + (uint)result.Count, format == LandTableFormat.SADX, labels, new List <uint>(), out tmpaddr);
colmdladdrs[i] = tmpaddr + (uint)result.Count + imageBase;
result.AddRange(tmpbyte);
}
}
uint[] animmdladdrs = new uint[Anim.Count];
uint[] animaniaddrs = new uint[Anim.Count];
for (int i = 0; i < Anim.Count; i++)
{
if (labels.ContainsKey(Anim[i].Model.Name))
{
animmdladdrs[i] = labels[Anim[i].Model.Name];
}
else
{
result.Align(4);
tmpbyte = Anim[i].Model.GetBytes(imageBase + (uint)result.Count, format == LandTableFormat.SADX, labels, new List <uint>(),
out tmpaddr);
animmdladdrs[i] = tmpaddr + (uint)result.Count + imageBase;
result.AddRange(tmpbyte);
}
uint mtnaddr;
if (labels.ContainsKey(Anim[i].Animation.Name))
{
mtnaddr = labels[Anim[i].Animation.Name];
}
else
{
result.Align(4);
tmpbyte = Anim[i].Animation.GetBytes(imageBase + (uint)result.Count, labels, out tmpaddr);
mtnaddr = tmpaddr + (uint)result.Count + imageBase;
result.AddRange(tmpbyte);
}
result.Align(4);
animaniaddrs[i] = (uint)result.Count + imageBase;
result.AddRange(ByteConverter.GetBytes(animmdladdrs[i]));
result.AddRange(ByteConverter.GetBytes(mtnaddr));
}
uint coladdr;
if (COL.Count > 0)
{
if (labels.ContainsKey(COLName))
{
coladdr = labels[COLName];
}
else
{
coladdr = imageBase + (uint)result.Count;
labels.Add(COLName, coladdr);
for (int i = 0; i < COL.Count; i++)
{
result.Align(4);
result.AddRange(COL[i].GetBytes(imageBase + (uint)result.Count, colmdladdrs[i], format));
}
}
}
else
{
coladdr = 0;
}
uint animaddr;
if (Anim.Count > 0)
{
if (labels.ContainsKey(AnimName))
{
animaddr = labels[AnimName];
}
else
{
animaddr = imageBase + (uint)result.Count;
if (!labels.ContainsKey(AnimName))
{
labels.Add(AnimName, animaddr);
}
for (int i = 0; i < Anim.Count; i++)
{
if (!labels.ContainsValue(animaniaddrs[i]))
{
labels.Add(Anim[i].Animation.ActionName, animaniaddrs[i]);
}
result.Align(4);
result.AddRange(Anim[i].GetBytes(imageBase + (uint)result.Count, animmdladdrs[i], animaniaddrs[i]));
}
}
}
else
{
animaddr = 0;
}
result.Align(4);
uint texnameaddr = 0;
if (TextureFileName != null)
{
texnameaddr = imageBase + (uint)result.Count;
result.AddRange(Encoding.ASCII.GetBytes(TextureFileName));
result.Add(0);
}
result.Align(4);
address = (uint)result.Count;
result.AddRange(ByteConverter.GetBytes((ushort)COL.Count));
switch (format)
{
case LandTableFormat.SA1:
case LandTableFormat.SADX:
result.AddRange(ByteConverter.GetBytes((ushort)Anim.Count));
result.AddRange(ByteConverter.GetBytes((short)Attributes));
result.AddRange(ByteConverter.GetBytes(Flags));
result.AddRange(ByteConverter.GetBytes(FarClipping));
result.AddRange(ByteConverter.GetBytes(coladdr));
result.AddRange(ByteConverter.GetBytes(animaddr));
result.AddRange(ByteConverter.GetBytes(texnameaddr));
result.AddRange(ByteConverter.GetBytes(TextureList));
result.AddRange(ByteConverter.GetBytes(BinaryFilename));
result.AddRange(ByteConverter.GetBytes(BinaryLoadFunction));
break;
case LandTableFormat.SA2:
case LandTableFormat.SA2B:
result.AddRange(ByteConverter.GetBytes((ushort)cnk.Count));
result.AddRange(new byte[8]); // TODO: figure out what these do
result.AddRange(ByteConverter.GetBytes(FarClipping));
result.AddRange(ByteConverter.GetBytes(coladdr));
result.AddRange(ByteConverter.GetBytes(animaddr));
result.AddRange(ByteConverter.GetBytes(texnameaddr));
result.AddRange(ByteConverter.GetBytes(TextureList));
break;
}
labels.Add(Name, address + imageBase);
return(result.ToArray());
}
public static LandTable LoadFromFile(string filename)
{
bool be = ByteConverter.BigEndian;
ByteConverter.BigEndian = false;
byte[] file = File.ReadAllBytes(filename);
ulong magic = ByteConverter.ToUInt64(file, 0) & FormatMask;
byte version = file[7];
if (version > CurrentVersion)
{
throw new FormatException("Not a valid SA1LVL/SA2LVL file.");
}
Dictionary <int, string> labels = new Dictionary <int, string>();
string author = null, description = null;
Dictionary <uint, byte[]> meta = new Dictionary <uint, byte[]>();
if (version < 2)
{
if (version == 1)
{
int tmpaddr = ByteConverter.ToInt32(file, 0xC);
if (tmpaddr != 0)
{
int addr = ByteConverter.ToInt32(file, tmpaddr);
while (addr != -1)
{
labels.Add(addr, file.GetCString(ByteConverter.ToInt32(file, tmpaddr + 4)));
tmpaddr += 8;
addr = ByteConverter.ToInt32(file, tmpaddr);
}
}
}
}
else
{
int tmpaddr = ByteConverter.ToInt32(file, 0xC);
if (tmpaddr != 0)
{
bool finished = false;
while (!finished)
{
ChunkTypes type = (ChunkTypes)ByteConverter.ToUInt32(file, tmpaddr);
int chunksz = ByteConverter.ToInt32(file, tmpaddr + 4);
int nextchunk = tmpaddr + 8 + chunksz;
tmpaddr += 8;
if (version == 2)
{
switch (type)
{
case ChunkTypes.Label:
while (ByteConverter.ToInt64(file, tmpaddr) != -1)
{
labels.Add(ByteConverter.ToInt32(file, tmpaddr), file.GetCString(ByteConverter.ToInt32(file, tmpaddr + 4)));
tmpaddr += 8;
}
break;
case ChunkTypes.Author:
author = file.GetCString(tmpaddr);
break;
case ChunkTypes.Tool:
break;
case ChunkTypes.Description:
description = file.GetCString(tmpaddr);
break;
case ChunkTypes.End:
finished = true;
break;
}
}
else
{
byte[] chunk = new byte[chunksz];
Array.Copy(file, tmpaddr, chunk, 0, chunksz);
int chunkaddr = 0;
switch (type)
{
case ChunkTypes.Label:
while (ByteConverter.ToInt64(chunk, chunkaddr) != -1)
{
labels.Add(ByteConverter.ToInt32(chunk, chunkaddr),
chunk.GetCString(ByteConverter.ToInt32(chunk, chunkaddr + 4)));
chunkaddr += 8;
}
break;
case ChunkTypes.Author:
author = chunk.GetCString(0);
break;
case ChunkTypes.Tool:
break;
case ChunkTypes.Description:
description = chunk.GetCString(0);
break;
case ChunkTypes.End:
finished = true;
break;
default:
meta.Add((uint)type, chunk);
break;
}
}
tmpaddr = nextchunk;
}
}
}
if (magic == SA1LVL)
{
LandTable table = new LandTable(file, ByteConverter.ToInt32(file, 8), 0, LandTableFormat.SA1, labels)
{
Author = author,
Description = description,
Metadata = meta
};
ByteConverter.BigEndian = be;
return(table);
}
if (magic == SA2LVL)
{
LandTable table = new LandTable(file, ByteConverter.ToInt32(file, 8), 0, LandTableFormat.SA2, labels)
{
Author = author,
Description = description,
Metadata = meta
};
ByteConverter.BigEndian = be;
return(table);
}
if (magic == SA2BLVL)
{
LandTable table = new LandTable(file, ByteConverter.ToInt32(file, 8), 0, LandTableFormat.SA2B, labels)
{
Author = author,
Description = description,
Metadata = meta
};
ByteConverter.BigEndian = be;
return(table);
}
ByteConverter.BigEndian = be;
throw new FormatException("Not a valid SA1LVL/SA2LVL file.");
}
public BasicAttach(byte[] file, int address, uint imageBase, bool DX, Dictionary <int, string> labels)
: this()
{
if (labels.ContainsKey(address))
{
Name = labels[address];
}
else
{
Name = "attach_" + address.ToString("X8");
}
Vertex = new Vertex[ByteConverter.ToInt32(file, address + 8)];
Normal = new Vertex[Vertex.Length];
int tmpaddr = (int)(ByteConverter.ToUInt32(file, address) - imageBase);
if (labels.ContainsKey(tmpaddr))
{
VertexName = labels[tmpaddr];
}
else
{
VertexName = "vertex_" + tmpaddr.ToString("X8");
}
for (int i = 0; i < Vertex.Length; i++)
{
Vertex[i] = new Vertex(file, tmpaddr);
tmpaddr += SAModel.Vertex.Size;
}
tmpaddr = ByteConverter.ToInt32(file, address + 4);
if (tmpaddr != 0)
{
tmpaddr = (int)((uint)tmpaddr - imageBase);
if (labels.ContainsKey(tmpaddr))
{
NormalName = labels[tmpaddr];
}
else
{
NormalName = "normal_" + tmpaddr.ToString("X8");
}
for (int i = 0; i < Vertex.Length; i++)
{
Normal[i] = new Vertex(file, tmpaddr);
tmpaddr += SAModel.Vertex.Size;
}
}
else
{
for (int i = 0; i < Vertex.Length; i++)
{
Normal[i] = new Vertex(0, 1, 0);
}
}
int maxmat = -1;
int meshcnt = ByteConverter.ToInt16(file, address + 0x14);
tmpaddr = ByteConverter.ToInt32(file, address + 0xC);
if (tmpaddr != 0)
{
tmpaddr = (int)unchecked ((uint)tmpaddr - imageBase);
if (labels.ContainsKey(tmpaddr))
{
MeshName = labels[tmpaddr];
}
else
{
MeshName = "meshlist_" + tmpaddr.ToString("X8");
}
for (int i = 0; i < meshcnt; i++)
{
Mesh.Add(new NJS_MESHSET(file, tmpaddr, imageBase, labels));
maxmat = Math.Max(maxmat, Mesh[i].MaterialID);
tmpaddr += NJS_MESHSET.Size(DX);
}
}
// fixes case where model declares material array as shorter than it really is
int matcnt = Math.Max(ByteConverter.ToInt16(file, address + 0x16), maxmat + 1);
tmpaddr = ByteConverter.ToInt32(file, address + 0x10);
if (tmpaddr != 0)
{
tmpaddr = (int)unchecked ((uint)tmpaddr - imageBase);
if (labels.ContainsKey(tmpaddr))
{
MaterialName = labels[tmpaddr];
}
else
{
MaterialName = "matlist_" + tmpaddr.ToString("X8");
}
for (int i = 0; i < matcnt; i++)
{
Material.Add(new NJS_MATERIAL(file, tmpaddr, labels));
tmpaddr += NJS_MATERIAL.Size;
}
}
Bounds = new BoundingSphere(file, address + 0x18);
}
public override byte[] GetBytes(uint imageBase, bool DX, Dictionary <string, uint> labels, List <uint> njOffsets, out uint address)
{
List <byte> result = new List <byte>();
uint materialAddress = 0;
if (Material != null && Material.Count > 0)
{
if (labels.ContainsKey(MaterialName))
{
materialAddress = labels[MaterialName];
}
else
{
materialAddress = imageBase;
labels.Add(MaterialName, materialAddress);
foreach (NJS_MATERIAL item in Material)
{
result.AddRange(item.GetBytes());
}
}
}
uint meshAddress;
if (labels.ContainsKey(MeshName))
{
meshAddress = labels[MeshName];
}
else
{
uint[] polyAddrs = new uint[Mesh.Count];
uint[] polyNormalAddrs = new uint[Mesh.Count];
uint[] vColorAddrs = new uint[Mesh.Count];
uint[] uVAddrs = new uint[Mesh.Count];
for (int i = 0; i < Mesh.Count; i++)
{
if (labels.ContainsKey(Mesh[i].PolyName))
{
polyAddrs[i] = labels[Mesh[i].PolyName];
}
else
{
result.Align(4);
polyAddrs[i] = (uint)result.Count + imageBase;
labels.Add(Mesh[i].PolyName, polyAddrs[i]);
for (int j = 0; j < Mesh[i].Poly.Count; j++)
{
result.AddRange(Mesh[i].Poly[j].GetBytes());
}
}
}
for (int i = 0; i < Mesh.Count; i++)
{
if (Mesh[i].PolyNormal != null && Mesh[i].PolyNormal.Length > 0)
{
if (labels.ContainsKey(Mesh[i].PolyNormalName))
{
polyNormalAddrs[i] = labels[Mesh[i].PolyNormalName];
}
else
{
result.Align(4);
polyNormalAddrs[i] = (uint)result.Count + imageBase;
labels.Add(Mesh[i].PolyNormalName, polyNormalAddrs[i]);
for (int j = 0; j < Mesh[i].PolyNormal.Length; j++)
{
result.AddRange(Mesh[i].PolyNormal[j].GetBytes());
}
}
}
}
for (int i = 0; i < Mesh.Count; i++)
{
if (Mesh[i].VColor != null && Mesh[i].VColor.Length > 0)
{
if (labels.ContainsKey(Mesh[i].VColorName))
{
vColorAddrs[i] = labels[Mesh[i].VColorName];
}
else
{
result.Align(4);
vColorAddrs[i] = (uint)result.Count + imageBase;
labels.Add(Mesh[i].VColorName, vColorAddrs[i]);
for (int j = 0; j < Mesh[i].VColor.Length; j++)
{
result.AddRange(VColor.GetBytes(Mesh[i].VColor[j]));
}
}
}
}
for (int i = 0; i < Mesh.Count; i++)
{
if (Mesh[i].UV != null && Mesh[i].UV.Length > 0)
{
if (labels.ContainsKey(Mesh[i].UVName))
{
uVAddrs[i] = labels[Mesh[i].UVName];
}
else
{
result.Align(4);
uVAddrs[i] = (uint)result.Count + imageBase;
labels.Add(Mesh[i].UVName, uVAddrs[i]);
for (int j = 0; j < Mesh[i].UV.Length; j++)
{
result.AddRange(Mesh[i].UV[j].GetBytes());
}
}
}
}
result.Align(4);
meshAddress = (uint)result.Count + imageBase;
labels.Add(MeshName, meshAddress);
for (int i = 0; i < Mesh.Count; i++)
{
//POF0
if (polyAddrs[i] != 0)
{
njOffsets.Add((uint)(result.Count + imageBase + 0x4));
}
if (polyNormalAddrs[i] != 0)
{
njOffsets.Add((uint)(result.Count + imageBase + 0xC));
}
if (vColorAddrs[i] != 0)
{
njOffsets.Add((uint)(result.Count + imageBase + 0x10));
}
if (uVAddrs[i] != 0)
{
njOffsets.Add((uint)(result.Count + imageBase + 0x14));
}
result.AddRange(Mesh[i].GetBytes(polyAddrs[i], polyNormalAddrs[i], vColorAddrs[i], uVAddrs[i], DX));
}
}
result.Align(4);
uint vertexAddress;
if (labels.ContainsKey(VertexName))
{
vertexAddress = labels[VertexName];
}
else
{
vertexAddress = (uint)result.Count + imageBase;
labels.Add(VertexName, vertexAddress);
foreach (Vertex item in Vertex)
{
if (item == null)
{
result.AddRange(new byte[SAModel.Vertex.Size]);
}
else
{
result.AddRange(item.GetBytes());
}
}
}
result.Align(4);
uint normalAddress;
if (labels.ContainsKey(NormalName))
{
normalAddress = labels[NormalName];
}
else
{
normalAddress = (uint)result.Count + imageBase;
labels.Add(NormalName, normalAddress);
foreach (Vertex item in Normal)
{
if (item == null)
{
result.AddRange(new byte[SAModel.Vertex.Size]);
}
else
{
result.AddRange(item.GetBytes());
}
}
}
result.Align(4);
address = (uint)result.Count;
//POF0
if (vertexAddress != 0)
{
njOffsets.Add((uint)(result.Count + imageBase));
}
if (normalAddress != 0)
{
njOffsets.Add((uint)(result.Count + imageBase + 0x4));
}
if (meshAddress != 0)
{
njOffsets.Add((uint)(result.Count + imageBase + 0xC));
}
if (materialAddress != 0)
{
njOffsets.Add((uint)(result.Count + imageBase + 0x10));
}
result.AddRange(ByteConverter.GetBytes(vertexAddress));
result.AddRange(ByteConverter.GetBytes(normalAddress));
result.AddRange(ByteConverter.GetBytes(Vertex.Length));
result.AddRange(ByteConverter.GetBytes(meshAddress));
result.AddRange(ByteConverter.GetBytes(materialAddress));
result.AddRange(ByteConverter.GetBytes((short)Mesh.Count));
result.AddRange(ByteConverter.GetBytes((short)Material.Count));
result.AddRange(Bounds.GetBytes());
if (DX)
{
result.AddRange(new byte[4]);
}
labels.Add(Name, address + imageBase);
return(result.ToArray());
}
public override byte[] GetBytes()
{
return(ByteConverter.GetBytes(Header));
}
// Scan for Motions
static void ScanMotions()
{
CurrentStep++;
CurrentScanData = "Motions" + (ModelParts > 0 ? " with " + ModelParts.ToString() + " or more nodes" : "");
Console.WriteLine("Step {0}: Scanning for motions with at least {1} model parts... ", CurrentStep, ModelParts);
if (ShortRot)
{
Console.WriteLine("Using short rotations");
}
ByteConverter.BigEndian = BigEndian;
if (!SingleOutputFolder)
{
Directory.CreateDirectory(Path.Combine(OutputFolder, "actions"));
}
for (uint address = StartAddress; address < EndAddress; address += 1)
{
if (CancelScan)
{
break;
}
if (ConsoleMode && address % 1000 == 0)
{
Console.Write("\r{0} ", address.ToString("X8"));
}
CurrentAddress = address;
// Check for a valid MDATA pointer
uint mdatap = ByteConverter.ToUInt32(datafile, (int)address);
if (mdatap < ImageBase || mdatap >= datafile.Length - 12 + ImageBase || mdatap == 0)
{
//Console.WriteLine("Mdatap {0} fail", mdatap.ToString("X8"));
continue;
}
uint frames = ByteConverter.ToUInt32(datafile, (int)address + 4);
if (frames > 2000 || frames < 1)
{
//Console.WriteLine("Frames {0} fail", frames.ToString());
continue;
}
AnimFlags animtype = (AnimFlags)ByteConverter.ToUInt16(datafile, (int)address + 8);
if (animtype == 0)
{
continue;
}
int mdata = 0;
//Console.WriteLine("Flags: {0}", animtype.ToString());
if (animtype.HasFlag(AnimFlags.Position))
{
mdata++;
}
if (animtype.HasFlag(AnimFlags.Rotation))
{
mdata++;
}
if (animtype.HasFlag(AnimFlags.Scale))
{
mdata++;
}
if (animtype.HasFlag(AnimFlags.Vector))
{
mdata++;
}
if (animtype.HasFlag(AnimFlags.Vertex))
{
mdata++;
}
if (animtype.HasFlag(AnimFlags.Normal))
{
mdata++;
}
if (animtype.HasFlag(AnimFlags.Color))
{
continue;
}
if (animtype.HasFlag(AnimFlags.Intensity))
{
continue;
}
if (animtype.HasFlag(AnimFlags.Target))
{
continue;
}
if (animtype.HasFlag(AnimFlags.Spot))
{
continue;
}
if (animtype.HasFlag(AnimFlags.Point))
{
continue;
}
if (animtype.HasFlag(AnimFlags.Roll))
{
continue;
}
int mdatasize = 0;
bool lost = false;
switch (mdata)
{
case 1:
case 2:
mdatasize = 16;
break;
case 3:
mdatasize = 24;
break;
case 4:
mdatasize = 32;
break;
case 5:
mdatasize = 40;
break;
default:
lost = true;
break;
}
if (lost)
{
continue;
}
// Check MKEY pointers
int mdatas = 0;
for (int u = 0; u < 255; u++)
{
for (int m = 0; m < mdata; m++)
{
if (lost)
{
continue;
}
uint pointer = ByteConverter.ToUInt32(datafile, (int)(mdatap - ImageBase) + mdatasize * u + 4 * m);
if (pointer < ImageBase || pointer >= datafile.Length - 8 + ImageBase)
{
if (pointer != 0)
{
lost = true;
//Console.WriteLine("Mkey pointer {0} lost", pointer.ToString("X8"));
}
}
if (!lost)
{
// Read frame count
int framecount = ByteConverter.ToInt32(datafile, (int)(mdatap - ImageBase) + mdatasize * u + 4 * mdata + 4 * m);
if (framecount < 0 || framecount > 2000)
{
//Console.WriteLine("Framecount lost: {0}", framecount.ToString("X8"));
lost = true;
}
if (pointer == 0 && framecount != 0)
{
//Console.WriteLine("Framecount non zero");
lost = true;
}
//if (!lost) Console.WriteLine("Mdata size: {0}, MkeyP: {1}, Frames: {2}", mdatasize, pointer.ToString("X8"), framecount.ToString());
}
}
if (!lost)
{
mdatas++;
//Console.WriteLine("Mdata {0}, total {1}", u, mdatas);
}
}
if (mdatas > 0 && mdatas >= ModelParts)
{
try
{
Console.WriteLine("\rAdding motion at {0}: {1} nodes", address.ToString("X8"), mdatas);
//Console.WriteLine("trying Address: {0}, MdataP: {1}, mdatas: {2}", address.ToString("X8"), mdatap.ToString("X8"), mdata);
NJS_MOTION mot = NJS_MOTION.ReadDirect(datafile, mdatas, (int)address, ImageBase, new Dictionary <int, Attach>(), ShortRot);
if (mot.ModelParts <= 0)
{
continue;
}
if (mot.Frames <= 0)
{
continue;
}
if (mot.Models.Count == 0)
{
continue;
}
string fileOutputPath = Path.Combine(OutputFolder, "actions", address.ToString("X8") + ".saanim");
if (SingleOutputFolder)
{
fileOutputPath = Path.Combine(OutputFolder, address.ToString("X8") + ".saanim");
}
mot.Save(fileOutputPath, NoMeta);
FoundMotions++;
addresslist.Add(address, "NJS_MOTION");
uint[] arr = new uint[2];
arr[0] = address;
arr[1] = (uint)mot.ModelParts;
actionlist.Add(address, arr);
}
catch (Exception ex)
{
Console.WriteLine("\rError adding motion at {0}: {1}", address.ToString("X8"), ex.Message);
}
}
}
Console.WriteLine("\rFound {0} motions", FoundMotions);
}
public static PolyChunk Load(byte[] file, int address)
{
ChunkType type = (ChunkType)(ByteConverter.ToUInt16(file, address) & 0xFF);
switch (type)
{
case ChunkType.Null:
return(new PolyChunkNull(file, address));
case ChunkType.Bits_BlendAlpha:
return(new PolyChunkBitsBlendAlpha(file, address));
case ChunkType.Bits_MipmapDAdjust:
return(new PolyChunkBitsMipmapDAdjust(file, address));
case ChunkType.Bits_SpecularExponent:
return(new PolyChunkBitsSpecularExponent(file, address));
case ChunkType.Bits_CachePolygonList:
return(new PolyChunkBitsCachePolygonList(file, address));
case ChunkType.Bits_DrawPolygonList:
return(new PolyChunkBitsDrawPolygonList(file, address));
case ChunkType.Tiny_TextureID:
case ChunkType.Tiny_TextureID2:
return(new PolyChunkTinyTextureID(file, address));
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:
return(new PolyChunkMaterial(file, address));
case ChunkType.Material_Bump:
return(new PolyChunkMaterialBump(file, address));
case ChunkType.Volume_Polygon3:
case ChunkType.Volume_Polygon4:
case ChunkType.Volume_Strip:
return(new PolyChunkVolume(file, address));
case ChunkType.Strip_Strip:
case ChunkType.Strip_StripUVN:
case ChunkType.Strip_StripUVH:
case ChunkType.Strip_StripColor:
case ChunkType.Strip_StripUVNColor:
case ChunkType.Strip_StripUVHColor:
case ChunkType.Strip_Strip2:
case ChunkType.Strip_StripUVN2:
case ChunkType.Strip_StripUVH2:
return(new PolyChunkStrip(file, address));
case ChunkType.End:
return(new PolyChunkEnd(file, address));
default:
throw new NotSupportedException("Unsupported chunk type " + type + " at " + address.ToString("X8") + ".");
}
}
public PolyChunkTinyTextureID(byte[] file, int address)
{
Header = ByteConverter.ToUInt16(file, address);
Second = Type == ChunkType.Tiny_TextureID2;
Data = ByteConverter.ToUInt16(file, address + 2);
}
public PolyChunkBitsSpecularExponent(byte[] file, int address)
{
Header = ByteConverter.ToUInt16(file, address);
}
public PolyChunkBitsDrawPolygonList(byte[] file, int address)
{
Header = ByteConverter.ToUInt16(file, address);
}
public PolyChunkBitsMipmapDAdjust(byte[] file, int address)
{
Header = ByteConverter.ToUInt16(file, address);
}
public PolyChunkBitsBlendAlpha(byte[] file, int address)
{
Header = ByteConverter.ToUInt16(file, address);
}
public PolyChunkEnd(byte[] file, int address)
{
Header = ByteConverter.ToUInt16(file, address);
}
public void SaveToFile(string filename, LandTableFormat format, bool nometa = false)
{
bool be = ByteConverter.BigEndian;
ByteConverter.BigEndian = false;
if (format == LandTableFormat.SADX)
{
format = LandTableFormat.SA1;
}
List <byte> file = new List <byte>();
ulong magic;
switch (format)
{
case LandTableFormat.SA1:
magic = SA1LVLVer;
break;
case LandTableFormat.SA2:
magic = SA2LVLVer;
break;
case LandTableFormat.SA2B:
magic = SA2BLVLVer;
break;
default:
throw new ArgumentException("Cannot save " + format + " format levels to file!", "format");
}
file.AddRange(ByteConverter.GetBytes(magic));
Dictionary <string, uint> labels = new Dictionary <string, uint>();
if (nometa)
{
TextureList = 0;
TextureFileName = "";
}
byte[] lvl = GetBytes(0x10, format, labels, out uint addr);
file.AddRange(ByteConverter.GetBytes(addr + 0x10));
file.AddRange(ByteConverter.GetBytes(lvl.Length + 0x10));
file.AddRange(lvl);
if (!nometa)
{
if (labels.Count > 0)
{
List <byte> chunk = new List <byte>(labels.Count * 8);
int straddr = (labels.Count * 8) + 8;
List <byte> strbytes = new List <byte>();
foreach (KeyValuePair <string, uint> label in labels)
{
chunk.AddRange(ByteConverter.GetBytes(label.Value));
chunk.AddRange(ByteConverter.GetBytes(straddr + strbytes.Count));
strbytes.AddRange(Encoding.UTF8.GetBytes(label.Key));
strbytes.Add(0);
strbytes.Align(4);
}
chunk.AddRange(ByteConverter.GetBytes(-1L));
chunk.AddRange(strbytes);
file.AddRange(ByteConverter.GetBytes((uint)ChunkTypes.Label));
file.AddRange(ByteConverter.GetBytes(chunk.Count));
file.AddRange(chunk);
}
if (!string.IsNullOrEmpty(Author))
{
List <byte> chunk = new List <byte>(Author.Length + 1);
chunk.AddRange(Encoding.UTF8.GetBytes(Author));
chunk.Add(0);
chunk.Align(4);
file.AddRange(ByteConverter.GetBytes((uint)ChunkTypes.Author));
file.AddRange(ByteConverter.GetBytes(chunk.Count));
file.AddRange(chunk);
}
if (!string.IsNullOrEmpty(Description))
{
List <byte> chunk = new List <byte>(Description.Length + 1);
chunk.AddRange(Encoding.UTF8.GetBytes(Description));
chunk.Add(0);
chunk.Align(4);
file.AddRange(ByteConverter.GetBytes((uint)ChunkTypes.Description));
file.AddRange(ByteConverter.GetBytes(chunk.Count));
file.AddRange(chunk);
}
foreach (KeyValuePair <uint, byte[]> item in Metadata)
{
file.AddRange(ByteConverter.GetBytes(item.Key));
file.AddRange(ByteConverter.GetBytes(item.Value.Length));
file.AddRange(item.Value);
}
}
file.AddRange(ByteConverter.GetBytes((uint)ChunkTypes.End));
file.AddRange(new byte[4]);
File.WriteAllBytes(filename, file.ToArray());
ByteConverter.BigEndian = be;
}
public Event(string filename)
{
byte[] fc;
if (Path.GetExtension(filename).Equals(".prs", StringComparison.OrdinalIgnoreCase))
{
fc = Prs.Decompress(filename);
}
else
{
fc = File.ReadAllBytes(filename);
}
bool battle = false;
bool dcbeta = false;
uint key;
if (fc[0] == 0x81)
{
if (fc[0x2B] <= 0x01 && fc[0x2A] == 0)
{
ByteConverter.BigEndian = true;
key = 0x8125FE60;
battle = true;
}
else
{
ByteConverter.BigEndian = true;
key = 0x812FFE60;
}
}
else
{
if ((fc[37] == 0x25) || (fc[38] == 0x22) || ((fc[36] == 0) && ((fc[1] == 0xFE) || (fc[1] == 0xF2) || ((fc[1] == 0x27) && fc[2] == 0x9F))))
{
ByteConverter.BigEndian = false;
key = 0xC600000;
dcbeta = true;
}
else
{
ByteConverter.BigEndian = false;
key = 0xC600000;
}
}
List <NJS_MOTION> motions = null;
if (battle)
{
motions = ReadMotionFile(Path.ChangeExtension(filename, null) + "motion.bin");
}
Dictionary <string, NJS_OBJECT> models = new Dictionary <string, NJS_OBJECT>();
int ptr = fc.GetPointer(0x20, key);
if (ptr != 0)
{
if (!dcbeta)
{
int cnt = battle ? 18 : 16;
Upgrades = new EventUpgrade[cnt];
for (int i = 0; i < cnt; i++)
{
Upgrades[i] = new EventUpgrade(fc, ptr, key, models);
ptr += EventUpgrade.Size;
}
}
else
{
int cnt = 14;
Upgrades = new EventUpgrade[cnt];
for (int i = 0; i < cnt; i++)
{
Upgrades[i] = new EventUpgrade(fc, ptr, key, models);
ptr += EventUpgrade.Size;
}
}
}
int gcnt = ByteConverter.ToInt32(fc, 8);
ptr = fc.GetPointer(0, key);
if (ptr != 0)
{
Scenes = new List <EventScene>();
for (int gn = 0; gn <= gcnt; gn++)
{
Scenes.Add(new EventScene(fc, ptr, key, battle, models, motions));
ptr += EventScene.Size;
}
}
}
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);
Attributes = (SA1LandtableAttributes)ByteConverter.ToInt16(file, address + 4);
Flags = ByteConverter.ToInt16(file, address + 6);
FarClipping = 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);
BinaryFilename = ByteConverter.ToInt32(file, address + 0x1C);
BinaryLoadFunction = ByteConverter.ToInt32(file, address + 0x20);
break;
case LandTableFormat.SA2:
case LandTableFormat.SA2B:
short cnkcnt = ByteConverter.ToInt16(file, address + 2);
FarClipping = 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 byte[] NJGetBytes(uint imageBase, bool DX, Dictionary <string, uint> labels, List <uint> njOffsets, out uint address)
{
List <byte> result = new List <byte>();
ObjectFlags flags = GetFlags();
FixSiblings();
int attachAddressAddress = result.Count + 0x4;
int childAddressAddress = result.Count + 0x2C;
int siblingAddressAddress = result.Count + 0x30;
address = 0;
result.AddRange(ByteConverter.GetBytes((int)flags));
result.AddRange(ByteConverter.GetBytes(0)); //Attach placeholder
result.AddRange(Position.GetBytes());
result.AddRange(Rotation.GetBytes());
result.AddRange(Scale.GetBytes());
result.AddRange(ByteConverter.GetBytes(0)); //Child placeholder
result.AddRange(ByteConverter.GetBytes(0)); //Sibling placeholder
result.Align(4);
int currentEnd = result.Count;
if (Attach != null)
{
if (labels.ContainsKey(Attach.Name))
{
int attachAddress = (int)labels[Attach.Name];
result.SetByteListInt(attachAddressAddress, attachAddress);
}
else
{
result.AddRange(Attach.GetBytes((uint)(imageBase + result.Count), DX, labels, njOffsets, out uint attachAddress));
result.SetByteListInt(attachAddressAddress, (int)(imageBase + currentEnd + attachAddress));
njOffsets.Add((uint)(imageBase + attachAddressAddress));
result.Align(4);
currentEnd = result.Count;
}
}
if (Children.Count > 0)
{
if (labels.ContainsKey(Children[0].Name))
{
int childAddress = (int)labels[Children[0].Name];
result.SetByteListInt(childAddressAddress, childAddress);
}
else
{
result.AddRange(Children[0].NJGetBytes((uint)(imageBase + result.Count), DX, labels, njOffsets, out uint childAddress));
result.SetByteListInt(childAddressAddress, (int)(imageBase + currentEnd + childAddress));
njOffsets.Add((uint)(imageBase + childAddressAddress));
result.Align(4);
currentEnd = result.Count;
}
}
if (Sibling != null)
{
if (labels.ContainsKey(Sibling.Name))
{
int siblingAddress = (int)labels[Sibling.Name];
result.SetByteListInt(siblingAddressAddress, siblingAddress);
}
else
{
result.AddRange(Sibling.NJGetBytes((uint)(imageBase + result.Count), DX, labels, njOffsets, out uint siblingAddress));
result.SetByteListInt(siblingAddressAddress, (int)(imageBase + currentEnd + siblingAddress));
njOffsets.Add((uint)(imageBase + siblingAddressAddress));
result.Align(4);
}
}
labels.Add(Name, address + imageBase);
return(result.ToArray());
}
public byte[] GetBytes(uint imageBase, bool DX, Dictionary <string, uint> labels, List <uint> njOffsets, out uint address, bool isFirst = false)
{
List <byte> result = new List <byte>();
if (isFirst)
{
result.AddRange(new byte[0x34]); //Add size of NGS_OBJECT if first since we're inserting later
}
FixSiblings();
uint childaddr = 0;
uint siblingaddr = 0;
uint attachaddr = 0;
byte[] tmpbyte;
if (Children.Count > 0)
{
if (labels.ContainsKey(Children[0].Name))
{
childaddr = labels[Children[0].Name];
}
else
{
result.Align(4);
tmpbyte = Children[0].GetBytes(imageBase + (uint)result.Count, DX, labels, njOffsets, out childaddr);
childaddr += imageBase + (uint)result.Count;
result.AddRange(tmpbyte);
}
}
if (Sibling != null)
{
if (labels.ContainsKey(Sibling.Name))
{
siblingaddr = labels[Sibling.Name];
}
else
{
result.Align(4);
tmpbyte = Sibling.GetBytes(imageBase + (uint)result.Count, DX, labels, njOffsets, out siblingaddr);
siblingaddr += imageBase + (uint)result.Count;
result.AddRange(tmpbyte);
}
}
if (Attach != null)
{
if (labels.ContainsKey(Attach.Name))
{
attachaddr = labels[Attach.Name];
}
else
{
result.Align(4);
tmpbyte = Attach.GetBytes(imageBase + (uint)result.Count, DX, labels, njOffsets, out attachaddr);
attachaddr += imageBase + (uint)result.Count;
result.AddRange(tmpbyte);
}
}
result.Align(4);
address = isFirst ? 0 : (uint)result.Count;
ObjectFlags flags = GetFlags();
List <byte> objBytes = new List <byte>();
objBytes.AddRange(ByteConverter.GetBytes((int)flags));
objBytes.AddRange(ByteConverter.GetBytes(attachaddr));
objBytes.AddRange(Position.GetBytes());
objBytes.AddRange(Rotation.GetBytes());
objBytes.AddRange(Scale.GetBytes());
objBytes.AddRange(ByteConverter.GetBytes(childaddr));
objBytes.AddRange(ByteConverter.GetBytes(siblingaddr));
if (isFirst) //Formal ninja requires the initial object first since there's not a pointer to it
{
//POF0
if (attachaddr != 0)
{
njOffsets.Add(0x4);
}
if (childaddr != 0)
{
njOffsets.Add(0x2C);
}
if (siblingaddr != 0)
{
njOffsets.Add(0x30);
}
result.RemoveRange(0, 0x34);
result.InsertRange(0, objBytes);
}
else
{
//POF0
if (attachaddr != 0)
{
njOffsets.Add((uint)(imageBase + result.Count));
}
if (childaddr != 0)
{
njOffsets.Add((uint)(imageBase + result.Count));
}
if (siblingaddr != 0)
{
njOffsets.Add((uint)(imageBase + result.Count));
}
result.AddRange(objBytes);
}
labels.Add(Name, address + imageBase);
return(result.ToArray());
}
public byte[] GetBytes()
{
VertexChunk next = null;
int vertlimit;
int vertcount = Vertices.Count;
switch (Type)
{
case ChunkType.Vertex_VertexSH:
vertlimit = 65535 / 4;
if (Vertices.Count > vertlimit)
{
next = new VertexChunk(Type)
{
Vertices = Vertices.Skip(vertlimit).ToList()
};
vertcount = vertlimit;
}
break;
case ChunkType.Vertex_VertexNormalSH:
vertlimit = 65535 / 8;
if (Vertices.Count > vertlimit)
{
next = new VertexChunk(Type)
{
Vertices = Vertices.Skip(vertlimit).ToList(), Normals = Normals.Skip(vertlimit).ToList()
};
vertcount = vertlimit;
}
break;
case ChunkType.Vertex_Vertex:
vertlimit = 65535 / 3;
if (Vertices.Count > vertlimit)
{
next = new VertexChunk(Type)
{
Vertices = Vertices.Skip(vertlimit).ToList()
};
vertcount = vertlimit;
}
break;
case ChunkType.Vertex_VertexDiffuse8:
vertlimit = 65535 / 4;
if (Vertices.Count > vertlimit)
{
next = new VertexChunk(Type)
{
Vertices = Vertices.Skip(vertlimit).ToList(), Diffuse = Diffuse.Skip(vertlimit).ToList()
};
vertcount = vertlimit;
}
break;
case ChunkType.Vertex_VertexUserFlags:
vertlimit = 65535 / 4;
if (Vertices.Count > vertlimit)
{
next = new VertexChunk(Type)
{
Vertices = Vertices.Skip(vertlimit).ToList(), UserFlags = UserFlags.Skip(vertlimit).ToList()
};
vertcount = vertlimit;
}
break;
case ChunkType.Vertex_VertexNinjaFlags:
vertlimit = 65535 / 4;
if (Vertices.Count > vertlimit)
{
next = new VertexChunk(Type)
{
Vertices = Vertices.Skip(vertlimit).ToList(), NinjaFlags = NinjaFlags.Skip(vertlimit).ToList()
};
vertcount = vertlimit;
}
break;
case ChunkType.Vertex_VertexDiffuseSpecular5:
case ChunkType.Vertex_VertexDiffuseSpecular4:
vertlimit = 65535 / 4;
if (Vertices.Count > vertlimit)
{
next = new VertexChunk(Type)
{
Vertices = Vertices.Skip(vertlimit).ToList(),
Diffuse = Diffuse.Skip(vertlimit).ToList(),
Specular = Specular.Skip(vertlimit).ToList()
};
vertcount = vertlimit;
}
break;
case ChunkType.Vertex_VertexNormal:
vertlimit = 65535 / 6;
if (Vertices.Count > vertlimit)
{
next = new VertexChunk(Type)
{
Vertices = Vertices.Skip(vertlimit).ToList(), Normals = Normals.Skip(vertlimit).ToList()
};
vertcount = vertlimit;
}
break;
case ChunkType.Vertex_VertexNormalDiffuse8:
vertlimit = 65535 / 7;
if (Vertices.Count > vertlimit)
{
next = new VertexChunk(Type)
{
Vertices = Vertices.Skip(vertlimit).ToList(),
Normals = Normals.Skip(vertlimit).ToList(),
Diffuse = Diffuse.Skip(vertlimit).ToList()
};
vertcount = vertlimit;
}
break;
case ChunkType.Vertex_VertexNormalUserFlags:
vertlimit = 65535 / 7;
if (Vertices.Count > vertlimit)
{
next = new VertexChunk(Type)
{
Vertices = Vertices.Skip(vertlimit).ToList(),
Normals = Normals.Skip(vertlimit).ToList(),
UserFlags = UserFlags.Skip(vertlimit).ToList()
};
vertcount = vertlimit;
}
break;
case ChunkType.Vertex_VertexNormalNinjaFlags:
vertlimit = 65535 / 7;
if (Vertices.Count > vertlimit)
{
next = new VertexChunk(Type)
{
Vertices = Vertices.Skip(vertlimit).ToList(),
Normals = Normals.Skip(vertlimit).ToList(),
NinjaFlags = NinjaFlags.Skip(vertlimit).ToList()
};
vertcount = vertlimit;
}
break;
case ChunkType.Vertex_VertexNormalDiffuseSpecular5:
case ChunkType.Vertex_VertexNormalDiffuseSpecular4:
vertlimit = 65535 / 7;
if (Vertices.Count > vertlimit)
{
next = new VertexChunk(Type)
{
Vertices = Vertices.Skip(vertlimit).ToList(),
Normals = Normals.Skip(vertlimit).ToList(),
Diffuse = Diffuse.Skip(vertlimit).ToList(),
Specular = Specular.Skip(vertlimit).ToList()
};
vertcount = vertlimit;
}
break;
case ChunkType.End:
break;
default:
throw new NotSupportedException("Unsupported chunk type " + Type + ".");
}
SetVertCount(vertcount);
switch (Type)
{
case ChunkType.Vertex_Vertex:
Size = (ushort)(vertcount * 3 + 1);
break;
case ChunkType.Vertex_VertexSH:
case ChunkType.Vertex_VertexDiffuse8:
case ChunkType.Vertex_VertexUserFlags:
case ChunkType.Vertex_VertexNinjaFlags:
case ChunkType.Vertex_VertexDiffuseSpecular5:
case ChunkType.Vertex_VertexDiffuseSpecular4:
Size = (ushort)(vertcount * 4 + 1);
break;
case ChunkType.Vertex_VertexNormal:
Size = (ushort)(vertcount * 6 + 1);
break;
case ChunkType.Vertex_VertexNormalDiffuse8:
case ChunkType.Vertex_VertexNormalUserFlags:
case ChunkType.Vertex_VertexNormalNinjaFlags:
case ChunkType.Vertex_VertexNormalDiffuseSpecular5:
case ChunkType.Vertex_VertexNormalDiffuseSpecular4:
Size = (ushort)(vertcount * 7 + 1);
break;
case ChunkType.Vertex_VertexNormalSH:
Size = (ushort)(vertcount * 8 + 1);
break;
}
List <byte> result = new List <byte>((Size * 4) + 4);
result.AddRange(ByteConverter.GetBytes(Header1));
result.AddRange(ByteConverter.GetBytes(Header2));
for (int i = 0; i < vertcount; i++)
{
switch (Type)
{
case ChunkType.Vertex_VertexSH:
result.AddRange(Vertices[i].GetBytes());
result.AddRange(ByteConverter.GetBytes(1.0f));
break;
case ChunkType.Vertex_VertexNormalSH:
result.AddRange(Vertices[i].GetBytes());
result.AddRange(ByteConverter.GetBytes(1.0f));
result.AddRange(Normals[i].GetBytes());
result.AddRange(ByteConverter.GetBytes(1.0f));
break;
case ChunkType.Vertex_Vertex:
result.AddRange(Vertices[i].GetBytes());
break;
case ChunkType.Vertex_VertexDiffuse8:
result.AddRange(Vertices[i].GetBytes());
result.AddRange(VColor.GetBytes(Diffuse[i], ColorType.ARGB8888_32));
break;
case ChunkType.Vertex_VertexUserFlags:
result.AddRange(Vertices[i].GetBytes());
result.AddRange(ByteConverter.GetBytes(UserFlags[i]));
break;
case ChunkType.Vertex_VertexNinjaFlags:
result.AddRange(Vertices[i].GetBytes());
result.AddRange(ByteConverter.GetBytes(NinjaFlags[i]));
break;
case ChunkType.Vertex_VertexDiffuseSpecular5:
result.AddRange(Vertices[i].GetBytes());
result.AddRange(ByteConverter.GetBytes(
ByteConverter.ToUInt16(VColor.GetBytes(Diffuse[i], ColorType.RGB565), 0)
| (ByteConverter.ToUInt16(VColor.GetBytes(Specular[i], ColorType.RGB565), 0) << 16)));
break;
case ChunkType.Vertex_VertexDiffuseSpecular4:
result.AddRange(Vertices[i].GetBytes());
result.AddRange(ByteConverter.GetBytes(
ByteConverter.ToUInt16(VColor.GetBytes(Diffuse[i], ColorType.ARGB4444), 0)
| (ByteConverter.ToUInt16(VColor.GetBytes(Specular[i], ColorType.RGB565), 0) << 16)));
break;
case ChunkType.Vertex_VertexNormal:
result.AddRange(Vertices[i].GetBytes());
result.AddRange(Normals[i].GetBytes());
break;
case ChunkType.Vertex_VertexNormalDiffuse8:
result.AddRange(Vertices[i].GetBytes());
result.AddRange(Normals[i].GetBytes());
result.AddRange(VColor.GetBytes(Diffuse[i], ColorType.ARGB8888_32));
break;
case ChunkType.Vertex_VertexNormalUserFlags:
result.AddRange(Vertices[i].GetBytes());
result.AddRange(Normals[i].GetBytes());
result.AddRange(ByteConverter.GetBytes(UserFlags[i]));
break;
case ChunkType.Vertex_VertexNormalNinjaFlags:
result.AddRange(Vertices[i].GetBytes());
result.AddRange(Normals[i].GetBytes());
result.AddRange(ByteConverter.GetBytes(NinjaFlags[i]));
break;
case ChunkType.Vertex_VertexNormalDiffuseSpecular5:
result.AddRange(Vertices[i].GetBytes());
result.AddRange(Normals[i].GetBytes());
result.AddRange(ByteConverter.GetBytes(
ByteConverter.ToUInt16(VColor.GetBytes(Diffuse[i], ColorType.RGB565), 0)
| (ByteConverter.ToUInt16(VColor.GetBytes(Specular[i], ColorType.RGB565), 0) << 16)));
break;
case ChunkType.Vertex_VertexNormalDiffuseSpecular4:
result.AddRange(Vertices[i].GetBytes());
result.AddRange(Normals[i].GetBytes());
result.AddRange(ByteConverter.GetBytes(
ByteConverter.ToUInt16(VColor.GetBytes(Diffuse[i], ColorType.ARGB4444), 0)
| (ByteConverter.ToUInt16(VColor.GetBytes(Specular[i], ColorType.RGB565), 0) << 16)));
break;
}
}
if (next != null)
{
result.AddRange(next.GetBytes());
}
return(result.ToArray());
}
public PolyChunkMaterial(byte[] file, int address)
{
Header = ByteConverter.ToUInt16(file, address);
address += sizeof(ushort);
Size = ByteConverter.ToUInt16(file, address);
address += sizeof(ushort);
switch (Type)
{
case ChunkType.Material_Diffuse:
case ChunkType.Material_DiffuseAmbient:
case ChunkType.Material_DiffuseSpecular:
case ChunkType.Material_DiffuseAmbientSpecular:
case ChunkType.Material_Diffuse2:
case ChunkType.Material_DiffuseAmbient2:
case ChunkType.Material_DiffuseSpecular2:
case ChunkType.Material_DiffuseAmbientSpecular2:
Diffuse = VColor.FromBytes(file, address, ColorType.ARGB8888_16);
address += VColor.Size(ColorType.ARGB8888_16);
break;
}
switch (Type)
{
case ChunkType.Material_Ambient:
case ChunkType.Material_DiffuseAmbient:
case ChunkType.Material_AmbientSpecular:
case ChunkType.Material_DiffuseAmbientSpecular:
case ChunkType.Material_Ambient2:
case ChunkType.Material_DiffuseAmbient2:
case ChunkType.Material_AmbientSpecular2:
case ChunkType.Material_DiffuseAmbientSpecular2:
Ambient = VColor.FromBytes(file, address, ColorType.XRGB8888_16);
address += VColor.Size(ColorType.XRGB8888_16);
break;
}
switch (Type)
{
case ChunkType.Material_Specular:
case ChunkType.Material_DiffuseSpecular:
case ChunkType.Material_AmbientSpecular:
case ChunkType.Material_DiffuseAmbientSpecular:
case ChunkType.Material_Specular2:
case ChunkType.Material_DiffuseSpecular2:
case ChunkType.Material_AmbientSpecular2:
case ChunkType.Material_DiffuseAmbientSpecular2:
Specular = VColor.FromBytes(file, address, ColorType.XRGB8888_16);
SpecularExponent = (byte)(ByteConverter.ToUInt16(file, address + 2) >> 8);
address += VColor.Size(ColorType.XRGB8888_16);
break;
}
switch (Type)
{
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:
Second = true;
break;
}
}
public Strip(byte[] file, int address, ChunkType type, byte userFlags)
{
Indexes = new ushort[Math.Abs(ByteConverter.ToInt16(file, address))];
Reversed = (ByteConverter.ToUInt16(file, address) & 0x8000) == 0x8000;
address += 2;
switch (type)
{
case ChunkType.Strip_StripUVN:
case ChunkType.Strip_StripUVH:
case ChunkType.Strip_StripUVN2:
case ChunkType.Strip_StripUVH2:
UVs = new UV[Indexes.Length];
break;
case ChunkType.Strip_StripColor:
VColors = new Color[Indexes.Length];
break;
case ChunkType.Strip_StripUVNColor:
case ChunkType.Strip_StripUVHColor:
UVs = new UV[Indexes.Length];
VColors = new Color[Indexes.Length];
break;
}
if (userFlags > 0)
{
UserFlags1 = new ushort[Indexes.Length - 2];
}
if (userFlags > 1)
{
UserFlags2 = new ushort[Indexes.Length - 2];
}
if (userFlags > 2)
{
UserFlags3 = new ushort[Indexes.Length - 2];
}
for (int i = 0; i < Indexes.Length; i++)
{
Indexes[i] = ByteConverter.ToUInt16(file, address);
address += 2;
switch (type)
{
case ChunkType.Strip_StripUVN:
case ChunkType.Strip_StripUVNColor:
case ChunkType.Strip_StripUVN2:
UVs[i] = new UV(file, address, false, true);
address += UV.Size;
break;
case ChunkType.Strip_StripUVH:
case ChunkType.Strip_StripUVHColor:
case ChunkType.Strip_StripUVH2:
UVs[i] = new UV(file, address, true, true);
address += UV.Size;
break;
}
switch (type)
{
case ChunkType.Strip_StripColor:
case ChunkType.Strip_StripUVNColor:
case ChunkType.Strip_StripUVHColor:
VColors[i] = VColor.FromBytes(file, address, ColorType.ARGB8888_16);
address += VColor.Size(ColorType.ARGB8888_16);
break;
}
if (i > 1)
{
if (userFlags > 0)
{
UserFlags1[i - 2] = ByteConverter.ToUInt16(file, address);
address += 2;
if (userFlags > 1)
{
UserFlags2[i - 2] = ByteConverter.ToUInt16(file, address);
address += 2;
if (userFlags > 2)
{
UserFlags3[i - 2] = ByteConverter.ToUInt16(file, address);
address += 2;
}
}
}
}
}
}
public VertexChunk(byte[] file, int address)
: this()
{
Header1 = ByteConverter.ToUInt32(file, address);
Header2 = ByteConverter.ToUInt32(file, address + 4);
address += 8;
for (int i = 0; i < GetVertCount(); i++)
{
switch (Type)
{
case ChunkType.Vertex_VertexSH:
Vertices.Add(new Vertex(file, address));
address += Vertex.Size + sizeof(float);
break;
case ChunkType.Vertex_VertexNormalSH:
Vertices.Add(new Vertex(file, address));
address += Vertex.Size + sizeof(float);
Normals.Add(new Vertex(file, address));
address += Vertex.Size + sizeof(float);
break;
case ChunkType.Vertex_Vertex:
Vertices.Add(new Vertex(file, address));
address += Vertex.Size;
break;
case ChunkType.Vertex_VertexDiffuse8:
Vertices.Add(new Vertex(file, address));
address += Vertex.Size;
Diffuse.Add(VColor.FromBytes(file, address, ColorType.ARGB8888_32));
address += VColor.Size(ColorType.ARGB8888_32);
break;
case ChunkType.Vertex_VertexUserFlags:
Vertices.Add(new Vertex(file, address));
address += Vertex.Size;
UserFlags.Add(ByteConverter.ToUInt32(file, address));
address += sizeof(uint);
break;
case ChunkType.Vertex_VertexNinjaFlags:
Vertices.Add(new Vertex(file, address));
address += Vertex.Size;
NinjaFlags.Add(ByteConverter.ToUInt32(file, address));
address += sizeof(uint);
break;
case ChunkType.Vertex_VertexDiffuseSpecular5:
Vertices.Add(new Vertex(file, address));
address += Vertex.Size;
uint tmpcolor = ByteConverter.ToUInt32(file, address);
address += sizeof(uint);
Diffuse.Add(VColor.FromBytes(ByteConverter.GetBytes((ushort)(tmpcolor & 0xFFFF)), 0, ColorType.RGB565));
Specular.Add(VColor.FromBytes(ByteConverter.GetBytes((ushort)(tmpcolor >> 16)), 0, ColorType.RGB565));
break;
case ChunkType.Vertex_VertexDiffuseSpecular4:
Vertices.Add(new Vertex(file, address));
address += Vertex.Size;
tmpcolor = ByteConverter.ToUInt32(file, address);
address += sizeof(uint);
Diffuse.Add(VColor.FromBytes(ByteConverter.GetBytes((ushort)(tmpcolor & 0xFFFF)), 0, ColorType.ARGB4444));
Specular.Add(VColor.FromBytes(ByteConverter.GetBytes((ushort)(tmpcolor >> 16)), 0, ColorType.RGB565));
break;
case ChunkType.Vertex_VertexNormal:
Vertices.Add(new Vertex(file, address));
address += Vertex.Size;
Normals.Add(new Vertex(file, address));
address += Vertex.Size;
break;
case ChunkType.Vertex_VertexNormalDiffuse8:
Vertices.Add(new Vertex(file, address));
address += Vertex.Size;
Normals.Add(new Vertex(file, address));
address += Vertex.Size;
Diffuse.Add(VColor.FromBytes(file, address, ColorType.ARGB8888_32));
address += VColor.Size(ColorType.ARGB8888_32);
break;
case ChunkType.Vertex_VertexNormalUserFlags:
Vertices.Add(new Vertex(file, address));
address += Vertex.Size;
Normals.Add(new Vertex(file, address));
address += Vertex.Size;
UserFlags.Add(ByteConverter.ToUInt32(file, address));
address += sizeof(uint);
break;
case ChunkType.Vertex_VertexNormalNinjaFlags:
Vertices.Add(new Vertex(file, address));
address += Vertex.Size;
Normals.Add(new Vertex(file, address));
address += Vertex.Size;
NinjaFlags.Add(ByteConverter.ToUInt32(file, address));
address += sizeof(uint);
break;
case ChunkType.Vertex_VertexNormalDiffuseSpecular5:
Vertices.Add(new Vertex(file, address));
address += Vertex.Size;
Normals.Add(new Vertex(file, address));
address += Vertex.Size;
tmpcolor = ByteConverter.ToUInt32(file, address);
address += sizeof(uint);
Diffuse.Add(VColor.FromBytes(ByteConverter.GetBytes((ushort)(tmpcolor & 0xFFFF)), 0, ColorType.RGB565));
Specular.Add(VColor.FromBytes(ByteConverter.GetBytes((ushort)(tmpcolor >> 16)), 0, ColorType.RGB565));
break;
case ChunkType.Vertex_VertexNormalDiffuseSpecular4:
Vertices.Add(new Vertex(file, address));
address += Vertex.Size;
Normals.Add(new Vertex(file, address));
address += Vertex.Size;
tmpcolor = ByteConverter.ToUInt32(file, address);
address += sizeof(uint);
Diffuse.Add(VColor.FromBytes(ByteConverter.GetBytes((ushort)(tmpcolor & 0xFFFF)), 0, ColorType.ARGB4444));
Specular.Add(VColor.FromBytes(ByteConverter.GetBytes((ushort)(tmpcolor >> 16)), 0, ColorType.RGB565));
break;
default:
throw new NotSupportedException("Unsupported chunk type " + Type + " at " + address.ToString("X8") + ".");
}
}
}
private NJS_OBJECT(byte[] file, int address, uint imageBase, ModelFormat format, NJS_OBJECT parent, Dictionary <int, string> labels, Dictionary <int, Attach> attaches)
{
if (labels.ContainsKey(address))
{
Name = labels[address];
}
else
{
Name = "object_" + address.ToString("X8");
}
if (address > file.Length - 52)
{
Position = new Vertex();
Rotation = new Rotation();
Scale = new Vertex(1, 1, 1);
children = new List <NJS_OBJECT>();
Children = new ReadOnlyCollection <NJS_OBJECT>(children);
return;
}
ObjectFlags flags = (ObjectFlags)ByteConverter.ToInt32(file, address);
RotateZYX = (flags & ObjectFlags.RotateZYX) == ObjectFlags.RotateZYX;
SkipDraw = (flags & ObjectFlags.NoDisplay) == ObjectFlags.NoDisplay;
SkipChildren = (flags & ObjectFlags.NoChildren) == ObjectFlags.NoChildren;
IgnorePosition = (flags & ObjectFlags.NoPosition) == ObjectFlags.NoPosition;
IgnoreRotation = (flags & ObjectFlags.NoRotate) == ObjectFlags.NoRotate;
IgnoreScale = (flags & ObjectFlags.NoScale) == ObjectFlags.NoScale;
Animate = (flags & ObjectFlags.NoAnimate) == 0;
Morph = (flags & ObjectFlags.NoMorph) == 0;
int tmpaddr = ByteConverter.ToInt32(file, address + 4);
if (tmpaddr != 0)
{
tmpaddr = (int)unchecked ((uint)tmpaddr - imageBase);
if (attaches != null && attaches.ContainsKey(tmpaddr))
{
Attach = attaches[tmpaddr];
}
else
{
Attach = Attach.Load(file, tmpaddr, imageBase, format, labels);
if (attaches != null)
{
attaches.Add(tmpaddr, Attach);
}
}
}
Position = new Vertex(file, address + 8);
Rotation = new Rotation(file, address + 0x14);
Scale = new Vertex(file, address + 0x20);
Parent = parent;
children = new List <NJS_OBJECT>();
Children = new ReadOnlyCollection <NJS_OBJECT>(children);
NJS_OBJECT child = null;
tmpaddr = ByteConverter.ToInt32(file, address + 0x2C);
if (tmpaddr != 0)
{
tmpaddr = (int)unchecked ((uint)tmpaddr - imageBase);
child = new NJS_OBJECT(file, tmpaddr, imageBase, format, this, labels, attaches);
}
while (child != null)
{
children.Add(child);
child = child.Sibling;
}
tmpaddr = ByteConverter.ToInt32(file, address + 0x30);
if (tmpaddr != 0)
{
tmpaddr = (int)unchecked ((uint)tmpaddr - imageBase);
Sibling = new NJS_OBJECT(file, tmpaddr, imageBase, format, parent, labels, attaches);
}
//Assimp.AssimpContext context = new AssimpContext();
//Scene scene = context.ImportFile("F:\\untitled.obj", PostProcessSteps.Triangulate);
//AssimpLoad(scene, scene.RootNode);
}
