public void Write(EndianBinaryWriter writer)
{
writer.WriteFixedString(Magic, 4);
writer.Write(FileSize);
writer.Write(Unknown1);
writer.Write(DataOffset);
writer.Write(Unknown2);
writer.Write(Unknown3);
writer.Write(Unknown4);
writer.Write(Unknown5);
writer.Write(NodeCount);
writer.Write(Unknown6);
writer.Write(Unknown7);
writer.Write(FileEntriesOffset);
writer.Write(Unknown8);
writer.Write(StringTableOffset);
writer.Write(FileEntryCount);
writer.Write(UnknownBool1);
writer.Write(Padding);
writer.Write(Unknown10);
}
public void ExportBMC(List<ByteColorAlpha> colorList, EndianBinaryWriter writer)
{
writer.WriteFixedString("MGCLbmc1", 8);
writer.Write((int)34);
writer.Write((int)1);
for (int i = 0; i < 4; i++)
{
writer.Write((int)0);
}
writer.WriteFixedString("CLT1", 4);
writer.Write((int)1056);
writer.Write((short)256);
writer.Write((short)0);
foreach (ByteColorAlpha color in colorList)
{
writer.Write((byte)color.R);
writer.Write((byte)color.G);
writer.Write((byte)color.B);
writer.Write((byte)color.A);
}
for (int i = 0; i < 5; i++)
{
writer.Write((int)0);
}
}
public void Write(EndianBinaryWriter writer)
{
writer.WriteFixedString(Type, 4);
writer.Write(NameOffset);
writer.Write(NameHash);
writer.Write(FileEntryCount);
writer.Write(FirstFileEntryIndex);
}
public void Write(EndianBinaryWriter writer, EntityTemplate template)
{
if (template.BitField.Count > 0)
{
ProcessBitFields(template);
}
foreach (ElementProperty prop in Fields)
{
switch (prop.Type)
{
case FieldType.Byte:
writer.Write((byte)prop.Data);
break;
case FieldType.Short:
writer.Write((short)prop.Data);
break;
case FieldType.Integer:
writer.Write((int)prop.Data);
break;
case FieldType.Float:
writer.Write((float)prop.Data);
break;
case FieldType.Vector2:
Vector2 vec2 = (Vector2)prop.Data;
writer.Write((float)vec2.X);
writer.Write((float)vec2.Y);
break;
case FieldType.Vector3:
Vector3 vec3 = (Vector3)prop.Data;
writer.Write((float)vec3.X);
writer.Write((float)vec3.Y);
writer.Write((float)vec3.Z);
break;
case FieldType.String:
string name = (string)prop.Data;
writer.WriteFixedString(name, 8);
for (int i = 0; i < prop.Length - name.Length; i++)
{
writer.Write((byte)0);
}
break;
case FieldType.ListByte:
List<byte> byteList = (List<byte>)prop.Data;
foreach (byte by in byteList)
{
writer.Write(by);
}
break;
}
}
}
void Write(EndianBinaryWriter writer)
{
IEnumerable<IGrouping<string, Chunk>> query = Chunks.GroupBy(x => x.ChunkType, x => x);
int numUniqueChunks = (int)query.Count<IGrouping<string, Chunk>>();
writer.Write(numUniqueChunks);
foreach (IGrouping<string, Chunk> chunk in query)
{
writer.WriteFixedString(chunk.Key, 4);
writer.Write((int)chunk.Count());
writer.Write((int)0);
}
for (int i = 0; i < numUniqueChunks; i++)
{
int offsetFieldOffset = (4 * (1 + i)) + (8 * (1 + i));
int currentWriterOffset = (int)writer.BaseStream.Position;
writer.BaseStream.Position = offsetFieldOffset;
writer.Write(currentWriterOffset);
writer.BaseStream.Position = currentWriterOffset;
foreach (Chunk chun in query.ElementAt(i))
{
string chunkName = chun.ChunkType.Remove(chun.ChunkType.Length - 1);
chun.Write(writer, ChunkTemplates.Find(x => x.ChunkID.Contains(chunkName)));
}
}
}
public void WriteINF1Header(EndianBinaryWriter endianWriter, List<Message> exportList)
{
endianWriter.WriteFixedString((string)"INF1", 4);
endianWriter.Write((int)((exportList.Count * 0x18) + 0x10 + 8));
endianWriter.Write((short)messageList.Count);
endianWriter.Write((short)0x18);
endianWriter.Write((int)0);
}
public void WriteDAT1Header(EndianBinaryWriter endianWriter, List<Message> exportList)
{
uint newDat1Size = 0x09;
foreach (Message mes in exportList)
{
newDat1Size += (uint)mes.charData.Count;
}
endianWriter.WriteFixedString("DAT1", 4);
endianWriter.Write((uint)newDat1Size);
endianWriter.Write((byte)0);
}
public void WriteBMGHeader(EndianBinaryWriter endianWriter)
{
endianWriter.WriteFixedString((string)"MESGbmg1", 8);
endianWriter.Write((int)0);
endianWriter.Write((int)2);
endianWriter.Write((int)0x1000000);
endianWriter.Write((int)0);
endianWriter.Write((int)0);
endianWriter.Write((int)0);
}