Reading Binary Streams
RwStreams are heirarchical streams of sections. Every section consists of:
- (gauranteed) RwHeader
- (gauranteed) RwData child section (the contents are specific to the section type, see definitions below.)
- (optional) Children sections
The RwHeader contains the size (sectionSize member) of all the data and children (and their data and children).
This allows you to either skip the entire section and it's children by advancing the stream pointer, or
to know when you have parsed all it's children by comparing the stream pointer to the address of the section
RwHeader added to the sectionSize.
Simple Pseudo C++ Code to read a Binary Stream
//-----------------------------------------------------------------------
// The RwSection is a base class from which all RwType classes derive
RwSection * ReadSection(FileStream * stream, RwSection * parent)
{
//-----------------------------------------------------------------------
// read the header
RwHeader header = ReadRwHeader(stream);
//-----------------------------------------------------------------------
// create the section - the type returned is based on header.sectionType
// the reason the parent is passed in is because if the section is an
// rwDATA what data it reads is dependant on the parent's sectionType and
// also the number of rwDATA children the parent already has read
RwSection * section = CreateAppropriateSection(stream, header.sectionType, parent);
//-----------------------------------------------------------------------
// recursively read the children
u8 * endOfSection = stream.GetPosition() + header.sectionSize;
while(stream.GetPosition() < endOfSection)
{
RwSection * childSection = ReadSection(stream, section)
section->AddChild(childSection);
}
//-----------------------------------------------------------------------
// return the newly created section
return section;
}
RwType
enum
{
rwDATA = 1,
rwSTRING = 2,
rwEXTENSION = 3,
rwTEXTURE = 6,
rwMATERIAL = 7,
rwMATERIALLIST = 8,
rwFRAMELIST = 14,
rwGEOMETRY = 15,
rwCLUMP = 16,
rwLIGHT = 18,
rwATOMIC = 20,
rwTEXTURENATIVE = 21,
rwTEXDICT = 22,
rwGEOMETRYLIST = 26,
rwMATERIALSPLIT = 124,
rwFRAME = 39056126,
rwPLUGIN_PARTICLES = 0x118,
rwPLUGIN_MATERIALEFFECTS = 0x120,
rwPLUGIN_BINMESH = 0x50e,
};
struct RwHeader
{
s32 sectionType; // RwType
s32 sectionSize;
u8 unknown[2];
s16 versionNumber;
};
Dff Files
Top level section is always a single RwClump.
RwClump section RwData
- Gauranteed. First RwData in the RwClump
Data type |
Name |
Version number |
Condition |
Notes
|
u32 |
objectCount |
all |
|
|
u8[8] |
unknown |
3074, 4099, 6147 |
|
|
- Optional. Second and subsequent RwData in the RwClump
u32 |
objectCount |
all |
|
|
u8[4] |
unknown |
3074, 4099, 6147 |
|
|
RwGeometry section RwData
- Gauranteed. First and only RwData in the RwGeometry
u32 |
objectCount |
all |
|
|
u16 |
flags |
all |
|
|
u8[2] |
unknown |
all |
|
|
u32 |
triangleCount |
all |
|
|
u32 |
vertexCount |
all |
|
|
u32 |
morphTargetCount |
all |
|
|
u32 |
ambientRgba |
0, 2048, 3074 |
|
|
u32 |
diffuseRgba |
0, 2048, 3074 |
|
|
u32 |
specularRgba |
0, 2048, 3074 |
|
|
u32[vertexCount] |
vertexRgba |
all |
only if( flags & flags.COLOUR) |
|
f32[vertexCount][2] |
uvs |
all |
only if( flags & flags.TEXTURE) |
For versions 0, 2048 and 3074 the u and v are swapped
|
u16[triangleCount][3] |
faces |
all |
|
For every face, read 4 u16s. and ignore the 3rd
|
vector3 |
boundingSpherePosition |
all |
|
|
f32 |
boundingSphereRadius |
all |
|
|
u8[8] |
unknown |
all |
|
|
vector3[vertexCount] |
positions |
all |
|
|
vector3[vertexCount] |
normals |
all |
only if( flags & flags.NORMALS) |
|
Txd Files
Top level section is always a single RwTexdict.