librw/src/rwobjects.h

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namespace rw {
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struct Object
{
uint8 type;
uint8 subType;
uint8 flags;
void *parent;
};
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struct Frame : PluginBase<Frame>, Object
{
typedef Frame *(*Callback)(Frame *f, void *data);
float32 matrix[16];
float32 ltm[16];
Frame *child;
Frame *next;
Frame *root;
// temporary
int32 matflag;
bool dirty;
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Frame(void);
Frame(Frame *f);
~Frame(void);
Frame *addChild(Frame *f);
Frame *removeChild(void);
Frame *forAllChildren(Callback cb, void *data);
int32 count(void);
void updateLTM(void);
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void setDirty(void);
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};
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Frame **makeFrameList(Frame *frame, Frame **flist);
struct HAnimKeyFrame
{
HAnimKeyFrame *prev;
float time;
float q[4];
float t[3];
};
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struct HAnimNodeInfo
{
int32 id;
int32 index;
int32 flags;
Frame *frame;
};
struct HAnimHierarchy
{
int32 flags;
int32 numNodes;
float *matrices;
float *matricesUnaligned;
HAnimNodeInfo *nodeInfo;
Frame *parentFrame;
HAnimHierarchy *parentHierarchy; // mostly unused
// temporary
int32 maxInterpKeyFrameSize;
};
struct HAnimData
{
int32 id;
HAnimHierarchy *hierarchy;
};
extern int32 hAnimOffset;
void registerHAnimPlugin(void);
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struct Image
{
int32 flags;
int32 width, height;
int32 depth;
int32 stride;
uint8 *pixels;
uint8 *palette;
Image(int32 width, int32 height, int32 depth);
~Image(void);
void allocate(void);
void free(void);
void setPixels(uint8 *pixels);
void setPalette(uint8 *palette);
static void setSearchPath(const char*);
static void printSearchPath(void);
static char *getFilename(const char*);
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};
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Image *readTGA(const char *filename);
void writeTGA(Image *image, const char *filename);
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// used to emulate d3d and xbox textures
struct RasterLevels
{
int32 numlevels;
uint32 format;
struct Level {
int32 width, height, size;
uint8 *data;
} levels[1]; // 0 is illegal :/
};
struct Raster : PluginBase<Raster>
{
int32 platform;
int32 type; // hardly used
int32 flags;
int32 format;
int32 width, height, depth;
int32 stride;
uint8 *texels;
uint8 *palette;
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static int32 nativeOffsets[NUM_PLATFORMS];
Raster(int32 width, int32 height, int32 depth, int32 format, int32 platform = 0);
~Raster(void);
static Raster *createFromImage(Image *image);
uint8 *lock(int32 level);
void unlock(int32 level);
int32 getNumLevels(void);
static int32 calculateNumLevels(int32 width, int32 height);
enum Format {
DEFAULT = 0,
C1555 = 0x0100,
C565 = 0x0200,
C4444 = 0x0300,
LUM8 = 0x0400,
C8888 = 0x0500,
C888 = 0x0600,
D16 = 0x0700,
D24 = 0x0800,
D32 = 0x0900,
C555 = 0x0A00,
AUTOMIPMAP = 0x1000,
PAL8 = 0x2000,
PAL4 = 0x4000,
MIPMAP = 0x8000
};
};
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#define IGNORERASTERIMP 1
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struct NativeRaster
{
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virtual void create(Raster *raster) { assert(IGNORERASTERIMP && "unimplemented"); };
virtual uint8 *lock(Raster *raster, int32 level) { assert(IGNORERASTERIMP && "unimplemented"); return NULL; };
virtual void unlock(Raster *raster, int32 level) { assert(IGNORERASTERIMP && "unimplemented"); };
virtual int32 getNumLevels(Raster *raster) { assert(IGNORERASTERIMP && "unimplemented"); return 0; };
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};
// TODO: link into texdict
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struct Texture : PluginBase<Texture>
{
char name[32];
char mask[32];
uint32 filterAddressing; // VVVVUUUU FFFFFFFF
Raster *raster;
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int32 refCount;
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// temporary - pointer to next tex in dictionary
Texture *next;
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Texture(void);
~Texture(void);
void decRef(void);
static Texture *streamRead(Stream *stream);
bool streamWrite(Stream *stream);
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uint32 streamGetSize(void);
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static Texture *read(const char *name, const char *mask);
static Texture *streamReadNative(Stream *stream);
void streamWriteNative(Stream *stream);
uint32 streamGetSizeNative(void);
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enum FilterMode {
NEAREST = 1,
LINEAR,
MIPNEAREST,
MIPLINEAR,
LINEARMIPNEAREST,
LINEARMIPLINEAR
};
enum Addressing {
WRAP = 1,
MIRROR,
CLAMP,
BORDER
};
};
struct Material : PluginBase<Material>
{
Texture *texture;
uint8 color[4];
float32 surfaceProps[3];
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Pipeline *pipeline;
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int32 refCount;
Material(void);
Material(Material *m);
void decRef(void);
~Material(void);
static Material *streamRead(Stream *stream);
bool streamWrite(Stream *stream);
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uint32 streamGetSize(void);
};
void registerMaterialRightsPlugin(void);
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struct MatFX
{
enum Flags {
NOTHING = 0,
BUMPMAP,
ENVMAP,
BUMPENVMAP,
DUAL,
UVTRANSFORM,
DUALUVTRANSFORM
};
struct Bump {
Frame *frame;
Texture *bumpedTex;
Texture *tex;
float coefficient;
};
struct Env {
Frame *frame;
Texture *tex;
float coefficient;
int32 fbAlpha;
};
struct Dual {
Texture *tex;
int32 srcBlend;
int32 dstBlend;
};
struct UVtransform {
float *baseTransform;
float *dualTransform;
};
struct {
uint32 type;
union {
Bump bump;
Env env;
Dual dual;
UVtransform uvtransform;
};
} fx[2];
uint32 flags;
void setEffects(uint32 flags);
int32 getEffectIndex(uint32 type);
};
struct MatFXGlobals
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{
int32 atomicOffset;
int32 materialOffset;
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ObjPipeline *pipelines[NUM_PLATFORMS];
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bool32 hack;
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};
extern MatFXGlobals matFXGlobals;
void registerMatFXPlugin(void);
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struct Mesh
{
uint16 *indices;
uint32 numIndices;
Material *material;
};
struct MeshHeader
{
uint32 flags;
uint16 numMeshes;
// RW has uint16 serialNum here
uint32 totalIndices;
Mesh *mesh; // RW has a byte offset here
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void allocateIndices(void);
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};
struct MorphTarget
{
float32 boundingSphere[4];
float32 *vertices;
float32 *normals;
};
struct InstanceDataHeader
{
uint32 platform;
};
struct Geometry : PluginBase<Geometry>, Object
{
uint32 geoflags;
int32 numTriangles;
int32 numVertices;
int32 numMorphTargets;
int32 numTexCoordSets;
uint16 *triangles;
uint8 *colors;
float32 *texCoords[8];
MorphTarget *morphTargets;
int32 numMaterials;
Material **materialList;
MeshHeader *meshHeader;
InstanceDataHeader *instData;
int32 refCount;
Geometry(int32 numVerts, int32 numTris, uint32 flags);
void decRef(void);
~Geometry(void);
static Geometry *streamRead(Stream *stream);
bool streamWrite(Stream *stream);
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uint32 streamGetSize(void);
void addMorphTargets(int32 n);
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void calculateBoundingSphere(void);
bool32 hasColoredMaterial(void);
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void allocateData(void);
void generateTriangles(int8 *adc = NULL);
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enum Flags
{
TRISTRIP = 0x01,
POSITIONS = 0x02,
TEXTURED = 0x04,
PRELIT = 0x08,
NORMALS = 0x10,
LIGHT = 0x20,
MODULATE = 0x40,
TEXTURED2 = 0x80,
NATIVE = 0x01000000,
NATIVEINSTANCE = 0x02000000
};
};
void registerMeshPlugin(void);
void registerNativeDataPlugin(void);
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struct Skin
{
int32 numBones;
int32 numUsedBones;
int32 numWeights;
uint8 *usedBones;
float *inverseMatrices;
uint8 *indices;
float *weights;
uint8 *data; // only used by delete
void *platformData; // a place to store platform specific stuff
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void init(int32 numBones, int32 numUsedBones, int32 numVertices);
void findNumWeights(int32 numVertices);
void findUsedBones(int32 numVertices);
};
struct SkinGlobals
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{
int32 offset;
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ObjPipeline *pipelines[NUM_PLATFORMS];
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bool32 forceSkipUsedBones;
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};
extern SkinGlobals skinGlobals;
void registerSkinPlugin(void);
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struct Clump;
struct Light : PluginBase<Light>, Object
{
Frame *frame;
float32 radius;
float32 color[4];
float32 minusCosAngle;
Clump *clump;
Light(void);
Light(Light *l);
~Light(void);
static Light *streamRead(Stream *stream);
bool streamWrite(Stream *stream);
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uint32 streamGetSize(void);
};
struct Atomic : PluginBase<Atomic>, Object
{
Frame *frame;
Geometry *geometry;
Clump *clump;
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ObjPipeline *pipeline;
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Atomic(void);
Atomic(Atomic *a);
~Atomic(void);
static Atomic *streamReadClump(Stream *stream,
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Frame **frameList, Geometry **geometryList);
bool streamWriteClump(Stream *stream,
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Frame **frameList, int32 numFrames);
uint32 streamGetSize(void);
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ObjPipeline *getPipeline(void);
static void init(void);
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};
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extern ObjPipeline *defaultPipelines[NUM_PLATFORMS];
void registerAtomicRightsPlugin(void);
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struct Clump : PluginBase<Clump>, Object
{
int32 numAtomics;
Atomic **atomicList;
int32 numLights;
Light **lightList;
int32 numCameras;
// cameras not implemented
Clump(void);
Clump(Clump *c);
~Clump(void);
static Clump *streamRead(Stream *stream);
bool streamWrite(Stream *stream);
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uint32 streamGetSize(void);
void frameListStreamRead(Stream *stream, Frame ***flp, int32 *nf);
void frameListStreamWrite(Stream *stream, Frame **flp, int32 nf);
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};
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struct TexDictionary : PluginBase<TexDictionary>
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{
Texture *first;
TexDictionary(void);
void add(Texture *tex);
Texture *find(const char *name);
static TexDictionary *streamRead(Stream *stream);
void streamWrite(Stream *stream);
uint32 streamGetSize(void);
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};
struct Animation;
struct AnimInterpolatorInfo
{
int32 id;
int32 keyFrameSize;
int32 customDataSize;
void (*streamRead)(Stream *stream, Animation *anim);
void (*streamWrite)(Stream *stream, Animation *anim);
uint32 (*streamGetSize)(Animation *anim);
};
void registerAnimInterpolatorInfo(AnimInterpolatorInfo *interpInfo);
AnimInterpolatorInfo *findAnimInterpolatorInfo(int32 id);
struct Animation
{
AnimInterpolatorInfo *interpInfo;
int32 numFrames;
int32 flags;
float duration;
void *keyframes;
void *customData;
Animation(AnimInterpolatorInfo*, int32 numFrames, int32 flags, float duration);
static Animation *streamRead(Stream *stream);
static Animation *streamReadLegacy(Stream *stream);
bool streamWrite(Stream *stream);
bool streamWriteLegacy(Stream *stream);
uint32 streamGetSize(void);
};
struct AnimInterpolator
{
// only a stub right now
Animation *anim;
AnimInterpolator(Animation *anim);
};
extern TexDictionary *currentTexDictionary;
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struct UVAnimKeyFrame
{
UVAnimKeyFrame *prev;
float time;
float uv[6];
};
struct UVAnimCustomData
{
char name[32];
int32 nodeToUVChannel[8];
// RW has a refcount
};
struct UVAnimDictionary
{
int32 numAnims;
Animation **anims;
static UVAnimDictionary *streamRead(Stream *stream);
bool streamWrite(Stream *stream);
uint32 streamGetSize(void);
Animation *find(const char *name);
};
extern UVAnimDictionary *currentUVAnimDictionary;
extern int32 uvAnimOffset;
void registerUVAnimPlugin(void);
}