#pragma once
#ifdef EXTENDED_PIPELINES
#ifdef LIBRW
namespace CustomPipes {
extern rw::TexDictionary *neoTxd;
struct CustomMatExt
{
rw::Texture *glossTex;
bool haveGloss;
};
extern rw::int32 CustomMatOffset;
inline CustomMatExt *GetCustomMatExt(rw::Material *mat) {
return PLUGINOFFSET(CustomMatExt, mat, CustomMatOffset);
}
struct Color
{
float r, g, b, a;
Color(void) {}
Color(float r, float g, float b, float a) : r(r), g(g), b(b), a(a) {}
};
class InterpolatedValue
{
public:
virtual void Read(char *s, int line, int field) = 0;
};
class InterpolatedFloat : public InterpolatedValue
{
public:
float data[24][NUMWEATHERS];
float curInterpolator;
float curVal;
InterpolatedFloat(float init);
void Read(char *s, int line, int field);
float Get(void);
};
class InterpolatedColor : public InterpolatedValue
{
public:
Color data[24][NUMWEATHERS];
float curInterpolator;
Color curVal;
InterpolatedColor(const Color &init);
void Read(char *s, int line, int field);
Color Get(void);
};
class InterpolatedLight : public InterpolatedColor
{
public:
InterpolatedLight(const Color &init) : InterpolatedColor(init) {}
void Read(char *s, int line, int field);
};
char *ReadTweakValueTable(char *fp, InterpolatedValue &interp);
void CustomPipeRegister(void);
void CustomPipeRegisterGL(void);
void CustomPipeInit(void);
void CustomPipeShutdown(void);
void SetTxdFindCallback(void);
extern bool bRenderingEnvMap;
extern int32 EnvMapSize;
extern rw::Camera *EnvMapCam;
extern rw::Texture *EnvMapTex;
extern rw::Texture *EnvMaskTex;
void EnvMapRender(void);
enum {
VEHICLEPIPE_MATFX,
VEHICLEPIPE_NEO
};
extern int32 VehiclePipeSwitch;
extern float VehicleShininess;
extern float VehicleSpecularity;
extern InterpolatedFloat Fresnel;
extern InterpolatedFloat Power;
extern InterpolatedLight DiffColor;
extern InterpolatedLight SpecColor;
extern rw::ObjPipeline *vehiclePipe;
void CreateVehiclePipe(void);
void DestroyVehiclePipe(void);
void AttachVehiclePipe(rw::Atomic *atomic);
void AttachVehiclePipe(rw::Clump *clump);
extern bool LightmapEnable;
extern float LightmapMult;
extern InterpolatedFloat WorldLightmapBlend;
extern rw::ObjPipeline *worldPipe;
void CreateWorldPipe(void);
void DestroyWorldPipe(void);
void AttachWorldPipe(rw::Atomic *atomic);
void AttachWorldPipe(rw::Clump *clump);
extern bool GlossEnable;
extern float GlossMult;
extern rw::ObjPipeline *glossPipe;
void CreateGlossPipe(void);
void DestroyGlossPipe(void);
void AttachGlossPipe(rw::Atomic *atomic);
void AttachGlossPipe(rw::Clump *clump);
rw::Texture *GetGlossTex(rw::Material *mat);
extern bool RimlightEnable;
extern float RimlightMult;
extern InterpolatedColor RampStart;
extern InterpolatedColor RampEnd;
extern InterpolatedFloat Offset;
extern InterpolatedFloat Scale;
extern InterpolatedFloat Scaling;
extern rw::ObjPipeline *rimPipe;
extern rw::ObjPipeline *rimSkinPipe;
void CreateRimLightPipes(void);
void DestroyRimLightPipes(void);
void AttachRimPipe(rw::Atomic *atomic);
void AttachRimPipe(rw::Clump *clump);
}
#endif
namespace WorldRender{
extern int numBlendInsts[3];
void AtomicFirstPass(RpAtomic *atomic, int pass);
void AtomicFullyTransparent(RpAtomic *atomic, int pass, int fadeAlpha);
void RenderBlendPass(int pass);
}
#endif