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re3/rwsdk/include/d3d8/rpptank.h

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2019-05-18 10:39:39 +00:00
#ifndef RPPTANK_H
#define RPPTANK_H
/*===========================================================================*
*--- Include files ---------------------------------------------------------*
*===========================================================================*/
#include "rwcore.h"
#include "rpworld.h"
/*---- start: ./ptank.h----*/
/**
* \defgroup rpptank RpPTank
* \ingroup rpplugin
*
* PTank Plugin for RenderWare.
*/
/*--- Include files ---*/
#include <string.h>
#include "rwcore.h"
#include "rpptank.rpe" /* automatically generated header file */
/******************************************************************************
* Global Types
*/
/**
* \ingroup rpptank
* Passed to \ref RpPTankAtomicCreate, these flags specify
* the type and properties held by the particles.
* Some flags are mutually exclusive and should not be mixed.
* The debug version of the library will assert and signal these problems.
*/
enum RpPTankDataFlags
{
rpPTANKDFLAGNONE = ((int)0x00000000),
rpPTANKDFLAGPOSITION = ((int)0x00000001), /**<Uses a position per particle*/
rpPTANKDFLAGCOLOR = ((int)0x00000002), /**<Uses a color per particle*/
rpPTANKDFLAGSIZE = ((int)0x00000004), /**<Uses a size per particle*/
rpPTANKDFLAGMATRIX = ((int)0x00000008), /**<Uses a matrix per particle*/
rpPTANKDFLAGNORMAL = ((int)0x00000010), /**<Uses a normal per particle*/
rpPTANKDFLAG2DROTATE = ((int)0x00000020), /**<Uses a 2D rotation per particle*/
rpPTANKDFLAGVTXCOLOR = ((int)0x00000040), /**<Uses a color per Billboard vertex*/
rpPTANKDFLAGVTX2TEXCOORDS = ((int)0x00000080), /**<Uses Top-Left and Bottom-Right Texture coordinates*/
rpPTANKDFLAGVTX4TEXCOORDS = ((int)0x00000100), /**<Uses a texture UV per vertex*/
/* free = ((int)0x00000200), */
/* free = ((int)0x00000400), */
/* free = ((int)0x00000800), */
/* free = ((int)0x00001000), */
/* free = ((int)0x00002000), */
/* free = ((int)0x00004000), */
rpPTANKDFLAGCNSMATRIX = ((int)0x00008000), /**<Uses a constant matrix*/
rpPTANKDFLAGCNSNORMAL = ((int)0x00010000), /**<Uses a constant normal*/
rpPTANKDFLAGCNS2DROTATE = ((int)0x00020000), /**<Uses a constant 2D rotation*/
rpPTANKDFLAGCNSVTXCOLOR = ((int)0x00040000), /**<Uses a constant color per Billboard vertex*/
rpPTANKDFLAGCNSVTX2TEXCOORDS = ((int)0x00080000), /**<Uses constant Top-Left and Bottom-Right Texture coordinates*/
rpPTANKDFLAGCNSVTX4TEXCOORDS = ((int)0x00100000), /**<Uses a constant texture UV per vertex*/
/* free = ((int)0x00200000), */
/* free = ((int)0x00400000), */
/* free = ((int)0x00800000), */
rpPTANKDFLAGUSECENTER = ((int)0x01000000), /**<The position of the particles are shifted*/
/* free = ((int)0x04000000), */
/* free = ((int)0x08000000), */
rpPTANKDFLAGARRAY = ((int)0x10000000), /**<Data is organized in an array */
rpPTANKDFLAGSTRUCTURE = ((int)0x20000000), /**<Data is organized in a structure */
RPPTANKDATAFLAGSFORCEENUMSIZEINT = RWFORCEENUMSIZEINT
};
typedef enum RpPTankDataFlags RpPTankDataFlags;
#define rpPTANKDFLAGTHINPARTICLES (rpPTANKDFLAGPOSITION)
#define rpPTANKDFLAGFATPARTICLES ( rpPTANKDFLAGPOSITION | rpPTANKDFLAGSIZE \
| rpPTANKDFLAG2DROTATE | rpPTANKDFLAGVTXCOLOR \
| rpPTANKDFLAGVTX4TEXCOORDS)
/**
* \ingroup rpptank
* Passed to \ref RpPTankAtomicLock, these flags specify
* the data accessed.
* those flags are mutually exclusive and should not be mixed.
*/
enum RpPTankDataLockFlags
{
rpPTANKLFLAGNONE = ((int)0x00000000),
rpPTANKLFLAGPOSITION = ((int)0x00000001), /**<Access the positions buffer*/
rpPTANKLFLAGCOLOR = ((int)0x00000002), /**<Access the colors buffer*/
rpPTANKLFLAGSIZE = ((int)0x00000004), /**<Access the sizes buffer*/
rpPTANKLFLAGMATRIX = ((int)0x00000008), /**<Access the matrixes buffer*/
rpPTANKLFLAGNORMAL = ((int)0x00000010), /**<Access the normals buffer*/
rpPTANKLFLAG2DROTATE = ((int)0x00000020), /**<Access the 2D rotations buffer*/
rpPTANKLFLAGVTXCOLOR = ((int)0x00000040), /**<Access the colors buffer (when using a color per vertex) */
rpPTANKLFLAGVTX2TEXCOORDS = ((int)0x00000080), /**<Access the Top-Left and Bottom-Right Texture coordinates buffer*/
rpPTANKLFLAGVTX4TEXCOORDS = ((int)0x00000100), /**<Access the texture UVs Buffer (when using a color per vertex)*/
RPPTANKLOCKFLAGSFORCEENUMSIZEINT = RWFORCEENUMSIZEINT
};
typedef enum RpPTankDataLockFlags RpPTankDataLockFlags;
#if (!defined(DOXYGEN))
/**
* \ingroup rpptank
* RpPTankInstanceFlags
*/
enum RpPTankInstanceFlags
{
rpPTANKIFLAGNONE = ((int)0x00000000),
rpPTANKIFLAGPOSITION = ((int)0x00000001), /**<Particles position changed*/
rpPTANKIFLAGCOLOR = ((int)0x00000002), /**<Particles color changed*/
rpPTANKIFLAGSIZE = ((int)0x00000004), /**<Particles size changed*/
rpPTANKIFLAGMATRIX = ((int)0x00000008), /**<Particles matrix changed*/
rpPTANKIFLAGNORMAL = ((int)0x00000010), /**<Particles normal changed*/
rpPTANKIFLAG2DROTATE = ((int)0x00000020), /**<Particles 2D rotation changed*/
rpPTANKIFLAGVTXCOLOR = ((int)0x00000040), /**<Vertex color changed*/
rpPTANKIFLAGVTX2TEXCOORDS = ((int)0x00000080), /**<Vertex 2 Texture coordinates changed*/
rpPTANKIFLAGVTX4TEXCOORDS = ((int)0x00000100), /**<Vertex 4 Texture coordinates changed*/
/* free = ((int)0x00000200), */
/* free = ((int)0x00000400), */
/* free = ((int)0x00000800), */
/* free = ((int)0x00001000), */
rpPTANKIFLAGCNSCOLOR = ((int)0x00002000), /**<Constant color changed*/
rpPTANKIFLAGCNSSIZE = ((int)0x00004000), /**<Constant size changed*/
rpPTANKIFLAGCNSMATRIX = ((int)0x00008000), /**<Constant matrix changed*/
rpPTANKIFLAGCNSNORMAL = ((int)0x00010000), /**<Constant normal changed*/
rpPTANKIFLAGCNS2DROTATE = ((int)0x00020000), /**<Constant 2D rotation changed*/
rpPTANKIFLAGCNSVTXCOLOR = ((int)0x00040000), /**<Constant vertex color changed*/
rpPTANKIFLAGCNSVTX2TEXCOORDS = ((int)0x00080000), /**<Constant vertex 2 Texture coordinates changed*/
rpPTANKIFLAGCNSVTX4TEXCOORDS = ((int)0x00100000), /**<Constant vertex 4 Texture coordinates changed*/
/* free = ((int)0x00200000), */
/* free = ((int)0x00400000), */
rpPTANKIFLAGACTNUMCHG = ((int)0x00800000), /**<Number of active particle changed*/
rpPTANKIFLAGCENTER = ((int)0x01000000), /**<Center position changed*/
/* free = ((int)0x04000000), */
/* free = ((int)0x08000000), */
/* free = ((int)0x10000000), */
rpPTANKIFLAGALL = ((int)0xFFFFFFFF),
RPPTANKINSTANCEFLAGSFORCEENUMSIZEINT = RWFORCEENUMSIZEINT
};
typedef enum RpPTankInstanceFlags RpPTankInstanceFlags;
#endif
/**
* \ingroup rpptank
* Passed to \ref RpPTankAtomicLock to specify the type of access needed.
*
* Accessing data using \ref rpPTANKLOCKWRITE will force the PTank object to reinstance
* the rendered data. The instantiation of this data takes place at rendering
* time and is done once per frame.
*/
enum RpPTankLockFlags
{
rpPTANKLOCKWRITE = ((int)0x40000000), /**<Lock data for writing. */
rpPTANKLOCKREAD = ((int)0x80000000) /**<Lock data for reading. */
};
typedef enum RpPTankLockFlags RpPTankLockFlags;
typedef struct RpPTankLockStruct RpPTankLockStruct;
/**
* \ingroup rpptank
* \struct RpPTankLockStruct
* Returned by \ref RpPTankAtomicLock
*/
struct RpPTankLockStruct{
RwUInt8 *data; /**<Pointer to the locked data. */
RwInt32 stride; /**<Stride of the data accessed. */
};
typedef struct RpPTankFormatDescriptor RpPTankFormatDescriptor;
/**
* \ingroup rpptank
* \struct RpPTankFormatDescriptor
* Returned by \ref RpPTankAtomicGetDataFormat
*/
struct RpPTankFormatDescriptor
{
RwInt32 numClusters; /**<Number of clusters */
RwInt32 stride; /**<Size of a single structure when using
* structure organization, 0 otherwise */
RwInt32 dataFlags; /**<flags passed to \ref RpPTankAtomicCreate */
};
#if (!defined(DOXYGEN))
typedef struct RpPTankData RpPTankData;
struct RpPTankData
{
void *data; /* PI data array
* in the A form :
* Point to the ptrList table
* in the S form :
* point to the structure
*
*/
RpPTankLockStruct clusters[9];
void *userData; /* void pointer for platform use */
RpPTankFormatDescriptor format;
/* constant values */
RwUInt32 srcBlend;
RwUInt32 dstBlend;
RwBool vertexAlphaBlend;
RwV2d cCenter;
RwV2d cSize;
RwReal cRotate;
RwRGBA cColor;
RwRGBA cVtxColor[4];
RwTexCoords cUV[4];
RwMatrix cMatrix;
};
/* data piece size */
extern const RwInt32 datasize[];
#define RPPTANKSIZEPOSITION 0
#define RPPTANKSIZEMATRIX 1
#define RPPTANKSIZENORMAL 2
#define RPPTANKSIZESIZE 3
#define RPPTANKSIZECOLOR 4
#define RPPTANKSIZEVTXCOLOR 5
#define RPPTANKSIZE2DROTATE 6
#define RPPTANKSIZEVTX2TEXCOORDS 7
#define RPPTANKSIZEVTX4TEXCOORDS 8
/**
* \ingroup rpptank
* \typedef rpptankAllocCallBack
* ...
*/
typedef void *(* rpPTankAllocCallBack)(RpPTankData *ptankGlobal,
RwInt32 maxPCount,
RwUInt32 dataFlags,
RwUInt32 platFlags);
/**
* \ingroup rpptank
* \typedef rpPTankCreateCallBack
* ...
*/
typedef RwBool (* rpPTankCreateCallBack)(RpAtomic *atomic,
RpPTankData *ptankGlobal,
RwInt32 maxPCount,
RwUInt32 dataFlags,
RwUInt32 platFlags);
/**
* \ingroup rpptank
* \typedef rpPTankInstanceCallBack
* ...
*/
typedef RwBool (* rpPTankInstanceCallBack)(RpAtomic *atomic,
RpPTankData *ptankGlobal,
RwInt32 actPCount,
RwUInt32 instFlags);
/**
* \ingroup rpptank
* \typedef rpPTankRenderCallBack
* ...
*/
typedef RwBool (* rpPTankRenderCallBack)(RpAtomic *atomic,
RpPTankData *ptankGlobal,
RwInt32 actPCount);
typedef struct rpPTankCallBacks rpPTankCallBacks;
struct rpPTankCallBacks
{
rpPTankAllocCallBack alloc;
rpPTankCreateCallBack create;
rpPTankInstanceCallBack instance;
rpPTankRenderCallBack render;
};
/* private typedefs */
typedef struct rpPTANKInstanceSetupData rpPTANKInstanceSetupData;
struct rpPTANKInstanceSetupData
{
RwBool instancePositions;
RwBool instanceUVs;
RwBool instanceColors;
RwBool instanceNormals;
RpPTankLockStruct positionOut;
RpPTankLockStruct UVOut;
RpPTankLockStruct colorsOut;
RpPTankLockStruct normalsOut;
RwV3d right;
RwV3d up;
};
typedef void (* rpPTankGENInstancePosCallback)(
RpPTankLockStruct *dstCluster,
RwV3d *right,
RwV3d *up,
RwInt32 pCount,
RpPTankData *ptankGlobal);
typedef void (* rpPTankGENInstanceCallback)(
RpPTankLockStruct *dstCluster,
RwInt32 pCount,
RpPTankData *ptankGlobal);
typedef void (* rpPTankGENInstanceSetupCallback)(
rpPTANKInstanceSetupData *data,
RpAtomic *atomic,
RpPTankData *ptankGlobal,
RwInt32 actPCount,
RwUInt32 instFlags);
typedef void (* rpPTankGENInstanceEndingCallback)(
rpPTANKInstanceSetupData *data,
RpAtomic *atomic,
RpPTankData *ptankGlobal,
RwInt32 actPCount,
RwUInt32 instFlags);
typedef struct RpPTankAtomicExtPrv RpPTankAtomicExtPrv;
struct RpPTankAtomicExtPrv
{
RwInt32 maxPCount; /* max number of particles */
RwInt32 actPCount; /* number of actives particles */
RwBool isAStructure; /* is in a structure of array form */
void *rawdata; /* unaligned pointer to the PI data */
/* Rendering callback */
RpAtomicCallBackRender defaultRenderCB;
rpPTankCallBacks ptankCallBacks;
/* Instancing CallBacks */
rpPTankGENInstanceSetupCallback insSetupCB;
rpPTankGENInstancePosCallback insPosCB;
rpPTankGENInstanceCallback insUVCB;
rpPTankGENInstanceCallback insColorsCB;
rpPTankGENInstanceCallback insNormalsCB;
rpPTankGENInstanceEndingCallback insEndingCB;
RwUInt32 lockFlags;
RwUInt32 instFlags;
RwUInt32 platFlags;
RpPTankData publicData;
};
/*--- Plugin API Functions ---*/
#ifdef __cplusplus
extern "C"
{
#endif /* __cplusplus */
/* private globals */
extern RwInt32 _rpPTankAtomicDataOffset; /* Offset in RpAtomic */
extern RwInt32 _rpPTankGlobalsOffset; /* Offset in RwEngine */
/* Macro tools */
#define RPATOMICPTANKPLUGINDATA(atomic) \
(*RWPLUGINOFFSET(RpPTankAtomicExtPrv *, (atomic), _rpPTankAtomicDataOffset))
#define GLOBALPTANKPLUGINDATA() \
(*RWPLUGINOFFSET(void *, RwEngineInstance, _rpPTankGlobalsOffset))
#endif
extern RwBool
RpPTankPluginAttach(void);
/*
* PTank Management API ******************************************************
*/
extern RpAtomic *
RpPTankAtomicCreate(RwInt32 maxParticleNum,
RwUInt32 dataFlags,
RwUInt32 platFlags);
extern void
RpPTankAtomicDestroy(RpAtomic *ptank);
extern RwBool
RpAtomicIsPTank(RpAtomic *atomic);
extern const RpPTankFormatDescriptor *
RpPTankAtomicGetDataFormat(RpAtomic *atomic);
/*
* Particles Management API **************************************************
*/
#define RpPTankAtomicGetActiveParticlesCountMacro(_atm)\
(RPATOMICPTANKPLUGINDATA(_atm)->actPCount)
#define RpPTankAtomicGetMaximumParticlesCountMacro(_atm)\
(RPATOMICPTANKPLUGINDATA(_atm)->maxPCount)
#define RpPTankAtomicSetActiveParticlesCountMacro(atm_,cnt_)\
MACRO_START\
{\
RPATOMICPTANKPLUGINDATA(atm_)->instFlags |= rpPTANKIFLAGACTNUMCHG;\
RPATOMICPTANKPLUGINDATA(atm_)->actPCount = cnt_;\
}\
MACRO_STOP
#define RpPTankAtomicSetTextureMacro(atm_, tex_)\
MACRO_START\
{\
RpMaterialSetTexture(RpGeometryGetMaterial(RpAtomicGetGeometry(atm_),0), tex_);\
}\
MACRO_STOP
#define RpPTankAtomicGetTextureMacro(atm_)\
(RpMaterialGetTexture(RpGeometryGetMaterial(RpAtomicGetGeometry(atm_),0)))
#define RpPTankAtomicGetMaterialMacro(atm_)\
(RpGeometryGetMaterial(RpAtomicGetGeometry(atm_),0))
#define RpPTankAtomicSetBlendModesMacro(atm_,src_,dst_)\
MACRO_START\
{\
RPATOMICPTANKPLUGINDATA(atm_)->publicData.srcBlend = src_;\
RPATOMICPTANKPLUGINDATA(atm_)->publicData.dstBlend = dst_;\
}\
MACRO_STOP
#define RpPTankAtomicGetBlendModesMacro(atm_,src_,dst_)\
MACRO_START\
{\
*src_ =\
(RwBlendFunction)(RPATOMICPTANKPLUGINDATA(atm_)->publicData.srcBlend);\
*dst_ =\
(RwBlendFunction)(RPATOMICPTANKPLUGINDATA(atm_)->publicData.dstBlend);\
}\
MACRO_STOP
#define RpPTankAtomicSetVertexAlphaMacro(atm_, vas_)\
MACRO_START\
{\
RPATOMICPTANKPLUGINDATA(atm_)->publicData.vertexAlphaBlend = vas_;\
}\
MACRO_STOP
#define RpPTankAtomicGetVertexAlphaMacro(atm_)\
(RPATOMICPTANKPLUGINDATA(atm_)->publicData.vertexAlphaBlend)
#define RpPTankAtomicSetConstantCenterMacro(atm_, ctr_)\
MACRO_START\
{\
RPATOMICPTANKPLUGINDATA(atm_)->publicData.cCenter = *ctr_;\
RPATOMICPTANKPLUGINDATA(atm_)->instFlags |= rpPTANKIFLAGCENTER;\
}\
MACRO_STOP
#define RpPTankAtomicGetConstantCenterMacro(atm_)\
(&(RPATOMICPTANKPLUGINDATA(atm_)->publicData.cCenter))
#define RpPTankAtomicSetConstantSizeMacro(atm_, size_)\
MACRO_START\
{\
RPATOMICPTANKPLUGINDATA(atm_)->publicData.cSize = *size_;\
RPATOMICPTANKPLUGINDATA(atm_)->instFlags |= rpPTANKIFLAGCNSSIZE;\
}\
MACRO_STOP
#define RpPTankAtomicGetConstantSizeMacro(atm_)\
(&RPATOMICPTANKPLUGINDATA(atm_)->publicData.cSize)
#define RpPTankAtomicSetConstantRotateMacro(atm_, rot_)\
MACRO_START\
{\
RPATOMICPTANKPLUGINDATA(atm_)->publicData.cRotate = rot_;\
RPATOMICPTANKPLUGINDATA(atm_)->instFlags |= rpPTANKIFLAGCNS2DROTATE;\
}\
MACRO_STOP
#define RpPTankAtomicGetConstantRotateMacro(atm_)\
(RPATOMICPTANKPLUGINDATA(atm_)->publicData.cRotate)
#define RpPTankAtomicSetConstantMatrixMacro(atm_, mtx_)\
MACRO_START\
{\
RwMatrixCopy(&(RPATOMICPTANKPLUGINDATA(atm_)->publicData.cMatrix),mtx_);\
RPATOMICPTANKPLUGINDATA(atm_)->instFlags |= rpPTANKIFLAGCNSMATRIX;\
}\
MACRO_STOP
#define RpPTankAtomicGetConstantMatrixMacro(atm_)\
(&(RPATOMICPTANKPLUGINDATA(atm_)->publicData.cMatrix))
#define RpPTankAtomicSetConstantColorMacro(atm_, col_)\
MACRO_START\
{\
RPATOMICPTANKPLUGINDATA(atm_)->publicData.cColor = *col_;\
if( RpGeometryGetMaterial(RpAtomicGetGeometry(atm_),0) )\
{\
RpMaterialSetColor(\
RpGeometryGetMaterial(RpAtomicGetGeometry(atm_),0),\
&RPATOMICPTANKPLUGINDATA(atm_)->publicData.cColor);\
}\
RPATOMICPTANKPLUGINDATA(atm_)->instFlags |= rpPTANKIFLAGCNSCOLOR;\
}\
MACRO_STOP
#define RpPTankAtomicGetConstantColorMacro(atm_)\
(&(RPATOMICPTANKPLUGINDATA(atm_)->publicData.cColor))
#define RpPTankAtomicSetConstantVtxColorMacro(atm_, col_)\
MACRO_START\
{\
memcpy(RPATOMICPTANKPLUGINDATA(atm_)->publicData.cVtxColor,\
col_,\
sizeof(RwRGBA)*4);\
RPATOMICPTANKPLUGINDATA(atm_)->instFlags |= rpPTANKIFLAGCNSVTXCOLOR;\
}\
MACRO_STOP
#define RpPTankAtomicGetConstantVtxColorMacro(atm_)\
(RPATOMICPTANKPLUGINDATA(atm_)->publicData.cVtxColor)
#define RpPTankAtomicSetConstantVtx2TexCoordsMacro(atm_, uv_)\
MACRO_START\
{\
memcpy(RPATOMICPTANKPLUGINDATA(atm_)->publicData.cUV,\
uv_,\
sizeof(RwTexCoords)*2);\
RPATOMICPTANKPLUGINDATA(atm_)->instFlags |= rpPTANKIFLAGCNSVTX2TEXCOORDS;\
}\
MACRO_STOP
#define RpPTankAtomicGetConstantVtx2TexCoordsMacro(atm_)\
(RPATOMICPTANKPLUGINDATA(atm_)->publicData.cUV)
#define RpPTankAtomicSetConstantVtx4TexCoordsMacro(atm_, uv_)\
MACRO_START\
{\
memcpy(RPATOMICPTANKPLUGINDATA(atm_)->publicData.cUV,\
uv_,\
sizeof(RwTexCoords)*4);\
RPATOMICPTANKPLUGINDATA(atm_)->instFlags |= rpPTANKIFLAGCNSVTX4TEXCOORDS;\
}\
MACRO_STOP
#define RpPTankAtomicGetConstantVtx4TexCoordsMacro(atm_)\
(RPATOMICPTANKPLUGINDATA(atm_)->publicData.cUV)
#if (defined(RWDEBUG) || defined(RWSUPPRESSINLINE))
extern RwInt32
RpPTankAtomicGetActiveParticlesCount(RpAtomic *atomic);
extern RwInt32
RpPTankAtomicGetMaximumParticlesCount(RpAtomic *atomic);
extern void
RpPTankAtomicSetActiveParticlesCount(RpAtomic *atomic, RwInt32 count);
extern void
RpPTankAtomicSetTexture(RpAtomic *atomic, RwTexture *texture);
extern RwTexture *
RpPTankAtomicGetTexture(RpAtomic *atomic);
extern RpAtomic *
RpPTankAtomicSetMaterial(RpAtomic *atomic, RpMaterial *material);
extern RpMaterial *
RpPTankAtomicGetMaterial(RpAtomic *atomic);
extern void
RpPTankAtomicSetBlendModes(RpAtomic *atomic,
RwBlendFunction srcBlendMode,
RwBlendFunction dstBlendMode );
extern void
RpPTankAtomicGetBlendModes(RpAtomic *atomic,
RwBlendFunction *srcBlendMode,
RwBlendFunction *dstBlendMode );
extern void
RpPTankAtomicSetVertexAlpha(RpAtomic *atomic, RwBool vtxAlphaState);
extern RwBool
RpPTankAtomicGetVertexAlpha(RpAtomic *atomic);
extern void
RpPTankAtomicSetConstantCenter(RpAtomic *atomic, RwV2d *center);
const RwV2d *
RpPTankAtomicGetConstantCenter(RpAtomic *atomic);
extern void
RpPTankAtomicSetConstantSize(RpAtomic *atomic, RwV2d *size);
extern const RwV2d *
RpPTankAtomicGetConstantSize(RpAtomic *atomic);
extern void
RpPTankAtomicSetConstantRotate(RpAtomic *atomic, RwReal rotate);
extern RwReal
RpPTankAtomicGetConstantRotate(RpAtomic *atomic);
extern void
RpPTankAtomicSetConstantMatrix(RpAtomic *atomic, RwMatrix *matrix);
extern const RwMatrix *
RpPTankAtomicGetConstantMatrix(RpAtomic *atomic);
extern void
RpPTankAtomicSetConstantColor(RpAtomic *atomic, RwRGBA *color);
extern const RwRGBA *
RpPTankAtomicGetConstantColor(RpAtomic *atomic);
extern void
RpPTankAtomicSetConstantVtxColor(RpAtomic *atomic, RwRGBA *color);
extern const RwRGBA *
RpPTankAtomicGetConstantVtxColor(RpAtomic *atomic);
extern void
RpPTankAtomicSetConstantVtx2TexCoords(RpAtomic *atomic, RwTexCoords *UVs);
extern const RwTexCoords *
RpPTankAtomicGetConstantVtx2TexCoords(RpAtomic *atomic);
extern void
RpPTankAtomicSetConstantVtx4TexCoords(RpAtomic *atomic, RwTexCoords *UVs);
extern const RwTexCoords *
RpPTankAtomicGetConstantVtx4TexCoords(RpAtomic *atomic);
#else
#define RpPTankAtomicGetActiveParticlesCount(atm_)\
RpPTankAtomicGetActiveParticlesCountMacro(atm_)
#define RpPTankAtomicGetMaximumParticlesCount(atm_)\
RpPTankAtomicGetMaximumParticlesCountMacro(atm_)
#define RpPTankAtomicSetActiveParticlesCount(atm_,cnt_)\
RpPTankAtomicSetActiveParticlesCountMacro(atm_,cnt_)
#define RpPTankAtomicSetTexture(atm_,tex_)\
RpPTankAtomicSetTextureMacro(atm_,tex_)
#define RpPTankAtomicGetTexture(atm_)\
RpPTankAtomicGetTextureMacro(atm_)
extern RpAtomic *
RpPTankAtomicSetMaterial(RpAtomic *atomic, RpMaterial *material);
#define RpPTankAtomicGetMaterial(atm_)\
RpPTankAtomicGetMaterialMacro(atm_)
#define RpPTankAtomicSetBlendModes(atm_,src_,dst_)\
RpPTankAtomicSetBlendModesMacro(atm_,src_,dst_)
#define RpPTankAtomicGetBlendModes(atm_,src_,dst_)\
RpPTankAtomicGetBlendModesMacro(atm_,src_,dst_)
#define RpPTankAtomicSetVertexAlpha(atm_, vas_)\
RpPTankAtomicSetVertexAlphaMacro(atm_, vas_)
#define RpPTankAtomicGetVertexAlpha(atm_)\
RpPTankAtomicGetVertexAlphaMacro(atm_)
#define RpPTankAtomicSetConstantCenter(atm_, ctr_)\
RpPTankAtomicSetConstantCenterMacro(atm_, ctr_)
#define RpPTankAtomicGetConstantCenter(atm_)\
RpPTankAtomicGetConstantCenterMacro(atm_)
#define RpPTankAtomicSetConstantSize(atm_, size_)\
RpPTankAtomicSetConstantSizeMacro(atm_, size_)
#define RpPTankAtomicGetConstantSize(atm_)\
RpPTankAtomicGetConstantSizeMacro(atm_)
#define RpPTankAtomicSetConstantRotate(atm_, rot_)\
RpPTankAtomicSetConstantRotateMacro(atm_, rot_)
#define RpPTankAtomicGetConstantRotate(atm_)\
RpPTankAtomicGetConstantRotateMacro(atm_)
#define RpPTankAtomicSetConstantMatrix(atm_, mtx_)\
RpPTankAtomicSetConstantMatrixMacro(atm_, mtx_)
#define RpPTankAtomicGetConstantMatrix(atm_)\
RpPTankAtomicGetConstantMatrixMacro(atm_)
#define RpPTankAtomicSetConstantColor(atm_, col_)\
RpPTankAtomicSetConstantColorMacro(atm_, col_)
#define RpPTankAtomicGetConstantColor(atm_)\
RpPTankAtomicGetConstantColorMacro(atm_)
#define RpPTankAtomicSetConstantVtxColor(atm_, _col)\
RpPTankAtomicSetConstantVtxColorMacro(atm_, _col)
#define RpPTankAtomicGetConstantVtxColor(atm_)\
RpPTankAtomicGetConstantVtxColorMacro(atm_)
#define RpPTankAtomicSetConstantVtx2TexCoords(atm_, uv_)\
RpPTankAtomicSetConstantVtx2TexCoordsMacro(atm_, uv_)
#define RpPTankAtomicGetConstantVtx2TexCoords(atm_)\
RpPTankAtomicGetConstantVtx2TexCoordsMacro(atm_)\
#define RpPTankAtomicSetConstantVtx4TexCoords(atm_, uv_)\
RpPTankAtomicSetConstantVtx4TexCoordsMacro(atm_, uv_)
#define RpPTankAtomicGetConstantVtx4TexCoords(atm_)\
RpPTankAtomicGetConstantVtx4TexCoordsMacro(atm_)
#endif
/*
* Data access API ***********************************************************
*/
extern RwBool
RpPTankAtomicLock(RpAtomic *atomic, RpPTankLockStruct *dst,
RwUInt32 dataFlags, RpPTankLockFlags lockFlag);
extern void *
RpPTankAtomicLockByIndex(RpAtomic *atomic, RwInt32 idx, RwUInt32 dataFlags, RpPTankLockFlags lockFlag);
extern RpAtomic *
RpPTankAtomicUnlock(RpAtomic *atomic);
#ifdef __cplusplus
}
#endif /* __cplusplus */
/*---- end: ./ptank.h----*/
/*---- start: c:/daily/rwsdk/plugin/ptank/d3d8/ptankplatform.h----*/
enum RpPTankD3D8Flags
{
rpPTANKD3D8FLAGSUSEPOINTSPRITES = 0x00000001,
rpPTANKD3D8FLAGFORCEENUMSIZEINT = RWFORCEENUMSIZEINT
};
/*---- end: c:/daily/rwsdk/plugin/ptank/d3d8/ptankplatform.h----*/
#endif /* RPPTANK_H */