From bffaceb579ba66ba675f5b99e93258423b3c97ab Mon Sep 17 00:00:00 2001 From: Filip Gawin Date: Tue, 29 Dec 2020 18:53:36 +0100 Subject: Remove sdk --- sdk/rwsdk/include/d3d8/rtltmap.h | 601 --------------------------------------- 1 file changed, 601 deletions(-) delete mode 100644 sdk/rwsdk/include/d3d8/rtltmap.h (limited to 'sdk/rwsdk/include/d3d8/rtltmap.h') diff --git a/sdk/rwsdk/include/d3d8/rtltmap.h b/sdk/rwsdk/include/d3d8/rtltmap.h deleted file mode 100644 index 1a53b185..00000000 --- a/sdk/rwsdk/include/d3d8/rtltmap.h +++ /dev/null @@ -1,601 +0,0 @@ - -/** - * \defgroup rtltmap RtLtMap - * \ingroup rttool - * - * Lightmap Generation Toolkit for RenderWare. - */ - -#ifndef RTLTMAP_H -#define RTLTMAP_H - -/*===========================================================================* - *--- Includes --------------------------------------------------------------* - *===========================================================================*/ - -#include "rwcore.h" -#include "rpworld.h" - -#include "rpltmap.h" - - -/** - * \ingroup rtltmap - * \typedef RtLtMapIlluminateSampleCallBack - * \ref RtLtMapIlluminateSampleCallBack is the callback to be called, from - * within \ref RtLtMapIlluminate, for groups of samples in the objects - * currently being illuminated. - * - * For lightmapped objects, samples are grouped on a per-polygon basis and - * for vertex-lit objects, samples are grouped on a per-object basis (see - * \ref RtLtMapObjectFlags). - * - * This callback will receive an array of color values to fill in, each - * representing one sample in the current object - this may correspond to - * a texel in the current object's lightmap or the prelight colour of a - * vertex, depending on whether the object is lightmapped and/or vertex-lit. - * It will receive positions (in world-space) for each sample and the normal - * vector (again, in world-space) of each sample (normals are interpolated - * across polygons for non-flat-shaded materials. See \ref RtLtMapMaterialFlags). - * For lightmap samples (not vertex-lighting samples), it will receive - * barycentric coordinates within the current polygon. It will also receive - * a list of RpLights affecting the current object. - * - * The barycentric coordinates may be used, for example, to allow a callback - * to easily import existing lighting data (e.g from previously generated - * lightmaps in a different format, or from an art package with lighting - * functionality). - * - * NOTE: The alpha channel of the RwRGBA results array must NOT be modified. - * These values are used internally and their modification may result in - * unwanted visual artifacts in the resulting lighting solution. - * - * The default RtLtMapIlluminateSampleCallBacks supplied with RtLtMap is - * \ref RtLtMapDefaultSampleCallBack. This callback performs point and area - * lighting (the area lights use are those passed to \ref RtLtMapIlluminate). - * - * \param results A pointer to an array of \ref RwRGBA sample color values - * \param samplePositions A pointer to an array of \ref RwV3d values specifying the - * world-space positions of each of the samples in the results array - * \param baryCoords A pointer to an array of \ref RwV3d values specifying the - * barycentric coordinates (within the current polygon) of - * each of the samples in the results array - * \param numSamples The length of the results, samplePositions, baryCoords and normals arrays - * \param lights An array of pointers to \ref RpLight's affecting the current object - * \param numLights The length of the lights array - * \param normals A pointer to an array of \ref RwV3d values specifying the - * world-space, unit normals of each of the samples in the results array - * - * \return A pointer to the results array on success, NULL otherwise - * - * \see RtLtMapIlluminate - * \see RtLtMapIlluminateVisCallBack - * \see RtLtMapIlluminateProgressCallBack - */ -typedef RwRGBA *(*RtLtMapIlluminateSampleCallBack)(RwRGBA *results, - RwV3d *samplePositions, - RwV3d *baryCoords, - RwUInt32 numSamples, - RpLight **lights, - RwUInt32 numLights, - RwV3d *normals); - -/** - * \ingroup rtltmap - * \typedef RtLtMapIlluminateVisCallBack - * \ref RtLtMapIlluminateVisCallBack is the callback to be called, from - * within \ref RtLtMapIlluminate, to determine the visibility between a - * sample and a light. - * - * This callback is called for all samples in the current - * \ref RtLtMapLightingSession and for each light source which may - * potentially affect each of those samples (this may not be all the - * lights in the scene, as some hierarchical culling is performed). - * Each sample may represent a texel in the current object's lightmap - * or the prelight color of a vertex, depending on whether the object - * is lightmapped and/or vertex-lit (see \ref RtLtMapObjectFlags). - * - * The callback will receive a pointer to the world of the current - * \ref RtLtMapLightingSession (this may be used to perform intersection - * tests), the world-space position of the sample, the world-space - * position of the light, a pointer to a light and a pointer to an - * \ref RwRGBAReal result value. - * - * If the light pointer is NULL, this means that the current light - * is an area light (as opposed to an \ref RpLight), of an internal - * format. The area lights use are those passed to \ref RtLtMapIlluminate. - * - * The callback should return FALSE to signify that the light is wholly - * occluded w.r.t the sample position, otherwise it should return TRUE. - * Partial degrees of (color-frequency-dependent) occlusion may be - * expressed by modifying the RwRGBAReal value. This defaults to bright - * white but may be reduced to signify that the light from the light - * source should be attenuated. This could be used to take into account - * light-filtering objects in the scene (such as coloured glass or fog). - * - * The default RtLtMapIlluminateVisCallBack supplied with RtLtMap is - * \ref RtLtMapDefaultVisCallBack. This callback performs visibility - * tests using the line-intersection tests from \ref rtintersect. It tests - * for occlusion by RpWorldSectors and RpAtomics and it respects the - * relevant \ref RtLtMapObjectFlags and \ref RtLtMapMaterialFlags but it - * does not filter light; visibility is determined to be either one or zero. - * - * \param world The world of the current RtLtMapLightingSession - * \param result An RwRGBAReal value to attentuate this light's - * contribution to the current sample - * \param samplePos The world-space positiuon of the sample - * \param lightPos The world-space positiuon of the light - * \param light A pointer to the light (NULL if it is an are light) - * - * \return TRUE if the light is visible from the sample, FALSE if it is occluded - * - * \see RtLtMapIlluminate - * \see RtLtMapIlluminateSampleCallBack - * \see RtLtMapIlluminateProgressCallBack - */ -typedef RwBool (*RtLtMapIlluminateVisCallBack)(RpWorld *world, - RwRGBAReal *result, - RwV3d *samplePos, - RwV3d *lightPos, - RpLight *light); - -/** - * \ingroup rtltmap - * \typedef RtLtMapIlluminateProgressCallBack - * \ref RtLtMapIlluminateProgressCallBack is the callback to be called, from - * within \ref RtLtMapIlluminate, to allow a user to track lighting progress. - * - * The progress callback will be called at several stages during lighting, - * with a different 'message' parameter value used at each stage (see - * \ref RtLtMapProgressMessage). It will be called at the very start of - * lighting (for a given \ref RtLtMapLightingSession), before any samples - * are lit. It will also be called at the very end of lighting, after all - * samples have been lit. It will be called before and after each lighting - * 'slice' (see \ref RtLtMapIlluminate) and also after each group of - * samples have been lit. - * - * For lightmapped objects, samples are grouped on a per-polygon basis and - * for vertex-lit objects, samples are grouped on a per-object basis (see - * \ref RtLtMapObjectFlags). - * - * The progress callback will receive a RwReal value specifying the percentage - * of samples already lit in the current \ref RtLtMapLightingSession (see - * \ref RtLtMapLightingSessionGetNumSamples). - * - * By returning FALSE, the progress callback may cause early termination of - * the current lighting 'slice' (this may be used, for example, to keep - * the time spent lighting each slice fairly constant). - * - * There is no default progress callback supplied with RtLtMap. - * - * \param message A \ref RtLtMapProgressMessage identifying the stage - * of the current call to the progress callback - * \param value The percentage of samples already lit in the - * current \ref RtLtMapLightingSession - * - * \return FALSE to immediately terminate lighting, otherwise TRUE - * - * \see RtLtMapIlluminate - * \see RtLtMapIlluminateSampleCallBack - * \see RtLtMapIlluminateVisCallBack - */ -typedef RwBool (*RtLtMapIlluminateProgressCallBack)(RwInt32 message, - RwReal value); - - -/** - * \ingroup rtltmap - * \ref RtLtMapProgressMessage is an enumerated type identifying the different - * stages at which the \ref RtLtMapIlluminateProgressCallBack may be called - * from within \ref RtLtMapIlluminate. - * - * \see RtLtMapIlluminateProgressCallBack - * \see RtLtMapIlluminate - */ -enum RtLtMapProgressMessage -{ - rtLTMAPPROGRESSNAMESSAGE = 0, - - rtLTMAPPROGRESSSTART = 1, /**< This is issued at the beginning of - * an incremental lighting session */ - rtLTMAPPROGRESSSTARTSLICE = 2, /**< This is issued at the beginning of every - * slice in an incremental lighting session */ - rtLTMAPPROGRESSUPDATE = 3, /**< This is issued after the lighting of each - * lightmapped triangle or vertex-lit object */ - rtLTMAPPROGRESSENDSLICE = 4, /**< This is issued at the end of every slice - * in an incremental lighting session */ - rtLTMAPPROGRESSEND = 5, /**< This is issued at the end of an - * incremental lighting session */ - - rtLTMAPPROGRESSFORCEENUMSIZEINT = 0x7FFFFFFF -}; -typedef enum RtLtMapProgressMessage RtLtMapProgressMessage; - -typedef struct RtLtMapLightingSession RtLtMapLightingSession; -/** - * \ingroup rtltmap - * \typedef RtLtMapLightingSession - * The \ref RtLtMapLightingSession structure holds information to be passed to - * \ref RtLtMapIlluminate. It is used to parameterize the lighting process. - * - * The \ref RtLtMapLightingSession structure encapsulates a set of objects and - * keeps track of the proportion of samples, within that set, that have already - * been lit by calls to \ref RtLtMapIlluminate. Each call performs lighting for - * one 'slice' of the whole 'session'. If the camera member is non-NULL, it is - * important that the camera is not moved between lighting slices. - * - * The \ref RtLtMapLightingSession is also passed to - * \ref RtLtMapLightMapsCreate, \ref RtLtMapLightMapsClear, - * \ref RtLtMapLightMapsDestroy and \ref RtLtMapAreaLightGroupCreate, - * though not all of the session structure's member will be used in - * each of these cases. - * - * \see RtLtMapIlluminate - * \see RtLtMapLightMapsCreate - * \see RtLtMapLightMapsClear - * \see RtLtMapLightMapsDestroy - * \see RtLtMapAreaLightGroupCreate - */ -struct RtLtMapLightingSession -{ - RpWorld *world; /**< This world is that in which collisions are performed - * during illumination (for the purposes of lighting - * visibility determination) */ - RwCamera *camera; /**< An optional pointer to a camera. The camera's frustum - * may be used to cull objects and/or triangles from the - * set of those to be processed. */ - RpWorldSector **sectorList; /**< An optional array of \ref RpWorldSector pointers, - * specifying which sectors in the world to light. If - * this is NULL, then all sectors in the world (or those - * inside the optional camera's frustum) will be lit. */ - RwInt32 numSectors; /**< The length of the sectorList array. If this is set to - * '-1' then none of the sectors in the world will be lit. */ - RpAtomic **atomicList; /**< An optional array of \ref RpAtomic pointers, - * specifying which atomics to light. If this is NULL - * then all atomics in the world (or those inside the - * optional camera's frustum) will be lit. */ - RwInt32 numAtomics; /**< The length of the atomicList array. If this is set to - * '-1' then none of the atomics in the world will be lit. */ - RwUInt32 startSample; /**< Lighting for the current 'slice' should begin with this - * sample. It is the user's responsibility to increment this - * value after each slice. Note that partial lighting is - * quantized to be per-polygon (for lightmapped objects). - * startSample will always be rounded down, not up. */ - RwUInt32 numSamples; /**< This specifies how many lightmap samples should be lit. - * If it is left zero then all samples in the current set - * of objects will be lit. Note that partial lighting is - * quantized to be per-polygon (for lightmapped objects). - * numSamples will always be rounded up, not down. */ - RwUInt32 totalSamples;/**< This specifies how many lightmap samples will be lit in - * total for the world specified (this is filled in by - * \ref RtLtMapIlluminate, not the calling function). */ - RtLtMapIlluminateSampleCallBack sampleCallBack; /**< A \ref RtLtMapIlluminateSampleCallBack - * to use during lighting. If this is left - * NULL, the default callback will be used. */ - RtLtMapIlluminateVisCallBack visCallBack; /**< A \ref RtLtMapIlluminateVisCallBack - * to use during lighting. If this is left - * NULL, the default callback will be used. */ - RtLtMapIlluminateProgressCallBack progressCallBack; /**< A \ref RtLtMapIlluminateProgressCallBack - * to use during lighting. If this is left - * NULL, no progress callback will be used. */ -}; - -/** - * \ingroup rtltmap - * \ref RtLtMapMaterialFlags is an enumerated type specifying the different - * lightmap-related flags which may be applied to materials. These values - * will be taken into consideration within \ref RtLtMapIlluminate. - * - * \see RtLtMapMaterialGetFlags - * \see RtLtMapMaterialSetFlags - * \see RtLtMapMaterialGetAreaLightColor - * \see RtLtMapMaterialSetAreaLightColor - * \see RtLtMapMaterialGetLightMapDensityModifier - * \see RtLtMapMaterialSetLightMapDensityModifier - * \see RtLtMapMaterialGetAreaLightDensityModifier - * \see RtLtMapMaterialSetAreaLightDensityModifier - * \see RtLtMapMaterialSetAreaLightRadiusModifier - * \see RtLtMapMaterialGetAreaLightRadiusModifier - * \see RtLtMapIlluminate - * \see RtLtMapAreaLightGroupCreate - * \see RtLtMapIlluminateVisCallBack - */ -enum RtLtMapMaterialFlags -{ - rtLTMAPMATERIALNAFLAG = 0, - - rtLTMAPMATERIALLIGHTMAP = 1, /**< This material should be lightmapped - * [for non-lightmapped materials within lightmapped objects, - * texel values will be set to (0, 0, 0) (or (255, 255, 255) if - * the rtLTMAPMATERIALAREALIGHT flag is present, so that light- - * emitting textures appear as bright as the light which they are - * emittering) and the mesh may be 'shrunk' in UV-space so as not - * to waste lightmap texels] */ - rtLTMAPMATERIALAREALIGHT = 2, /**< This material is an area light emitter - * (see \ref RtLtMapAreaLightGroupCreate) */ - rtLTMAPMATERIALNOSHADOW = 4, /**< This material does not block light */ - rtLTMAPMATERIALSKY = 8, /**< This material blocks everything but directional - * lights, to allow sky polygons to occlude geometry - * and yet emit directional light (sky or sun light, - * being as if cast from an infinite distance) */ - rtLTMAPMATERIALFLATSHADE = 16, /**< This material will be lit as if flat-shaded - * (polygon normals will be used during illumination) */ - - rtLTMAPMATERIALFLAGFORCEENUMSIZEINT = 0x7FFFFFFF -}; -typedef enum RtLtMapMaterialFlags RtLtMapMaterialFlags; - -/** - * \ingroup rtltmap - * \ref RtLtMapObjectFlags is an enumerated type specifying the different - * lightmap-related flags which may be applied to world sectors and - * atomics. These values will be taken into consideration within - * \ref RtLtMapLightMapsCreate and \ref RtLtMapIlluminate. - * - * \see RtLtMapAtomicGetFlags - * \see RtLtMapAtomicSetFlags - * \see RtLtMapWorldSectorGetFlags - * \see RtLtMapWorldSectorSetFlags - * \see RtLtMapLightMapsCreate - * \see RtLtMapIlluminate - * \see RtLtMapIlluminateVisCallBack - */ -enum RtLtMapObjectFlags -{ - rtLTMAPOBJECTNAFLAG = 0, - - rtLTMAPOBJECTLIGHTMAP = 1, /**< This object is to be lightmapped */ - rtLTMAPOBJECTVERTEXLIGHT = 2, /**< This object's vertex prelight colours should - * be lit within \ref RtLtMapIlluminate. */ - rtLTMAPOBJECTNOSHADOW = 4, /**< This object does not cast shadows (useful, for - * example, for moving objects for which dynamic - * shadows are to be rendered - such as doors) */ - - rtLTMAPOBJECTFLAGFORCEENUMSIZEINT = 0x7FFFFFFF -}; -typedef enum RtLtMapObjectFlags RtLtMapObjectFlags; - -/* Area-lighting stuff:* - ***********************/ - -/** - * \ingroup rtltmap - * \typedef RtLtMapAreaLightGroup - * \ref RtLtMapAreaLightGroup is a structure which acts as a container - * for area lights created by a call to \ref RtLtMapAreaLightGroupCreate. - * The containers may be chained and passed to \ref RtLtMapIlluminate. - * Each container has an optional pointer to a RwFrame which is used to - * transform the contained area lights relative to the world of the current - * \ref RtLtMapLightingSession and relative to each other (such that, for - * example, lights from multiple worlds, which are connected by portals, - * or which are composed of atomics and not world sectors, may be used - * within a single call to \ref RtLtMapIlluminate). - * - * \see RtLtMapAreaLightGroupCreate - * \see RtLtMapAreaLightGroupDestroy - * \see RtLtMapIlluminate - * \see RtLtMapIlluminateVisCallBack - */ -typedef struct RtLtMapAreaLightGroup RtLtMapAreaLightGroup; -struct RtLtMapAreaLightGroup -{ - RwSList *meshes; /**< A list of hierarchically-grouped area lights */ - RwFrame *frame; /**< An (optional) pointer to a frame (owned by something else) - * whose LTM specifies the coordinate system of this container, - * relative to the world of the current \ref RtLtMapLightingSession. */ - RtLtMapAreaLightGroup *next; /**< A pointer for chaining are light groups together */ -}; - -/* Area light triangles are grouped by source mesh (this may change) */ -typedef struct LtMapAreaLightMesh LtMapAreaLightMesh; -struct LtMapAreaLightMesh -{ - RwUInt32 flags; /* To hold hierarchical visibility culling flags, - * relevant to the object/triangle *currently* being lit. */ - RpMaterial *material; /* The emitter material, containing colour, etc */ - RwSphere sphere; /* Each mesh has an associated center and radius */ - RwReal ROI; /* Centred on the above sphere, the R.O.I. of the - * samples in this mesh (a conservative estimate) */ - RwSList *triangles; /* A list of the area light triangles in this mesh */ -}; - -/* Area light samples are grouped by source triangle */ -typedef struct LtMapAreaLight LtMapAreaLight; -struct LtMapAreaLight -{ - RwUInt16 flags; /* To hold hierarchical visibility culling flags, - * relevant to the object/triangle *currently* being lit. */ - RwUInt16 numSamples; /* Number of area light samples in this triangle */ - RwReal areaPerSample; /* (triangleArea / numSamples) for this triangle */ - RwPlane plane; /* This 'area light' is a triangle, this is its plane. */ - RwSphere sphere; /* This bounds the triangle's points in world-space (it's - * not worth storing 3 points, coarse culling is fine) */ - RwV3d *lights; /* Array of area light sample positions (in world-space) */ -}; - - -#ifdef __cplusplus -extern "C" -{ -#endif /* __cplusplus */ - - -/* Lightmap creation functionality: */ -extern RtLtMapLightingSession * -RtLtMapLightMapsCreate(RtLtMapLightingSession *session, - RwReal density, RwRGBA *color); - -extern void -RtLtMapLightMapsDestroy(RtLtMapLightingSession *session); -extern RpAtomic * -RtLtMapAtomicLightMapDestroy(RpAtomic *atomic); -extern RpWorldSector * -RtLtMapWorldSectorLightMapDestroy(RpWorldSector *sector); - -extern RwReal -RtLtMapGetVertexWeldThreshold(void); -extern RwBool -RtLtMapSetVertexWeldThreshold(RwReal threshold); - -extern RwUInt32 -RtLtMapLightMapGetDefaultSize(void); -extern RwBool -RtLtMapLightMapSetDefaultSize(RwUInt32 size); - -extern RwUInt32 -RtLtMapAtomicGetLightMapSize(RpAtomic *atomic); -extern RpAtomic * -RtLtMapAtomicSetLightMapSize(RpAtomic *atomic, RwUInt32 size); -extern RwUInt32 -RtLtMapWorldSectorGetLightMapSize(RpWorldSector *sector); -extern RpWorldSector * -RtLtMapWorldSectorSetLightMapSize(RpWorldSector *sector, RwUInt32 size); - -extern RwUInt32 -RtLtMapAtomicGetFlags(RpAtomic *atomic); -extern RpAtomic * -RtLtMapAtomicSetFlags(RpAtomic *atomic, RwUInt32 flags); -extern RwUInt32 -RtLtMapWorldSectorGetFlags(RpWorldSector *sector); -extern RpWorldSector * -RtLtMapWorldSectorSetFlags(RpWorldSector *sector, RwUInt32 flags); - - -/* Lightmap illumination functionality: */ -extern RwUInt32 -RtLtMapIlluminate(RtLtMapLightingSession *session, - RtLtMapAreaLightGroup *lights); - -extern RwReal -RtLtMapGetSliverAreaThreshold(void); -extern RwBool -RtLtMapSetSliverAreaThreshold(RwReal threshold); - -extern RwRGBA * -RtLtMapDefaultSampleCallBack(RwRGBA *results, - RwV3d *samplePositions, - RwV3d * __RWUNUSED__ baryCoords, - RwUInt32 numSamples, - RpLight **lights, - RwUInt32 numLights, - RwV3d *normals); - -extern RwBool -RtLtMapDefaultVisCallBack(RpWorld *world, - RwRGBAReal __RWUNUSED__ *result, - RwV3d *samplePos, - RwV3d *lightPos, - RpLight __RWUNUSED__ *light); - -extern RtLtMapLightingSession * -RtLtMapLightingSessionInitialize(RtLtMapLightingSession *session, - RpWorld *world); - -extern RwInt32 -RtLtMapLightingSessionGetNumSamples(RtLtMapLightingSession *session); -extern RwInt32 -RtLtMapWorldSectorGetNumSamples(RpWorldSector *sector); -extern RwInt32 -RtLtMapAtomicGetNumSamples(RpAtomic *atomic); - -extern RtLtMapLightingSession * -RtLtMapImagesPurge(RtLtMapLightingSession *session); -extern RpAtomic * -RtLtMapAtomicImagePurge(RpAtomic *atomic); -extern RpWorldSector * -RtLtMapWorldSectorImagePurge(RpWorldSector *sector); - -extern RtLtMapLightingSession * -RtLtMapLightMapsClear(RtLtMapLightingSession *session, RwRGBA *color); -extern RpAtomic * -RtLtMapAtomicLightMapClear(RpAtomic *atomic, RwRGBA *color); -extern RpWorldSector * -RtLtMapWorldSectorLightMapClear(RpWorldSector *sector, RwRGBA *color); - - -/* Material/area-lighting functionality: */ -extern RtLtMapAreaLightGroup * -RtLtMapAreaLightGroupCreate(RtLtMapLightingSession *session, RwReal density); -extern RwBool -RtLtMapAreaLightGroupDestroy(RtLtMapAreaLightGroup *lights); - -extern RwUInt32 -RtLtMapMaterialGetFlags(RpMaterial *material); -extern RpMaterial * -RtLtMapMaterialSetFlags(RpMaterial *material, RwUInt32 flags); - -extern RwReal -RtLtMapMaterialGetLightMapDensityModifier(RpMaterial *material); -extern RpMaterial * -RtLtMapMaterialSetLightMapDensityModifier(RpMaterial *material, RwReal modifier); - -extern RwRGBA -RtLtMapMaterialGetAreaLightColor(RpMaterial *material); -extern RpMaterial * -RtLtMapMaterialSetAreaLightColor(RpMaterial *material, RwRGBA color); - -extern RwReal -RtLtMapMaterialGetAreaLightDensityModifier(RpMaterial *material); -extern RpMaterial * -RtLtMapMaterialSetAreaLightDensityModifier(RpMaterial *material, RwReal modifier); - -extern RwReal -RtLtMapMaterialGetAreaLightRadiusModifier(RpMaterial *material); -extern RpMaterial * -RtLtMapMaterialSetAreaLightRadiusModifier(RpMaterial *material, RwReal modifier); - -extern RwUInt32 -RtLtMapGetMaxAreaLightSamplesPerMesh(void); -extern RwBool -RtLtMapSetMaxAreaLightSamplesPerMesh(RwUInt32 maxSamples); -extern RwReal -RtLtMapGetAreaLightDensityModifier(void); -extern RwBool -RtLtMapSetAreaLightDensityModifier(RwReal modifier); -extern RwReal -RtLtMapGetAreaLightRadiusModifier(void); -extern RwBool -RtLtMapSetAreaLightRadiusModifier(RwReal modifier); -extern RwReal -RtLtMapGetAreaLightErrorCutoff(void); -extern RwBool -RtLtMapSetAreaLightErrorCutoff(RwReal tolerance); - - - -/* Texture-saving functionality: */ -extern RwTexDictionary * -RtLtMapTexDictionaryCreate(RtLtMapLightingSession *session); - -extern const RwChar * -RtLtMapGetDefaultPrefixString(void); -extern RwBool -RtLtMapSetDefaultPrefixString(RwChar *string); - -extern RwUInt32 -RtLtMapGetLightMapCounter(void); -extern RwBool -RtLtMapSetLightMapCounter(RwUInt32 value); - - -#if (defined(SKY2_DRVMODEL_H) || defined(NULLSKY_DRVMODEL_H)) - -/* PS2-specific functionality: */ -extern RwTexture *RtLtMapSkyLightMapMakeDarkMap(RwTexture *lightMap); - -extern RwTexture *RtLtMapSkyBaseTextureProcess(RwTexture *texture); -extern RpAtomic *RtLtMapSkyAtomicBaseTexturesProcess(RpAtomic *atomic); -extern RpWorldSector * -RtLtMapSkyWorldSectorBaseTexturesProcess(RpWorldSector *sector); -extern RtLtMapLightingSession * -RtLtMapSkyBaseTexturesProcess(RtLtMapLightingSession *session); - -#endif /* (defined(SKY2_DRVMODEL_H) || defined(NULLSKY_DRVMODEL_H)) */ - -#ifdef __cplusplus -} -#endif /* __cplusplus */ - -#endif /* RTLTMAP_H */ - - -- cgit v1.2.3