driver/runtime/rs_structs.h - platform/frameworks/rs - Git at Google

 #ifndef _RS_STRUCTS_H_
 #define _RS_STRUCTS_H_

 #include "rs_core.rsh"
 #include "rs_graphics.rsh"

 /*****************************************************************************
  * CAUTION
  *
  * The following structure layout provides a more efficient way to access
  * internal members of the C++ class Allocation owned by librs. Unfortunately,
  * since this class has virtual members, we can't simply use offsetof() or any
  * other compiler trickery to dynamically get the appropriate values at
  * build-time. This layout may need to be updated whenever
  * frameworks/base/libs/rs/rsAllocation.h is modified.
  *
  * Having the layout information available in this file allows us to
  * accelerate functionality like rsAllocationGetDimX(). Without this
  * information, we would not be able to inline the bitcode, thus resulting in
  * potential runtime performance penalties for tight loops operating on
  * allocations.
  *
  *****************************************************************************/
 typedef enum {
     RS_ALLOCATION_MIPMAP_NONE = 0,
     RS_ALLOCATION_MIPMAP_FULL = 1,
     RS_ALLOCATION_MIPMAP_ON_SYNC_TO_TEXTURE = 2
 } rs_allocation_mipmap_control;

 typedef struct Allocation {
 #ifndef __LP64__
     char __pad[32];
 #else
     char __pad[56];
 #endif
     struct {
         void * drv;
         struct {
             const void *type;
             uint32_t usageFlags;
             rs_allocation_mipmap_control mipmapControl;
             uint32_t yuv;
             uint32_t elementSizeBytes;
             bool hasMipmaps;
             bool hasFaces;
             bool hasReferences;
             void * usrPtr;
             int32_t surfaceTextureID;
             void * nativeBuffer;
             int64_t timestamp;

             // Allocation adapter state
             const void *baseAlloc;
             uint32_t originX;
             uint32_t originY;
             uint32_t originZ;
             uint32_t originLOD;
             uint32_t originFace;
             uint32_t originArray[4/*Type::mMaxArrays*/];
         } state;

         struct DrvState {
             struct LodState {
                 void * mallocPtr;
                 size_t stride;
                 uint32_t dimX;
                 uint32_t dimY;
                 uint32_t dimZ;
             } lod[16/*android::renderscript::Allocation::MAX_LOD*/];
             size_t faceOffset;
             uint32_t lodCount;
             uint32_t faceCount;

             struct YuvState {
                 uint32_t shift;
                 uint32_t step;
             } yuv;

             int grallocFlags;
             uint32_t dimArray[4/*Type::mMaxArrays*/];
         } drvState;
     } mHal;
 } Allocation_t;

 #ifndef __LP64__
 /*****************************************************************************
  * CAUTION
  *
  * The following structure layout provides a more efficient way to access
  * internal members of the C++ class ProgramStore owned by librs. Unfortunately,
  * since this class has virtual members, we can't simply use offsetof() or any
  * other compiler trickery to dynamically get the appropriate values at
  * build-time. This layout may need to be updated whenever
  * frameworks/base/libs/rs/rsProgramStore.h is modified.
  *
  * Having the layout information available in this file allows us to
  * accelerate functionality like rsgProgramStoreGetDepthFunc(). Without this
  * information, we would not be able to inline the bitcode, thus resulting in
  * potential runtime performance penalties for tight loops operating on
  * program store.
  *
  *****************************************************************************/
 typedef struct ProgramStore {
     char __pad[40];
     struct {
         struct {
             bool ditherEnable;
             bool colorRWriteEnable;
             bool colorGWriteEnable;
             bool colorBWriteEnable;
             bool colorAWriteEnable;
             rs_blend_src_func blendSrc;
             rs_blend_dst_func blendDst;
             bool depthWriteEnable;
             rs_depth_func depthFunc;
         } state;
     } mHal;
 } ProgramStore_t;

 /*****************************************************************************
  * CAUTION
  *
  * The following structure layout provides a more efficient way to access
  * internal members of the C++ class ProgramRaster owned by librs. Unfortunately,
  * since this class has virtual members, we can't simply use offsetof() or any
  * other compiler trickery to dynamically get the appropriate values at
  * build-time. This layout may need to be updated whenever
  * frameworks/base/libs/rs/rsProgramRaster.h is modified.
  *
  * Having the layout information available in this file allows us to
  * accelerate functionality like rsgProgramRasterGetCullMode(). Without this
  * information, we would not be able to inline the bitcode, thus resulting in
  * potential runtime performance penalties for tight loops operating on
  * program raster.
  *
  *****************************************************************************/
 typedef struct ProgramRaster {
     char __pad[36];
     struct {
         void * drv;
         struct {
             bool pointSprite;
             rs_cull_mode cull;
         } state;
     } mHal;
 } ProgramRaster_t;
 #endif //__LP64__

 /*****************************************************************************
  * CAUTION
  *
  * The following structure layout provides a more efficient way to access
  * internal members of the C++ class Sampler owned by librs. Unfortunately,
  * since this class has virtual members, we can't simply use offsetof() or any
  * other compiler trickery to dynamically get the appropriate values at
  * build-time. This layout may need to be updated whenever
  * frameworks/base/libs/rs/rsSampler.h is modified.
  *
  * Having the layout information available in this file allows us to
  * accelerate functionality like rsgProgramRasterGetMagFilter(). Without this
  * information, we would not be able to inline the bitcode, thus resulting in
  * potential runtime performance penalties for tight loops operating on
  * samplers.
  *
  *****************************************************************************/
 typedef struct Sampler {
 #ifndef __LP64__
     char __pad[32];
 #else
     char __pad[56];
 #endif
     struct {
         void *drv;
         struct {
             rs_sampler_value magFilter;
             rs_sampler_value minFilter;
             rs_sampler_value wrapS;
             rs_sampler_value wrapT;
             rs_sampler_value wrapR;
             float aniso;
         } state;
     } mHal;
 } Sampler_t;

 /*****************************************************************************
  * CAUTION
  *
  * The following structure layout provides a more efficient way to access
  * internal members of the C++ class Element owned by librs. Unfortunately,
  * since this class has virtual members, we can't simply use offsetof() or any
  * other compiler trickery to dynamically get the appropriate values at
  * build-time. This layout may need to be updated whenever
  * frameworks/base/libs/rs/rsElement.h is modified.
  *
  * Having the layout information available in this file allows us to
  * accelerate functionality like rsElementGetSubElementCount(). Without this
  * information, we would not be able to inline the bitcode, thus resulting in
  * potential runtime performance penalties for tight loops operating on
  * elements.
  *
  *****************************************************************************/
 typedef struct Element {
 #ifndef __LP64__
     char __pad[32];
 #else
     char __pad[56];
 #endif
     struct {
         void *drv;
         struct {
             rs_data_type dataType;
             rs_data_kind dataKind;
             uint32_t vectorSize;
             uint32_t elementSizeBytes;

             // Subelements
             const void **fields;
             uint32_t *fieldArraySizes;
             const char **fieldNames;
             uint32_t *fieldNameLengths;
             uint32_t *fieldOffsetBytes;
             uint32_t fieldsCount;
         } state;
     } mHal;
 } Element_t;

 /*****************************************************************************
  * CAUTION
  *
  * The following structure layout provides a more efficient way to access
  * internal members of the C++ class Type owned by librs. Unfortunately,
  * since this class has virtual members, we can't simply use offsetof() or any
  * other compiler trickery to dynamically get the appropriate values at
  * build-time. This layout may need to be updated whenever
  * frameworks/base/libs/rs/rsType.h is modified.
  *
  * Having the layout information available in this file allows us to
  * accelerate functionality like rsAllocationGetElement(). Without this
  * information, we would not be able to inline the bitcode, thus resulting in
  * potential runtime performance penalties for tight loops operating on
  * types.
  *
  *****************************************************************************/
 typedef struct Type {
 #ifndef __LP64__
     char __pad[32];
 #else
     char __pad[56];
 #endif
     struct {
         void *drv;
         struct {
             const void * element;
             uint32_t dimX;
             uint32_t dimY;
             uint32_t dimZ;
             uint32_t *lodDimX;
             uint32_t *lodDimY;
             uint32_t *lodDimZ;
             uint32_t *arrays;
             uint32_t lodCount;
             uint32_t dimYuv;
             uint32_t arrayCount;
             bool faces;
         } state;
     } mHal;
 } Type_t;

 #ifndef __LP64__
 /*****************************************************************************
  * CAUTION
  *
  * The following structure layout provides a more efficient way to access
  * internal members of the C++ class Mesh owned by librs. Unfortunately,
  * since this class has virtual members, we can't simply use offsetof() or any
  * other compiler trickery to dynamically get the appropriate values at
  * build-time. This layout may need to be updated whenever
  * frameworks/base/libs/rs/rsMesh.h is modified.
  *
  * Having the layout information available in this file allows us to
  * accelerate functionality like rsMeshGetVertexAllocationCount(). Without this
  * information, we would not be able to inline the bitcode, thus resulting in
  * potential runtime performance penalties for tight loops operating on
  * meshes.
  *
  *****************************************************************************/
 typedef struct Mesh {
     char __pad[32];
     struct {
         void *drv;
         struct {
             void **vertexBuffers;
             uint32_t vertexBuffersCount;

             // indexBuffers[i] could be nullptr, in which case only primitives[i] is used
             void **indexBuffers;
             uint32_t indexBuffersCount;
             rs_primitive *primitives;
             uint32_t primitivesCount;
         } state;
     } mHal;
 } Mesh_t;
 #endif //__LP64__

 // Null version of _RS_OBJECT_DECL defined in script_api/rs_object_types.spec
 #ifndef __LP64__
 #define RS_NULL_OBJ {0}
 #else
 #define RS_NULL_OBJ {0, 0, 0, 0}
 #endif //__LP64__

 #endif // _RS_CORE_H_
	#ifndef _RS_STRUCTS_H_
	#define _RS_STRUCTS_H_

	#include "rs_core.rsh"
	#include "rs_graphics.rsh"

	/*****************************************************************************
	* CAUTION
	*
	* The following structure layout provides a more efficient way to access
	* internal members of the C++ class Allocation owned by librs. Unfortunately,
	* since this class has virtual members, we can't simply use offsetof() or any
	* other compiler trickery to dynamically get the appropriate values at
	* build-time. This layout may need to be updated whenever
	* frameworks/base/libs/rs/rsAllocation.h is modified.
	*
	* Having the layout information available in this file allows us to
	* accelerate functionality like rsAllocationGetDimX(). Without this
	* information, we would not be able to inline the bitcode, thus resulting in
	* potential runtime performance penalties for tight loops operating on
	* allocations.
	*
	*****************************************************************************/
	typedef enum {
	RS_ALLOCATION_MIPMAP_NONE = 0,
	RS_ALLOCATION_MIPMAP_FULL = 1,
	RS_ALLOCATION_MIPMAP_ON_SYNC_TO_TEXTURE = 2
	} rs_allocation_mipmap_control;

	typedef struct Allocation {
	#ifndef __LP64__
	char __pad[32];
	#else
	char __pad[56];
	#endif
	struct {
	void * drv;
	struct {
	const void *type;
	uint32_t usageFlags;
	rs_allocation_mipmap_control mipmapControl;
	uint32_t yuv;
	uint32_t elementSizeBytes;
	bool hasMipmaps;
	bool hasFaces;
	bool hasReferences;
	void * usrPtr;
	int32_t surfaceTextureID;
	void * nativeBuffer;
	int64_t timestamp;

	// Allocation adapter state
	const void *baseAlloc;
	uint32_t originX;
	uint32_t originY;
	uint32_t originZ;
	uint32_t originLOD;
	uint32_t originFace;
	uint32_t originArray[4/Type::mMaxArrays/];
	} state;

	struct DrvState {
	struct LodState {
	void * mallocPtr;
	size_t stride;
	uint32_t dimX;
	uint32_t dimY;
	uint32_t dimZ;
	} lod[16/android::renderscript::Allocation::MAX_LOD/];
	size_t faceOffset;
	uint32_t lodCount;
	uint32_t faceCount;

	struct YuvState {
	uint32_t shift;
	uint32_t step;
	} yuv;

	int grallocFlags;
	uint32_t dimArray[4/Type::mMaxArrays/];
	} drvState;
	} mHal;
	} Allocation_t;

	#ifndef __LP64__
	/*****************************************************************************
	* CAUTION
	*
	* The following structure layout provides a more efficient way to access
	* internal members of the C++ class ProgramStore owned by librs. Unfortunately,
	* since this class has virtual members, we can't simply use offsetof() or any
	* other compiler trickery to dynamically get the appropriate values at
	* build-time. This layout may need to be updated whenever
	* frameworks/base/libs/rs/rsProgramStore.h is modified.
	*
	* Having the layout information available in this file allows us to
	* accelerate functionality like rsgProgramStoreGetDepthFunc(). Without this
	* information, we would not be able to inline the bitcode, thus resulting in
	* potential runtime performance penalties for tight loops operating on
	* program store.
	*
	*****************************************************************************/
	typedef struct ProgramStore {
	char __pad[40];
	struct {
	struct {
	bool ditherEnable;
	bool colorRWriteEnable;
	bool colorGWriteEnable;
	bool colorBWriteEnable;
	bool colorAWriteEnable;
	rs_blend_src_func blendSrc;
	rs_blend_dst_func blendDst;
	bool depthWriteEnable;
	rs_depth_func depthFunc;
	} state;
	} mHal;
	} ProgramStore_t;

	/*****************************************************************************
	* CAUTION
	*
	* The following structure layout provides a more efficient way to access
	* internal members of the C++ class ProgramRaster owned by librs. Unfortunately,
	* since this class has virtual members, we can't simply use offsetof() or any
	* other compiler trickery to dynamically get the appropriate values at
	* build-time. This layout may need to be updated whenever
	* frameworks/base/libs/rs/rsProgramRaster.h is modified.
	*
	* Having the layout information available in this file allows us to
	* accelerate functionality like rsgProgramRasterGetCullMode(). Without this
	* information, we would not be able to inline the bitcode, thus resulting in
	* potential runtime performance penalties for tight loops operating on
	* program raster.
	*
	*****************************************************************************/
	typedef struct ProgramRaster {
	char __pad[36];
	struct {
	void * drv;
	struct {
	bool pointSprite;
	rs_cull_mode cull;
	} state;
	} mHal;
	} ProgramRaster_t;
	#endif //__LP64__

	/*****************************************************************************
	* CAUTION
	*
	* The following structure layout provides a more efficient way to access
	* internal members of the C++ class Sampler owned by librs. Unfortunately,
	* since this class has virtual members, we can't simply use offsetof() or any
	* other compiler trickery to dynamically get the appropriate values at
	* build-time. This layout may need to be updated whenever
	* frameworks/base/libs/rs/rsSampler.h is modified.
	*
	* Having the layout information available in this file allows us to
	* accelerate functionality like rsgProgramRasterGetMagFilter(). Without this
	* information, we would not be able to inline the bitcode, thus resulting in
	* potential runtime performance penalties for tight loops operating on
	* samplers.
	*
	*****************************************************************************/
	typedef struct Sampler {
	#ifndef __LP64__
	char __pad[32];
	#else
	char __pad[56];
	#endif
	struct {
	void *drv;
	struct {
	rs_sampler_value magFilter;
	rs_sampler_value minFilter;
	rs_sampler_value wrapS;
	rs_sampler_value wrapT;
	rs_sampler_value wrapR;
	float aniso;
	} state;
	} mHal;
	} Sampler_t;

	/*****************************************************************************
	* CAUTION
	*
	* The following structure layout provides a more efficient way to access
	* internal members of the C++ class Element owned by librs. Unfortunately,
	* since this class has virtual members, we can't simply use offsetof() or any
	* other compiler trickery to dynamically get the appropriate values at
	* build-time. This layout may need to be updated whenever
	* frameworks/base/libs/rs/rsElement.h is modified.
	*
	* Having the layout information available in this file allows us to
	* accelerate functionality like rsElementGetSubElementCount(). Without this
	* information, we would not be able to inline the bitcode, thus resulting in
	* potential runtime performance penalties for tight loops operating on
	* elements.
	*
	*****************************************************************************/
	typedef struct Element {
	#ifndef __LP64__
	char __pad[32];
	#else
	char __pad[56];
	#endif
	struct {
	void *drv;
	struct {
	rs_data_type dataType;
	rs_data_kind dataKind;
	uint32_t vectorSize;
	uint32_t elementSizeBytes;

	// Subelements
	const void **fields;
	uint32_t *fieldArraySizes;
	const char **fieldNames;
	uint32_t *fieldNameLengths;
	uint32_t *fieldOffsetBytes;
	uint32_t fieldsCount;
	} state;
	} mHal;
	} Element_t;

	/*****************************************************************************
	* CAUTION
	*
	* The following structure layout provides a more efficient way to access
	* internal members of the C++ class Type owned by librs. Unfortunately,
	* since this class has virtual members, we can't simply use offsetof() or any
	* other compiler trickery to dynamically get the appropriate values at
	* build-time. This layout may need to be updated whenever
	* frameworks/base/libs/rs/rsType.h is modified.
	*
	* Having the layout information available in this file allows us to
	* accelerate functionality like rsAllocationGetElement(). Without this
	* information, we would not be able to inline the bitcode, thus resulting in
	* potential runtime performance penalties for tight loops operating on
	* types.
	*
	*****************************************************************************/
	typedef struct Type {
	#ifndef __LP64__
	char __pad[32];
	#else
	char __pad[56];
	#endif
	struct {
	void *drv;
	struct {
	const void * element;
	uint32_t dimX;
	uint32_t dimY;
	uint32_t dimZ;
	uint32_t *lodDimX;
	uint32_t *lodDimY;
	uint32_t *lodDimZ;
	uint32_t *arrays;
	uint32_t lodCount;
	uint32_t dimYuv;
	uint32_t arrayCount;
	bool faces;
	} state;
	} mHal;
	} Type_t;

	#ifndef __LP64__
	/*****************************************************************************
	* CAUTION
	*
	* The following structure layout provides a more efficient way to access
	* internal members of the C++ class Mesh owned by librs. Unfortunately,
	* since this class has virtual members, we can't simply use offsetof() or any
	* other compiler trickery to dynamically get the appropriate values at
	* build-time. This layout may need to be updated whenever
	* frameworks/base/libs/rs/rsMesh.h is modified.
	*
	* Having the layout information available in this file allows us to
	* accelerate functionality like rsMeshGetVertexAllocationCount(). Without this
	* information, we would not be able to inline the bitcode, thus resulting in
	* potential runtime performance penalties for tight loops operating on
	* meshes.
	*
	*****************************************************************************/
	typedef struct Mesh {
	char __pad[32];
	struct {
	void *drv;
	struct {
	void **vertexBuffers;
	uint32_t vertexBuffersCount;

	// indexBuffers[i] could be nullptr, in which case only primitives[i] is used
	void **indexBuffers;
	uint32_t indexBuffersCount;
	rs_primitive *primitives;
	uint32_t primitivesCount;
	} state;
	} mHal;
	} Mesh_t;
	#endif //__LP64__

	// Null version of _RS_OBJECT_DECL defined in script_api/rs_object_types.spec
	#ifndef __LP64__
	#define RS_NULL_OBJ {0}
	#else
	#define RS_NULL_OBJ {0, 0, 0, 0}
	#endif //__LP64__

	#endif // _RS_CORE_H_