scriptc/rs_for_each.rsh - platform/frameworks/rs - Git at Google

 /*
  * Copyright (C) 2015 The Android Open Source Project
  *
  * Licensed under the Apache License, Version 2.0 (the "License");
  * you may not use this file except in compliance with the License.
  * You may obtain a copy of the License at
  *
  *      http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  */

 // Don't edit this file!  It is auto-generated by frameworks/rs/api/generate.sh.

 /*
  * rs_for_each.rsh: Kernel Invocation Functions and Types
  *
  * The rsForEach() function can be used to invoke the root kernel of a script.
  *
  * The other functions are used to get the characteristics of the invocation of
  * an executing kernel, like dimensions and current indices.  These functions take
  * a rs_kernel_context as argument.
  */

 #ifndef RENDERSCRIPT_RS_FOR_EACH_RSH
 #define RENDERSCRIPT_RS_FOR_EACH_RSH

 /*
  * rs_for_each_strategy_t: Suggested cell processing order
  *
  * This type is used to suggest how the invoked kernel should iterate over the cells of the
  * allocations.  This is a hint only.  Implementations may not follow the suggestion.
  *
  * This specification can help the caching behavior of the running kernel, e.g. the cache
  * locality when the processing is distributed over multiple cores.
  */
 typedef enum rs_for_each_strategy {
     RS_FOR_EACH_STRATEGY_SERIAL = 0, // Prefer contiguous memory regions.
     RS_FOR_EACH_STRATEGY_DONT_CARE = 1, // No prefrences.
     RS_FOR_EACH_STRATEGY_DST_LINEAR = 2, // Prefer DST.
     RS_FOR_EACH_STRATEGY_TILE_SMALL = 3, // Prefer processing small rectangular regions.
     RS_FOR_EACH_STRATEGY_TILE_MEDIUM = 4, // Prefer processing medium rectangular regions.
     RS_FOR_EACH_STRATEGY_TILE_LARGE = 5 // Prefer processing large rectangular regions.
 } rs_for_each_strategy_t;

 /*
  * rs_kernel_context: Handle to a kernel invocation context
  *
  * The kernel context contains common characteristics of the allocations being iterated
  * over, like dimensions.  It also contains rarely used indices of the currently processed
  * cell, like the Array0 index or the current level of detail.
  *
  * You can access the kernel context by adding a special parameter named "context" of type
  * rs_kernel_context to your kernel function.  See rsGetDimX() and rsGetArray0() for examples.
  */
 #if (defined(RS_VERSION) && (RS_VERSION >= 23))
 typedef const struct rs_kernel_context_t * rs_kernel_context;
 #endif

 /*
  * rs_script_call_t: Cell iteration information
  *
  * This structure is used to provide iteration information to a rsForEach call.
  * It is currently used to restrict processing to a subset of cells.  In future
  * versions, it will also be used to provide hint on how to best iterate over
  * the cells.
  *
  * The Start fields are inclusive and the End fields are exclusive.  E.g. to iterate
  * over cells 4, 5, 6, and 7 in the X dimension, set xStart to 4 and xEnd to 8.
  */
 typedef struct rs_script_call {
     rs_for_each_strategy_t strategy; // Currently ignored.  In the future, will be suggested cell iteration strategy.
     uint32_t xStart; // Starting index in the X dimension.
     uint32_t xEnd; // Ending index (exclusive) in the X dimension.
     uint32_t yStart; // Starting index in the Y dimension.
     uint32_t yEnd; // Ending index (exclusive) in the Y dimension.
     uint32_t zStart; // Starting index in the Z dimension.
     uint32_t zEnd; // Ending index (exclusive) in the Z dimension.
     uint32_t arrayStart; // Starting index in the Array0 dimension.
     uint32_t arrayEnd; // Ending index (exclusive) in the Array0 dimension.
     uint32_t array1Start; // Starting index in the Array1 dimension.
     uint32_t array1End; // Ending index (exclusive) in the Array1 dimension.
     uint32_t array2Start; // Starting index in the Array2 dimension.
     uint32_t array2End; // Ending index (exclusive) in the Array2 dimension.
     uint32_t array3Start; // Starting index in the Array3 dimension.
     uint32_t array3End; // Ending index (exclusive) in the Array3 dimension.
 } rs_script_call_t;

 /*
  * rs_kernel: Handle to a kernel function
  *
  *  An opaque type for a function that is defined with the kernel attribute.  A value
  *  of this type can be used in a rsForEach call to launch a kernel.
  */
 #if (defined(RS_VERSION) && (RS_VERSION >= 4294967295) && (defined(RS_DECLARE_EXPIRED_APIS) || RS_VERSION <= 4294967295))
 typedef void* rs_kernel;
 #endif

 /*
  * rsForEach: Invoke the root kernel of a script
  *
  * Invoke the kernel named "root" of the specified script.  Like other kernels, this root()
  * function will be invoked repeatedly over the cells of the specificed allocation, filling
  * the output allocation with the results.
  *
  * When rsForEach is called, the root script is launched immediately.  rsForEach returns
  * only when the script has completed and the output allocation is ready to use.
  *
  * The rs_script argument is typically initialized using a global variable set from Java.
  *
  * The kernel can be invoked with just an input allocation or just an output allocation.
  * This can be done by defining an rs_allocation variable and not initializing it.  E.g.
  * rs_script gCustomScript;
  * void specializedProcessing(rs_allocation in) {
  *   rs_allocation ignoredOut;
  *   rsForEach(gCustomScript, in, ignoredOut);
  * }
  *
  * If both input and output allocations are specified, they must have the same dimensions.
  *
  * Parameters:
  *   script: Script to call.
  *   input: Allocation to source data from.
  *   output: Allocation to write date into.
  *   usrData: User defined data to pass to the script.  May be NULL.
  *   sc: Extra control information used to select a sub-region of the allocation to be processed or suggest a walking strategy.  May be NULL.
  *   usrDataLen: Size of the userData structure.  This will be used to perform a shallow copy of the data if necessary.
  *   kernel: Function designator to a function that is defined with the kernel attribute.
  *   ...: Input and output allocations
  */
 #if !defined(RS_VERSION) || (RS_VERSION <= 13)
 extern void __attribute__((overloadable))
     rsForEach(rs_script script, rs_allocation input, rs_allocation output, const void* usrData,
               const rs_script_call_t* sc);
 #endif

 #if !defined(RS_VERSION) || (RS_VERSION <= 13)
 extern void __attribute__((overloadable))
     rsForEach(rs_script script, rs_allocation input, rs_allocation output, const void* usrData);
 #endif

 #if (defined(RS_VERSION) && (RS_VERSION >= 14) && (RS_VERSION <= 20))
 extern void __attribute__((overloadable))
     rsForEach(rs_script script, rs_allocation input, rs_allocation output, const void* usrData,
               size_t usrDataLen, const rs_script_call_t* sc);
 #endif

 #if (defined(RS_VERSION) && (RS_VERSION >= 14) && (RS_VERSION <= 20))
 extern void __attribute__((overloadable))
     rsForEach(rs_script script, rs_allocation input, rs_allocation output, const void* usrData,
               size_t usrDataLen);
 #endif

 #if (defined(RS_VERSION) && (RS_VERSION >= 14) && (RS_VERSION <= 23))
 extern void __attribute__((overloadable))
     rsForEach(rs_script script, rs_allocation input, rs_allocation output);
 #endif

 #if (defined(RS_VERSION) && (RS_VERSION >= 4294967295) && (defined(RS_DECLARE_EXPIRED_APIS) || RS_VERSION <= 4294967295))
 extern void
     rsForEach(rs_kernel kernel,  ...);
 #endif

 /*
  * rsForEachWithOptions: TBD
  *
  *  TBD
  *
  * Parameters:
  *   kernel: Function designator to a function that is defined with the kernel attribute.
  *   options: Launch options
  *   ...: Input and output allocations
  */
 #if (defined(RS_VERSION) && (RS_VERSION >= 4294967295) && (defined(RS_DECLARE_EXPIRED_APIS) || RS_VERSION <= 4294967295))
 extern void
     rsForEachWithOptions(rs_kernel kernel, rs_script_call_t* options,  ...);
 #endif

 /*
  * rsGetArray0: Index in the Array0 dimension for the specified kernel context
  *
  * Returns the index in the Array0 dimension of the cell being processed, as specified
  * by the supplied kernel context.
  *
  * The kernel context contains common characteristics of the allocations being iterated
  * over and rarely used indices, like the Array0 index.
  *
  * You can access the kernel context by adding a special parameter named "context" of
  * type rs_kernel_context to your kernel function.  E.g.
  * short RS_KERNEL myKernel(short value, uint32_t x, rs_kernel_context context) {
  *   // The current index in the common x, y, z dimensions are accessed by
  *   // adding these variables as arguments.  For the more rarely used indices
  *   // to the other dimensions, extract them from the kernel context:
  *   uint32_t index_a0 = rsGetArray0(context);
  *   //...
  * }
  *
  * This function returns 0 if the Array0 dimension is not present.
  */
 #if (defined(RS_VERSION) && (RS_VERSION >= 23))
 extern uint32_t __attribute__((overloadable))
     rsGetArray0(rs_kernel_context context);
 #endif

 /*
  * rsGetArray1: Index in the Array1 dimension for the specified kernel context
  *
  * Returns the index in the Array1 dimension of the cell being processed, as specified
  * by the supplied kernel context.  See rsGetArray0() for an explanation of the context.
  *
  * Returns 0 if the Array1 dimension is not present.
  */
 #if (defined(RS_VERSION) && (RS_VERSION >= 23))
 extern uint32_t __attribute__((overloadable))
     rsGetArray1(rs_kernel_context context);
 #endif

 /*
  * rsGetArray2: Index in the Array2 dimension for the specified kernel context
  *
  * Returns the index in the Array2 dimension of the cell being processed,
  * as specified by the supplied kernel context.  See rsGetArray0() for an explanation
  * of the context.
  *
  * Returns 0 if the Array2 dimension is not present.
  */
 #if (defined(RS_VERSION) && (RS_VERSION >= 23))
 extern uint32_t __attribute__((overloadable))
     rsGetArray2(rs_kernel_context context);
 #endif

 /*
  * rsGetArray3: Index in the Array3 dimension for the specified kernel context
  *
  * Returns the index in the Array3 dimension of the cell being processed, as specified
  * by the supplied kernel context.  See rsGetArray0() for an explanation of the context.
  *
  * Returns 0 if the Array3 dimension is not present.
  */
 #if (defined(RS_VERSION) && (RS_VERSION >= 23))
 extern uint32_t __attribute__((overloadable))
     rsGetArray3(rs_kernel_context context);
 #endif

 /*
  * rsGetDimArray0: Size of the Array0 dimension for the specified kernel context
  *
  * Returns the size of the Array0 dimension for the specified kernel context.
  * See rsGetDimX() for an explanation of the context.
  *
  * Returns 0 if the Array0 dimension is not present.
  */
 #if (defined(RS_VERSION) && (RS_VERSION >= 23))
 extern uint32_t __attribute__((overloadable))
     rsGetDimArray0(rs_kernel_context context);
 #endif

 /*
  * rsGetDimArray1: Size of the Array1 dimension for the specified kernel context
  *
  * Returns the size of the Array1 dimension for the specified kernel context.
  * See rsGetDimX() for an explanation of the context.
  *
  * Returns 0 if the Array1 dimension is not present.
  */
 #if (defined(RS_VERSION) && (RS_VERSION >= 23))
 extern uint32_t __attribute__((overloadable))
     rsGetDimArray1(rs_kernel_context context);
 #endif

 /*
  * rsGetDimArray2: Size of the Array2 dimension for the specified kernel context
  *
  * Returns the size of the Array2 dimension for the specified kernel context.
  * See rsGetDimX() for an explanation of the context.
  *
  * Returns 0 if the Array2 dimension is not present.
  */
 #if (defined(RS_VERSION) && (RS_VERSION >= 23))
 extern uint32_t __attribute__((overloadable))
     rsGetDimArray2(rs_kernel_context context);
 #endif

 /*
  * rsGetDimArray3: Size of the Array3 dimension for the specified kernel context
  *
  * Returns the size of the Array3 dimension for the specified kernel context.
  * See rsGetDimX() for an explanation of the context.
  *
  * Returns 0 if the Array3 dimension is not present.
  */
 #if (defined(RS_VERSION) && (RS_VERSION >= 23))
 extern uint32_t __attribute__((overloadable))
     rsGetDimArray3(rs_kernel_context context);
 #endif

 /*
  * rsGetDimHasFaces: Presence of more than one face for the specified kernel context
  *
  * If the kernel is iterating over a cubemap, this function returns true if there's more
  * than one face present.  In all other cases, it returns false.  See rsGetDimX() for an
  * explanation of the context.
  *
  * rsAllocationGetDimFaces() is similar but returns 0 or 1 instead of a bool.
  *
  * Returns: Returns true if more than one face is present, false otherwise.
  */
 #if (defined(RS_VERSION) && (RS_VERSION >= 23))
 extern bool __attribute__((overloadable))
     rsGetDimHasFaces(rs_kernel_context context);
 #endif

 /*
  * rsGetDimLod: Number of levels of detail for the specified kernel context
  *
  * Returns the number of levels of detail for the specified kernel context.  This is useful
  * for mipmaps.  See rsGetDimX() for an explanation of the context.
  *
  * Returns 0 if Level of Detail is not used.
  *
  * rsAllocationGetDimLOD() is similar but returns 0 or 1 instead the actual
  * number of levels.
  */
 #if (defined(RS_VERSION) && (RS_VERSION >= 23))
 extern uint32_t __attribute__((overloadable))
     rsGetDimLod(rs_kernel_context context);
 #endif

 /*
  * rsGetDimX: Size of the X dimension for the specified kernel context
  *
  * Returns the size of the X dimension for the specified kernel context.
  *
  * The kernel context contains common characteristics of the allocations being iterated
  * over and rarely used indices, like the Array0 index.
  *
  * You can access it by adding a special parameter named "context" of
  * type rs_kernel_context to your kernel function.  E.g.
  * int4 RS_KERNEL myKernel(int4 value, rs_kernel_context context) {
  *   uint32_t size = rsGetDimX(context); //...
  *
  * To get the dimension of specific allocation, use rsAllocationGetDimX().
  */
 #if (defined(RS_VERSION) && (RS_VERSION >= 23))
 extern uint32_t __attribute__((overloadable))
     rsGetDimX(rs_kernel_context context);
 #endif

 /*
  * rsGetDimY: Size of the Y dimension for the specified kernel context
  *
  * Returns the size of the X dimension for the specified kernel context.
  * See rsGetDimX() for an explanation of the context.
  *
  * Returns 0 if the Y dimension is not present.
  *
  * To get the dimension of specific allocation, use rsAllocationGetDimY().
  */
 #if (defined(RS_VERSION) && (RS_VERSION >= 23))
 extern uint32_t __attribute__((overloadable))
     rsGetDimY(rs_kernel_context context);
 #endif

 /*
  * rsGetDimZ: Size of the Z dimension for the specified kernel context
  *
  * Returns the size of the Z dimension for the specified kernel context.
  * See rsGetDimX() for an explanation of the context.
  *
  * Returns 0 if the Z dimension is not present.
  *
  * To get the dimension of specific allocation, use rsAllocationGetDimZ().
  */
 #if (defined(RS_VERSION) && (RS_VERSION >= 23))
 extern uint32_t __attribute__((overloadable))
     rsGetDimZ(rs_kernel_context context);
 #endif

 /*
  * rsGetFace: Coordinate of the Face for the specified kernel context
  *
  * Returns the face on which the cell being processed is found, as specified by the
  * supplied kernel context.  See rsGetArray0() for an explanation of the context.
  *
  * Returns RS_ALLOCATION_CUBEMAP_FACE_POSITIVE_X if the face dimension is not
  * present.
  */
 #if (defined(RS_VERSION) && (RS_VERSION >= 23))
 extern rs_allocation_cubemap_face __attribute__((overloadable))
     rsGetFace(rs_kernel_context context);
 #endif

 /*
  * rsGetLod: Index in the Levels of Detail dimension for the specified kernel context
  *
  * Returns the index in the Levels of Detail dimension of the cell being processed,
  * as specified by the supplied kernel context.  See rsGetArray0() for an explanation of
  * the context.
  *
  * Returns 0 if the Levels of Detail dimension is not present.
  */
 #if (defined(RS_VERSION) && (RS_VERSION >= 23))
 extern uint32_t __attribute__((overloadable))
     rsGetLod(rs_kernel_context context);
 #endif

 #endif // RENDERSCRIPT_RS_FOR_EACH_RSH
	/*
	* Copyright (C) 2015 The Android Open Source Project
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*/

	// Don't edit this file! It is auto-generated by frameworks/rs/api/generate.sh.

	/*
	* rs_for_each.rsh: Kernel Invocation Functions and Types
	*
	* The rsForEach() function can be used to invoke the root kernel of a script.
	*
	* The other functions are used to get the characteristics of the invocation of
	* an executing kernel, like dimensions and current indices. These functions take
	* a rs_kernel_context as argument.
	*/

	#ifndef RENDERSCRIPT_RS_FOR_EACH_RSH
	#define RENDERSCRIPT_RS_FOR_EACH_RSH

	/*
	* rs_for_each_strategy_t: Suggested cell processing order
	*
	* This type is used to suggest how the invoked kernel should iterate over the cells of the
	* allocations. This is a hint only. Implementations may not follow the suggestion.
	*
	* This specification can help the caching behavior of the running kernel, e.g. the cache
	* locality when the processing is distributed over multiple cores.
	*/
	typedef enum rs_for_each_strategy {
	RS_FOR_EACH_STRATEGY_SERIAL = 0, // Prefer contiguous memory regions.
	RS_FOR_EACH_STRATEGY_DONT_CARE = 1, // No prefrences.
	RS_FOR_EACH_STRATEGY_DST_LINEAR = 2, // Prefer DST.
	RS_FOR_EACH_STRATEGY_TILE_SMALL = 3, // Prefer processing small rectangular regions.
	RS_FOR_EACH_STRATEGY_TILE_MEDIUM = 4, // Prefer processing medium rectangular regions.
	RS_FOR_EACH_STRATEGY_TILE_LARGE = 5 // Prefer processing large rectangular regions.
	} rs_for_each_strategy_t;

	/*
	* rs_kernel_context: Handle to a kernel invocation context
	*
	* The kernel context contains common characteristics of the allocations being iterated
	* over, like dimensions. It also contains rarely used indices of the currently processed
	* cell, like the Array0 index or the current level of detail.
	*
	* You can access the kernel context by adding a special parameter named "context" of type
	* rs_kernel_context to your kernel function. See rsGetDimX() and rsGetArray0() for examples.
	*/
	#if (defined(RS_VERSION) && (RS_VERSION >= 23))
	typedef const struct rs_kernel_context_t * rs_kernel_context;
	#endif

	/*
	* rs_script_call_t: Cell iteration information
	*
	* This structure is used to provide iteration information to a rsForEach call.
	* It is currently used to restrict processing to a subset of cells. In future
	* versions, it will also be used to provide hint on how to best iterate over
	* the cells.
	*
	* The Start fields are inclusive and the End fields are exclusive. E.g. to iterate
	* over cells 4, 5, 6, and 7 in the X dimension, set xStart to 4 and xEnd to 8.
	*/
	typedef struct rs_script_call {
	rs_for_each_strategy_t strategy; // Currently ignored. In the future, will be suggested cell iteration strategy.
	uint32_t xStart; // Starting index in the X dimension.
	uint32_t xEnd; // Ending index (exclusive) in the X dimension.
	uint32_t yStart; // Starting index in the Y dimension.
	uint32_t yEnd; // Ending index (exclusive) in the Y dimension.
	uint32_t zStart; // Starting index in the Z dimension.
	uint32_t zEnd; // Ending index (exclusive) in the Z dimension.
	uint32_t arrayStart; // Starting index in the Array0 dimension.
	uint32_t arrayEnd; // Ending index (exclusive) in the Array0 dimension.
	uint32_t array1Start; // Starting index in the Array1 dimension.
	uint32_t array1End; // Ending index (exclusive) in the Array1 dimension.
	uint32_t array2Start; // Starting index in the Array2 dimension.
	uint32_t array2End; // Ending index (exclusive) in the Array2 dimension.
	uint32_t array3Start; // Starting index in the Array3 dimension.
	uint32_t array3End; // Ending index (exclusive) in the Array3 dimension.
	} rs_script_call_t;

	/*
	* rs_kernel: Handle to a kernel function
	*
	* An opaque type for a function that is defined with the kernel attribute. A value
	* of this type can be used in a rsForEach call to launch a kernel.
	*/
	#if (defined(RS_VERSION) && (RS_VERSION >= 4294967295) && (defined(RS_DECLARE_EXPIRED_APIS) \|\| RS_VERSION <= 4294967295))
	typedef void* rs_kernel;
	#endif

	/*
	* rsForEach: Invoke the root kernel of a script
	*
	* Invoke the kernel named "root" of the specified script. Like other kernels, this root()
	* function will be invoked repeatedly over the cells of the specificed allocation, filling
	* the output allocation with the results.
	*
	* When rsForEach is called, the root script is launched immediately. rsForEach returns
	* only when the script has completed and the output allocation is ready to use.
	*
	* The rs_script argument is typically initialized using a global variable set from Java.
	*
	* The kernel can be invoked with just an input allocation or just an output allocation.
	* This can be done by defining an rs_allocation variable and not initializing it. E.g.
	* rs_script gCustomScript;
	* void specializedProcessing(rs_allocation in) {
	* rs_allocation ignoredOut;
	* rsForEach(gCustomScript, in, ignoredOut);
	* }
	*
	* If both input and output allocations are specified, they must have the same dimensions.
	*
	* Parameters:
	* script: Script to call.
	* input: Allocation to source data from.
	* output: Allocation to write date into.
	* usrData: User defined data to pass to the script. May be NULL.
	* sc: Extra control information used to select a sub-region of the allocation to be processed or suggest a walking strategy. May be NULL.
	* usrDataLen: Size of the userData structure. This will be used to perform a shallow copy of the data if necessary.
	* kernel: Function designator to a function that is defined with the kernel attribute.
	* ...: Input and output allocations
	*/
	#if !defined(RS_VERSION) \|\| (RS_VERSION <= 13)
	extern void __attribute__((overloadable))
	rsForEach(rs_script script, rs_allocation input, rs_allocation output, const void* usrData,
	const rs_script_call_t* sc);
	#endif

	#if !defined(RS_VERSION) \|\| (RS_VERSION <= 13)
	extern void __attribute__((overloadable))
	rsForEach(rs_script script, rs_allocation input, rs_allocation output, const void* usrData);
	#endif

	#if (defined(RS_VERSION) && (RS_VERSION >= 14) && (RS_VERSION <= 20))
	extern void __attribute__((overloadable))
	rsForEach(rs_script script, rs_allocation input, rs_allocation output, const void* usrData,
	size_t usrDataLen, const rs_script_call_t* sc);
	#endif

	#if (defined(RS_VERSION) && (RS_VERSION >= 14) && (RS_VERSION <= 20))
	extern void __attribute__((overloadable))
	rsForEach(rs_script script, rs_allocation input, rs_allocation output, const void* usrData,
	size_t usrDataLen);
	#endif

	#if (defined(RS_VERSION) && (RS_VERSION >= 14) && (RS_VERSION <= 23))
	extern void __attribute__((overloadable))
	rsForEach(rs_script script, rs_allocation input, rs_allocation output);
	#endif

	#if (defined(RS_VERSION) && (RS_VERSION >= 4294967295) && (defined(RS_DECLARE_EXPIRED_APIS) \|\| RS_VERSION <= 4294967295))
	extern void
	rsForEach(rs_kernel kernel, ...);
	#endif

	/*
	* rsForEachWithOptions: TBD
	*
	* TBD
	*
	* Parameters:
	* kernel: Function designator to a function that is defined with the kernel attribute.
	* options: Launch options
	* ...: Input and output allocations
	*/
	#if (defined(RS_VERSION) && (RS_VERSION >= 4294967295) && (defined(RS_DECLARE_EXPIRED_APIS) \|\| RS_VERSION <= 4294967295))
	extern void
	rsForEachWithOptions(rs_kernel kernel, rs_script_call_t* options, ...);
	#endif

	/*
	* rsGetArray0: Index in the Array0 dimension for the specified kernel context
	*
	* Returns the index in the Array0 dimension of the cell being processed, as specified
	* by the supplied kernel context.
	*
	* The kernel context contains common characteristics of the allocations being iterated
	* over and rarely used indices, like the Array0 index.
	*
	* You can access the kernel context by adding a special parameter named "context" of
	* type rs_kernel_context to your kernel function. E.g.
	* short RS_KERNEL myKernel(short value, uint32_t x, rs_kernel_context context) {
	* // The current index in the common x, y, z dimensions are accessed by
	* // adding these variables as arguments. For the more rarely used indices
	* // to the other dimensions, extract them from the kernel context:
	* uint32_t index_a0 = rsGetArray0(context);
	* //...
	* }
	*
	* This function returns 0 if the Array0 dimension is not present.
	*/
	#if (defined(RS_VERSION) && (RS_VERSION >= 23))
	extern uint32_t __attribute__((overloadable))
	rsGetArray0(rs_kernel_context context);
	#endif

	/*
	* rsGetArray1: Index in the Array1 dimension for the specified kernel context
	*
	* Returns the index in the Array1 dimension of the cell being processed, as specified
	* by the supplied kernel context. See rsGetArray0() for an explanation of the context.
	*
	* Returns 0 if the Array1 dimension is not present.
	*/
	#if (defined(RS_VERSION) && (RS_VERSION >= 23))
	extern uint32_t __attribute__((overloadable))
	rsGetArray1(rs_kernel_context context);
	#endif

	/*
	* rsGetArray2: Index in the Array2 dimension for the specified kernel context
	*
	* Returns the index in the Array2 dimension of the cell being processed,
	* as specified by the supplied kernel context. See rsGetArray0() for an explanation
	* of the context.
	*
	* Returns 0 if the Array2 dimension is not present.
	*/
	#if (defined(RS_VERSION) && (RS_VERSION >= 23))
	extern uint32_t __attribute__((overloadable))
	rsGetArray2(rs_kernel_context context);
	#endif

	/*
	* rsGetArray3: Index in the Array3 dimension for the specified kernel context
	*
	* Returns the index in the Array3 dimension of the cell being processed, as specified
	* by the supplied kernel context. See rsGetArray0() for an explanation of the context.
	*
	* Returns 0 if the Array3 dimension is not present.
	*/
	#if (defined(RS_VERSION) && (RS_VERSION >= 23))
	extern uint32_t __attribute__((overloadable))
	rsGetArray3(rs_kernel_context context);
	#endif

	/*
	* rsGetDimArray0: Size of the Array0 dimension for the specified kernel context
	*
	* Returns the size of the Array0 dimension for the specified kernel context.
	* See rsGetDimX() for an explanation of the context.
	*
	* Returns 0 if the Array0 dimension is not present.
	*/
	#if (defined(RS_VERSION) && (RS_VERSION >= 23))
	extern uint32_t __attribute__((overloadable))
	rsGetDimArray0(rs_kernel_context context);
	#endif

	/*
	* rsGetDimArray1: Size of the Array1 dimension for the specified kernel context
	*
	* Returns the size of the Array1 dimension for the specified kernel context.
	* See rsGetDimX() for an explanation of the context.
	*
	* Returns 0 if the Array1 dimension is not present.
	*/
	#if (defined(RS_VERSION) && (RS_VERSION >= 23))
	extern uint32_t __attribute__((overloadable))
	rsGetDimArray1(rs_kernel_context context);
	#endif

	/*
	* rsGetDimArray2: Size of the Array2 dimension for the specified kernel context
	*
	* Returns the size of the Array2 dimension for the specified kernel context.
	* See rsGetDimX() for an explanation of the context.
	*
	* Returns 0 if the Array2 dimension is not present.
	*/
	#if (defined(RS_VERSION) && (RS_VERSION >= 23))
	extern uint32_t __attribute__((overloadable))
	rsGetDimArray2(rs_kernel_context context);
	#endif

	/*
	* rsGetDimArray3: Size of the Array3 dimension for the specified kernel context
	*
	* Returns the size of the Array3 dimension for the specified kernel context.
	* See rsGetDimX() for an explanation of the context.
	*
	* Returns 0 if the Array3 dimension is not present.
	*/
	#if (defined(RS_VERSION) && (RS_VERSION >= 23))
	extern uint32_t __attribute__((overloadable))
	rsGetDimArray3(rs_kernel_context context);
	#endif

	/*
	* rsGetDimHasFaces: Presence of more than one face for the specified kernel context
	*
	* If the kernel is iterating over a cubemap, this function returns true if there's more
	* than one face present. In all other cases, it returns false. See rsGetDimX() for an
	* explanation of the context.
	*
	* rsAllocationGetDimFaces() is similar but returns 0 or 1 instead of a bool.
	*
	* Returns: Returns true if more than one face is present, false otherwise.
	*/
	#if (defined(RS_VERSION) && (RS_VERSION >= 23))
	extern bool __attribute__((overloadable))
	rsGetDimHasFaces(rs_kernel_context context);
	#endif

	/*
	* rsGetDimLod: Number of levels of detail for the specified kernel context
	*
	* Returns the number of levels of detail for the specified kernel context. This is useful
	* for mipmaps. See rsGetDimX() for an explanation of the context.
	*
	* Returns 0 if Level of Detail is not used.
	*
	* rsAllocationGetDimLOD() is similar but returns 0 or 1 instead the actual
	* number of levels.
	*/
	#if (defined(RS_VERSION) && (RS_VERSION >= 23))
	extern uint32_t __attribute__((overloadable))
	rsGetDimLod(rs_kernel_context context);
	#endif

	/*
	* rsGetDimX: Size of the X dimension for the specified kernel context
	*
	* Returns the size of the X dimension for the specified kernel context.
	*
	* The kernel context contains common characteristics of the allocations being iterated
	* over and rarely used indices, like the Array0 index.
	*
	* You can access it by adding a special parameter named "context" of
	* type rs_kernel_context to your kernel function. E.g.
	* int4 RS_KERNEL myKernel(int4 value, rs_kernel_context context) {
	* uint32_t size = rsGetDimX(context); //...
	*
	* To get the dimension of specific allocation, use rsAllocationGetDimX().
	*/
	#if (defined(RS_VERSION) && (RS_VERSION >= 23))
	extern uint32_t __attribute__((overloadable))
	rsGetDimX(rs_kernel_context context);
	#endif

	/*
	* rsGetDimY: Size of the Y dimension for the specified kernel context
	*
	* Returns the size of the X dimension for the specified kernel context.
	* See rsGetDimX() for an explanation of the context.
	*
	* Returns 0 if the Y dimension is not present.
	*
	* To get the dimension of specific allocation, use rsAllocationGetDimY().
	*/
	#if (defined(RS_VERSION) && (RS_VERSION >= 23))
	extern uint32_t __attribute__((overloadable))
	rsGetDimY(rs_kernel_context context);
	#endif

	/*
	* rsGetDimZ: Size of the Z dimension for the specified kernel context
	*
	* Returns the size of the Z dimension for the specified kernel context.
	* See rsGetDimX() for an explanation of the context.
	*
	* Returns 0 if the Z dimension is not present.
	*
	* To get the dimension of specific allocation, use rsAllocationGetDimZ().
	*/
	#if (defined(RS_VERSION) && (RS_VERSION >= 23))
	extern uint32_t __attribute__((overloadable))
	rsGetDimZ(rs_kernel_context context);
	#endif

	/*
	* rsGetFace: Coordinate of the Face for the specified kernel context
	*
	* Returns the face on which the cell being processed is found, as specified by the
	* supplied kernel context. See rsGetArray0() for an explanation of the context.
	*
	* Returns RS_ALLOCATION_CUBEMAP_FACE_POSITIVE_X if the face dimension is not
	* present.
	*/
	#if (defined(RS_VERSION) && (RS_VERSION >= 23))
	extern rs_allocation_cubemap_face __attribute__((overloadable))
	rsGetFace(rs_kernel_context context);
	#endif

	/*
	* rsGetLod: Index in the Levels of Detail dimension for the specified kernel context
	*
	* Returns the index in the Levels of Detail dimension of the cell being processed,
	* as specified by the supplied kernel context. See rsGetArray0() for an explanation of
	* the context.
	*
	* Returns 0 if the Levels of Detail dimension is not present.
	*/
	#if (defined(RS_VERSION) && (RS_VERSION >= 23))
	extern uint32_t __attribute__((overloadable))
	rsGetLod(rs_kernel_context context);
	#endif

	#endif // RENDERSCRIPT_RS_FOR_EACH_RSH