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Copyright ©2012 Advanced Micro Devices, Inc. All rights reserved.

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#ifndef MATRIXMULTIPLICATION_IMAGE_H_
#define MATRIXMULTIPLICATION_IMAGE_H_

#include <stdio.h>
#include <stdlib.h>
#include <assert.h>
#include <string.h>
#include <SDKCommon.hpp>
#include <SDKApplication.hpp>
#include <SDKCommandArgs.hpp>
#include <SDKFile.hpp>

/**
 * MatrixMulImage 
 * Class implements OpenCL Matrix Multiplication sample using Images
 * Derived from SDKSample base class
 */

class MatrixMulImage : public SDKSample
{
    cl_uint                  seed;      /**< Seed value for random number generation */
    cl_double           setupTime;      /**< Time for setting up OpenCL */
    cl_double     totalKernelTime;      /**< Time for kernel execution */
    cl_double    totalProgramTime;      /**< Time for program execution */
    cl_double referenceKernelTime;      /**< Time for reference implementation */
    cl_float              *input0;      /**< Input array */
    cl_int                 width0;      /**< width of input Array */
    cl_int                height0;      /**< height of input Array */
    cl_float              *input1;      /**< Input array */
    cl_int                 width1;      /**< width of Input Array */
    cl_int                height1;      /**< height of Input Array */
    cl_float              *output;      /**< Output Array */
    cl_float  *verificationOutput;      /**< Output array for reference implementation */
    cl_uint             blockSize;      /**< Size of the block used for shared memory */
    cl_context            context;      /**< CL context */
    cl_device_id         *devices;      /**< CL device list */
    cl_mem           inputBuffer0;      /**< CL memory buffer  for matrix input0*/
    cl_mem           inputBuffer1;      /**< CL memory buffer  for matrix input1*/
    cl_mem           outputBuffer;      /**< CL memory buffer  for storing the output*/
    cl_command_queue commandQueue;      /**< CL command queue */
    cl_program            program;      /**< CL program  */
    cl_kernel              kernel;      /**< CL kernel */

    cl_int                      n;      /**< for command line args */
    cl_int                      m;
    cl_int                      k;

    //size_t       maxWorkGroupSize;      /**< Device Specific Information */
    //size_t    kernelWorkGroupSize;      /**< Group Size returned by kernel */
    //cl_uint         maxDimensions;
    //size_t *     maxWorkItemSizes;
    /*cl_ulong     totalLocalMemory; 
    cl_ulong      usedLocalMemory; */
    cl_ulong availableLocalMemory; 
    cl_ulong    neededLocalMemory;
    int                iterations;      /**< Number of iterations for kernel execution */
    bool imageSupport;
	streamsdk::SDKDeviceInfo deviceInfo;/**< Structure to store device information*/
    streamsdk::KernelWorkGroupInfo kernelInfo;/**< Structure to store kernel related info */
 
public:
    /** 
     * Constructor 
     * Initialize member variables
     * @param name name of sample (string)
     */
    MatrixMulImage(std::string name)
        : SDKSample(name){
            seed   = 123;
            input0 = NULL;
            input1 = NULL;
            output = NULL;
            verificationOutput = NULL;
            n = 128;
            m = 128;
            k = 128;
            blockSize = 8;
            setupTime = 0;
            totalKernelTime = 0;
            iterations = 1;
        }

    /** 
     * Constructor 
     * Initialize member variables
     * @param name name of sample (const char*)
     */
    MatrixMulImage(const char* name)
        : SDKSample(name){
            seed   = 123;
            input0 = NULL;
            input1 = NULL;
            output = NULL;
            verificationOutput = NULL;
            n = 128;
            m = 128;
            k = 128;
            blockSize = 8;
            setupTime = 0;
            totalKernelTime = 0;
            iterations = 1;
        }

    /**
     * Allocate and initialize host memory array with random values
     * @return SDK_SUCCESS on success and SDK_FAILURE on failure
     */
    int setupMatrixMulImage();

    /**
     * OpenCL related initialisations. 
     * Set up Context, Device list, Command Queue, Memory buffers
     * Build CL kernel program executable
     * @return SDK_SUCCESS on success and SDK_FAILURE on failure
     */
    int setupCL();

    /**
     * Set values for kernels' arguments, enqueue calls to the kernels
     * on to the command queue, wait till end of kernel execution.
     * Get kernel start and end time if timing is enabled
     * @return SDK_SUCCESS on success and SDK_FAILURE on failure
     */
    int runCLKernels();

    /**
     * Reference CPU implementation of Matrix Multiplication
     * @param output stores the output of the multipliced matrices depthxheight
     * @param input0 input matrix of size width x height
     * @param input1 input matrix of size depth x width
     * @param height height of the output matrix
     * @param width  length of the common dimension of the matrices input0 and input1
     * @param depth  width  of the output matrix 
     */
    void MatrixMulImageCPUReference(
    cl_float * output,
    cl_float * input0,
    cl_float * input1,
    const cl_uint height,
    const cl_uint width,
    const cl_uint depth);
    /**
     * Override from SDKSample. Print sample stats.
     */
    void printStats();

    /**
     * Override from SDKSample. Initialize 
     * command line parser, add custom options
     * @return SDK_SUCCESS on success and SDK_FAILURE on failure
     */
    int initialize();

    /**
     * Override from SDKSample, Generate binary image of given kernel 
     * and exit application
     * @return SDK_SUCCESS on success and SDK_FAILURE on failure
     */
    int genBinaryImage();

    /**
     * Override from SDKSample, adjust width and height 
     * of execution domain, perform all sample setup
     * @return SDK_SUCCESS on success and SDK_FAILURE on failure
     */
    int setup();

    /**
     * Override from SDKSample
     * Run OpenCL Matrix Multiplication
     * @return SDK_SUCCESS on success and SDK_FAILURE on failure
     */
    int run();

    /**
     * Override from SDKSample
     * Cleanup memory allocations
     * @return SDK_SUCCESS on success and SDK_FAILURE on failure
     */
    int cleanup();

    /**
     * Override from SDKSample
     * Verify against reference implementation
     * @return SDK_SUCCESS on success and SDK_FAILURE on failure
     */
    int verifyResults();
};
#endif