/*M///////////////////////////////////////////////////////////////////////////////////////
//
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//
//  By downloading, copying, installing or using the software you agree to this license.
//  If you do not agree to this license, do not download, install,
//  copy or use the software.
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//
//                           License Agreement
//                For Open Source Computer Vision Library
//
// Copyright (C) 2010-2012, Institute Of Software Chinese Academy Of Science, all rights reserved.
// Copyright (C) 2010-2012, Advanced Micro Devices, Inc., all rights reserved.
// Third party copyrights are property of their respective owners.
//
// @Authors
//    Shengen Yan, yanshengen@gmail.com
//
// Redistribution and use in source and binary forms, with or without modification,
// are permitted provided that the following conditions are met:
//
//   * Redistribution's of source code must retain the above copyright notice,
//     this list of conditions and the following disclaimer.
//
//   * Redistribution's in binary form must reproduce the above copyright notice,
//     this list of conditions and the following disclaimer in the documentation
//     and/or other materials provided with the distribution.
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//   * The name of the copyright holders may not be used to endorse or promote products
//     derived from this software without specific prior written permission.
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// This software is provided by the copyright holders and contributors as is and
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// In no event shall the Intel Corporation or contributors be liable for any direct,
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// loss of use, data, or profits; or business interruption) however caused
// and on any theory of liability, whether in contract, strict liability,
// or tort (including negligence or otherwise) arising in any way out of
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//M*/

/**************************************PUBLICFUNC*************************************/

#ifdef DOUBLE_SUPPORT
#ifdef cl_amd_fp64
#pragma OPENCL EXTENSION cl_amd_fp64:enable
#elif defined (cl_khr_fp64)
#pragma OPENCL EXTENSION cl_khr_fp64:enable
#endif
#define RES_TYPE double4
#define CONVERT_RES_TYPE convert_double4
#else
#define RES_TYPE float4
#define CONVERT_RES_TYPE convert_float4
#endif

#if defined (DEPTH_0)
#define VEC_TYPE uchar4
#define VEC_TYPE_LOC int4
#define CONVERT_TYPE convert_uchar4
#define CONDITION_FUNC(a,b,c) (convert_int4(a) ? b : c)
#define MIN_VAL 0
#define MAX_VAL 255
#endif
#if defined (DEPTH_1)
#define VEC_TYPE char4
#define VEC_TYPE_LOC int4
#define CONVERT_TYPE convert_char4
#define CONDITION_FUNC(a,b,c) (convert_int4(a) ? b : c)
#define MIN_VAL -128
#define MAX_VAL 127
#endif
#if defined (DEPTH_2)
#define VEC_TYPE ushort4
#define VEC_TYPE_LOC int4
#define CONVERT_TYPE convert_ushort4
#define CONDITION_FUNC(a,b,c) (convert_int4(a) ? b : c)
#define MIN_VAL 0
#define MAX_VAL 65535
#endif
#if defined (DEPTH_3)
#define VEC_TYPE short4
#define VEC_TYPE_LOC int4
#define CONVERT_TYPE convert_short4
#define CONDITION_FUNC(a,b,c) (convert_int4(a) ? b : c)
#define MIN_VAL -32768
#define MAX_VAL 32767
#endif
#if defined (DEPTH_4)
#define VEC_TYPE int4
#define VEC_TYPE_LOC int4
#define CONVERT_TYPE convert_int4
#define CONDITION_FUNC(a,b,c) ((a) ? b : c)
#define MIN_VAL INT_MIN
#define MAX_VAL INT_MAX
#endif
#if defined (DEPTH_5)
#define VEC_TYPE float4
#define VEC_TYPE_LOC float4
#define CONVERT_TYPE convert_float4
#define CONDITION_FUNC(a,b,c) ((a) ? b : c)
#define MIN_VAL (-FLT_MAX)
#define MAX_VAL FLT_MAX
#endif
#if defined (DEPTH_6)
#define VEC_TYPE double4
#define VEC_TYPE_LOC double4
#define CONVERT_TYPE convert_double4
#define CONDITION_FUNC(a,b,c) ((a) ? b : c)
#define MIN_VAL (-DBL_MAX)
#define MAX_VAL DBL_MAX
#endif

#if defined (REPEAT_S0)
#define repeat_s(a) a=a;
#endif
#if defined (REPEAT_S1)
#define repeat_s(a) a.s0 = a.s1;
#endif
#if defined (REPEAT_S2)
#define repeat_s(a) a.s0 = a.s2;a.s1 = a.s2;
#endif
#if defined (REPEAT_S3)
#define repeat_s(a) a.s0 = a.s3;a.s1 = a.s3;a.s2 = a.s3;
#endif


#if defined (REPEAT_E0)
#define repeat_e(a) a=a;
#endif
#if defined (REPEAT_E1)
#define repeat_e(a) a.s3 = a.s2;
#endif
#if defined (REPEAT_E2)
#define repeat_e(a) a.s3 = a.s1;a.s2 = a.s1;
#endif
#if defined (REPEAT_E3)
#define repeat_e(a) a.s3 = a.s0;a.s2 = a.s0;a.s1 = a.s0;
#endif

/**************************************Array minMax**************************************/

__kernel void arithm_op_minMaxLoc(int cols, int invalid_cols, int offset, int elemnum, int groupnum,
                                  __global VEC_TYPE *src, __global RES_TYPE *dst)
{
    int lid = get_local_id(0);
    int gid = get_group_id(0);
    int  id = get_global_id(0);
    int idx = offset + id + (id / cols) * invalid_cols;

    __local VEC_TYPE localmem_max[128], localmem_min[128];
    VEC_TYPE minval, maxval, temp;

    __local VEC_TYPE_LOC localmem_maxloc[128], localmem_minloc[128];
    VEC_TYPE_LOC minloc, maxloc, temploc, negative = -1;

    int idx_c;

    if (id < elemnum)
    {
        temp = src[idx];
        idx_c = idx << 2;
        temploc = (VEC_TYPE_LOC)(idx_c, idx_c + 1, idx_c + 2, idx_c + 3);

        if (id % cols == 0 )
        {
            repeat_s(temp);
            repeat_s(temploc);
        }
        if (id % cols == cols - 1)
        {
            repeat_e(temp);
            repeat_e(temploc);
        }
        minval = temp;
        maxval = temp;
        minloc = temploc;
        maxloc = temploc;
    }
    else
    {
        minval = MAX_VAL;
        maxval = MIN_VAL;
        minloc = negative;
        maxloc = negative;
    }

    int grainSize = (groupnum << 8);
    for (id = id + grainSize; id < elemnum; id = id + grainSize)
    {
        idx = offset + id + (id / cols) * invalid_cols;
        temp = src[idx];
        idx_c = idx << 2;
        temploc = (VEC_TYPE_LOC)(idx_c, idx_c+1, idx_c+2, idx_c+3);

        if (id % cols == 0 )
        {
            repeat_s(temp);
            repeat_s(temploc);
        }
        if (id % cols == cols - 1)
        {
            repeat_e(temp);
            repeat_e(temploc);
        }

        minval = min(minval, temp);
        maxval = max(maxval, temp);
        minloc = CONDITION_FUNC(minval == temp, temploc, minloc);
        maxloc = CONDITION_FUNC(maxval == temp, temploc, maxloc);
    }

    if (lid > 127)
    {
        localmem_min[lid - 128] = minval;
        localmem_max[lid - 128] = maxval;
        localmem_minloc[lid - 128] = minloc;
        localmem_maxloc[lid - 128] = maxloc;
    }
    barrier(CLK_LOCAL_MEM_FENCE);

    if (lid < 128)
    {
        localmem_min[lid] = min(minval,localmem_min[lid]);
        localmem_max[lid] = max(maxval,localmem_max[lid]);
        VEC_TYPE minVal = localmem_min[lid], maxVal = localmem_max[lid];
        localmem_minloc[lid] = CONDITION_FUNC(minVal == minval, minloc, localmem_minloc[lid]);
        localmem_maxloc[lid] = CONDITION_FUNC(maxVal == maxval, maxloc, localmem_maxloc[lid]);
    }
    barrier(CLK_LOCAL_MEM_FENCE);

    for (int lsize = 64; lsize > 0; lsize >>= 1)
    {
       if (lid < lsize)
       {
            int lid2 = lsize + lid;
            localmem_min[lid] = min(localmem_min[lid], localmem_min[lid2]);
            localmem_max[lid] = max(localmem_max[lid], localmem_max[lid2]);
            VEC_TYPE min1 = localmem_min[lid], min2 = localmem_min[lid2];
            localmem_minloc[lid] = CONDITION_FUNC(min1 == min2, localmem_minloc[lid2], localmem_minloc[lid]);
            VEC_TYPE max1 = localmem_max[lid], max2 = localmem_max[lid2];
            localmem_maxloc[lid] = CONDITION_FUNC(max1 == max2, localmem_maxloc[lid2], localmem_maxloc[lid]);
       }
       barrier(CLK_LOCAL_MEM_FENCE);
    }

    if ( lid == 0)
    {
        dst[gid] = CONVERT_RES_TYPE(localmem_min[0]);
        dst[gid + groupnum] = CONVERT_RES_TYPE(localmem_max[0]);
        dst[gid + 2 * groupnum] = CONVERT_RES_TYPE(localmem_minloc[0]);
        dst[gid + 3 * groupnum] = CONVERT_RES_TYPE(localmem_maxloc[0]);
    }
}