// This file is part of OpenCV project.
// It is subject to the license terms in the LICENSE file found in the top-level directory
// of this distribution and at http://opencv.org/license.html.
// Copyright (C) 2014, Itseez, Inc., all rights reserved.
// Third party copyrights are property of their respective owners.
#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
#endif
#ifdef DEPTH_0
#define MIN_VAL 0
#define MAX_VAL UCHAR_MAX
#elif defined DEPTH_1
#define MIN_VAL SCHAR_MIN
#define MAX_VAL SCHAR_MAX
#elif defined DEPTH_2
#define MIN_VAL 0
#define MAX_VAL USHRT_MAX
#elif defined DEPTH_3
#define MIN_VAL SHRT_MIN
#define MAX_VAL SHRT_MAX
#elif defined DEPTH_4
#define MIN_VAL INT_MIN
#define MAX_VAL INT_MAX
#elif defined DEPTH_5
#define MIN_VAL (-FLT_MAX)
#define MAX_VAL FLT_MAX
#elif defined DEPTH_6
#define MIN_VAL (-DBL_MAX)
#define MAX_VAL DBL_MAX
#endif
#define noconvert
#define INDEX_MAX UINT_MAX
#if wdepth <= 4
#define MIN_ABS(a) convertFromU(abs(a))
#define MIN_ABS2(a, b) convertFromU(abs_diff(a, b))
#define MIN(a, b) min(a, b)
#define MAX(a, b) max(a, b)
#else
#define MIN_ABS(a) fabs(a)
#define MIN_ABS2(a, b) fabs(a - b)
#define MIN(a, b) fmin(a, b)
#define MAX(a, b) fmax(a, b)
#endif
#if kercn != 3
#define loadpix(addr) *(__global const srcT *)(addr)
#define srcTSIZE (int)sizeof(srcT)
#else
#define loadpix(addr) vload3(0, (__global const srcT1 *)(addr))
#define srcTSIZE ((int)sizeof(srcT1) * 3)
#endif
#ifndef HAVE_MASK
#undef srcTSIZE
#define srcTSIZE (int)sizeof(srcT1)
#endif
#ifdef NEED_MINVAL
#ifdef NEED_MINLOC
#define CALC_MIN(p, inc) \
if (minval > temp.p) \
{ \
minval = temp.p; \
minloc = id + inc; \
}
#else
#define CALC_MIN(p, inc) \
minval = MIN(minval, temp.p);
#endif
#else
#define CALC_MIN(p, inc)
#endif
#ifdef NEED_MAXVAL
#ifdef NEED_MAXLOC
#define CALC_MAX(p, inc) \
if (maxval < temp.p) \
{ \
maxval = temp.p; \
maxloc = id + inc; \
}
#else
#define CALC_MAX(p, inc) \
maxval = MAX(maxval, temp.p);
#endif
#else
#define CALC_MAX(p, inc)
#endif
#ifdef OP_CALC2
#define CALC_MAX2(p) \
maxval2 = MAX(maxval2, temp2.p);
#else
#define CALC_MAX2(p)
#endif
#define CALC_P(p, inc) \
CALC_MIN(p, inc) \
CALC_MAX(p, inc) \
CALC_MAX2(p)
__kernel void minmaxloc(__global const uchar * srcptr, int src_step, int src_offset, int cols,
int total, int groupnum, __global uchar * dstptr
#ifdef HAVE_MASK
, __global const uchar * mask, int mask_step, int mask_offset
#endif
#ifdef HAVE_SRC2
, __global const uchar * src2ptr, int src2_step, int src2_offset
#endif
)
{
int lid = get_local_id(0);
int gid = get_group_id(0);
int id = get_global_id(0)
#ifndef HAVE_MASK
* kercn;
#else
;
#endif
srcptr += src_offset;
#ifdef HAVE_MASK
mask += mask_offset;
#endif
#ifdef HAVE_SRC2
src2ptr += src2_offset;
#endif
#ifdef NEED_MINVAL
__local dstT1 localmem_min[WGS2_ALIGNED];
dstT1 minval = MAX_VAL;
#ifdef NEED_MINLOC
__local uint localmem_minloc[WGS2_ALIGNED];
uint minloc = INDEX_MAX;
#endif
#endif
#ifdef NEED_MAXVAL
dstT1 maxval = MIN_VAL;
__local dstT1 localmem_max[WGS2_ALIGNED];
#ifdef NEED_MAXLOC
__local uint localmem_maxloc[WGS2_ALIGNED];
uint maxloc = INDEX_MAX;
#endif
#endif
#ifdef OP_CALC2
__local dstT1 localmem_max2[WGS2_ALIGNED];
dstT1 maxval2 = MIN_VAL;
#endif
int src_index;
#ifdef HAVE_MASK
int mask_index;
#endif
#ifdef HAVE_SRC2
int src2_index;
#endif
dstT temp;
#ifdef HAVE_SRC2
dstT temp2;
#endif
for (int grain = groupnum * WGS
#ifndef HAVE_MASK
* kercn
#endif
; id < total; id += grain)
{
#ifdef HAVE_MASK
#ifdef HAVE_MASK_CONT
mask_index = id;
#else
mask_index = mad24(id / cols, mask_step, id % cols);
#endif
if (mask[mask_index])
#endif
{
#ifdef HAVE_SRC_CONT
src_index = id * srcTSIZE;//mul24(id, srcTSIZE);
#else
src_index = mad24(id / cols, src_step, mul24(id % cols, srcTSIZE));
#endif
temp = convertToDT(loadpix(srcptr + src_index));
#ifdef OP_ABS
temp = MIN_ABS(temp);
#endif
#ifdef HAVE_SRC2
#ifdef HAVE_SRC2_CONT
src2_index = id * srcTSIZE; //mul24(id, srcTSIZE);
#else
src2_index = mad24(id / cols, src2_step, mul24(id % cols, srcTSIZE));
#endif
temp2 = convertToDT(loadpix(src2ptr + src2_index));
temp = MIN_ABS2(temp, temp2);
#ifdef OP_CALC2
temp2 = MIN_ABS(temp2);
#endif
#endif
#if kercn == 1
#ifdef NEED_MINVAL
#ifdef NEED_MINLOC
if (minval > temp)
{
minval = temp;
minloc = id;
}
#else
minval = MIN(minval, temp);
#endif
#endif
#ifdef NEED_MAXVAL
#ifdef NEED_MAXLOC
if (maxval < temp)
{
maxval = temp;
maxloc = id;
}
#else
maxval = MAX(maxval, temp);
#endif
#ifdef OP_CALC2
maxval2 = MAX(maxval2, temp2);
#endif
#endif
#elif kercn >= 2
CALC_P(s0, 0)
CALC_P(s1, 1)
#if kercn >= 3
CALC_P(s2, 2)
#if kercn >= 4
CALC_P(s3, 3)
#if kercn >= 8
CALC_P(s4, 4)
CALC_P(s5, 5)
CALC_P(s6, 6)
CALC_P(s7, 7)
#if kercn == 16
CALC_P(s8, 8)
CALC_P(s9, 9)
CALC_P(sA, 10)
CALC_P(sB, 11)
CALC_P(sC, 12)
CALC_P(sD, 13)
CALC_P(sE, 14)
CALC_P(sF, 15)
#endif
#endif
#endif
#endif
#endif
}
}
if (lid < WGS2_ALIGNED)
{
#ifdef NEED_MINVAL
localmem_min[lid] = minval;
#endif
#ifdef NEED_MAXVAL
localmem_max[lid] = maxval;
#endif
#ifdef NEED_MINLOC
localmem_minloc[lid] = minloc;
#endif
#ifdef NEED_MAXLOC
localmem_maxloc[lid] = maxloc;
#endif
#ifdef OP_CALC2
localmem_max2[lid] = maxval2;
#endif
}
barrier(CLK_LOCAL_MEM_FENCE);
if (lid >= WGS2_ALIGNED && total >= WGS2_ALIGNED)
{
int lid3 = lid - WGS2_ALIGNED;
#ifdef NEED_MINVAL
#ifdef NEED_MINLOC
if (localmem_min[lid3] >= minval)
{
if (localmem_min[lid3] == minval)
localmem_minloc[lid3] = min(localmem_minloc[lid3], minloc);
else
localmem_minloc[lid3] = minloc,
localmem_min[lid3] = minval;
}
#else
localmem_min[lid3] = MIN(localmem_min[lid3], minval);
#endif
#endif
#ifdef NEED_MAXVAL
#ifdef NEED_MAXLOC
if (localmem_max[lid3] <= maxval)
{
if (localmem_max[lid3] == maxval)
localmem_maxloc[lid3] = min(localmem_maxloc[lid3], maxloc);
else
localmem_maxloc[lid3] = maxloc,
localmem_max[lid3] = maxval;
}
#else
localmem_max[lid3] = MAX(localmem_max[lid3], maxval);
#endif
#endif
#ifdef OP_CALC2
localmem_max2[lid3] = MAX(localmem_max2[lid3], maxval2);
#endif
}
barrier(CLK_LOCAL_MEM_FENCE);
for (int lsize = WGS2_ALIGNED >> 1; lsize > 0; lsize >>= 1)
{
if (lid < lsize)
{
int lid2 = lsize + lid;
#ifdef NEED_MINVAL
#ifdef NEED_MINLOC
if (localmem_min[lid] >= localmem_min[lid2])
{
if (localmem_min[lid] == localmem_min[lid2])
localmem_minloc[lid] = min(localmem_minloc[lid2], localmem_minloc[lid]);
else
localmem_minloc[lid] = localmem_minloc[lid2],
localmem_min[lid] = localmem_min[lid2];
}
#else
localmem_min[lid] = MIN(localmem_min[lid], localmem_min[lid2]);
#endif
#endif
#ifdef NEED_MAXVAL
#ifdef NEED_MAXLOC
if (localmem_max[lid] <= localmem_max[lid2])
{
if (localmem_max[lid] == localmem_max[lid2])
localmem_maxloc[lid] = min(localmem_maxloc[lid2], localmem_maxloc[lid]);
else
localmem_maxloc[lid] = localmem_maxloc[lid2],
localmem_max[lid] = localmem_max[lid2];
}
#else
localmem_max[lid] = MAX(localmem_max[lid], localmem_max[lid2]);
#endif
#endif
#ifdef OP_CALC2
localmem_max2[lid] = MAX(localmem_max2[lid], localmem_max2[lid2]);
#endif
}
barrier(CLK_LOCAL_MEM_FENCE);
}
if (lid == 0)
{
int pos = 0;
#ifdef NEED_MINVAL
*(__global dstT1 *)(dstptr + mad24(gid, (int)sizeof(dstT1), pos)) = localmem_min[0];
pos = mad24(groupnum, (int)sizeof(dstT1), pos);
#endif
#ifdef NEED_MAXVAL
*(__global dstT1 *)(dstptr + mad24(gid, (int)sizeof(dstT1), pos)) = localmem_max[0];
pos = mad24(groupnum, (int)sizeof(dstT1), pos);
#endif
#ifdef NEED_MINLOC
*(__global uint *)(dstptr + mad24(gid, (int)sizeof(uint), pos)) = localmem_minloc[0];
pos = mad24(groupnum, (int)sizeof(uint), pos);
#endif
#ifdef NEED_MAXLOC
*(__global uint *)(dstptr + mad24(gid, (int)sizeof(uint), pos)) = localmem_maxloc[0];
#ifdef OP_CALC2
pos = mad24(groupnum, (int)sizeof(uint), pos);
#endif
#endif
#ifdef OP_CALC2
*(__global dstT1 *)(dstptr + mad24(gid, (int)sizeof(dstT1), pos)) = localmem_max2[0];
#endif
}
}