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Commit d83094b4 authored by Andrey Pavlenko's avatar Andrey Pavlenko Committed by OpenCV Buildbot
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Merge pull request #1880 from ilya-lavrenov:tapi_cvtColor

parents 9ca80961 41d046a2
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Showing with 1082 additions and 114 deletions
modules/core/include/opencv2/core/ocl.hpp
View file @ d83094b4
......@@ -245,11 +245,13 @@ protected:
class CV_EXPORTS KernelArg
{
public:
enum { LOCAL=1, READ_ONLY=2, WRITE_ONLY=4, READ_WRITE=6, CONSTANT=8, NO_SIZE=256 };
enum { LOCAL=1, READ_ONLY=2, WRITE_ONLY=4, READ_WRITE=6, CONSTANT=8, PTR_ONLY = 16, NO_SIZE=256 };
KernelArg(int _flags, UMat* _m, int wscale=1, const void* _obj=0, size_t _sz=0);
KernelArg();
static KernelArg Local() { return KernelArg(LOCAL, 0); }
static KernelArg PtrOnly(const UMat & m)
{ return KernelArg(PTR_ONLY, (UMat*)&m); }
static KernelArg ReadWrite(const UMat& m, int wscale=1)
{ return KernelArg(READ_WRITE, (UMat*)&m, wscale); }
static KernelArg ReadWriteNoSize(const UMat& m, int wscale=1)
......
modules/core/src/ocl.cpp
View file @ d83094b4
......@@ -2205,9 +2205,12 @@ int Kernel::set(int i, const KernelArg& arg)
{
int accessFlags = ((arg.flags & KernelArg::READ_ONLY) ? ACCESS_READ : 0) +
((arg.flags & KernelArg::WRITE_ONLY) ? ACCESS_WRITE : 0);
bool ptronly = (arg.flags & KernelArg::PTR_ONLY) != 0;
cl_mem h = (cl_mem)arg.m->handle(accessFlags);
if( arg.m->dims <= 2 )
if (ptronly)
clSetKernelArg(p->handle, (cl_uint)i++, sizeof(h), &h);
else if( arg.m->dims <= 2 )
{
UMat2D u2d(*arg.m);
clSetKernelArg(p->handle, (cl_uint)i, sizeof(h), &h);
......
modules/imgproc/src/color.cpp
View file @ d83094b4
......@@ -2703,18 +2703,63 @@ static bool ocl_cvtColor( InputArray _src, OutputArray _dst, int code, int dcn )
switch (code)
{
/*
case COLOR_BGR2BGRA: case COLOR_RGB2BGRA: case COLOR_BGRA2BGR:
case COLOR_RGBA2BGR: case COLOR_RGB2BGR: case COLOR_BGRA2RGBA:
case COLOR_BGR2BGR565: case COLOR_BGR2BGR555: case COLOR_RGB2BGR565: case COLOR_RGB2BGR555:
case COLOR_BGRA2BGR565: case COLOR_BGRA2BGR555: case COLOR_RGBA2BGR565: case COLOR_RGBA2BGR555:
case COLOR_BGR5652BGR: case COLOR_BGR5552BGR: case COLOR_BGR5652RGB: case COLOR_BGR5552RGB:
case COLOR_BGR5652BGRA: case COLOR_BGR5552BGRA: case COLOR_BGR5652RGBA: case COLOR_BGR5552RGBA:
*/
case COLOR_BGR2GRAY:
case COLOR_BGRA2GRAY:
case COLOR_RGB2GRAY:
case COLOR_RGBA2GRAY:
case COLOR_BGR2BGRA: case COLOR_RGB2BGRA: case COLOR_BGRA2BGR:
case COLOR_RGBA2BGR: case COLOR_RGB2BGR: case COLOR_BGRA2RGBA:
{
CV_Assert(scn == 3 || scn == 4);
dcn = code == COLOR_BGR2BGRA || code == COLOR_RGB2BGRA || code == COLOR_BGRA2RGBA ? 4 : 3;
bool reverse = !(code == COLOR_BGR2BGRA || code == COLOR_BGRA2BGR);
k.create("RGB", ocl::imgproc::cvtcolor_oclsrc,
format("-D depth=%d -D scn=%d -D dcn=%d -D bidx=0 -D %s", depth, scn, dcn,
reverse ? "REVERSE" : "ORDER"));
break;
}
case COLOR_BGR5652BGR: case COLOR_BGR5552BGR: case COLOR_BGR5652RGB: case COLOR_BGR5552RGB:
case COLOR_BGR5652BGRA: case COLOR_BGR5552BGRA: case COLOR_BGR5652RGBA: case COLOR_BGR5552RGBA:
{
dcn = code == COLOR_BGR5652BGRA || code == COLOR_BGR5552BGRA || code == COLOR_BGR5652RGBA || code == COLOR_BGR5552RGBA ? 4 : 3;
CV_Assert((dcn == 3 || dcn == 4) && scn == 2 && depth == CV_8U);
bidx = code == COLOR_BGR5652BGR || code == COLOR_BGR5552BGR ||
code == COLOR_BGR5652BGRA || code == COLOR_BGR5552BGRA ? 0 : 2;
int greenbits = code == COLOR_BGR5652BGR || code == COLOR_BGR5652RGB ||
code == COLOR_BGR5652BGRA || code == COLOR_BGR5652RGBA ? 6 : 5;
k.create("RGB5x52RGB", ocl::imgproc::cvtcolor_oclsrc,
format("-D depth=%d -D scn=2 -D dcn=%d -D bidx=%d -D greenbits=%d", depth, dcn, bidx, greenbits));
break;
}
case COLOR_BGR2BGR565: case COLOR_BGR2BGR555: case COLOR_RGB2BGR565: case COLOR_RGB2BGR555:
case COLOR_BGRA2BGR565: case COLOR_BGRA2BGR555: case COLOR_RGBA2BGR565: case COLOR_RGBA2BGR555:
{
CV_Assert((scn == 3 || scn == 4) && depth == CV_8U );
bidx = code == COLOR_BGR2BGR565 || code == COLOR_BGR2BGR555 ||
code == COLOR_BGRA2BGR565 || code == COLOR_BGRA2BGR555 ? 0 : 2;
int greenbits = code == COLOR_BGR2BGR565 || code == COLOR_RGB2BGR565 ||
code == COLOR_BGRA2BGR565 || code == COLOR_RGBA2BGR565 ? 6 : 5;
dcn = 2;
k.create("RGB2RGB5x5", ocl::imgproc::cvtcolor_oclsrc,
format("-D depth=%d -D scn=%d -D dcn=2 -D bidx=%d -D greenbits=%d", depth, scn, bidx, greenbits));
break;
}
case COLOR_BGR5652GRAY: case COLOR_BGR5552GRAY:
{
CV_Assert(scn == 2 && depth == CV_8U);
dcn = 1;
int greenbits = code == COLOR_BGR5652GRAY ? 6 : 5;
k.create("BGR5x52Gray", ocl::imgproc::cvtcolor_oclsrc,
format("-D depth=%d -D scn=2 -D dcn=1 -D bidx=0 -D greenbits=%d", depth, greenbits));
break;
}
case COLOR_GRAY2BGR565: case COLOR_GRAY2BGR555:
{
CV_Assert(scn == 1 && depth == CV_8U);
dcn = 2;
int greenbits = code == COLOR_GRAY2BGR565 ? 6 : 5;
k.create("Gray2BGR5x5", ocl::imgproc::cvtcolor_oclsrc,
format("-D depth=%d -D scn=1 -D dcn=2 -D bidx=0 -D greenbits=%d", depth, greenbits));
break;
}
case COLOR_BGR2GRAY: case COLOR_BGRA2GRAY:
case COLOR_RGB2GRAY: case COLOR_RGBA2GRAY:
{
CV_Assert(scn == 3 || scn == 4);
bidx = code == COLOR_BGR2GRAY || code == COLOR_BGRA2GRAY ? 0 : 2;
......@@ -2752,10 +2797,8 @@ static bool ocl_cvtColor( InputArray _src, OutputArray _dst, int code, int dcn )
format("-D depth=%d -D scn=3 -D dcn=%d -D bidx=%d", depth, dcn, bidx));
break;
}
case COLOR_YUV2RGB_NV12:
case COLOR_YUV2BGR_NV12:
case COLOR_YUV2RGBA_NV12:
case COLOR_YUV2BGRA_NV12:
case COLOR_YUV2RGB_NV12: case COLOR_YUV2BGR_NV12:
case COLOR_YUV2RGBA_NV12: case COLOR_YUV2BGRA_NV12:
{
CV_Assert( scn == 1 );
CV_Assert( sz.width % 2 == 0 && sz.height % 3 == 0 && depth == CV_8U );
......@@ -2779,18 +2822,202 @@ static bool ocl_cvtColor( InputArray _src, OutputArray _dst, int code, int dcn )
}
case COLOR_YCrCb2BGR:
case COLOR_YCrCb2RGB:
{
if( dcn <= 0 )
dcn = 3;
CV_Assert(scn == 3 && (dcn == 3 || dcn == 4));
bidx = code == COLOR_YCrCb2BGR ? 0 : 2;
k.create("YCrCb2RGB", ocl::imgproc::cvtcolor_oclsrc,
format("-D depth=%d -D scn=%d -D dcn=%d -D bidx=%d", depth, scn, dcn, bidx));
break;
}
case COLOR_BGR2XYZ: case COLOR_RGB2XYZ:
{
CV_Assert(scn == 3 || scn == 4);
bidx = code == COLOR_BGR2XYZ ? 0 : 2;
UMat c;
if (depth == CV_32F)
{
float coeffs[] =
{
0.412453f, 0.357580f, 0.180423f,
0.212671f, 0.715160f, 0.072169f,
0.019334f, 0.119193f, 0.950227f
};
if (bidx == 0)
{
std::swap(coeffs[0], coeffs[2]);
std::swap(coeffs[3], coeffs[5]);
std::swap(coeffs[6], coeffs[8]);
}
Mat(1, 9, CV_32FC1, &coeffs[0]).copyTo(c);
}
else
{
int coeffs[] =
{
1689, 1465, 739,
871, 2929, 296,
79, 488, 3892
};
if (bidx == 0)
{
std::swap(coeffs[0], coeffs[2]);
std::swap(coeffs[3], coeffs[5]);
std::swap(coeffs[6], coeffs[8]);
}
Mat(1, 9, CV_32SC1, &coeffs[0]).copyTo(c);
}
_dst.create(dstSz, CV_MAKETYPE(depth, 3));
dst = _dst.getUMat();
k.create("RGB2XYZ", ocl::imgproc::cvtcolor_oclsrc,
format("-D depth=%d -D scn=%d -D dcn=3 -D bidx=%d", depth, scn, bidx));
k.args(ocl::KernelArg::ReadOnlyNoSize(src), ocl::KernelArg::WriteOnly(dst), ocl::KernelArg::PtrOnly(c));
return k.run(2, globalsize, 0, false);
}
case COLOR_XYZ2BGR: case COLOR_XYZ2RGB:
{
if (dcn <= 0)
dcn = 3;
CV_Assert(scn == 3 && (dcn == 3 || dcn == 4));
bidx = code == COLOR_XYZ2BGR ? 0 : 2;
UMat c;
if (depth == CV_32F)
{
float coeffs[] =
{
3.240479f, -1.53715f, -0.498535f,
-0.969256f, 1.875991f, 0.041556f,
0.055648f, -0.204043f, 1.057311f
};
if (bidx == 0)
{
std::swap(coeffs[0], coeffs[6]);
std::swap(coeffs[1], coeffs[7]);
std::swap(coeffs[2], coeffs[8]);
}
Mat(1, 9, CV_32FC1, &coeffs[0]).copyTo(c);
}
else
{
int coeffs[] =
{
13273, -6296, -2042,
-3970, 7684, 170,
228, -836, 4331
};
if (bidx == 0)
{
std::swap(coeffs[0], coeffs[6]);
std::swap(coeffs[1], coeffs[7]);
std::swap(coeffs[2], coeffs[8]);
}
Mat(1, 9, CV_32SC1, &coeffs[0]).copyTo(c);
}
_dst.create(dstSz, CV_MAKETYPE(depth, dcn));
dst = _dst.getUMat();
k.create("XYZ2RGB", ocl::imgproc::cvtcolor_oclsrc,
format("-D depth=%d -D scn=3 -D dcn=%d -D bidx=%d", depth, dcn, bidx));
k.args(ocl::KernelArg::ReadOnlyNoSize(src), ocl::KernelArg::WriteOnly(dst), ocl::KernelArg::PtrOnly(c));
return k.run(2, globalsize, 0, false);
}
case COLOR_BGR2HSV: case COLOR_RGB2HSV: case COLOR_BGR2HSV_FULL: case COLOR_RGB2HSV_FULL:
case COLOR_BGR2HLS: case COLOR_RGB2HLS: case COLOR_BGR2HLS_FULL: case COLOR_RGB2HLS_FULL:
{
CV_Assert((scn == 3 || scn == 4) && (depth == CV_8U || depth == CV_32F));
bidx = code == COLOR_BGR2HSV || code == COLOR_BGR2HLS ||
code == COLOR_BGR2HSV_FULL || code == COLOR_BGR2HLS_FULL ? 0 : 2;
int hrange = depth == CV_32F ? 360 : code == COLOR_BGR2HSV || code == COLOR_RGB2HSV ||
code == COLOR_BGR2HLS || code == COLOR_RGB2HLS ? 180 : 256;
bool is_hsv = code == COLOR_BGR2HSV || code == COLOR_RGB2HSV || code == COLOR_BGR2HSV_FULL || code == COLOR_RGB2HSV_FULL;
String kernelName = String("RGB2") + (is_hsv ? "HSV" : "HLS");
dcn = 3;
if (is_hsv && depth == CV_8U)
{
static UMat sdiv_data;
static UMat hdiv_data180;
static UMat hdiv_data256;
static int sdiv_table[256];
static int hdiv_table180[256];
static int hdiv_table256[256];
static volatile bool initialized180 = false, initialized256 = false;
volatile bool & initialized = hrange == 180 ? initialized180 : initialized256;
if (!initialized)
{
int * const hdiv_table = hrange == 180 ? hdiv_table180 : hdiv_table256, hsv_shift = 12;
UMat & hdiv_data = hrange == 180 ? hdiv_data180 : hdiv_data256;
sdiv_table[0] = hdiv_table180[0] = hdiv_table256[0] = 0;
int v = 255 << hsv_shift;
if (!initialized180 && !initialized256)
{
for(int i = 1; i < 256; i++ )
sdiv_table[i] = saturate_cast<int>(v/(1.*i));
Mat(1, 256, CV_32SC1, sdiv_table).copyTo(sdiv_data);
}
v = hrange << hsv_shift;
for (int i = 1; i < 256; i++ )
hdiv_table[i] = saturate_cast<int>(v/(6.*i));
Mat(1, 256, CV_32SC1, hdiv_table).copyTo(hdiv_data);
initialized = true;
}
_dst.create(dstSz, CV_8UC3);
dst = _dst.getUMat();
k.create("RGB2HSV", ocl::imgproc::cvtcolor_oclsrc, format("-D depth=%d -D hrange=%d -D bidx=%d -D dcn=3 -D scn=%d",
depth, hrange, bidx, scn));
k.args(ocl::KernelArg::ReadOnlyNoSize(src), ocl::KernelArg::WriteOnly(dst),
ocl::KernelArg::PtrOnly(sdiv_data), hrange == 256 ? ocl::KernelArg::PtrOnly(hdiv_data256) :
ocl::KernelArg::PtrOnly(hdiv_data180));
return k.run(2, globalsize, NULL, false);
}
else
k.create(kernelName.c_str(), ocl::imgproc::cvtcolor_oclsrc,
format("-D depth=%d -D hscale=%f -D bidx=%d -D scn=%d -D dcn=3", depth, hrange*(1.f/360.f), bidx, scn));
break;
}
case COLOR_HSV2BGR: case COLOR_HSV2RGB: case COLOR_HSV2BGR_FULL: case COLOR_HSV2RGB_FULL:
case COLOR_HLS2BGR: case COLOR_HLS2RGB: case COLOR_HLS2BGR_FULL: case COLOR_HLS2RGB_FULL:
{
if (dcn <= 0)
dcn = 3;
CV_Assert(scn == 3 && (dcn == 3 || dcn == 4) && (depth == CV_8U || depth == CV_32F));
bidx = code == COLOR_HSV2BGR || code == COLOR_HLS2BGR ||
code == COLOR_HSV2BGR_FULL || code == COLOR_HLS2BGR_FULL ? 0 : 2;
int hrange = depth == CV_32F ? 360 : code == COLOR_HSV2BGR || code == COLOR_HSV2RGB ||
code == COLOR_HLS2BGR || code == COLOR_HLS2RGB ? 180 : 255;
bool is_hsv = code == COLOR_HSV2BGR || code == COLOR_HSV2RGB ||
code == COLOR_HSV2BGR_FULL || code == COLOR_HSV2RGB_FULL;
String kernelName = String(is_hsv ? "HSV" : "HLS") + "2RGB";
k.create(kernelName.c_str(), ocl::imgproc::cvtcolor_oclsrc,
format("-D depth=%d -D dcn=%d -D scn=3 -D bidx=%d -D hrange=%d -D hscale=%f",
depth, dcn, bidx, hrange, 6.f/hrange));
break;
/*
case COLOR_BGR5652GRAY: case COLOR_BGR5552GRAY:
case COLOR_GRAY2BGR565: case COLOR_GRAY2BGR555:
case COLOR_BGR2YCrCb: case COLOR_RGB2YCrCb:
case COLOR_BGR2XYZ: case COLOR_RGB2XYZ:
case COLOR_XYZ2BGR: case COLOR_XYZ2RGB:
case COLOR_BGR2HSV: case COLOR_RGB2HSV: case COLOR_BGR2HSV_FULL: case COLOR_RGB2HSV_FULL:
case COLOR_BGR2HLS: case COLOR_RGB2HLS: case COLOR_BGR2HLS_FULL: case COLOR_RGB2HLS_FULL:
case COLOR_HSV2BGR: case COLOR_HSV2RGB: case COLOR_HSV2BGR_FULL: case COLOR_HSV2RGB_FULL:
case COLOR_HLS2BGR: case COLOR_HLS2RGB: case COLOR_HLS2BGR_FULL: case COLOR_HLS2RGB_FULL:
*/
}
case COLOR_RGBA2mRGBA: case COLOR_mRGBA2RGBA:
{
CV_Assert(scn == 4 && depth == CV_8U);
dcn = 4;
k.create(code == COLOR_RGBA2mRGBA ? "RGBA2mRGBA" : "mRGBA2RGBA", ocl::imgproc::cvtcolor_oclsrc,
format("-D depth=%d -D dcn=4 -D scn=4 -D bidx=3", depth));
break;
}
default:
;
}
......
modules/imgproc/src/opencl/cvtcolor.cl
View file @ d83094b4
......@@ -54,18 +54,21 @@
#define DATA_TYPE uchar
#define MAX_NUM 255
#define HALF_MAX 128
#define COEFF_TYPE int
#define SAT_CAST(num) convert_uchar_sat(num)
#define DEPTH_0
#elif depth == 2
#define DATA_TYPE ushort
#define MAX_NUM 65535
#define HALF_MAX 32768
#define COEFF_TYPE int
#define SAT_CAST(num) convert_ushort_sat(num)
#define DEPTH_2
#elif depth == 5
#define DATA_TYPE float
#define MAX_NUM 1.0f
#define HALF_MAX 0.5f
#define COEFF_TYPE float
#define SAT_CAST(num) (num)
#define DEPTH_5
#else
......@@ -78,6 +81,7 @@ enum
{
yuv_shift = 14,
xyz_shift = 12,
hsv_shift = 12,
R2Y = 4899,
G2Y = 9617,
B2Y = 1868,
......@@ -87,6 +91,14 @@ enum
#define scnbytes ((int)sizeof(DATA_TYPE)*scn)
#define dcnbytes ((int)sizeof(DATA_TYPE)*dcn)
#ifndef hscale
#define hscale 0
#endif
#ifndef hrange
#define hrange 0
#endif
///////////////////////////////////// RGB <-> GRAY //////////////////////////////////////
__kernel void RGB2Gray(__global const uchar* srcptr, int srcstep, int srcoffset,
......@@ -268,7 +280,7 @@ __kernel void YUV2RGB_NV12(__global const uchar* srcptr, int srcstep, int srcoff
}
}
///////////////////////////////////// RGB -> YCrCb //////////////////////////////////////
///////////////////////////////////// RGB <-> YCrCb //////////////////////////////////////
__constant float c_RGB2YCrCbCoeffs_f[5] = {0.299f, 0.587f, 0.114f, 0.713f, 0.564f};
__constant int c_RGB2YCrCbCoeffs_i[5] = {R2Y, G2Y, B2Y, 11682, 9241};
......@@ -304,3 +316,727 @@ __kernel void RGB2YCrCb(__global const uchar* srcptr, int srcstep, int srcoffset
dst[2] = SAT_CAST( Cb );
}
}
__constant float c_YCrCb2RGBCoeffs_f[4] = { 1.403f, -0.714f, -0.344f, 1.773f };
__constant int c_YCrCb2RGBCoeffs_i[4] = { 22987, -11698, -5636, 29049 };
__kernel void YCrCb2RGB(__global const uchar* src, int src_step, int src_offset,
__global uchar* dst, int dst_step, int dst_offset,
int rows, int cols)
{
int x = get_global_id(0);
int y = get_global_id(1);
if (y < rows && x < cols)
{
int src_idx = mad24(y, src_step, src_offset + x * scnbytes);
int dst_idx = mad24(y, dst_step, dst_offset + x * dcnbytes);
__global const DATA_TYPE * srcptr = (__global const DATA_TYPE*)(src + src_idx);
__global DATA_TYPE * dstptr = (__global DATA_TYPE*)(dst + dst_idx);
DATA_TYPE y = srcptr[0], cr = srcptr[1], cb = srcptr[2];
#ifdef DEPTH_5
__constant float * coeff = c_YCrCb2RGBCoeffs_f;
float r = y + coeff[0] * (cr - HALF_MAX);
float g = y + coeff[1] * (cr - HALF_MAX) + coeff[2] * (cb - HALF_MAX);
float b = y + coeff[3] * (cb - HALF_MAX);
#else
__constant int * coeff = c_YCrCb2RGBCoeffs_i;
int r = y + CV_DESCALE(coeff[0] * (cr - HALF_MAX), yuv_shift);
int g = y + CV_DESCALE(coeff[1] * (cr - HALF_MAX) + coeff[2] * (cb - HALF_MAX), yuv_shift);
int b = y + CV_DESCALE(coeff[3] * (cb - HALF_MAX), yuv_shift);
#endif
dstptr[(bidx^2)] = SAT_CAST(r);
dstptr[1] = SAT_CAST(g);
dstptr[bidx] = SAT_CAST(b);
#if dcn == 4
dstptr[3] = MAX_NUM;
#endif
}
}
///////////////////////////////////// RGB <-> XYZ //////////////////////////////////////
__kernel void RGB2XYZ(__global const uchar * srcptr, int src_step, int src_offset,
__global uchar * dstptr, int dst_step, int dst_offset,
int rows, int cols, __constant COEFF_TYPE * coeffs)
{
int dx = get_global_id(0);
int dy = get_global_id(1);
if (dy < rows && dx < cols)
{
int src_idx = mad24(dy, src_step, src_offset + dx * scnbytes);
int dst_idx = mad24(dy, dst_step, dst_offset + dx * dcnbytes);
__global const DATA_TYPE * src = (__global const DATA_TYPE *)(srcptr + src_idx);
__global DATA_TYPE * dst = (__global DATA_TYPE *)(dstptr + dst_idx);
DATA_TYPE r = src[0], g = src[1], b = src[2];
#ifdef DEPTH_5
float x = r * coeffs[0] + g * coeffs[1] + b * coeffs[2];
float y = r * coeffs[3] + g * coeffs[4] + b * coeffs[5];
float z = r * coeffs[6] + g * coeffs[7] + b * coeffs[8];
#else
int x = CV_DESCALE(r * coeffs[0] + g * coeffs[1] + b * coeffs[2], xyz_shift);
int y = CV_DESCALE(r * coeffs[3] + g * coeffs[4] + b * coeffs[5], xyz_shift);
int z = CV_DESCALE(r * coeffs[6] + g * coeffs[7] + b * coeffs[8], xyz_shift);
#endif
dst[0] = SAT_CAST(x);
dst[1] = SAT_CAST(y);
dst[2] = SAT_CAST(z);
}
}
__kernel void XYZ2RGB(__global const uchar * srcptr, int src_step, int src_offset,
__global uchar * dstptr, int dst_step, int dst_offset,
int rows, int cols, __constant COEFF_TYPE * coeffs)
{
int dx = get_global_id(0);
int dy = get_global_id(1);
if (dy < rows && dx < cols)
{
int src_idx = mad24(dy, src_step, src_offset + dx * scnbytes);
int dst_idx = mad24(dy, dst_step, dst_offset + dx * dcnbytes);
__global const DATA_TYPE * src = (__global const DATA_TYPE *)(srcptr + src_idx);
__global DATA_TYPE * dst = (__global DATA_TYPE *)(dstptr + dst_idx);
DATA_TYPE x = src[0], y = src[1], z = src[2];
#ifdef DEPTH_5
float b = x * coeffs[0] + y * coeffs[1] + z * coeffs[2];
float g = x * coeffs[3] + y * coeffs[4] + z * coeffs[5];
float r = x * coeffs[6] + y * coeffs[7] + z * coeffs[8];
#else
int b = CV_DESCALE(x * coeffs[0] + y * coeffs[1] + z * coeffs[2], xyz_shift);
int g = CV_DESCALE(x * coeffs[3] + y * coeffs[4] + z * coeffs[5], xyz_shift);
int r = CV_DESCALE(x * coeffs[6] + y * coeffs[7] + z * coeffs[8], xyz_shift);
#endif
dst[0] = SAT_CAST(b);
dst[1] = SAT_CAST(g);
dst[2] = SAT_CAST(r);
#if dcn == 4
dst[3] = MAX_NUM;
#endif
}
}
///////////////////////////////////// RGB[A] <-> BGR[A] //////////////////////////////////////
__kernel void RGB(__global const uchar* srcptr, int src_step, int src_offset,
__global uchar* dstptr, int dst_step, int dst_offset,
int rows, int cols)
{
int x = get_global_id(0);
int y = get_global_id(1);
if (y < rows && x < cols)
{
int src_idx = mad24(y, src_step, src_offset + x * scnbytes);
int dst_idx = mad24(y, dst_step, dst_offset + x * dcnbytes);
__global const DATA_TYPE * src = (__global const DATA_TYPE *)(srcptr + src_idx);
__global DATA_TYPE * dst = (__global DATA_TYPE *)(dstptr + dst_idx);
#ifdef REVERSE
dst[0] = src[2];
dst[1] = src[1];
dst[2] = src[0];
#elif defined ORDER
dst[0] = src[0];
dst[1] = src[1];
dst[2] = src[2];
#endif
#if dcn == 4
#if scn == 3
dst[3] = MAX_NUM;
#else
dst[3] = src[3];
#endif
#endif
}
}
///////////////////////////////////// RGB5x5 <-> RGB //////////////////////////////////////
__kernel void RGB5x52RGB(__global const uchar* src, int src_step, int src_offset,
__global uchar* dst, int dst_step, int dst_offset,
int rows, int cols)
{
int x = get_global_id(0);
int y = get_global_id(1);
if (y < rows && x < cols)
{
int src_idx = mad24(y, src_step, src_offset + x * scnbytes);
int dst_idx = mad24(y, dst_step, dst_offset + x * dcnbytes);
ushort t = *((__global const ushort*)(src + src_idx));
#if greenbits == 6
dst[dst_idx + bidx] = (uchar)(t << 3);
dst[dst_idx + 1] = (uchar)((t >> 3) & ~3);
dst[dst_idx + (bidx^2)] = (uchar)((t >> 8) & ~7);
#else
dst[dst_idx + bidx] = (uchar)(t << 3);
dst[dst_idx + 1] = (uchar)((t >> 2) & ~7);
dst[dst_idx + (bidx^2)] = (uchar)((t >> 7) & ~7);
#endif
#if dcn == 4
#if greenbits == 6
dst[dst_idx + 3] = 255;
#else
dst[dst_idx + 3] = t & 0x8000 ? 255 : 0;
#endif
#endif
}
}
__kernel void RGB2RGB5x5(__global const uchar* src, int src_step, int src_offset,
__global uchar* dst, int dst_step, int dst_offset,
int rows, int cols)
{
int x = get_global_id(0);
int y = get_global_id(1);
if (y < rows && x < cols)
{
int src_idx = mad24(y, src_step, src_offset + x * scnbytes);
int dst_idx = mad24(y, dst_step, dst_offset + x * dcnbytes);
#if greenbits == 6
*((__global ushort*)(dst + dst_idx)) = (ushort)((src[src_idx + bidx] >> 3)|((src[src_idx + 1]&~3) << 3)|((src[src_idx + (bidx^2)]&~7) << 8));
#elif scn == 3
*((__global ushort*)(dst + dst_idx)) = (ushort)((src[src_idx + bidx] >> 3)|((src[src_idx + 1]&~7) << 2)|((src[src_idx + (bidx^2)]&~7) << 7));
#else
*((__global ushort*)(dst + dst_idx)) = (ushort)((src[src_idx + bidx] >> 3)|((src[src_idx + 1]&~7) << 2)|
((src[src_idx + (bidx^2)]&~7) << 7)|(src[src_idx + 3] ? 0x8000 : 0));
#endif
}
}
///////////////////////////////////// RGB5x5 <-> Gray //////////////////////////////////////
__kernel void BGR5x52Gray(__global const uchar* src, int src_step, int src_offset,
__global uchar* dst, int dst_step, int dst_offset,
int rows, int cols)
{
int x = get_global_id(0);
int y = get_global_id(1);
if (y < rows && x < cols)
{
int src_idx = mad24(y, src_step, src_offset + x * scnbytes);
int dst_idx = mad24(y, dst_step, dst_offset + x);
int t = *((__global const ushort*)(src + src_idx));
#if greenbits == 6
dst[dst_idx] = (uchar)CV_DESCALE(((t << 3) & 0xf8)*B2Y +
((t >> 3) & 0xfc)*G2Y +
((t >> 8) & 0xf8)*R2Y, yuv_shift);
#else
dst[dst_idx] = (uchar)CV_DESCALE(((t << 3) & 0xf8)*B2Y +
((t >> 2) & 0xf8)*G2Y +
((t >> 7) & 0xf8)*R2Y, yuv_shift);
#endif
}
}
__kernel void Gray2BGR5x5(__global const uchar* src, int src_step, int src_offset,
__global uchar* dst, int dst_step, int dst_offset,
int rows, int cols)
{
int x = get_global_id(0);
int y = get_global_id(1);
if (y < rows && x < cols)
{
int src_idx = mad24(y, src_step, src_offset + x);
int dst_idx = mad24(y, dst_step, dst_offset + x * dcnbytes);
int t = src[src_idx];
#if greenbits == 6
*((__global ushort*)(dst + dst_idx)) = (ushort)((t >> 3) | ((t & ~3) << 3) | ((t & ~7) << 8));
#else
t >>= 3;
*((__global ushort*)(dst + dst_idx)) = (ushort)(t|(t << 5)|(t << 10));
#endif
}
}
//////////////////////////////////// RGB <-> HSV //////////////////////////////////////
__constant int sector_data[][3] = { { 1, 3, 0 },
{ 1, 0, 2 },
{ 3, 0, 1 },
{ 0, 2, 1 },
{ 0, 1, 3 },
{ 2, 1, 0 } };
#ifdef DEPTH_0
__kernel void RGB2HSV(__global const uchar* src, int src_step, int src_offset,
__global uchar* dst, int dst_step, int dst_offset,
int rows, int cols,
__constant int * sdiv_table, __constant int * hdiv_table)
{
int x = get_global_id(0);
int y = get_global_id(1);
if (y < rows && x < cols)
{
int src_idx = mad24(y, src_step, src_offset + x * scnbytes);
int dst_idx = mad24(y, dst_step, dst_offset + x * dcnbytes);
int b = src[src_idx + bidx], g = src[src_idx + 1], r = src[src_idx + (bidx^2)];
int h, s, v = b;
int vmin = b, diff;
int vr, vg;
v = max( v, g );
v = max( v, r );
vmin = min( vmin, g );
vmin = min( vmin, r );
diff = v - vmin;
vr = v == r ? -1 : 0;
vg = v == g ? -1 : 0;
s = (diff * sdiv_table[v] + (1 << (hsv_shift-1))) >> hsv_shift;
h = (vr & (g - b)) +
(~vr & ((vg & (b - r + 2 * diff)) + ((~vg) & (r - g + 4 * diff))));
h = (h * hdiv_table[diff] + (1 << (hsv_shift-1))) >> hsv_shift;
h += h < 0 ? hrange : 0;
dst[dst_idx] = convert_uchar_sat_rte(h);
dst[dst_idx + 1] = (uchar)s;
dst[dst_idx + 2] = (uchar)v;
}
}
__kernel void HSV2RGB(__global const uchar* src, int src_step, int src_offset,
__global uchar* dst, int dst_step, int dst_offset,
int rows, int cols)
{
int x = get_global_id(0);
int y = get_global_id(1);
if (y < rows && x < cols)
{
int src_idx = mad24(y, src_step, src_offset + x * scnbytes);
int dst_idx = mad24(y, dst_step, dst_offset + x * dcnbytes);
float h = src[src_idx], s = src[src_idx + 1]*(1/255.f), v = src[src_idx + 2]*(1/255.f);
float b, g, r;
if (s != 0)
{
float tab[4];
int sector;
h *= hscale;
if( h < 0 )
do h += 6; while( h < 0 );
else if( h >= 6 )
do h -= 6; while( h >= 6 );
sector = convert_int_sat_rtn(h);
h -= sector;
if( (unsigned)sector >= 6u )
{
sector = 0;
h = 0.f;
}
tab[0] = v;
tab[1] = v*(1.f - s);
tab[2] = v*(1.f - s*h);
tab[3] = v*(1.f - s*(1.f - h));
b = tab[sector_data[sector][0]];
g = tab[sector_data[sector][1]];
r = tab[sector_data[sector][2]];
}
else
b = g = r = v;
dst[dst_idx + bidx] = convert_uchar_sat_rte(b*255.f);
dst[dst_idx + 1] = convert_uchar_sat_rte(g*255.f);
dst[dst_idx + (bidx^2)] = convert_uchar_sat_rte(r*255.f);
#if dcn == 4
dst[dst_idx + 3] = MAX_NUM;
#endif
}
}
#elif defined DEPTH_5
__kernel void RGB2HSV(__global const uchar* srcptr, int src_step, int src_offset,
__global uchar* dstptr, int dst_step, int dst_offset,
int rows, int cols)
{
int x = get_global_id(0);
int y = get_global_id(1);
if (y < rows && x < cols)
{
int src_idx = mad24(y, src_step, src_offset + x * scnbytes);
int dst_idx = mad24(y, dst_step, dst_offset + x * dcnbytes);
__global const float * src = (__global const float *)(srcptr + src_idx);
__global float * dst = (__global float *)(dstptr + dst_idx);
float b = src[bidx], g = src[1], r = src[bidx^2];
float h, s, v;
float vmin, diff;
v = vmin = r;
if( v < g ) v = g;
if( v < b ) v = b;
if( vmin > g ) vmin = g;
if( vmin > b ) vmin = b;
diff = v - vmin;
s = diff/(float)(fabs(v) + FLT_EPSILON);
diff = (float)(60./(diff + FLT_EPSILON));
if( v == r )
h = (g - b)*diff;
else if( v == g )
h = (b - r)*diff + 120.f;
else
h = (r - g)*diff + 240.f;
if( h < 0 ) h += 360.f;
dst[0] = h*hscale;
dst[1] = s;
dst[2] = v;
}
}
__kernel void HSV2RGB(__global const uchar* srcptr, int src_step, int src_offset,
__global uchar* dstptr, int dst_step, int dst_offset,
int rows, int cols)
{
int x = get_global_id(0);
int y = get_global_id(1);
if (y < rows && x < cols)
{
int src_idx = mad24(y, src_step, src_offset + x * scnbytes);
int dst_idx = mad24(y, dst_step, dst_offset + x * dcnbytes);
__global const float * src = (__global const float *)(srcptr + src_idx);
__global float * dst = (__global float *)(dstptr + dst_idx);
float h = src[0], s = src[1], v = src[2];
float b, g, r;
if (s != 0)
{
float tab[4];
int sector;
h *= hscale;
if(h < 0)
do h += 6; while (h < 0);
else if (h >= 6)
do h -= 6; while (h >= 6);
sector = convert_int_sat_rtn(h);
h -= sector;
if ((unsigned)sector >= 6u)
{
sector = 0;
h = 0.f;
}
tab[0] = v;
tab[1] = v*(1.f - s);
tab[2] = v*(1.f - s*h);
tab[3] = v*(1.f - s*(1.f - h));
b = tab[sector_data[sector][0]];
g = tab[sector_data[sector][1]];
r = tab[sector_data[sector][2]];
}
else
b = g = r = v;
dst[bidx] = b;
dst[1] = g;
dst[bidx^2] = r;
#if dcn == 4
dst[3] = MAX_NUM;
#endif
}
}
#endif
///////////////////////////////////// RGB <-> HLS //////////////////////////////////////
#ifdef DEPTH_0
__kernel void RGB2HLS(__global const uchar* src, int src_step, int src_offset,
__global uchar* dst, int dst_step, int dst_offset,
int rows, int cols)
{
int x = get_global_id(0);
int y = get_global_id(1);
if (y < rows && x < cols)
{
int src_idx = mad24(y, src_step, src_offset + x * scnbytes);
int dst_idx = mad24(y, dst_step, dst_offset + x * dcnbytes);
float b = src[src_idx + bidx]*(1/255.f), g = src[src_idx + 1]*(1/255.f), r = src[src_idx + (bidx^2)]*(1/255.f);
float h = 0.f, s = 0.f, l;
float vmin, vmax, diff;
vmax = vmin = r;
if (vmax < g) vmax = g;
if (vmax < b) vmax = b;
if (vmin > g) vmin = g;
if (vmin > b) vmin = b;
diff = vmax - vmin;
l = (vmax + vmin)*0.5f;
if (diff > FLT_EPSILON)
{
s = l < 0.5f ? diff/(vmax + vmin) : diff/(2 - vmax - vmin);
diff = 60.f/diff;
if( vmax == r )
h = (g - b)*diff;
else if( vmax == g )
h = (b - r)*diff + 120.f;
else
h = (r - g)*diff + 240.f;
if( h < 0.f ) h += 360.f;
}
dst[dst_idx] = convert_uchar_sat_rte(h*hscale);
dst[dst_idx + 1] = convert_uchar_sat_rte(l*255.f);
dst[dst_idx + 2] = convert_uchar_sat_rte(s*255.f);
}
}
__kernel void HLS2RGB(__global const uchar* src, int src_step, int src_offset,
__global uchar* dst, int dst_step, int dst_offset,
int rows, int cols)
{
int x = get_global_id(0);
int y = get_global_id(1);
if (y < rows && x < cols)
{
int src_idx = mad24(y, src_step, src_offset + x * scnbytes);
int dst_idx = mad24(y, dst_step, dst_offset + x * dcnbytes);
float h = src[src_idx], l = src[src_idx + 1]*(1.f/255.f), s = src[src_idx + 2]*(1.f/255.f);
float b, g, r;
if (s != 0)
{
float tab[4];
float p2 = l <= 0.5f ? l*(1 + s) : l + s - l*s;
float p1 = 2*l - p2;
h *= hscale;
if( h < 0 )
do h += 6; while( h < 0 );
else if( h >= 6 )
do h -= 6; while( h >= 6 );
int sector = convert_int_sat_rtn(h);
h -= sector;
tab[0] = p2;
tab[1] = p1;
tab[2] = p1 + (p2 - p1)*(1-h);
tab[3] = p1 + (p2 - p1)*h;
b = tab[sector_data[sector][0]];
g = tab[sector_data[sector][1]];
r = tab[sector_data[sector][2]];
}
else
b = g = r = l;
dst[dst_idx + bidx] = convert_uchar_sat_rte(b*255.f);
dst[dst_idx + 1] = convert_uchar_sat_rte(g*255.f);
dst[dst_idx + (bidx^2)] = convert_uchar_sat_rte(r*255.f);
#if dcn == 4
dst[dst_idx + 3] = MAX_NUM;
#endif
}
}
#elif defined DEPTH_5
__kernel void RGB2HLS(__global const uchar* srcptr, int src_step, int src_offset,
__global uchar* dstptr, int dst_step, int dst_offset,
int rows, int cols)
{
int x = get_global_id(0);
int y = get_global_id(1);
if (y < rows && x < cols)
{
int src_idx = mad24(y, src_step, src_offset + x * scnbytes);
int dst_idx = mad24(y, dst_step, dst_offset + x * dcnbytes);
__global const float * src = (__global const float *)(srcptr + src_idx);
__global float * dst = (__global float *)(dstptr + dst_idx);
float b = src[bidx], g = src[1], r = src[bidx^2];
float h = 0.f, s = 0.f, l;
float vmin, vmax, diff;
vmax = vmin = r;
if (vmax < g) vmax = g;
if (vmax < b) vmax = b;
if (vmin > g) vmin = g;
if (vmin > b) vmin = b;
diff = vmax - vmin;
l = (vmax + vmin)*0.5f;
if (diff > FLT_EPSILON)
{
s = l < 0.5f ? diff/(vmax + vmin) : diff/(2 - vmax - vmin);
diff = 60.f/diff;
if( vmax == r )
h = (g - b)*diff;
else if( vmax == g )
h = (b - r)*diff + 120.f;
else
h = (r - g)*diff + 240.f;
if( h < 0.f ) h += 360.f;
}
dst[0] = h*hscale;
dst[1] = l;
dst[2] = s;
}
}
__kernel void HLS2RGB(__global const uchar* srcptr, int src_step, int src_offset,
__global uchar* dstptr, int dst_step, int dst_offset,
int rows, int cols)
{
int x = get_global_id(0);
int y = get_global_id(1);
if (y < rows && x < cols)
{
int src_idx = mad24(y, src_step, src_offset + x * scnbytes);
int dst_idx = mad24(y, dst_step, dst_offset + x * dcnbytes);
__global const float * src = (__global const float *)(srcptr + src_idx);
__global float * dst = (__global float *)(dstptr + dst_idx);
float h = src[0], l = src[1], s = src[2];
float b, g, r;
if (s != 0)
{
float tab[4];
int sector;
float p2 = l <= 0.5f ? l*(1 + s) : l + s - l*s;
float p1 = 2*l - p2;
h *= hscale;
if( h < 0 )
do h += 6; while( h < 0 );
else if( h >= 6 )
do h -= 6; while( h >= 6 );
sector = convert_int_sat_rtn(h);
h -= sector;
tab[0] = p2;
tab[1] = p1;
tab[2] = p1 + (p2 - p1)*(1-h);
tab[3] = p1 + (p2 - p1)*h;
b = tab[sector_data[sector][0]];
g = tab[sector_data[sector][1]];
r = tab[sector_data[sector][2]];
}
else
b = g = r = l;
dst[bidx] = b;
dst[1] = g;
dst[bidx^2] = r;
#if dcn == 4
dst[3] = MAX_NUM;
#endif
}
}
#endif
/////////////////////////// RGBA <-> mRGBA (alpha premultiplied) //////////////
#ifdef DEPTH_0
__kernel void RGBA2mRGBA(__global const uchar* src, int src_step, int src_offset,
__global uchar* dst, int dst_step, int dst_offset,
int rows, int cols)
{
int x = get_global_id(0);
int y = get_global_id(1);
if (y < rows && x < cols)
{
x <<= 2;
int src_idx = mad24(y, src_step, src_offset + x);
int dst_idx = mad24(y, dst_step, dst_offset + x);
uchar v0 = src[src_idx], v1 = src[src_idx + 1];
uchar v2 = src[src_idx + 2], v3 = src[src_idx + 3];
dst[dst_idx] = (v0 * v3 + HALF_MAX) / MAX_NUM;
dst[dst_idx + 1] = (v1 * v3 + HALF_MAX) / MAX_NUM;
dst[dst_idx + 2] = (v2 * v3 + HALF_MAX) / MAX_NUM;
dst[dst_idx + 3] = v3;
}
}
__kernel void mRGBA2RGBA(__global const uchar* src, int src_step, int src_offset,
__global uchar* dst, int dst_step, int dst_offset,
int rows, int cols)
{
int x = get_global_id(0);
int y = get_global_id(1);
if (y < rows && x < cols)
{
x <<= 2;
int src_idx = mad24(y, src_step, src_offset + x);
int dst_idx = mad24(y, dst_step, dst_offset + x);
uchar v0 = src[src_idx], v1 = src[src_idx + 1];
uchar v2 = src[src_idx + 2], v3 = src[src_idx + 3];
uchar v3_half = v3 / 2;
dst[dst_idx] = v3 == 0 ? 0 : (v0 * MAX_NUM + v3_half) / v3;
dst[dst_idx + 1] = v3 == 0 ? 0 : (v1 * MAX_NUM + v3_half) / v3;
dst[dst_idx + 2] = v3 == 0 ? 0 : (v2 * MAX_NUM + v3_half) / v3;
dst[dst_idx + 3] = v3;
}
}
#endif
modules/imgproc/test/ocl/test_color.cpp
View file @ d83094b4
......@@ -109,18 +109,18 @@ PARAM_TEST_CASE(CvtColor, MatDepth, bool)
// RGB[A] <-> BGR[A]
//OCL_TEST_P(CvtColor, BGR2BGRA) { performTest(3, 4, CVTCODE(BGR2BGRA)); }
//OCL_TEST_P(CvtColor, RGB2RGBA) { performTest(3, 4, CVTCODE(RGB2RGBA)); }
//OCL_TEST_P(CvtColor, BGRA2BGR) { performTest(4, 3, CVTCODE(BGRA2BGR)); }
//OCL_TEST_P(CvtColor, RGBA2RGB) { performTest(4, 3, CVTCODE(RGBA2RGB)); }
//OCL_TEST_P(CvtColor, BGR2RGBA) { performTest(3, 4, CVTCODE(BGR2RGBA)); }
//OCL_TEST_P(CvtColor, RGB2BGRA) { performTest(3, 4, CVTCODE(RGB2BGRA)); }
//OCL_TEST_P(CvtColor, RGBA2BGR) { performTest(4, 3, CVTCODE(RGBA2BGR)); }
//OCL_TEST_P(CvtColor, BGRA2RGB) { performTest(4, 3, CVTCODE(BGRA2RGB)); }
//OCL_TEST_P(CvtColor, BGR2RGB) { performTest(3, 3, CVTCODE(BGR2RGB)); }
//OCL_TEST_P(CvtColor, RGB2BGR) { performTest(3, 3, CVTCODE(RGB2BGR)); }
//OCL_TEST_P(CvtColor, BGRA2RGBA) { performTest(4, 4, CVTCODE(BGRA2RGBA)); }
//OCL_TEST_P(CvtColor, RGBA2BGRA) { performTest(4, 4, CVTCODE(RGBA2BGRA)); }
OCL_TEST_P(CvtColor, BGR2BGRA) { performTest(3, 4, CVTCODE(BGR2BGRA)); }
OCL_TEST_P(CvtColor, RGB2RGBA) { performTest(3, 4, CVTCODE(RGB2RGBA)); }
OCL_TEST_P(CvtColor, BGRA2BGR) { performTest(4, 3, CVTCODE(BGRA2BGR)); }
OCL_TEST_P(CvtColor, RGBA2RGB) { performTest(4, 3, CVTCODE(RGBA2RGB)); }
OCL_TEST_P(CvtColor, BGR2RGBA) { performTest(3, 4, CVTCODE(BGR2RGBA)); }
OCL_TEST_P(CvtColor, RGB2BGRA) { performTest(3, 4, CVTCODE(RGB2BGRA)); }
OCL_TEST_P(CvtColor, RGBA2BGR) { performTest(4, 3, CVTCODE(RGBA2BGR)); }
OCL_TEST_P(CvtColor, BGRA2RGB) { performTest(4, 3, CVTCODE(BGRA2RGB)); }
OCL_TEST_P(CvtColor, BGR2RGB) { performTest(3, 3, CVTCODE(BGR2RGB)); }
OCL_TEST_P(CvtColor, RGB2BGR) { performTest(3, 3, CVTCODE(RGB2BGR)); }
OCL_TEST_P(CvtColor, BGRA2RGBA) { performTest(4, 4, CVTCODE(BGRA2RGBA)); }
OCL_TEST_P(CvtColor, RGBA2BGRA) { performTest(4, 4, CVTCODE(RGBA2BGRA)); }
// RGB <-> Gray
......@@ -150,105 +150,105 @@ OCL_TEST_P(CvtColor, RGB2YCrCb) { performTest(3, 3, CVTCODE(RGB2YCrCb)); }
OCL_TEST_P(CvtColor, BGR2YCrCb) { performTest(3, 3, CVTCODE(BGR2YCrCb)); }
OCL_TEST_P(CvtColor, RGBA2YCrCb) { performTest(4, 3, CVTCODE(RGB2YCrCb)); }
OCL_TEST_P(CvtColor, BGRA2YCrCb) { performTest(4, 3, CVTCODE(BGR2YCrCb)); }
//OCL_TEST_P(CvtColor, YCrCb2RGB) { performTest(3, 3, CVTCODE(YCrCb2RGB)); }
//OCL_TEST_P(CvtColor, YCrCb2BGR) { performTest(3, 3, CVTCODE(YCrCb2BGR)); }
//OCL_TEST_P(CvtColor, YCrCb2RGBA) { performTest(3, 4, CVTCODE(YCrCb2RGB)); }
//OCL_TEST_P(CvtColor, YCrCb2BGRA) { performTest(3, 4, CVTCODE(YCrCb2BGR)); }
OCL_TEST_P(CvtColor, YCrCb2RGB) { performTest(3, 3, CVTCODE(YCrCb2RGB)); }
OCL_TEST_P(CvtColor, YCrCb2BGR) { performTest(3, 3, CVTCODE(YCrCb2BGR)); }
OCL_TEST_P(CvtColor, YCrCb2RGBA) { performTest(3, 4, CVTCODE(YCrCb2RGB)); }
OCL_TEST_P(CvtColor, YCrCb2BGRA) { performTest(3, 4, CVTCODE(YCrCb2BGR)); }
// RGB <-> XYZ
//OCL_TEST_P(CvtColor, RGB2XYZ) { performTest(3, 3, CVTCODE(RGB2XYZ)); }
//OCL_TEST_P(CvtColor, BGR2XYZ) { performTest(3, 3, CVTCODE(BGR2XYZ)); }
//OCL_TEST_P(CvtColor, RGBA2XYZ) { performTest(4, 3, CVTCODE(RGB2XYZ)); }
//OCL_TEST_P(CvtColor, BGRA2XYZ) { performTest(4, 3, CVTCODE(BGR2XYZ)); }
OCL_TEST_P(CvtColor, RGB2XYZ) { performTest(3, 3, CVTCODE(RGB2XYZ)); }
OCL_TEST_P(CvtColor, BGR2XYZ) { performTest(3, 3, CVTCODE(BGR2XYZ)); }
OCL_TEST_P(CvtColor, RGBA2XYZ) { performTest(4, 3, CVTCODE(RGB2XYZ)); }
OCL_TEST_P(CvtColor, BGRA2XYZ) { performTest(4, 3, CVTCODE(BGR2XYZ)); }
//OCL_TEST_P(CvtColor, XYZ2RGB) { performTest(3, 3, CVTCODE(XYZ2RGB)); }
//OCL_TEST_P(CvtColor, XYZ2BGR) { performTest(3, 3, CVTCODE(XYZ2BGR)); }
//OCL_TEST_P(CvtColor, XYZ2RGBA) { performTest(3, 4, CVTCODE(XYZ2RGB)); }
//OCL_TEST_P(CvtColor, XYZ2BGRA) { performTest(3, 4, CVTCODE(XYZ2BGR)); }
OCL_TEST_P(CvtColor, XYZ2RGB) { performTest(3, 3, CVTCODE(XYZ2RGB)); }
OCL_TEST_P(CvtColor, XYZ2BGR) { performTest(3, 3, CVTCODE(XYZ2BGR)); }
OCL_TEST_P(CvtColor, XYZ2RGBA) { performTest(3, 4, CVTCODE(XYZ2RGB)); }
OCL_TEST_P(CvtColor, XYZ2BGRA) { performTest(3, 4, CVTCODE(XYZ2BGR)); }
// RGB <-> HSV
//typedef CvtColor CvtColor8u32f;
typedef CvtColor CvtColor8u32f;
//OCL_TEST_P(CvtColor8u32f, RGB2HSV) { performTest(3, 3, CVTCODE(RGB2HSV)); }
//OCL_TEST_P(CvtColor8u32f, BGR2HSV) { performTest(3, 3, CVTCODE(BGR2HSV)); }
//OCL_TEST_P(CvtColor8u32f, RGBA2HSV) { performTest(4, 3, CVTCODE(RGB2HSV)); }
//OCL_TEST_P(CvtColor8u32f, BGRA2HSV) { performTest(4, 3, CVTCODE(BGR2HSV)); }
OCL_TEST_P(CvtColor8u32f, RGB2HSV) { performTest(3, 3, CVTCODE(RGB2HSV)); }
OCL_TEST_P(CvtColor8u32f, BGR2HSV) { performTest(3, 3, CVTCODE(BGR2HSV)); }
OCL_TEST_P(CvtColor8u32f, RGBA2HSV) { performTest(4, 3, CVTCODE(RGB2HSV)); }
OCL_TEST_P(CvtColor8u32f, BGRA2HSV) { performTest(4, 3, CVTCODE(BGR2HSV)); }
//OCL_TEST_P(CvtColor8u32f, RGB2HSV_FULL) { performTest(3, 3, CVTCODE(RGB2HSV_FULL)); }
//OCL_TEST_P(CvtColor8u32f, BGR2HSV_FULL) { performTest(3, 3, CVTCODE(BGR2HSV_FULL)); }
//OCL_TEST_P(CvtColor8u32f, RGBA2HSV_FULL) { performTest(4, 3, CVTCODE(RGB2HSV_FULL)); }
//OCL_TEST_P(CvtColor8u32f, BGRA2HSV_FULL) { performTest(4, 3, CVTCODE(BGR2HSV_FULL)); }
OCL_TEST_P(CvtColor8u32f, RGB2HSV_FULL) { performTest(3, 3, CVTCODE(RGB2HSV_FULL)); }
OCL_TEST_P(CvtColor8u32f, BGR2HSV_FULL) { performTest(3, 3, CVTCODE(BGR2HSV_FULL)); }
OCL_TEST_P(CvtColor8u32f, RGBA2HSV_FULL) { performTest(4, 3, CVTCODE(RGB2HSV_FULL)); }
OCL_TEST_P(CvtColor8u32f, BGRA2HSV_FULL) { performTest(4, 3, CVTCODE(BGR2HSV_FULL)); }
//OCL_TEST_P(CvtColor8u32f, HSV2RGB) { performTest(3, 3, CVTCODE(HSV2RGB), depth == CV_8U ? 1 : 4e-1); }
//OCL_TEST_P(CvtColor8u32f, HSV2BGR) { performTest(3, 3, CVTCODE(HSV2BGR), depth == CV_8U ? 1 : 4e-1); }
//OCL_TEST_P(CvtColor8u32f, HSV2RGBA) { performTest(3, 4, CVTCODE(HSV2RGB), depth == CV_8U ? 1 : 4e-1); }
//OCL_TEST_P(CvtColor8u32f, HSV2BGRA) { performTest(3, 4, CVTCODE(HSV2BGR), depth == CV_8U ? 1 : 4e-1); }
OCL_TEST_P(CvtColor8u32f, HSV2RGB) { performTest(3, 3, CVTCODE(HSV2RGB), depth == CV_8U ? 1 : 4e-1); }
OCL_TEST_P(CvtColor8u32f, HSV2BGR) { performTest(3, 3, CVTCODE(HSV2BGR), depth == CV_8U ? 1 : 4e-1); }
OCL_TEST_P(CvtColor8u32f, HSV2RGBA) { performTest(3, 4, CVTCODE(HSV2RGB), depth == CV_8U ? 1 : 4e-1); }
OCL_TEST_P(CvtColor8u32f, HSV2BGRA) { performTest(3, 4, CVTCODE(HSV2BGR), depth == CV_8U ? 1 : 4e-1); }
//OCL_TEST_P(CvtColor8u32f, HSV2RGB_FULL) { performTest(3, 3, CVTCODE(HSV2RGB_FULL), depth == CV_8U ? 1 : 4e-1); }
//OCL_TEST_P(CvtColor8u32f, HSV2BGR_FULL) { performTest(3, 3, CVTCODE(HSV2BGR_FULL), depth == CV_8U ? 1 : 4e-1); }
//OCL_TEST_P(CvtColor8u32f, HSV2RGBA_FULL) { performTest(3, 4, CVTCODE(HSV2BGR_FULL), depth == CV_8U ? 1 : 4e-1); }
//OCL_TEST_P(CvtColor8u32f, HSV2BGRA_FULL) { performTest(3, 4, CVTCODE(HSV2BGR_FULL), depth == CV_8U ? 1 : 4e-1); }
OCL_TEST_P(CvtColor8u32f, HSV2RGB_FULL) { performTest(3, 3, CVTCODE(HSV2RGB_FULL), depth == CV_8U ? 1 : 4e-1); }
OCL_TEST_P(CvtColor8u32f, HSV2BGR_FULL) { performTest(3, 3, CVTCODE(HSV2BGR_FULL), depth == CV_8U ? 1 : 4e-1); }
OCL_TEST_P(CvtColor8u32f, HSV2RGBA_FULL) { performTest(3, 4, CVTCODE(HSV2BGR_FULL), depth == CV_8U ? 1 : 4e-1); }
OCL_TEST_P(CvtColor8u32f, HSV2BGRA_FULL) { performTest(3, 4, CVTCODE(HSV2BGR_FULL), depth == CV_8U ? 1 : 4e-1); }
// RGB <-> HLS
//OCL_TEST_P(CvtColor8u32f, RGB2HLS) { performTest(3, 3, CVTCODE(RGB2HLS), depth == CV_8U ? 1 : 1e-3); }
//OCL_TEST_P(CvtColor8u32f, BGR2HLS) { performTest(3, 3, CVTCODE(BGR2HLS), depth == CV_8U ? 1 : 1e-3); }
//OCL_TEST_P(CvtColor8u32f, RGBA2HLS) { performTest(4, 3, CVTCODE(RGB2HLS), depth == CV_8U ? 1 : 1e-3); }
//OCL_TEST_P(CvtColor8u32f, BGRA2HLS) { performTest(4, 3, CVTCODE(BGR2HLS), depth == CV_8U ? 1 : 1e-3); }
OCL_TEST_P(CvtColor8u32f, RGB2HLS) { performTest(3, 3, CVTCODE(RGB2HLS), depth == CV_8U ? 1 : 1e-3); }
OCL_TEST_P(CvtColor8u32f, BGR2HLS) { performTest(3, 3, CVTCODE(BGR2HLS), depth == CV_8U ? 1 : 1e-3); }
OCL_TEST_P(CvtColor8u32f, RGBA2HLS) { performTest(4, 3, CVTCODE(RGB2HLS), depth == CV_8U ? 1 : 1e-3); }
OCL_TEST_P(CvtColor8u32f, BGRA2HLS) { performTest(4, 3, CVTCODE(BGR2HLS), depth == CV_8U ? 1 : 1e-3); }
//OCL_TEST_P(CvtColor8u32f, RGB2HLS_FULL) { performTest(3, 3, CVTCODE(RGB2HLS_FULL), depth == CV_8U ? 1 : 1e-3); }
//OCL_TEST_P(CvtColor8u32f, BGR2HLS_FULL) { performTest(3, 3, CVTCODE(BGR2HLS_FULL), depth == CV_8U ? 1 : 1e-3); }
//OCL_TEST_P(CvtColor8u32f, RGBA2HLS_FULL) { performTest(4, 3, CVTCODE(RGB2HLS_FULL), depth == CV_8U ? 1 : 1e-3); }
//OCL_TEST_P(CvtColor8u32f, BGRA2HLS_FULL) { performTest(4, 3, CVTCODE(BGR2HLS_FULL), depth == CV_8U ? 1 : 1e-3); }
OCL_TEST_P(CvtColor8u32f, RGB2HLS_FULL) { performTest(3, 3, CVTCODE(RGB2HLS_FULL), depth == CV_8U ? 1 : 1e-3); }
OCL_TEST_P(CvtColor8u32f, BGR2HLS_FULL) { performTest(3, 3, CVTCODE(BGR2HLS_FULL), depth == CV_8U ? 1 : 1e-3); }
OCL_TEST_P(CvtColor8u32f, RGBA2HLS_FULL) { performTest(4, 3, CVTCODE(RGB2HLS_FULL), depth == CV_8U ? 1 : 1e-3); }
OCL_TEST_P(CvtColor8u32f, BGRA2HLS_FULL) { performTest(4, 3, CVTCODE(BGR2HLS_FULL), depth == CV_8U ? 1 : 1e-3); }
//OCL_TEST_P(CvtColor8u32f, HLS2RGB) { performTest(3, 3, CVTCODE(HLS2RGB), 1); }
//OCL_TEST_P(CvtColor8u32f, HLS2BGR) { performTest(3, 3, CVTCODE(HLS2BGR), 1); }
//OCL_TEST_P(CvtColor8u32f, HLS2RGBA) { performTest(3, 4, CVTCODE(HLS2RGB), 1); }
//OCL_TEST_P(CvtColor8u32f, HLS2BGRA) { performTest(3, 4, CVTCODE(HLS2BGR), 1); }
OCL_TEST_P(CvtColor8u32f, HLS2RGB) { performTest(3, 3, CVTCODE(HLS2RGB), 1); }
OCL_TEST_P(CvtColor8u32f, HLS2BGR) { performTest(3, 3, CVTCODE(HLS2BGR), 1); }
OCL_TEST_P(CvtColor8u32f, HLS2RGBA) { performTest(3, 4, CVTCODE(HLS2RGB), 1); }
OCL_TEST_P(CvtColor8u32f, HLS2BGRA) { performTest(3, 4, CVTCODE(HLS2BGR), 1); }
//OCL_TEST_P(CvtColor8u32f, HLS2RGB_FULL) { performTest(3, 3, CVTCODE(HLS2RGB_FULL), 1); }
//OCL_TEST_P(CvtColor8u32f, HLS2BGR_FULL) { performTest(3, 3, CVTCODE(HLS2BGR_FULL), 1); }
//OCL_TEST_P(CvtColor8u32f, HLS2RGBA_FULL) { performTest(3, 4, CVTCODE(HLS2RGB_FULL), 1); }
//OCL_TEST_P(CvtColor8u32f, HLS2BGRA_FULL) { performTest(3, 4, CVTCODE(HLS2BGR_FULL), 1); }
OCL_TEST_P(CvtColor8u32f, HLS2RGB_FULL) { performTest(3, 3, CVTCODE(HLS2RGB_FULL), 1); }
OCL_TEST_P(CvtColor8u32f, HLS2BGR_FULL) { performTest(3, 3, CVTCODE(HLS2BGR_FULL), 1); }
OCL_TEST_P(CvtColor8u32f, HLS2RGBA_FULL) { performTest(3, 4, CVTCODE(HLS2RGB_FULL), 1); }
OCL_TEST_P(CvtColor8u32f, HLS2BGRA_FULL) { performTest(3, 4, CVTCODE(HLS2BGR_FULL), 1); }
// RGB5x5 <-> RGB
//typedef CvtColor CvtColor8u;
typedef CvtColor CvtColor8u;
//OCL_TEST_P(CvtColor8u, BGR5652BGR) { performTest(2, 3, CVTCODE(BGR5652BGR)); }
//OCL_TEST_P(CvtColor8u, BGR5652RGB) { performTest(2, 3, CVTCODE(BGR5652RGB)); }
//OCL_TEST_P(CvtColor8u, BGR5652BGRA) { performTest(2, 4, CVTCODE(BGR5652BGRA)); }
//OCL_TEST_P(CvtColor8u, BGR5652RGBA) { performTest(2, 4, CVTCODE(BGR5652RGBA)); }
OCL_TEST_P(CvtColor8u, BGR5652BGR) { performTest(2, 3, CVTCODE(BGR5652BGR)); }
OCL_TEST_P(CvtColor8u, BGR5652RGB) { performTest(2, 3, CVTCODE(BGR5652RGB)); }
OCL_TEST_P(CvtColor8u, BGR5652BGRA) { performTest(2, 4, CVTCODE(BGR5652BGRA)); }
OCL_TEST_P(CvtColor8u, BGR5652RGBA) { performTest(2, 4, CVTCODE(BGR5652RGBA)); }
//OCL_TEST_P(CvtColor8u, BGR5552BGR) { performTest(2, 3, CVTCODE(BGR5552BGR)); }
//OCL_TEST_P(CvtColor8u, BGR5552RGB) { performTest(2, 3, CVTCODE(BGR5552RGB)); }
//OCL_TEST_P(CvtColor8u, BGR5552BGRA) { performTest(2, 4, CVTCODE(BGR5552BGRA)); }
//OCL_TEST_P(CvtColor8u, BGR5552RGBA) { performTest(2, 4, CVTCODE(BGR5552RGBA)); }
OCL_TEST_P(CvtColor8u, BGR5552BGR) { performTest(2, 3, CVTCODE(BGR5552BGR)); }
OCL_TEST_P(CvtColor8u, BGR5552RGB) { performTest(2, 3, CVTCODE(BGR5552RGB)); }
OCL_TEST_P(CvtColor8u, BGR5552BGRA) { performTest(2, 4, CVTCODE(BGR5552BGRA)); }
OCL_TEST_P(CvtColor8u, BGR5552RGBA) { performTest(2, 4, CVTCODE(BGR5552RGBA)); }
//OCL_TEST_P(CvtColor8u, BGR2BGR565) { performTest(3, 2, CVTCODE(BGR2BGR565)); }
//OCL_TEST_P(CvtColor8u, RGB2BGR565) { performTest(3, 2, CVTCODE(RGB2BGR565)); }
//OCL_TEST_P(CvtColor8u, BGRA2BGR565) { performTest(4, 2, CVTCODE(BGRA2BGR565)); }
//OCL_TEST_P(CvtColor8u, RGBA2BGR565) { performTest(4, 2, CVTCODE(RGBA2BGR565)); }
OCL_TEST_P(CvtColor8u, BGR2BGR565) { performTest(3, 2, CVTCODE(BGR2BGR565)); }
OCL_TEST_P(CvtColor8u, RGB2BGR565) { performTest(3, 2, CVTCODE(RGB2BGR565)); }
OCL_TEST_P(CvtColor8u, BGRA2BGR565) { performTest(4, 2, CVTCODE(BGRA2BGR565)); }
OCL_TEST_P(CvtColor8u, RGBA2BGR565) { performTest(4, 2, CVTCODE(RGBA2BGR565)); }
//OCL_TEST_P(CvtColor8u, BGR2BGR555) { performTest(3, 2, CVTCODE(BGR2BGR555)); }
//OCL_TEST_P(CvtColor8u, RGB2BGR555) { performTest(3, 2, CVTCODE(RGB2BGR555)); }
//OCL_TEST_P(CvtColor8u, BGRA2BGR555) { performTest(4, 2, CVTCODE(BGRA2BGR555)); }
//OCL_TEST_P(CvtColor8u, RGBA2BGR555) { performTest(4, 2, CVTCODE(RGBA2BGR555)); }
OCL_TEST_P(CvtColor8u, BGR2BGR555) { performTest(3, 2, CVTCODE(BGR2BGR555)); }
OCL_TEST_P(CvtColor8u, RGB2BGR555) { performTest(3, 2, CVTCODE(RGB2BGR555)); }
OCL_TEST_P(CvtColor8u, BGRA2BGR555) { performTest(4, 2, CVTCODE(BGRA2BGR555)); }
OCL_TEST_P(CvtColor8u, RGBA2BGR555) { performTest(4, 2, CVTCODE(RGBA2BGR555)); }
// RGB5x5 <-> Gray
//OCL_TEST_P(CvtColor8u, BGR5652GRAY) { performTest(2, 1, CVTCODE(BGR5652GRAY)); }
//OCL_TEST_P(CvtColor8u, BGR5552GRAY) { performTest(2, 1, CVTCODE(BGR5552GRAY)); }
OCL_TEST_P(CvtColor8u, BGR5652GRAY) { performTest(2, 1, CVTCODE(BGR5652GRAY)); }
OCL_TEST_P(CvtColor8u, BGR5552GRAY) { performTest(2, 1, CVTCODE(BGR5552GRAY)); }
//OCL_TEST_P(CvtColor8u, GRAY2BGR565) { performTest(1, 2, CVTCODE(GRAY2BGR565)); }
//OCL_TEST_P(CvtColor8u, GRAY2BGR555) { performTest(1, 2, CVTCODE(GRAY2BGR555)); }
OCL_TEST_P(CvtColor8u, GRAY2BGR565) { performTest(1, 2, CVTCODE(GRAY2BGR565)); }
OCL_TEST_P(CvtColor8u, GRAY2BGR555) { performTest(1, 2, CVTCODE(GRAY2BGR555)); }
// RGBA <-> mRGBA
//OCL_TEST_P(CvtColor8u, RGBA2mRGBA) { performTest(4, 4, CVTCODE(RGBA2mRGBA)); }
//OCL_TEST_P(CvtColor8u, mRGBA2RGBA) { performTest(4, 4, CVTCODE(mRGBA2RGBA)); }
OCL_TEST_P(CvtColor8u, RGBA2mRGBA) { performTest(4, 4, CVTCODE(RGBA2mRGBA)); }
OCL_TEST_P(CvtColor8u, mRGBA2RGBA) { performTest(4, 4, CVTCODE(mRGBA2RGBA)); }
// YUV -> RGBA_NV12
......@@ -280,11 +280,11 @@ OCL_TEST_P(CvtColor_YUV420, YUV2RGB_NV12) { performTest(1, 3, COLOR_YUV2RGB_NV12
OCL_TEST_P(CvtColor_YUV420, YUV2BGR_NV12) { performTest(1, 3, COLOR_YUV2BGR_NV12); }
//OCL_INSTANTIATE_TEST_CASE_P(ImgProc, CvtColor8u,
// testing::Combine(testing::Values(MatDepth(CV_8U)), Bool()));
OCL_INSTANTIATE_TEST_CASE_P(ImgProc, CvtColor8u,
testing::Combine(testing::Values(MatDepth(CV_8U)), Bool()));
//OCL_INSTANTIATE_TEST_CASE_P(ImgProc, CvtColor8u32f,
// testing::Combine(testing::Values(MatDepth(CV_8U), MatDepth(CV_32F)), Bool()));
OCL_INSTANTIATE_TEST_CASE_P(ImgProc, CvtColor8u32f,
testing::Combine(testing::Values(MatDepth(CV_8U), MatDepth(CV_32F)), Bool()));
OCL_INSTANTIATE_TEST_CASE_P(ImgProc, CvtColor,
testing::Combine(
......
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