Skip to content
Projects
Groups
Snippets
Help
Loading...
Sign in / Register
Toggle navigation
O
opencv
Project
Project
Details
Activity
Cycle Analytics
Repository
Repository
Files
Commits
Branches
Tags
Contributors
Graph
Compare
Charts
Issues
0
Issues
0
List
Board
Labels
Milestones
Merge Requests
0
Merge Requests
0
CI / CD
CI / CD
Pipelines
Jobs
Schedules
Charts
Packages
Packages
Wiki
Wiki
Snippets
Snippets
Members
Members
Collapse sidebar
Close sidebar
Activity
Graph
Charts
Create a new issue
Jobs
Commits
Issue Boards
Open sidebar
submodule
opencv
Commits
cae89a7a
Commit
cae89a7a
authored
Oct 29, 2014
by
Alexander Alekhin
Browse files
Options
Browse Files
Download
Plain Diff
Merge pull request #3318 from akarsakov:ocl_cvtcolor
parents
fd59551f
643c906f
Hide whitespace changes
Inline
Side-by-side
Showing
3 changed files
with
493 additions
and
59 deletions
+493
-59
color.cpp
modules/imgproc/src/color.cpp
+98
-7
cvtcolor.cl
modules/imgproc/src/opencl/cvtcolor.cl
+294
-45
test_color.cpp
modules/imgproc/test/ocl/test_color.cpp
+101
-7
No files found.
modules/imgproc/src/color.cpp
View file @
cae89a7a
...
...
@@ -4848,7 +4848,7 @@ static bool ocl_cvtColor( InputArray _src, OutputArray _dst, int code, int dcn )
bool
ok
=
false
;
UMat
src
=
_src
.
getUMat
(),
dst
;
Size
sz
=
src
.
size
(),
dstSz
=
sz
;
int
scn
=
src
.
channels
(),
depth
=
src
.
depth
(),
bidx
;
int
scn
=
src
.
channels
(),
depth
=
src
.
depth
(),
bidx
,
uidx
,
yidx
;
int
dims
=
2
,
stripeSize
=
1
;
ocl
::
Kernel
k
;
...
...
@@ -4857,6 +4857,7 @@ static bool ocl_cvtColor( InputArray _src, OutputArray _dst, int code, int dcn )
ocl
::
Device
dev
=
ocl
::
Device
::
getDefault
();
int
pxPerWIy
=
dev
.
isIntel
()
&&
(
dev
.
type
()
&
ocl
::
Device
::
TYPE_GPU
)
?
4
:
1
;
int
pxPerWIx
=
1
;
size_t
globalsize
[]
=
{
src
.
cols
,
(
src
.
rows
+
pxPerWIy
-
1
)
/
pxPerWIy
};
cv
::
String
opts
=
format
(
"-D depth=%d -D scn=%d -D PIX_PER_WI_Y=%d "
,
...
...
@@ -4960,17 +4961,107 @@ static bool ocl_cvtColor( InputArray _src, OutputArray _dst, int code, int dcn )
opts
+
format
(
"-D dcn=%d -D bidx=%d"
,
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_YUV2RGB_NV21
:
case
COLOR_YUV2BGR_NV21
:
case
COLOR_YUV2RGBA_NV12
:
case
COLOR_YUV2BGRA_NV12
:
case
COLOR_YUV2RGBA_NV21
:
case
COLOR_YUV2BGRA_NV21
:
{
CV_Assert
(
scn
==
1
);
CV_Assert
(
sz
.
width
%
2
==
0
&&
sz
.
height
%
3
==
0
&&
depth
==
CV_8U
);
dcn
=
code
==
COLOR_YUV2BGRA_NV12
||
code
==
COLOR_YUV2RGBA_NV12
?
4
:
3
;
bidx
=
code
==
COLOR_YUV2BGRA_NV12
||
code
==
COLOR_YUV2BGR_NV12
?
0
:
2
;
dcn
=
code
==
COLOR_YUV2BGRA_NV12
||
code
==
COLOR_YUV2RGBA_NV12
||
code
==
COLOR_YUV2BGRA_NV21
||
code
==
COLOR_YUV2RGBA_NV21
?
4
:
3
;
bidx
=
code
==
COLOR_YUV2BGRA_NV12
||
code
==
COLOR_YUV2BGR_NV12
||
code
==
COLOR_YUV2BGRA_NV21
||
code
==
COLOR_YUV2BGR_NV21
?
0
:
2
;
uidx
=
code
==
COLOR_YUV2RGBA_NV21
||
code
==
COLOR_YUV2RGB_NV21
||
code
==
COLOR_YUV2BGRA_NV21
||
code
==
COLOR_YUV2BGR_NV21
?
1
:
0
;
dstSz
=
Size
(
sz
.
width
,
sz
.
height
*
2
/
3
);
k
.
create
(
"YUV2RGB_NV12"
,
ocl
::
imgproc
::
cvtcolor_oclsrc
,
opts
+
format
(
"-D dcn=%d -D bidx=%d"
,
dcn
,
bidx
));
globalsize
[
0
]
=
dstSz
.
width
/
2
;
globalsize
[
1
]
=
(
dstSz
.
height
/
2
+
pxPerWIy
-
1
)
/
pxPerWIy
;
k
.
create
(
"YUV2RGB_NVx"
,
ocl
::
imgproc
::
cvtcolor_oclsrc
,
opts
+
format
(
"-D dcn=%d -D bidx=%d -D uidx=%d"
,
dcn
,
bidx
,
uidx
));
break
;
}
case
COLOR_YUV2BGR_YV12
:
case
COLOR_YUV2RGB_YV12
:
case
COLOR_YUV2BGRA_YV12
:
case
COLOR_YUV2RGBA_YV12
:
case
COLOR_YUV2BGR_IYUV
:
case
COLOR_YUV2RGB_IYUV
:
case
COLOR_YUV2BGRA_IYUV
:
case
COLOR_YUV2RGBA_IYUV
:
{
CV_Assert
(
scn
==
1
);
CV_Assert
(
sz
.
width
%
2
==
0
&&
sz
.
height
%
3
==
0
&&
depth
==
CV_8U
);
dcn
=
code
==
COLOR_YUV2BGRA_YV12
||
code
==
COLOR_YUV2RGBA_YV12
||
code
==
COLOR_YUV2BGRA_IYUV
||
code
==
COLOR_YUV2RGBA_IYUV
?
4
:
3
;
bidx
=
code
==
COLOR_YUV2BGRA_YV12
||
code
==
COLOR_YUV2BGR_YV12
||
code
==
COLOR_YUV2BGRA_IYUV
||
code
==
COLOR_YUV2BGR_IYUV
?
0
:
2
;
uidx
=
code
==
COLOR_YUV2BGRA_YV12
||
code
==
COLOR_YUV2BGR_YV12
||
code
==
COLOR_YUV2RGBA_YV12
||
code
==
COLOR_YUV2RGB_YV12
?
1
:
0
;
dstSz
=
Size
(
sz
.
width
,
sz
.
height
*
2
/
3
);
globalsize
[
0
]
=
dstSz
.
width
/
2
;
globalsize
[
1
]
=
(
dstSz
.
height
/
2
+
pxPerWIy
-
1
)
/
pxPerWIy
;
k
.
create
(
"YUV2RGB_YV12_IYUV"
,
ocl
::
imgproc
::
cvtcolor_oclsrc
,
opts
+
format
(
"-D dcn=%d -D bidx=%d -D uidx=%d%s"
,
dcn
,
bidx
,
uidx
,
src
.
isContinuous
()
?
" -D SRC_CONT"
:
""
));
break
;
}
case
COLOR_YUV2GRAY_420
:
{
if
(
dcn
<=
0
)
dcn
=
1
;
CV_Assert
(
dcn
==
1
);
CV_Assert
(
sz
.
width
%
2
==
0
&&
sz
.
height
%
3
==
0
&&
depth
==
CV_8U
);
dstSz
=
Size
(
sz
.
width
,
sz
.
height
*
2
/
3
);
_dst
.
create
(
dstSz
,
CV_MAKETYPE
(
depth
,
dcn
));
dst
=
_dst
.
getUMat
();
src
.
rowRange
(
0
,
dstSz
.
height
).
copyTo
(
dst
);
return
true
;
}
case
COLOR_RGB2YUV_YV12
:
case
COLOR_BGR2YUV_YV12
:
case
COLOR_RGBA2YUV_YV12
:
case
COLOR_BGRA2YUV_YV12
:
case
COLOR_RGB2YUV_IYUV
:
case
COLOR_BGR2YUV_IYUV
:
case
COLOR_RGBA2YUV_IYUV
:
case
COLOR_BGRA2YUV_IYUV
:
{
if
(
dcn
<=
0
)
dcn
=
1
;
bidx
=
code
==
COLOR_BGRA2YUV_YV12
||
code
==
COLOR_BGR2YUV_YV12
||
code
==
COLOR_BGRA2YUV_IYUV
||
code
==
COLOR_BGR2YUV_IYUV
?
0
:
2
;
uidx
=
code
==
COLOR_RGBA2YUV_YV12
||
code
==
COLOR_RGB2YUV_YV12
||
code
==
COLOR_BGRA2YUV_YV12
||
code
==
COLOR_BGR2YUV_YV12
?
1
:
0
;
CV_Assert
(
(
scn
==
3
||
scn
==
4
)
&&
depth
==
CV_8U
);
CV_Assert
(
dcn
==
1
);
CV_Assert
(
sz
.
width
%
2
==
0
&&
sz
.
height
%
2
==
0
);
dstSz
=
Size
(
sz
.
width
,
sz
.
height
/
2
*
3
);
_dst
.
create
(
dstSz
,
CV_MAKETYPE
(
depth
,
dcn
));
dst
=
_dst
.
getUMat
();
if
(
dev
.
isIntel
()
&&
src
.
cols
%
4
==
0
&&
src
.
step
%
4
==
0
&&
src
.
offset
%
4
==
0
&&
dst
.
step
%
4
==
0
&&
dst
.
offset
%
4
==
0
)
{
pxPerWIx
=
2
;
}
globalsize
[
0
]
=
dstSz
.
width
/
(
2
*
pxPerWIx
);
globalsize
[
1
]
=
(
dstSz
.
height
/
3
+
pxPerWIy
-
1
)
/
pxPerWIy
;
k
.
create
(
"RGB2YUV_YV12_IYUV"
,
ocl
::
imgproc
::
cvtcolor_oclsrc
,
opts
+
format
(
"-D dcn=%d -D bidx=%d -D uidx=%d -D PIX_PER_WI_X=%d"
,
dcn
,
bidx
,
uidx
,
pxPerWIx
));
k
.
args
(
ocl
::
KernelArg
::
ReadOnlyNoSize
(
src
),
ocl
::
KernelArg
::
WriteOnly
(
dst
));
return
k
.
run
(
2
,
globalsize
,
NULL
,
false
);
}
case
COLOR_YUV2RGB_UYVY
:
case
COLOR_YUV2BGR_UYVY
:
case
COLOR_YUV2RGBA_UYVY
:
case
COLOR_YUV2BGRA_UYVY
:
case
COLOR_YUV2RGB_YUY2
:
case
COLOR_YUV2BGR_YUY2
:
case
COLOR_YUV2RGB_YVYU
:
case
COLOR_YUV2BGR_YVYU
:
case
COLOR_YUV2RGBA_YUY2
:
case
COLOR_YUV2BGRA_YUY2
:
case
COLOR_YUV2RGBA_YVYU
:
case
COLOR_YUV2BGRA_YVYU
:
{
if
(
dcn
<=
0
)
dcn
=
(
code
==
COLOR_YUV2RGBA_UYVY
||
code
==
COLOR_YUV2BGRA_UYVY
||
code
==
COLOR_YUV2RGBA_YUY2
||
code
==
COLOR_YUV2BGRA_YUY2
||
code
==
COLOR_YUV2RGBA_YVYU
||
code
==
COLOR_YUV2BGRA_YVYU
)
?
4
:
3
;
bidx
=
(
code
==
COLOR_YUV2BGR_UYVY
||
code
==
COLOR_YUV2BGRA_UYVY
||
code
==
COLOR_YUV2BGRA_YUY2
||
code
==
COLOR_YUV2BGR_YUY2
||
code
==
COLOR_YUV2BGRA_YVYU
||
code
==
COLOR_YUV2BGR_YVYU
)
?
0
:
2
;
yidx
=
(
code
==
COLOR_YUV2RGB_UYVY
||
code
==
COLOR_YUV2RGBA_UYVY
||
code
==
COLOR_YUV2BGR_UYVY
||
code
==
COLOR_YUV2BGRA_UYVY
)
?
1
:
0
;
uidx
=
(
code
==
COLOR_YUV2RGB_YVYU
||
code
==
COLOR_YUV2RGBA_YVYU
||
code
==
COLOR_YUV2BGR_YVYU
||
code
==
COLOR_YUV2BGRA_YVYU
)
?
2
:
0
;
uidx
=
1
-
yidx
+
uidx
;
CV_Assert
(
dcn
==
3
||
dcn
==
4
);
CV_Assert
(
scn
==
2
&&
depth
==
CV_8U
);
k
.
create
(
"YUV2RGB_422"
,
ocl
::
imgproc
::
cvtcolor_oclsrc
,
opts
+
format
(
"-D dcn=%d -D bidx=%d -D uidx=%d -D yidx=%d%s"
,
dcn
,
bidx
,
uidx
,
yidx
,
src
.
offset
%
4
==
0
&&
src
.
step
%
4
==
0
?
" -D USE_OPTIMIZED_LOAD"
:
""
));
break
;
}
case
COLOR_BGR2YCrCb
:
...
...
modules/imgproc/src/opencl/cvtcolor.cl
View file @
cae89a7a
...
...
@@ -77,7 +77,7 @@ enum
{
yuv_shift
=
14
,
xyz_shift
=
12
,
hsv_shift
=
12
,
hsv_shift
=
12
,
R2Y
=
4899
,
G2Y
=
9617
,
B2Y
=
1868
,
...
...
@@ -111,6 +111,18 @@ enum
#
define
B_COMP
w
#
endif
#
ifndef
uidx
#
define
uidx
0
#
endif
#
ifndef
yidx
#
define
yidx
0
#
endif
#
ifndef
PIX_PER_WI_X
#
define
PIX_PER_WI_X
1
#
endif
#
define
__CAT
(
x,
y
)
x##y
#
define
CAT
(
x,
y
)
__CAT
(
x,
y
)
...
...
@@ -141,7 +153,7 @@ __kernel void RGB2Gray(__global const uchar * srcptr, int src_step, int src_offs
#
ifdef
DEPTH_5
dst[0]
=
fma
(
src_pix.B_COMP,
0.114f,
fma
(
src_pix.G_COMP,
0.587f,
src_pix.R_COMP
*
0.299f
))
;
#
else
dst[0]
=
(
DATA_TYPE
)
CV_DESCALE
(
mad24
(
src_pix.B_COMP,
B2Y,
mad24
(
src_pix.G_COMP,
G2Y,
src_pix.R_COMP
*
R2Y
))
,
yuv_shift
)
;
dst[0]
=
(
DATA_TYPE
)
CV_DESCALE
(
mad24
(
src_pix.B_COMP,
B2Y,
mad24
(
src_pix.G_COMP,
G2Y,
mul24
(
src_pix.R_COMP,
R2Y
)
))
,
yuv_shift
)
;
#
endif
++y
;
src_index
+=
src_step
;
...
...
@@ -216,13 +228,13 @@ __kernel void RGB2YUV(__global const uchar* srcptr, int src_step, int src_offset
#ifdef DEPTH_5
__constant float * coeffs = c_RGB2YUVCoeffs_f;
const DATA_TYPE Y
= fma(b, coeffs[0], fma(g, coeffs[1], r * coeffs[2]));
const DATA_TYPE Y = fma(b, coeffs[0], fma(g, coeffs[1], r * coeffs[2]));
const DATA_TYPE U = fma(b - Y, coeffs[3], HALF_MAX);
const DATA_TYPE V = fma(r - Y, coeffs[4], HALF_MAX);
#else
__constant int * coeffs = c_RGB2YUVCoeffs_i;
const int delta = HALF_MAX * (1 << yuv_shift);
const int Y = CV_DESCALE(mad24(b, coeffs[0], mad24(g, coeffs[1],
r * coeffs[2]
)), yuv_shift);
const int Y = CV_DESCALE(mad24(b, coeffs[0], mad24(g, coeffs[1],
mul24(r, coeffs[2])
)), yuv_shift);
const int U = CV_DESCALE(mad24(b - Y, coeffs[3], delta), yuv_shift);
const int V = CV_DESCALE(mad24(r - Y, coeffs[4], delta), yuv_shift);
#endif
...
...
@@ -239,8 +251,8 @@ __kernel void RGB2YUV(__global const uchar* srcptr, int src_step, int src_offset
}
}
__constant float c_YUV2RGBCoeffs_f[
5
] = { 2.032f, -0.395f, -0.581f, 1.140f };
__constant int c_YUV2RGBCoeffs_i[
5
] = { 33292, -6472, -9519, 18678 };
__constant float c_YUV2RGBCoeffs_f[
4
] = { 2.032f, -0.395f, -0.581f, 1.140f };
__constant int c_YUV2RGBCoeffs_i[
4
] = { 33292, -6472, -9519, 18678 };
__kernel void YUV2RGB(__global const uchar* srcptr, int src_step, int src_offset,
__global uchar* dstptr, int dst_step, int dt_offset,
...
...
@@ -271,9 +283,9 @@ __kernel void YUV2RGB(__global const uchar* srcptr, int src_step, int src_offset
float b = fma(U - HALF_MAX, coeffs[0], Y);
#else
__constant int * coeffs = c_YUV2RGBCoeffs_i;
const int r = Y + CV_DESCALE(
(V - HALF_MAX) * coeffs[3]
, yuv_shift);
const int g = Y + CV_DESCALE(mad24(V - HALF_MAX, coeffs[2],
(U - HALF_MAX) * coeffs[1]
), yuv_shift);
const int b = Y + CV_DESCALE(
(U - HALF_MAX) * coeffs[0]
, yuv_shift);
const int r = Y + CV_DESCALE(
mul24(V - HALF_MAX, coeffs[3])
, yuv_shift);
const int g = Y + CV_DESCALE(mad24(V - HALF_MAX, coeffs[2],
mul24(U - HALF_MAX, coeffs[1])
), yuv_shift);
const int b = Y + CV_DESCALE(
mul24(U - HALF_MAX, coeffs[0])
, yuv_shift);
#endif
dst[bidx] = SAT_CAST( b );
...
...
@@ -289,15 +301,10 @@ __kernel void YUV2RGB(__global const uchar* srcptr, int src_step, int src_offset
}
}
}
__constant float c_YUV2RGBCoeffs_420[5] = { 1.163999557f, 2.017999649f, -0.390999794f,
-0.812999725f, 1.5959997177f };
__constant int ITUR_BT_601_CY = 1220542;
__constant int ITUR_BT_601_CUB = 2116026;
__constant int ITUR_BT_601_CUG = 409993;
__constant int ITUR_BT_601_CVG = 852492;
__constant int ITUR_BT_601_CVR = 1673527;
__constant int ITUR_BT_601_SHIFT = 20;
__kernel void YUV2RGB_NV12(__global const uchar* srcptr, int src_step, int src_offset,
__kernel void YUV2RGB_NVx(__global const uchar* srcptr, int src_step, int src_offset,
__global uchar* dstptr, int dst_step, int dt_offset,
int rows, int cols)
{
...
...
@@ -313,49 +320,128 @@ __kernel void YUV2RGB_NV12(__global const uchar* srcptr, int src_step, int src_o
{
__global const uchar* ysrc = srcptr + mad24(y << 1, src_step, (x << 1) + src_offset);
__global const uchar* usrc = srcptr + mad24(rows + y, src_step, (x << 1) + src_offset);
__global uchar* dst1 = dstptr + mad24(y << 1, dst_step, x * (dcn<<1) + dt_offset);
__global uchar* dst2 = dstptr + mad24((y << 1) + 1, dst_step, x * (dcn<<1) + dt_offset);
__global uchar* dst1 = dstptr + mad24(y << 1, dst_step, mad24(x, dcn<<1, dt_offset));
__global uchar* dst2 = dst1 + dst_step;
float Y1 = ysrc[0];
float Y2 = ysrc[1];
float Y3 = ysrc[src_step];
float Y4 = ysrc[src_step + 1];
float U = ((float)usrc[uidx]) - HALF_MAX;
float V = ((float)usrc[1-uidx]) - HALF_MAX;
__constant float* coeffs = c_YUV2RGBCoeffs_420;
float ruv = fma(coeffs[4], V, 0.5f);
float guv = fma(coeffs[3], V, fma(coeffs[2], U, 0.5f));
float buv = fma(coeffs[1], U, 0.5f);
Y1 = max(0.f, Y1 - 16.f) * coeffs[0];
dst1[2 - bidx] = convert_uchar_sat(Y1 + ruv);
dst1[1] = convert_uchar_sat(Y1 + guv);
dst1[bidx] = convert_uchar_sat(Y1 + buv);
#if dcn == 4
dst1[3] = 255;
#endif
Y2 = max(0.f, Y2 - 16.f) * coeffs[0];
dst1[dcn + 2 - bidx] = convert_uchar_sat(Y2 + ruv);
dst1[dcn + 1] = convert_uchar_sat(Y2 + guv);
dst1[dcn + bidx] = convert_uchar_sat(Y2 + buv);
#if dcn == 4
dst1[7] = 255;
#endif
Y3 = max(0.f, Y3 - 16.f) * coeffs[0];
dst2[2 - bidx] = convert_uchar_sat(Y3 + ruv);
dst2[1] = convert_uchar_sat(Y3 + guv);
dst2[bidx] = convert_uchar_sat(Y3 + buv);
#if dcn == 4
dst2[3] = 255;
#endif
Y4 = max(0.f, Y4 - 16.f) * coeffs[0];
dst2[dcn + 2 - bidx] = convert_uchar_sat(Y4 + ruv);
dst2[dcn + 1] = convert_uchar_sat(Y4 + guv);
dst2[dcn + bidx] = convert_uchar_sat(Y4 + buv);
#if dcn == 4
dst2[7] = 255;
#endif
}
++y;
}
}
}
int Y1 = ysrc[0];
int Y2 = ysrc[1];
int Y3 = ysrc[src_step];
int Y4 = ysrc[src_step + 1];
__kernel void YUV2RGB_YV12_IYUV(__global const uchar* srcptr, int src_step, int src_offset,
__global uchar* dstptr, int dst_step, int dt_offset,
int rows, int cols)
{
int x = get_global_id(0);
int y = get_global_id(1) * PIX_PER_WI_Y;
int U = usrc[0] - 128;
int V = usrc[1] - 128;
if (x < cols / 2)
{
#pragma unroll
for (int cy = 0; cy < PIX_PER_WI_Y; ++cy)
{
if (y < rows / 2 )
{
__global const uchar* ysrc = srcptr + mad24(y << 1, src_step, (x << 1) + src_offset);
__global uchar* dst1 = dstptr + mad24(y << 1, dst_step, x * (dcn<<1) + dt_offset);
__global uchar* dst2 = dst1 + dst_step;
int ruv = (1 << (ITUR_BT_601_SHIFT - 1)) + ITUR_BT_601_CVR * V;
int guv = (1 << (ITUR_BT_601_SHIFT - 1)) - ITUR_BT_601_CVG * V - ITUR_BT_601_CUG * U;
int buv = (1 << (ITUR_BT_601_SHIFT - 1)) + ITUR_BT_601_CUB * U;
float Y1 = ysrc[0];
float Y2 = ysrc[1];
float Y3 = ysrc[src_step];
float Y4 = ysrc[src_step + 1];
Y1 = max(0, Y1 - 16) * ITUR_BT_601_CY;
dst1[2 - bidx] = convert_uchar_sat((Y1 + ruv) >> ITUR_BT_601_SHIFT);
dst1[1] = convert_uchar_sat((Y1 + guv) >> ITUR_BT_601_SHIFT);
dst1[bidx] = convert_uchar_sat((Y1 + buv) >> ITUR_BT_601_SHIFT);
#ifdef SRC_CONT
__global const uchar* uvsrc = srcptr + mad24(rows, src_step, src_offset);
int u_ind = mad24(y, cols >> 1, x);
float uv[2] = { ((float)uvsrc[u_ind]) - HALF_MAX, ((float)uvsrc[u_ind + ((rows * cols) >> 2)]) - HALF_MAX };
#else
int vsteps[2] = { cols >> 1, src_step - (cols >> 1)};
__global const uchar* usrc = srcptr + mad24(rows + (y>>1), src_step, src_offset + (y%2)*(cols >> 1) + x);
__global const uchar* vsrc = usrc + mad24(rows >> 2, src_step, rows % 4 ? vsteps[y%2] : 0);
float uv[2] = { ((float)usrc[0]) - HALF_MAX, ((float)vsrc[0]) - HALF_MAX };
#endif
float U = uv[uidx];
float V = uv[1-uidx];
__constant float* coeffs = c_YUV2RGBCoeffs_420;
float ruv = fma(coeffs[4], V, 0.5f);
float guv = fma(coeffs[3], V, fma(coeffs[2], U, 0.5f));
float buv = fma(coeffs[1], U, 0.5f);
Y1 = max(0.f, Y1 - 16.f) * coeffs[0];
dst1[2 - bidx] = convert_uchar_sat(Y1 + ruv);
dst1[1] = convert_uchar_sat(Y1 + guv);
dst1[bidx] = convert_uchar_sat(Y1 + buv);
#if dcn == 4
dst1[3] = 255;
#endif
Y2 = max(0
, Y2 - 16) * ITUR_BT_601_CY
;
dst1[dcn + 2 - bidx] = convert_uchar_sat(
(Y2 + ruv) >> ITUR_BT_601_SHIFT
);
dst1[dcn + 1] = convert_uchar_sat(
(Y2 + guv) >> ITUR_BT_601_SHIFT
);
dst1[dcn + bidx]
= convert_uchar_sat((Y2 + buv) >> ITUR_BT_601_SHIFT
);
Y2 = max(0
.f, Y2 - 16.f) * coeffs[0]
;
dst1[dcn + 2 - bidx] = convert_uchar_sat(
Y2 + ruv
);
dst1[dcn + 1] = convert_uchar_sat(
Y2 + guv
);
dst1[dcn + bidx]
= convert_uchar_sat(Y2 + buv
);
#if dcn == 4
dst1[7] = 255;
#endif
Y3 = max(0
, Y3 - 16) * ITUR_BT_601_CY
;
dst2[2 - bidx]
= convert_uchar_sat((Y3 + ruv) >> ITUR_BT_601_SHIFT
);
dst2[1] = convert_uchar_sat(
(Y3 + guv) >> ITUR_BT_601_SHIFT
);
dst2[bidx]
= convert_uchar_sat((Y3 + buv) >> ITUR_BT_601_SHIFT
);
Y3 = max(0
.f, Y3 - 16.f) * coeffs[0]
;
dst2[2 - bidx]
= convert_uchar_sat(Y3 + ruv
);
dst2[1] = convert_uchar_sat(
Y3 + guv
);
dst2[bidx]
= convert_uchar_sat(Y3 + buv
);
#if dcn == 4
dst2[3] = 255;
#endif
Y4 = max(0
, Y4 - 16) * ITUR_BT_601_CY
;
dst2[dcn + 2 - bidx] = convert_uchar_sat(
(Y4 + ruv) >> ITUR_BT_601_SHIFT
);
dst2[dcn + 1] = convert_uchar_sat(
(Y4 + guv) >> ITUR_BT_601_SHIFT
);
dst2[dcn + bidx]
= convert_uchar_sat((Y4 + buv) >> ITUR_BT_601_SHIFT
);
Y4 = max(0
.f, Y4 - 16.f) * coeffs[0]
;
dst2[dcn + 2 - bidx] = convert_uchar_sat(
Y4 + ruv
);
dst2[dcn + 1] = convert_uchar_sat(
Y4 + guv
);
dst2[dcn + bidx]
= convert_uchar_sat(Y4 + buv
);
#if dcn == 4
dst2[7] = 255;
#endif
...
...
@@ -365,6 +451,169 @@ __kernel void YUV2RGB_NV12(__global const uchar* srcptr, int src_step, int src_o
}
}
__constant float c_RGB2YUVCoeffs_420[8] = { 0.256999969f, 0.50399971f, 0.09799957f, -0.1479988098f, -0.2909994125f,
0.438999176f, -0.3679990768f, -0.0709991455f };
__kernel void RGB2YUV_YV12_IYUV(__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) * PIX_PER_WI_X;
int y = get_global_id(1) * PIX_PER_WI_Y;
if (x < cols/2)
{
int src_index = mad24(y << 1, src_step, mad24(x << 1, scn, src_offset));
int ydst_index = mad24(y << 1, dst_step, (x << 1) + dst_offset);
int y_rows = rows / 3 * 2;
int vsteps[2] = { cols >> 1, dst_step - (cols >> 1)};
__constant float* coeffs = c_RGB2YUVCoeffs_420;
#pragma unroll
for (int cy = 0; cy < PIX_PER_WI_Y; ++cy)
{
if (y < rows / 3)
{
__global const uchar* src1 = srcptr + src_index;
__global const uchar* src2 = src1 + src_step;
__global uchar* ydst1 = dstptr + ydst_index;
__global uchar* ydst2 = ydst1 + dst_step;
__global uchar* udst = dstptr + mad24(y_rows + (y>>1), dst_step, dst_offset + (y%2)*(cols >> 1) + x);
__global uchar* vdst = udst + mad24(y_rows >> 2, dst_step, y_rows % 4 ? vsteps[y%2] : 0);
#if PIX_PER_WI_X == 2
int s11 = *((__global const int*) src1);
int s12 = *((__global const int*) src1 + 1);
int s13 = *((__global const int*) src1 + 2);
#if scn == 4
int s14 = *((__global const int*) src1 + 3);
#endif
int s21 = *((__global const int*) src2);
int s22 = *((__global const int*) src2 + 1);
int s23 = *((__global const int*) src2 + 2);
#if scn == 4
int s24 = *((__global const int*) src2 + 3);
#endif
float src_pix1[scn * 4], src_pix2[scn * 4];
*((float4*) src_pix1) = convert_float4(as_uchar4(s11));
*((float4*) src_pix1 + 1) = convert_float4(as_uchar4(s12));
*((float4*) src_pix1 + 2) = convert_float4(as_uchar4(s13));
#if scn == 4
*((float4*) src_pix1 + 3) = convert_float4(as_uchar4(s14));
#endif
*((float4*) src_pix2) = convert_float4(as_uchar4(s21));
*((float4*) src_pix2 + 1) = convert_float4(as_uchar4(s22));
*((float4*) src_pix2 + 2) = convert_float4(as_uchar4(s23));
#if scn == 4
*((float4*) src_pix2 + 3) = convert_float4(as_uchar4(s24));
#endif
uchar4 y1, y2;
y1.x = convert_uchar_sat(fma(coeffs[0], src_pix1[ 2-bidx], fma(coeffs[1], src_pix1[ 1], fma(coeffs[2], src_pix1[ bidx], 16.5f))));
y1.y = convert_uchar_sat(fma(coeffs[0], src_pix1[ scn+2-bidx], fma(coeffs[1], src_pix1[ scn+1], fma(coeffs[2], src_pix1[ scn+bidx], 16.5f))));
y1.z = convert_uchar_sat(fma(coeffs[0], src_pix1[2*scn+2-bidx], fma(coeffs[1], src_pix1[2*scn+1], fma(coeffs[2], src_pix1[2*scn+bidx], 16.5f))));
y1.w = convert_uchar_sat(fma(coeffs[0], src_pix1[3*scn+2-bidx], fma(coeffs[1], src_pix1[3*scn+1], fma(coeffs[2], src_pix1[3*scn+bidx], 16.5f))));
y2.x = convert_uchar_sat(fma(coeffs[0], src_pix2[ 2-bidx], fma(coeffs[1], src_pix2[ 1], fma(coeffs[2], src_pix2[ bidx], 16.5f))));
y2.y = convert_uchar_sat(fma(coeffs[0], src_pix2[ scn+2-bidx], fma(coeffs[1], src_pix2[ scn+1], fma(coeffs[2], src_pix2[ scn+bidx], 16.5f))));
y2.z = convert_uchar_sat(fma(coeffs[0], src_pix2[2*scn+2-bidx], fma(coeffs[1], src_pix2[2*scn+1], fma(coeffs[2], src_pix2[2*scn+bidx], 16.5f))));
y2.w = convert_uchar_sat(fma(coeffs[0], src_pix2[3*scn+2-bidx], fma(coeffs[1], src_pix2[3*scn+1], fma(coeffs[2], src_pix2[3*scn+bidx], 16.5f))));
*((__global int*) ydst1) = as_int(y1);
*((__global int*) ydst2) = as_int(y2);
float uv[4] = { fma(coeffs[3], src_pix1[ 2-bidx], fma(coeffs[4], src_pix1[ 1], fma(coeffs[5], src_pix1[ bidx], 128.5f))),
fma(coeffs[5], src_pix1[ 2-bidx], fma(coeffs[6], src_pix1[ 1], fma(coeffs[7], src_pix1[ bidx], 128.5f))),
fma(coeffs[3], src_pix1[2*scn+2-bidx], fma(coeffs[4], src_pix1[2*scn+1], fma(coeffs[5], src_pix1[2*scn+bidx], 128.5f))),
fma(coeffs[5], src_pix1[2*scn+2-bidx], fma(coeffs[6], src_pix1[2*scn+1], fma(coeffs[7], src_pix1[2*scn+bidx], 128.5f))) };
udst[0] = convert_uchar_sat(uv[uidx] );
vdst[0] = convert_uchar_sat(uv[1 - uidx]);
udst[1] = convert_uchar_sat(uv[2 + uidx]);
vdst[1] = convert_uchar_sat(uv[3 - uidx]);
#else
float4 src_pix1 = convert_float4(vload4(0, src1));
float4 src_pix2 = convert_float4(vload4(0, src1+scn));
float4 src_pix3 = convert_float4(vload4(0, src2));
float4 src_pix4 = convert_float4(vload4(0, src2+scn));
ydst1[0] = convert_uchar_sat(fma(coeffs[0], src_pix1.R_COMP, fma(coeffs[1], src_pix1.G_COMP, fma(coeffs[2], src_pix1.B_COMP, 16.5f))));
ydst1[1] = convert_uchar_sat(fma(coeffs[0], src_pix2.R_COMP, fma(coeffs[1], src_pix2.G_COMP, fma(coeffs[2], src_pix2.B_COMP, 16.5f))));
ydst2[0] = convert_uchar_sat(fma(coeffs[0], src_pix3.R_COMP, fma(coeffs[1], src_pix3.G_COMP, fma(coeffs[2], src_pix3.B_COMP, 16.5f))));
ydst2[1] = convert_uchar_sat(fma(coeffs[0], src_pix4.R_COMP, fma(coeffs[1], src_pix4.G_COMP, fma(coeffs[2], src_pix4.B_COMP, 16.5f))));
float uv[2] = { fma(coeffs[3], src_pix1.R_COMP, fma(coeffs[4], src_pix1.G_COMP, fma(coeffs[5], src_pix1.B_COMP, 128.5f))),
fma(coeffs[5], src_pix1.R_COMP, fma(coeffs[6], src_pix1.G_COMP, fma(coeffs[7], src_pix1.B_COMP, 128.5f))) };
udst[0] = convert_uchar_sat(uv[uidx] );
vdst[0] = convert_uchar_sat(uv[1-uidx]);
#endif
++y;
src_index += 2*src_step;
ydst_index += 2*dst_step;
}
}
}
}
__kernel void YUV2RGB_422(__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) * PIX_PER_WI_Y;
if (x < cols / 2)
{
__global const uchar* src = srcptr + mad24(y, src_step, (x << 2) + src_offset);
__global uchar* dst = dstptr + mad24(y, dst_step, mad24(x << 1, dcn, dst_offset));
#pragma unroll
for (int cy = 0; cy < PIX_PER_WI_Y; ++cy)
{
if (y < rows )
{
__constant float* coeffs = c_YUV2RGBCoeffs_420;
#ifndef USE_OPTIMIZED_LOAD
float U = ((float) src[uidx]) - HALF_MAX;
float V = ((float) src[(2 + uidx) % 4]) - HALF_MAX;
float y00 = max(0.f, ((float) src[yidx]) - 16.f) * coeffs[0];
float y01 = max(0.f, ((float) src[yidx + 2]) - 16.f) * coeffs[0];
#else
int load_src = *((__global int*) src);
float vec_src[4] = { load_src & 0xff, (load_src >> 8) & 0xff, (load_src >> 16) & 0xff, (load_src >> 24) & 0xff};
float U = vec_src[uidx] - HALF_MAX;
float V = vec_src[(2 + uidx) % 4] - HALF_MAX;
float y00 = max(0.f, vec_src[yidx] - 16.f) * coeffs[0];
float y01 = max(0.f, vec_src[yidx + 2] - 16.f) * coeffs[0];
#endif
float ruv = fma(coeffs[4], V, 0.5f);
float guv = fma(coeffs[3], V, fma(coeffs[2], U, 0.5f));
float buv = fma(coeffs[1], U, 0.5f);
dst[2 - bidx] = convert_uchar_sat(y00 + ruv);
dst[1] = convert_uchar_sat(y00 + guv);
dst[bidx] = convert_uchar_sat(y00 + buv);
#if dcn == 4
dst[3] = 255;
#endif
dst[dcn + 2 - bidx] = convert_uchar_sat(y01 + ruv);
dst[dcn + 1] = convert_uchar_sat(y01 + guv);
dst[dcn + bidx] = convert_uchar_sat(y01 + buv);
#if dcn == 4
dst[7] = 255;
#endif
}
++y;
src += src_step;
dst += dst_step;
}
}
}
///////////////////////////////////// RGB <-> YCrCb //////////////////////////////////////
__constant float c_RGB2YCrCbCoeffs_f[5] = {0.299f, 0.587f, 0.114f, 0.713f, 0.564f};
...
...
@@ -400,7 +649,7 @@ __kernel void RGB2YCrCb(__global const uchar* srcptr, int src_step, int src_offs
#else
__constant int * coeffs = c_RGB2YCrCbCoeffs_i;
int delta = HALF_MAX * (1 << yuv_shift);
int Y = CV_DESCALE(mad24(b, coeffs[2], mad24(g, coeffs[1],
r * coeffs[0]
)), yuv_shift);
int Y = CV_DESCALE(mad24(b, coeffs[2], mad24(g, coeffs[1],
mul24(r, coeffs[0])
)), yuv_shift);
int Cr = CV_DESCALE(mad24(r - Y, coeffs[3], delta), yuv_shift);
int Cb = CV_DESCALE(mad24(b - Y, coeffs[4], delta), yuv_shift);
#endif
...
...
modules/imgproc/test/ocl/test_color.cpp
View file @
cae89a7a
...
...
@@ -320,9 +320,9 @@ OCL_TEST_P(CvtColor8u32f, Luv2RGBA) { performTest(3, 4, CVTCODE(Luv2RGB), depth
OCL_TEST_P
(
CvtColor8u32f
,
Luv2LBGRA
)
{
performTest
(
3
,
4
,
CVTCODE
(
Luv2LBGR
),
depth
==
CV_8U
?
1
:
1e-5
);
}
OCL_TEST_P
(
CvtColor8u32f
,
Luv2LRGBA
)
{
performTest
(
3
,
4
,
CVTCODE
(
Luv2LRGB
),
depth
==
CV_8U
?
1
:
1e-5
);
}
// YUV
-> RGBA_NV12
// YUV
420 -> RGBA
struct
CvtColor_YUV420
:
struct
CvtColor_YUV
2RGB_
420
:
public
CvtColor
{
void
generateTestData
(
int
channelsIn
,
int
channelsOut
)
...
...
@@ -344,10 +344,94 @@ struct CvtColor_YUV420 :
}
};
OCL_TEST_P
(
CvtColor_YUV420
,
YUV2RGBA_NV12
)
{
performTest
(
1
,
4
,
COLOR_YUV2RGBA_NV12
);
}
OCL_TEST_P
(
CvtColor_YUV420
,
YUV2BGRA_NV12
)
{
performTest
(
1
,
4
,
COLOR_YUV2BGRA_NV12
);
}
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_TEST_P
(
CvtColor_YUV2RGB_420
,
YUV2RGBA_NV12
)
{
performTest
(
1
,
4
,
CVTCODE
(
YUV2RGBA_NV12
));
}
OCL_TEST_P
(
CvtColor_YUV2RGB_420
,
YUV2BGRA_NV12
)
{
performTest
(
1
,
4
,
CVTCODE
(
YUV2BGRA_NV12
));
}
OCL_TEST_P
(
CvtColor_YUV2RGB_420
,
YUV2RGB_NV12
)
{
performTest
(
1
,
3
,
CVTCODE
(
YUV2RGB_NV12
));
}
OCL_TEST_P
(
CvtColor_YUV2RGB_420
,
YUV2BGR_NV12
)
{
performTest
(
1
,
3
,
CVTCODE
(
YUV2BGR_NV12
));
}
OCL_TEST_P
(
CvtColor_YUV2RGB_420
,
YUV2RGBA_NV21
)
{
performTest
(
1
,
4
,
CVTCODE
(
YUV2RGBA_NV21
));
}
OCL_TEST_P
(
CvtColor_YUV2RGB_420
,
YUV2BGRA_NV21
)
{
performTest
(
1
,
4
,
CVTCODE
(
YUV2BGRA_NV21
));
}
OCL_TEST_P
(
CvtColor_YUV2RGB_420
,
YUV2RGB_NV21
)
{
performTest
(
1
,
3
,
CVTCODE
(
YUV2RGB_NV21
));
}
OCL_TEST_P
(
CvtColor_YUV2RGB_420
,
YUV2BGR_NV21
)
{
performTest
(
1
,
3
,
CVTCODE
(
YUV2BGR_NV21
));
}
OCL_TEST_P
(
CvtColor_YUV2RGB_420
,
YUV2RGBA_YV12
)
{
performTest
(
1
,
4
,
CVTCODE
(
YUV2RGBA_YV12
));
}
OCL_TEST_P
(
CvtColor_YUV2RGB_420
,
YUV2BGRA_YV12
)
{
performTest
(
1
,
4
,
CVTCODE
(
YUV2BGRA_YV12
));
}
OCL_TEST_P
(
CvtColor_YUV2RGB_420
,
YUV2RGB_YV12
)
{
performTest
(
1
,
3
,
CVTCODE
(
YUV2RGB_YV12
));
}
OCL_TEST_P
(
CvtColor_YUV2RGB_420
,
YUV2BGR_YV12
)
{
performTest
(
1
,
3
,
CVTCODE
(
YUV2BGR_YV12
));
}
OCL_TEST_P
(
CvtColor_YUV2RGB_420
,
YUV2RGBA_IYUV
)
{
performTest
(
1
,
4
,
CVTCODE
(
YUV2RGBA_IYUV
));
}
OCL_TEST_P
(
CvtColor_YUV2RGB_420
,
YUV2BGRA_IYUV
)
{
performTest
(
1
,
4
,
CVTCODE
(
YUV2BGRA_IYUV
));
}
OCL_TEST_P
(
CvtColor_YUV2RGB_420
,
YUV2RGB_IYUV
)
{
performTest
(
1
,
3
,
CVTCODE
(
YUV2RGB_IYUV
));
}
OCL_TEST_P
(
CvtColor_YUV2RGB_420
,
YUV2BGR_IYUV
)
{
performTest
(
1
,
3
,
CVTCODE
(
YUV2BGR_IYUV
));
}
OCL_TEST_P
(
CvtColor_YUV2RGB_420
,
YUV2GRAY_420
)
{
performTest
(
1
,
1
,
CVTCODE
(
YUV2GRAY_420
));
}
// RGBA -> YUV420
struct
CvtColor_RGB2YUV_420
:
public
CvtColor
{
void
generateTestData
(
int
channelsIn
,
int
channelsOut
)
{
const
int
srcType
=
CV_MAKE_TYPE
(
depth
,
channelsIn
);
const
int
dstType
=
CV_MAKE_TYPE
(
depth
,
channelsOut
);
Size
srcRoiSize
=
randomSize
(
1
,
MAX_VALUE
);
srcRoiSize
.
width
*=
2
;
srcRoiSize
.
height
*=
2
;
Border
srcBorder
=
randomBorder
(
0
,
use_roi
?
MAX_VALUE
:
0
);
randomSubMat
(
src
,
src_roi
,
srcRoiSize
,
srcBorder
,
srcType
,
2
,
100
);
Size
dstRoiSize
(
srcRoiSize
.
width
,
srcRoiSize
.
height
/
2
*
3
);
Border
dstBorder
=
randomBorder
(
0
,
use_roi
?
MAX_VALUE
:
0
);
randomSubMat
(
dst
,
dst_roi
,
dstRoiSize
,
dstBorder
,
dstType
,
5
,
16
);
UMAT_UPLOAD_INPUT_PARAMETER
(
src
);
UMAT_UPLOAD_OUTPUT_PARAMETER
(
dst
);
}
};
OCL_TEST_P
(
CvtColor_RGB2YUV_420
,
RGBA2YUV_YV12
)
{
performTest
(
4
,
1
,
CVTCODE
(
RGBA2YUV_YV12
),
1
);
}
OCL_TEST_P
(
CvtColor_RGB2YUV_420
,
BGRA2YUV_YV12
)
{
performTest
(
4
,
1
,
CVTCODE
(
BGRA2YUV_YV12
),
1
);
}
OCL_TEST_P
(
CvtColor_RGB2YUV_420
,
RGB2YUV_YV12
)
{
performTest
(
3
,
1
,
CVTCODE
(
RGB2YUV_YV12
),
1
);
}
OCL_TEST_P
(
CvtColor_RGB2YUV_420
,
BGR2YUV_YV12
)
{
performTest
(
3
,
1
,
CVTCODE
(
BGR2YUV_YV12
),
1
);
}
OCL_TEST_P
(
CvtColor_RGB2YUV_420
,
RGBA2YUV_IYUV
)
{
performTest
(
4
,
1
,
CVTCODE
(
RGBA2YUV_IYUV
),
1
);
}
OCL_TEST_P
(
CvtColor_RGB2YUV_420
,
BGRA2YUV_IYUV
)
{
performTest
(
4
,
1
,
CVTCODE
(
BGRA2YUV_IYUV
),
1
);
}
OCL_TEST_P
(
CvtColor_RGB2YUV_420
,
RGB2YUV_IYUV
)
{
performTest
(
3
,
1
,
CVTCODE
(
RGB2YUV_IYUV
),
1
);
}
OCL_TEST_P
(
CvtColor_RGB2YUV_420
,
BGR2YUV_IYUV
)
{
performTest
(
3
,
1
,
CVTCODE
(
BGR2YUV_IYUV
),
1
);
}
// YUV422 -> RGBA
struct
CvtColor_YUV2RGB_422
:
public
CvtColor
{
void
generateTestData
(
int
channelsIn
,
int
channelsOut
)
{
const
int
srcType
=
CV_MAKE_TYPE
(
depth
,
channelsIn
);
const
int
dstType
=
CV_MAKE_TYPE
(
depth
,
channelsOut
);
Size
roiSize
=
randomSize
(
1
,
MAX_VALUE
);
roiSize
.
width
*=
2
;
Border
srcBorder
=
randomBorder
(
0
,
use_roi
?
MAX_VALUE
:
0
);
randomSubMat
(
src
,
src_roi
,
roiSize
,
srcBorder
,
srcType
,
2
,
100
);
Border
dstBorder
=
randomBorder
(
0
,
use_roi
?
MAX_VALUE
:
0
);
randomSubMat
(
dst
,
dst_roi
,
roiSize
,
dstBorder
,
dstType
,
5
,
16
);
UMAT_UPLOAD_INPUT_PARAMETER
(
src
);
UMAT_UPLOAD_OUTPUT_PARAMETER
(
dst
);
}
};
OCL_TEST_P
(
CvtColor_YUV2RGB_422
,
YUV2RGB_UYVY
)
{
performTest
(
2
,
3
,
CVTCODE
(
YUV2RGB_UYVY
));
}
OCL_TEST_P
(
CvtColor_YUV2RGB_422
,
YUV2BGR_UYVY
)
{
performTest
(
2
,
3
,
CVTCODE
(
YUV2BGR_UYVY
));
}
OCL_TEST_P
(
CvtColor_YUV2RGB_422
,
YUV2RGBA_UYVY
)
{
performTest
(
2
,
4
,
CVTCODE
(
YUV2RGBA_UYVY
));
}
OCL_TEST_P
(
CvtColor_YUV2RGB_422
,
YUV2BGRA_UYVY
)
{
performTest
(
2
,
4
,
CVTCODE
(
YUV2BGRA_UYVY
));
}
OCL_TEST_P
(
CvtColor_YUV2RGB_422
,
YUV2RGB_YUY2
)
{
performTest
(
2
,
3
,
CVTCODE
(
YUV2RGB_YUY2
));
}
OCL_TEST_P
(
CvtColor_YUV2RGB_422
,
YUV2BGR_YUY2
)
{
performTest
(
2
,
3
,
CVTCODE
(
YUV2BGR_YUY2
));
}
OCL_TEST_P
(
CvtColor_YUV2RGB_422
,
YUV2RGBA_YUY2
)
{
performTest
(
2
,
4
,
CVTCODE
(
YUV2RGBA_YUY2
));
}
OCL_TEST_P
(
CvtColor_YUV2RGB_422
,
YUV2BGRA_YUY2
)
{
performTest
(
2
,
4
,
CVTCODE
(
YUV2BGRA_YUY2
));
}
OCL_TEST_P
(
CvtColor_YUV2RGB_422
,
YUV2RGB_YVYU
)
{
performTest
(
2
,
3
,
CVTCODE
(
YUV2RGB_YVYU
));
}
OCL_TEST_P
(
CvtColor_YUV2RGB_422
,
YUV2BGR_YVYU
)
{
performTest
(
2
,
3
,
CVTCODE
(
YUV2BGR_YVYU
));
}
OCL_TEST_P
(
CvtColor_YUV2RGB_422
,
YUV2RGBA_YVYU
)
{
performTest
(
2
,
4
,
CVTCODE
(
YUV2RGBA_YVYU
));
}
OCL_TEST_P
(
CvtColor_YUV2RGB_422
,
YUV2BGRA_YVYU
)
{
performTest
(
2
,
4
,
CVTCODE
(
YUV2BGRA_YVYU
));
}
OCL_INSTANTIATE_TEST_CASE_P
(
ImgProc
,
CvtColor8u
,
...
...
@@ -361,7 +445,17 @@ OCL_INSTANTIATE_TEST_CASE_P(ImgProc, CvtColor,
testing
::
Values
(
MatDepth
(
CV_8U
),
MatDepth
(
CV_16U
),
MatDepth
(
CV_32F
)),
Bool
()));
OCL_INSTANTIATE_TEST_CASE_P
(
ImgProc
,
CvtColor_YUV420
,
OCL_INSTANTIATE_TEST_CASE_P
(
ImgProc
,
CvtColor_YUV2RGB_420
,
testing
::
Combine
(
testing
::
Values
(
MatDepth
(
CV_8U
)),
Bool
()));
OCL_INSTANTIATE_TEST_CASE_P
(
ImgProc
,
CvtColor_RGB2YUV_420
,
testing
::
Combine
(
testing
::
Values
(
MatDepth
(
CV_8U
)),
Bool
()));
OCL_INSTANTIATE_TEST_CASE_P
(
ImgProc
,
CvtColor_YUV2RGB_422
,
testing
::
Combine
(
testing
::
Values
(
MatDepth
(
CV_8U
)),
Bool
()));
...
...
Write
Preview
Markdown
is supported
0%
Try again
or
attach a new file
Attach a file
Cancel
You are about to add
0
people
to the discussion. Proceed with caution.
Finish editing this message first!
Cancel
Please
register
or
sign in
to comment
