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submodule
opencv
Commits
cf30c582
Commit
cf30c582
authored
Aug 11, 2016
by
Maksim Shabunin
Browse files
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Merge pull request #7057 from K-Shinotsuka:issue13
parents
648bac2c
e37c53d1
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1 changed file
with
104 additions
and
94 deletions
+104
-94
color.cpp
modules/imgproc/src/color.cpp
+104
-94
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modules/imgproc/src/color.cpp
View file @
cf30c582
...
...
@@ -2174,54 +2174,60 @@ struct RGB2YCrCb_i<uchar>
if
(
blueIdx
==
0
)
std
::
swap
(
coeffs
[
0
],
coeffs
[
2
]);
v_c0
=
_mm_set1_epi32
(
coeffs
[
0
]);
v_c1
=
_mm_set1_epi32
(
coeffs
[
1
]);
v_c2
=
_mm_set1_epi32
(
coeffs
[
2
]);
v_c3
=
_mm_set1_epi32
(
coeffs
[
3
]);
v_c4
=
_mm_set1_epi32
(
coeffs
[
4
]);
v_delta2
=
_mm_set1_epi32
(
1
<<
(
yuv_shift
-
1
));
v_delta
=
_mm_set1_epi32
(
ColorChannel
<
uchar
>::
half
()
*
(
1
<<
yuv_shift
));
v_delta
=
_mm_add_epi32
(
v_delta
,
v_delta2
);
v_zero
=
_mm_setzero_si128
();
short
delta
=
1
<<
(
yuv_shift
-
1
);
v_delta_16
=
_mm_set1_epi16
(
delta
);
v_delta_32
=
_mm_set1_epi32
(
delta
);
short
delta2
=
1
+
ColorChannel
<
uchar
>::
half
()
*
2
;
v_coeff
=
_mm_set_epi16
(
delta2
,
(
short
)
coeffs
[
4
],
delta2
,
(
short
)
coeffs
[
3
],
delta2
,
(
short
)
coeffs
[
4
],
delta2
,
(
short
)
coeffs
[
3
]);
v_shuffle2
=
_mm_set_epi8
(
0x0
,
0x0
,
0x0
,
0x0
,
0xf
,
0xe
,
0xc
,
0xb
,
0xa
,
0x8
,
0x7
,
0x6
,
0x4
,
0x3
,
0x2
,
0x0
);
haveSIMD
=
checkHardwareSupport
(
CV_CPU_SSE4_1
);
}
// 16u x 8
void
process
(
__m128i
v_r
,
__m128i
v_g
,
__m128i
v_b
,
__m128i
&
v_y
,
__m128i
&
v_cr
,
__m128i
&
v_cb
)
const
{
__m128i
v_r_p
=
_mm_unpacklo_epi16
(
v_r
,
v_zero
);
__m128i
v_g_p
=
_mm_unpacklo_epi16
(
v_g
,
v_zero
);
__m128i
v_b_p
=
_mm_unpacklo_epi16
(
v_b
,
v_zero
);
__m128i
v_y0
=
_mm_add_epi32
(
_mm_mullo_epi32
(
v_r_p
,
v_c0
),
_mm_add_epi32
(
_mm_mullo_epi32
(
v_g_p
,
v_c1
),
_mm_mullo_epi32
(
v_b_p
,
v_c2
)));
v_y0
=
_mm_srli_epi32
(
_mm_add_epi32
(
v_delta2
,
v_y0
),
yuv_shift
);
__m128i
v_cr0
=
_mm_mullo_epi32
(
_mm_sub_epi32
(
blueIdx
==
2
?
v_r_p
:
v_b_p
,
v_y0
),
v_c3
);
__m128i
v_cb0
=
_mm_mullo_epi32
(
_mm_sub_epi32
(
blueIdx
==
0
?
v_r_p
:
v_b_p
,
v_y0
),
v_c4
);
v_cr0
=
_mm_srai_epi32
(
_mm_add_epi32
(
v_delta
,
v_cr0
),
yuv_shift
);
v_cb0
=
_mm_srai_epi32
(
_mm_add_epi32
(
v_delta
,
v_cb0
),
yuv_shift
);
v_r_p
=
_mm_unpackhi_epi16
(
v_r
,
v_zero
);
v_g_p
=
_mm_unpackhi_epi16
(
v_g
,
v_zero
);
v_b_p
=
_mm_unpackhi_epi16
(
v_b
,
v_zero
);
__m128i
v_y1
=
_mm_add_epi32
(
_mm_mullo_epi32
(
v_r_p
,
v_c0
),
_mm_add_epi32
(
_mm_mullo_epi32
(
v_g_p
,
v_c1
),
_mm_mullo_epi32
(
v_b_p
,
v_c2
)));
v_y1
=
_mm_srli_epi32
(
_mm_add_epi32
(
v_delta2
,
v_y1
),
yuv_shift
);
__m128i
v_cr1
=
_mm_mullo_epi32
(
_mm_sub_epi32
(
blueIdx
==
2
?
v_r_p
:
v_b_p
,
v_y1
),
v_c3
);
__m128i
v_cb1
=
_mm_mullo_epi32
(
_mm_sub_epi32
(
blueIdx
==
0
?
v_r_p
:
v_b_p
,
v_y1
),
v_c4
);
v_cr1
=
_mm_srai_epi32
(
_mm_add_epi32
(
v_delta
,
v_cr1
),
yuv_shift
);
v_cb1
=
_mm_srai_epi32
(
_mm_add_epi32
(
v_delta
,
v_cb1
),
yuv_shift
);
v_y
=
_mm_packs_epi32
(
v_y0
,
v_y1
);
v_cr
=
_mm_packs_epi32
(
v_cr0
,
v_cr1
);
v_cb
=
_mm_packs_epi32
(
v_cb0
,
v_cb1
);
void
process
(
__m128i
*
v_rgb
,
__m128i
&
v_crgb
,
__m128i
*
v_rb
,
uchar
*
dst
)
const
{
v_rgb
[
0
]
=
_mm_madd_epi16
(
v_rgb
[
0
],
v_crgb
);
v_rgb
[
1
]
=
_mm_madd_epi16
(
v_rgb
[
1
],
v_crgb
);
v_rgb
[
2
]
=
_mm_madd_epi16
(
v_rgb
[
2
],
v_crgb
);
v_rgb
[
3
]
=
_mm_madd_epi16
(
v_rgb
[
3
],
v_crgb
);
v_rgb
[
0
]
=
_mm_hadd_epi32
(
v_rgb
[
0
],
v_rgb
[
1
]);
v_rgb
[
2
]
=
_mm_hadd_epi32
(
v_rgb
[
2
],
v_rgb
[
3
]);
v_rgb
[
0
]
=
_mm_add_epi32
(
v_rgb
[
0
],
v_delta_32
);
v_rgb
[
2
]
=
_mm_add_epi32
(
v_rgb
[
2
],
v_delta_32
);
v_rgb
[
0
]
=
_mm_srai_epi32
(
v_rgb
[
0
],
yuv_shift
);
v_rgb
[
2
]
=
_mm_srai_epi32
(
v_rgb
[
2
],
yuv_shift
);
__m128i
v_y
=
_mm_packs_epi32
(
v_rgb
[
0
],
v_rgb
[
2
]);
v_rb
[
0
]
=
_mm_cvtepu8_epi16
(
v_rb
[
0
]);
v_rb
[
1
]
=
_mm_cvtepu8_epi16
(
v_rb
[
1
]);
v_rb
[
0
]
=
_mm_sub_epi16
(
v_rb
[
0
],
_mm_unpacklo_epi16
(
v_y
,
v_y
));
v_rb
[
1
]
=
_mm_sub_epi16
(
v_rb
[
1
],
_mm_unpackhi_epi16
(
v_y
,
v_y
));
v_rgb
[
0
]
=
_mm_unpacklo_epi16
(
v_rb
[
0
],
v_delta_16
);
v_rgb
[
1
]
=
_mm_unpackhi_epi16
(
v_rb
[
0
],
v_delta_16
);
v_rgb
[
2
]
=
_mm_unpacklo_epi16
(
v_rb
[
1
],
v_delta_16
);
v_rgb
[
3
]
=
_mm_unpackhi_epi16
(
v_rb
[
1
],
v_delta_16
);
v_rgb
[
0
]
=
_mm_madd_epi16
(
v_rgb
[
0
],
v_coeff
);
v_rgb
[
1
]
=
_mm_madd_epi16
(
v_rgb
[
1
],
v_coeff
);
v_rgb
[
2
]
=
_mm_madd_epi16
(
v_rgb
[
2
],
v_coeff
);
v_rgb
[
3
]
=
_mm_madd_epi16
(
v_rgb
[
3
],
v_coeff
);
v_rgb
[
0
]
=
_mm_srai_epi32
(
v_rgb
[
0
],
yuv_shift
);
v_rgb
[
1
]
=
_mm_srai_epi32
(
v_rgb
[
1
],
yuv_shift
);
v_rgb
[
2
]
=
_mm_srai_epi32
(
v_rgb
[
2
],
yuv_shift
);
v_rgb
[
3
]
=
_mm_srai_epi32
(
v_rgb
[
3
],
yuv_shift
);
v_rgb
[
0
]
=
_mm_packs_epi32
(
v_rgb
[
0
],
v_rgb
[
1
]);
v_rgb
[
2
]
=
_mm_packs_epi32
(
v_rgb
[
2
],
v_rgb
[
3
]);
v_rgb
[
0
]
=
_mm_packus_epi16
(
v_rgb
[
0
],
v_rgb
[
2
]);
v_rb
[
0
]
=
_mm_unpacklo_epi16
(
v_y
,
v_rgb
[
0
]);
v_rb
[
1
]
=
_mm_unpackhi_epi16
(
v_y
,
v_rgb
[
0
]);
v_rb
[
0
]
=
_mm_shuffle_epi8
(
v_rb
[
0
],
v_shuffle2
);
v_rb
[
1
]
=
_mm_shuffle_epi8
(
v_rb
[
1
],
v_shuffle2
);
v_rb
[
1
]
=
_mm_alignr_epi8
(
v_rb
[
1
],
_mm_slli_si128
(
v_rb
[
0
],
4
),
12
);
_mm_storel_epi64
((
__m128i
*
)(
dst
),
v_rb
[
0
]);
_mm_storeu_si128
((
__m128i
*
)(
dst
+
8
),
v_rb
[
1
]);
}
void
operator
()(
const
uchar
*
src
,
uchar
*
dst
,
int
n
)
const
...
...
@@ -2233,63 +2239,67 @@ struct RGB2YCrCb_i<uchar>
if
(
haveSIMD
)
{
for
(
;
i
<=
n
-
96
;
i
+=
96
,
src
+=
scn
*
32
)
__m128i
v_shuffle
;
__m128i
v_crgb
;
if
(
scn
==
4
)
{
__m128i
v_r0
=
_mm_loadu_si128
((
__m128i
const
*
)(
src
));
__m128i
v_r1
=
_mm_loadu_si128
((
__m128i
const
*
)(
src
+
16
));
__m128i
v_g0
=
_mm_loadu_si128
((
__m128i
const
*
)(
src
+
32
));
__m128i
v_g1
=
_mm_loadu_si128
((
__m128i
const
*
)(
src
+
48
));
__m128i
v_b0
=
_mm_loadu_si128
((
__m128i
const
*
)(
src
+
64
));
__m128i
v_b1
=
_mm_loadu_si128
((
__m128i
const
*
)(
src
+
80
));
if
(
scn
==
4
)
if
(
bidx
==
0
)
{
__m128i
v_a0
=
_mm_loadu_si128
((
__m128i
const
*
)(
src
+
96
));
__m128i
v_a1
=
_mm_loadu_si128
((
__m128i
const
*
)(
src
+
112
));
_mm_deinterleave_epi8
(
v_r0
,
v_r1
,
v_g0
,
v_g1
,
v_b0
,
v_b1
,
v_a0
,
v_a1
);
v_shuffle
=
_mm_set_epi8
(
0x0
,
0x0
,
0x0
,
0x0
,
0x0
,
0x0
,
0x0
,
0x0
,
0xc
,
0xe
,
0x8
,
0xa
,
0x4
,
0x6
,
0x0
,
0x2
);
}
else
_mm_deinterleave_epi8
(
v_r0
,
v_r1
,
v_g0
,
v_g1
,
v_b0
,
v_b1
);
__m128i
v_y0
=
v_zero
,
v_cr0
=
v_zero
,
v_cb0
=
v_zero
;
process
(
_mm_unpacklo_epi8
(
v_r0
,
v_zero
),
_mm_unpacklo_epi8
(
v_g0
,
v_zero
),
_mm_unpacklo_epi8
(
v_b0
,
v_zero
),
v_y0
,
v_cr0
,
v_cb0
);
{
v_shuffle
=
_mm_set_epi8
(
0x0
,
0x0
,
0x0
,
0x0
,
0x0
,
0x0
,
0x0
,
0x0
,
0xe
,
0xc
,
0xa
,
0x8
,
0x6
,
0x4
,
0x2
,
0x0
);
}
v_crgb
=
_mm_set_epi16
(
0
,
(
short
)
C2
,
(
short
)
C1
,
(
short
)
C0
,
0
,
(
short
)
C2
,
(
short
)
C1
,
(
short
)
C0
);
for
(
;
i
<=
n
-
24
;
i
+=
24
,
src
+=
scn
*
8
)
{
__m128i
v_src
[
2
];
v_src
[
0
]
=
_mm_loadu_si128
((
__m128i
const
*
)(
src
));
v_src
[
1
]
=
_mm_loadu_si128
((
__m128i
const
*
)(
src
+
16
));
__m128i
v_y1
=
v_zero
,
v_cr1
=
v_zero
,
v_cb1
=
v_zero
;
process
(
_mm_unpackhi_epi8
(
v_r0
,
v_zero
),
_mm_unpackhi_epi8
(
v_g0
,
v_zero
),
_mm_unpackhi_epi8
(
v_b0
,
v_zero
),
v_y1
,
v_cr1
,
v_cb1
);
__m128i
v_rgb
[
4
]
;
v_rgb
[
0
]
=
_mm_cvtepu8_epi16
(
v_src
[
0
]);
v_rgb
[
1
]
=
_mm_cvtepu8_epi16
(
_mm_srli_si128
(
v_src
[
0
],
8
));
v_rgb
[
2
]
=
_mm_cvtepu8_epi16
(
v_src
[
1
]);
v_rgb
[
3
]
=
_mm_cvtepu8_epi16
(
_mm_srli_si128
(
v_src
[
1
],
8
)
);
__m128i
v_y_0
=
_mm_packus_epi16
(
v_y0
,
v_y1
)
;
__m128i
v_cr_0
=
_mm_packus_epi16
(
v_cr0
,
v_cr1
);
__m128i
v_cb_0
=
_mm_packus_epi16
(
v_cb0
,
v_cb1
);
__m128i
v_rb
[
2
]
;
v_rb
[
0
]
=
_mm_shuffle_epi8
(
v_src
[
0
],
v_shuffle
);
v_rb
[
1
]
=
_mm_shuffle_epi8
(
v_src
[
1
],
v_shuffle
);
process
(
_mm_unpacklo_epi8
(
v_r1
,
v_zero
),
_mm_unpacklo_epi8
(
v_g1
,
v_zero
),
_mm_unpacklo_epi8
(
v_b1
,
v_zero
),
v_y0
,
v_cr0
,
v_cb0
);
process
(
_mm_unpackhi_epi8
(
v_r1
,
v_zero
),
_mm_unpackhi_epi8
(
v_g1
,
v_zero
),
_mm_unpackhi_epi8
(
v_b1
,
v_zero
),
v_y1
,
v_cr1
,
v_cb1
);
process
(
v_rgb
,
v_crgb
,
v_rb
,
dst
+
i
);
}
}
else
{
if
(
bidx
==
0
)
{
v_shuffle
=
_mm_set_epi8
(
0x0
,
0x0
,
0x0
,
0x0
,
0x0
,
0x0
,
0x0
,
0x0
,
0x9
,
0xb
,
0x6
,
0x8
,
0x3
,
0x5
,
0x0
,
0x2
);
}
else
{
v_shuffle
=
_mm_set_epi8
(
0x0
,
0x0
,
0x0
,
0x0
,
0x0
,
0x0
,
0x0
,
0x0
,
0xb
,
0x9
,
0x8
,
0x6
,
0x5
,
0x3
,
0x2
,
0x0
);
}
v_crgb
=
_mm_set_epi16
(
0
,
(
short
)
C2
,
(
short
)
C1
,
(
short
)
C0
,
(
short
)
C2
,
(
short
)
C1
,
(
short
)
C0
,
0
);
for
(
;
i
<=
n
-
24
;
i
+=
24
,
src
+=
scn
*
8
)
{
__m128i
v_src
[
2
];
v_src
[
0
]
=
_mm_loadu_si128
((
__m128i
const
*
)(
src
));
v_src
[
1
]
=
_mm_loadl_epi64
((
__m128i
const
*
)(
src
+
16
));
__m128i
v_y_1
=
_mm_packus_epi16
(
v_y0
,
v_y1
);
__m128i
v_cr_1
=
_mm_packus_epi16
(
v_cr0
,
v_cr1
);
__m128i
v_cb_1
=
_mm_packus_epi16
(
v_cb0
,
v_cb1
);
__m128i
v_rgb
[
4
];
v_rgb
[
0
]
=
_mm_cvtepu8_epi16
(
_mm_slli_si128
(
v_src
[
0
],
1
));
v_rgb
[
1
]
=
_mm_cvtepu8_epi16
(
_mm_srli_si128
(
v_src
[
0
],
5
));
v_rgb
[
2
]
=
_mm_cvtepu8_epi16
(
_mm_alignr_epi8
(
v_src
[
1
],
v_src
[
0
],
11
));
v_rgb
[
3
]
=
_mm_cvtepu8_epi16
(
_mm_srli_si128
(
v_src
[
1
],
1
));
_mm_interleave_epi8
(
v_y_0
,
v_y_1
,
v_cr_0
,
v_cr_1
,
v_cb_0
,
v_cb_1
);
__m128i
v_rb
[
2
];
v_rb
[
0
]
=
_mm_shuffle_epi8
(
v_src
[
0
],
v_shuffle
);
v_rb
[
1
]
=
_mm_shuffle_epi8
(
_mm_alignr_epi8
(
v_src
[
1
],
v_src
[
0
],
12
),
v_shuffle
);
_mm_storeu_si128
((
__m128i
*
)(
dst
+
i
),
v_y_0
);
_mm_storeu_si128
((
__m128i
*
)(
dst
+
i
+
16
),
v_y_1
);
_mm_storeu_si128
((
__m128i
*
)(
dst
+
i
+
32
),
v_cr_0
);
_mm_storeu_si128
((
__m128i
*
)(
dst
+
i
+
48
),
v_cr_1
);
_mm_storeu_si128
((
__m128i
*
)(
dst
+
i
+
64
),
v_cb_0
);
_mm_storeu_si128
((
__m128i
*
)(
dst
+
i
+
80
),
v_cb_1
);
process
(
v_rgb
,
v_crgb
,
v_rb
,
dst
+
i
);
}
}
}
...
...
@@ -2304,10 +2314,10 @@ struct RGB2YCrCb_i<uchar>
}
}
__m128i
v_delta_16
,
v_delta_32
;
__m128i
v_coeff
;
__m128i
v_shuffle2
;
int
srccn
,
blueIdx
,
coeffs
[
5
];
__m128i
v_c0
,
v_c1
,
v_c2
;
__m128i
v_c3
,
v_c4
,
v_delta
,
v_delta2
;
__m128i
v_zero
;
bool
haveSIMD
;
};
...
...
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