generic-library/opencv
1
0
Fork 0
Code Issues Pull Requests Releases Wiki Activity

Prepare codes for ippicv library

Browse Source
This commit is contained in:
vbystricky
2014-03-21 15:27:56 +04:00
parent c2f859569c
commit 01a66a2938
19 changed files with 913 additions and 748 deletions
Download Patch File Download Diff File Expand all files Collapse all files

279
modules/core/src/arithm.cpp
View File

@@ -458,9 +458,12 @@ static void add8u( const uchar* src1, size_t step1,
const uchar* src2, size_t step2,
uchar* dst, size_t step, Size sz, void* )
{
IF_IPP(fixSteps(sz, sizeof(dst[0]), step1, step2, step);
ippiAdd_8u_C1RSfs(src1, (int)step1, src2, (int)step2, dst, (int)step, (IppiSize&)sz, 0),
(vBinOp<uchar, OpAdd<uchar>, IF_SIMD(VAdd<uchar>)>(src1, step1, src2, step2, dst, step, sz)));
#if (ARITHM_USE_IPP == 1)
fixSteps(sz, sizeof(dst[0]), step1, step2, step);
if (0 <= ippicviAdd_8u_C1RSfs(src1, (int)step1, src2, (int)step2, dst, (int)step, (IppiSize&)sz, 0))
return;
#endif
(vBinOp<uchar, OpAdd<uchar>, IF_SIMD(VAdd<uchar>)>(src1, step1, src2, step2, dst, step, sz));
}
static void add8s( const schar* src1, size_t step1,
@@ -474,18 +477,24 @@ static void add16u( const ushort* src1, size_t step1,
const ushort* src2, size_t step2,
ushort* dst, size_t step, Size sz, void* )
{
IF_IPP(fixSteps(sz, sizeof(dst[0]), step1, step2, step);
ippiAdd_16u_C1RSfs(src1, (int)step1, src2, (int)step2, dst, (int)step, (IppiSize&)sz, 0),
(vBinOp<ushort, OpAdd<ushort>, IF_SIMD(VAdd<ushort>)>(src1, step1, src2, step2, dst, step, sz)));
#if (ARITHM_USE_IPP == 1)
fixSteps(sz, sizeof(dst[0]), step1, step2, step);
if (0 <= ippicviAdd_16u_C1RSfs(src1, (int)step1, src2, (int)step2, dst, (int)step, (IppiSize&)sz, 0))
return;
#endif
(vBinOp<ushort, OpAdd<ushort>, IF_SIMD(VAdd<ushort>)>(src1, step1, src2, step2, dst, step, sz));
}
static void add16s( const short* src1, size_t step1,
const short* src2, size_t step2,
short* dst, size_t step, Size sz, void* )
{
IF_IPP(fixSteps(sz, sizeof(dst[0]), step1, step2, step);
ippiAdd_16s_C1RSfs(src1, (int)step1, src2, (int)step2, dst, (int)step, (IppiSize&)sz, 0),
(vBinOp<short, OpAdd<short>, IF_SIMD(VAdd<short>)>(src1, step1, src2, step2, dst, step, sz)));
#if (ARITHM_USE_IPP == 1)
fixSteps(sz, sizeof(dst[0]), step1, step2, step);
if (0 <= ippicviAdd_16s_C1RSfs(src1, (int)step1, src2, (int)step2, dst, (int)step, (IppiSize&)sz, 0))
return;
#endif
(vBinOp<short, OpAdd<short>, IF_SIMD(VAdd<short>)>(src1, step1, src2, step2, dst, step, sz));
}
static void add32s( const int* src1, size_t step1,
@@ -499,9 +508,12 @@ static void add32f( const float* src1, size_t step1,
const float* src2, size_t step2,
float* dst, size_t step, Size sz, void* )
{
IF_IPP(fixSteps(sz, sizeof(dst[0]), step1, step2, step);
ippiAdd_32f_C1R(src1, (int)step1, src2, (int)step2, dst, (int)step, (IppiSize&)sz),
(vBinOp32<float, OpAdd<float>, IF_SIMD(VAdd<float>)>(src1, step1, src2, step2, dst, step, sz)));
#if (ARITHM_USE_IPP == 1)
fixSteps(sz, sizeof(dst[0]), step1, step2, step);
if (0 <= ippicviAdd_32f_C1R(src1, (int)step1, src2, (int)step2, dst, (int)step, (IppiSize&)sz))
return;
#endif
(vBinOp32<float, OpAdd<float>, IF_SIMD(VAdd<float>)>(src1, step1, src2, step2, dst, step, sz));
}
static void add64f( const double* src1, size_t step1,
@@ -515,9 +527,12 @@ static void sub8u( const uchar* src1, size_t step1,
const uchar* src2, size_t step2,
uchar* dst, size_t step, Size sz, void* )
{
IF_IPP(fixSteps(sz, sizeof(dst[0]), step1, step2, step);
ippiSub_8u_C1RSfs(src2, (int)step2, src1, (int)step1, dst, (int)step, (IppiSize&)sz, 0),
(vBinOp<uchar, OpSub<uchar>, IF_SIMD(VSub<uchar>)>(src1, step1, src2, step2, dst, step, sz)));
#if (ARITHM_USE_IPP == 1)
fixSteps(sz, sizeof(dst[0]), step1, step2, step);
if (0 <= ippicviSub_8u_C1RSfs(src2, (int)step2, src1, (int)step1, dst, (int)step, (IppiSize&)sz, 0))
return;
#endif
(vBinOp<uchar, OpSub<uchar>, IF_SIMD(VSub<uchar>)>(src1, step1, src2, step2, dst, step, sz));
}
static void sub8s( const schar* src1, size_t step1,
@@ -531,18 +546,24 @@ static void sub16u( const ushort* src1, size_t step1,
const ushort* src2, size_t step2,
ushort* dst, size_t step, Size sz, void* )
{
IF_IPP(fixSteps(sz, sizeof(dst[0]), step1, step2, step);
ippiSub_16u_C1RSfs(src2, (int)step2, src1, (int)step1, dst, (int)step, (IppiSize&)sz, 0),
(vBinOp<ushort, OpSub<ushort>, IF_SIMD(VSub<ushort>)>(src1, step1, src2, step2, dst, step, sz)));
#if (ARITHM_USE_IPP == 1)
fixSteps(sz, sizeof(dst[0]), step1, step2, step);
if (0 <= ippicviSub_16u_C1RSfs(src2, (int)step2, src1, (int)step1, dst, (int)step, (IppiSize&)sz, 0))
return;
#endif
(vBinOp<ushort, OpSub<ushort>, IF_SIMD(VSub<ushort>)>(src1, step1, src2, step2, dst, step, sz));
}
static void sub16s( const short* src1, size_t step1,
const short* src2, size_t step2,
short* dst, size_t step, Size sz, void* )
{
IF_IPP(fixSteps(sz, sizeof(dst[0]), step1, step2, step);
ippiSub_16s_C1RSfs(src2, (int)step2, src1, (int)step1, dst, (int)step, (IppiSize&)sz, 0),
(vBinOp<short, OpSub<short>, IF_SIMD(VSub<short>)>(src1, step1, src2, step2, dst, step, sz)));
#if (ARITHM_USE_IPP == 1)
fixSteps(sz, sizeof(dst[0]), step1, step2, step);
if (0 <= ippicviSub_16s_C1RSfs(src2, (int)step2, src1, (int)step1, dst, (int)step, (IppiSize&)sz, 0))
return;
#endif
(vBinOp<short, OpSub<short>, IF_SIMD(VSub<short>)>(src1, step1, src2, step2, dst, step, sz));
}
static void sub32s( const int* src1, size_t step1,
@@ -556,9 +577,12 @@ static void sub32f( const float* src1, size_t step1,
const float* src2, size_t step2,
float* dst, size_t step, Size sz, void* )
{
IF_IPP(fixSteps(sz, sizeof(dst[0]), step1, step2, step);
ippiSub_32f_C1R(src2, (int)step2, src1, (int)step1, dst, (int)step, (IppiSize&)sz),
(vBinOp32<float, OpSub<float>, IF_SIMD(VSub<float>)>(src1, step1, src2, step2, dst, step, sz)));
#if (ARITHM_USE_IPP == 1)
fixSteps(sz, sizeof(dst[0]), step1, step2, step);
if (0 <= ippicviSub_32f_C1R(src2, (int)step2, src1, (int)step1, dst, (int)step, (IppiSize&)sz))
return;
#endif
(vBinOp32<float, OpSub<float>, IF_SIMD(VSub<float>)>(src1, step1, src2, step2, dst, step, sz));
}
static void sub64f( const double* src1, size_t step1,
@@ -576,26 +600,23 @@ static void max8u( const uchar* src1, size_t step1,
uchar* dst, size_t step, Size sz, void* )
{
#if (ARITHM_USE_IPP == 1)
{
uchar* s1 = (uchar*)src1;
uchar* s2 = (uchar*)src2;
uchar* d = dst;
fixSteps(sz, sizeof(dst[0]), step1, step2, step);
for(int i = 0; i < sz.height; i++)
int i = 0;
for(; i < sz.height; i++)
{
ippsMaxEvery_8u(s1, s2, d, sz.width);
s1 += step1;
s2 += step2;
d += step;
if (0 > ippicvsMaxEvery_8u(s1, s2, d, sz.width))
break;
s1 += step1;
s2 += step2;
d += step;
}
}
#else
vBinOp<uchar, OpMax<uchar>, IF_SIMD(VMax<uchar>)>(src1, step1, src2, step2, dst, step, sz);
if (i == sz.height)
return;
#endif
// IF_IPP(fixSteps(sz, sizeof(dst[0]), step1, step2, step);
// ippiMaxEvery_8u_C1R(src1, (int)step1, src2, (int)step2, dst, (IppiSize&)sz),
// (vBinOp8<uchar, OpMax<uchar>, IF_SIMD(_VMax8u)>(src1, step1, src2, step2, dst, step, sz)));
vBinOp<uchar, OpMax<uchar>, IF_SIMD(VMax<uchar>)>(src1, step1, src2, step2, dst, step, sz);
}
static void max8s( const schar* src1, size_t step1,
@@ -610,26 +631,23 @@ static void max16u( const ushort* src1, size_t step1,
ushort* dst, size_t step, Size sz, void* )
{
#if (ARITHM_USE_IPP == 1)
{
ushort* s1 = (ushort*)src1;
ushort* s2 = (ushort*)src2;
ushort* d = dst;
fixSteps(sz, sizeof(dst[0]), step1, step2, step);
for(int i = 0; i < sz.height; i++)
int i = 0;
for(; i < sz.height; i++)
{
ippsMaxEvery_16u(s1, s2, d, sz.width);
s1 = (ushort*)((uchar*)s1 + step1);
s2 = (ushort*)((uchar*)s2 + step2);
d = (ushort*)((uchar*)d + step);
if (0 > ippicvsMaxEvery_16u(s1, s2, d, sz.width))
break;
s1 = (ushort*)((uchar*)s1 + step1);
s2 = (ushort*)((uchar*)s2 + step2);
d = (ushort*)((uchar*)d + step);
}
}
#else
vBinOp<ushort, OpMax<ushort>, IF_SIMD(VMax<ushort>)>(src1, step1, src2, step2, dst, step, sz);
if (i == sz.height)
return;
#endif
// IF_IPP(fixSteps(sz, sizeof(dst[0]), step1, step2, step);
// ippiMaxEvery_16u_C1R(src1, (int)step1, src2, (int)step2, dst, (IppiSize&)sz),
// (vBinOp16<ushort, OpMax<ushort>, IF_SIMD(_VMax16u)>(src1, step1, src2, step2, dst, step, sz)));
vBinOp<ushort, OpMax<ushort>, IF_SIMD(VMax<ushort>)>(src1, step1, src2, step2, dst, step, sz);
}
static void max16s( const short* src1, size_t step1,
@@ -651,25 +669,23 @@ static void max32f( const float* src1, size_t step1,
float* dst, size_t step, Size sz, void* )
{
#if (ARITHM_USE_IPP == 1)
{
float* s1 = (float*)src1;
float* s2 = (float*)src2;
float* d = dst;
fixSteps(sz, sizeof(dst[0]), step1, step2, step);
for(int i = 0; i < sz.height; i++)
int i = 0;
for(; i < sz.height; i++)
{
ippsMaxEvery_32f(s1, s2, d, sz.width);
s1 = (float*)((uchar*)s1 + step1);
s2 = (float*)((uchar*)s2 + step2);
d = (float*)((uchar*)d + step);
if (0 > ippicvsMaxEvery_32f(s1, s2, d, sz.width))
break;
s1 = (float*)((uchar*)s1 + step1);
s2 = (float*)((uchar*)s2 + step2);
d = (float*)((uchar*)d + step);
}
}
#else
vBinOp32<float, OpMax<float>, IF_SIMD(VMax<float>)>(src1, step1, src2, step2, dst, step, sz);
if (i == sz.height)
return;
#endif
// IF_IPP(fixSteps(sz, sizeof(dst[0]), step1, step2, step);
// ippiMaxEvery_32f_C1R(src1, (int)step1, src2, (int)step2, dst, (IppiSize&)sz),
// (vBinOp32f<OpMax<float>, IF_SIMD(_VMax32f)>(src1, step1, src2, step2, dst, step, sz)));
vBinOp32<float, OpMax<float>, IF_SIMD(VMax<float>)>(src1, step1, src2, step2, dst, step, sz);
}
static void max64f( const double* src1, size_t step1,
@@ -684,26 +700,23 @@ static void min8u( const uchar* src1, size_t step1,
uchar* dst, size_t step, Size sz, void* )
{
#if (ARITHM_USE_IPP == 1)
{
uchar* s1 = (uchar*)src1;
uchar* s2 = (uchar*)src2;
uchar* d = dst;
fixSteps(sz, sizeof(dst[0]), step1, step2, step);
for(int i = 0; i < sz.height; i++)
int i = 0;
for(; i < sz.height; i++)
{
ippsMinEvery_8u(s1, s2, d, sz.width);
s1 += step1;
s2 += step2;
d += step;
if (0 > ippicvsMinEvery_8u(s1, s2, d, sz.width))
break;
s1 += step1;
s2 += step2;
d += step;
}
}
#else
vBinOp<uchar, OpMin<uchar>, IF_SIMD(VMin<uchar>)>(src1, step1, src2, step2, dst, step, sz);
if (i == sz.height)
return;
#endif
// IF_IPP(fixSteps(sz, sizeof(dst[0]), step1, step2, step);
// ippiMinEvery_8u_C1R(src1, (int)step1, src2, (int)step2, dst, (IppiSize&)sz),
// (vBinOp8<uchar, OpMin<uchar>, IF_SIMD(_VMin8u)>(src1, step1, src2, step2, dst, step, sz)));
vBinOp<uchar, OpMin<uchar>, IF_SIMD(VMin<uchar>)>(src1, step1, src2, step2, dst, step, sz);
}
static void min8s( const schar* src1, size_t step1,
@@ -718,26 +731,23 @@ static void min16u( const ushort* src1, size_t step1,
ushort* dst, size_t step, Size sz, void* )
{
#if (ARITHM_USE_IPP == 1)
{
ushort* s1 = (ushort*)src1;
ushort* s2 = (ushort*)src2;
ushort* d = dst;
fixSteps(sz, sizeof(dst[0]), step1, step2, step);
for(int i = 0; i < sz.height; i++)
int i = 0;
for(; i < sz.height; i++)
{
ippsMinEvery_16u(s1, s2, d, sz.width);
s1 = (ushort*)((uchar*)s1 + step1);
s2 = (ushort*)((uchar*)s2 + step2);
d = (ushort*)((uchar*)d + step);
if (0 > ippicvsMinEvery_16u(s1, s2, d, sz.width))
break;
s1 = (ushort*)((uchar*)s1 + step1);
s2 = (ushort*)((uchar*)s2 + step2);
d = (ushort*)((uchar*)d + step);
}
}
#else
vBinOp<ushort, OpMin<ushort>, IF_SIMD(VMin<ushort>)>(src1, step1, src2, step2, dst, step, sz);
if (i == sz.height)
return;
#endif
// IF_IPP(fixSteps(sz, sizeof(dst[0]), step1, step2, step);
// ippiMinEvery_16u_C1R(src1, (int)step1, src2, (int)step2, dst, (IppiSize&)sz),
// (vBinOp16<ushort, OpMin<ushort>, IF_SIMD(_VMin16u)>(src1, step1, src2, step2, dst, step, sz)));
vBinOp<ushort, OpMin<ushort>, IF_SIMD(VMin<ushort>)>(src1, step1, src2, step2, dst, step, sz);
}
static void min16s( const short* src1, size_t step1,
@@ -759,25 +769,23 @@ static void min32f( const float* src1, size_t step1,
float* dst, size_t step, Size sz, void* )
{
#if (ARITHM_USE_IPP == 1)
{
float* s1 = (float*)src1;
float* s2 = (float*)src2;
float* d = dst;
fixSteps(sz, sizeof(dst[0]), step1, step2, step);
for(int i = 0; i < sz.height; i++)
int i = 0;
for(; i < sz.height; i++)
{
ippsMinEvery_32f(s1, s2, d, sz.width);
s1 = (float*)((uchar*)s1 + step1);
s2 = (float*)((uchar*)s2 + step2);
d = (float*)((uchar*)d + step);
if (0 > ippicvsMinEvery_32f(s1, s2, d, sz.width))
break;
s1 = (float*)((uchar*)s1 + step1);
s2 = (float*)((uchar*)s2 + step2);
d = (float*)((uchar*)d + step);
}
}
#else
vBinOp32<float, OpMin<float>, IF_SIMD(VMin<float>)>(src1, step1, src2, step2, dst, step, sz);
if (i == sz.height)
return;
#endif
// IF_IPP(fixSteps(sz, sizeof(dst[0]), step1, step2, step);
// ippiMinEvery_32f_C1R(src1, (int)step1, src2, (int)step2, dst, (IppiSize&)sz),
// (vBinOp32f<OpMin<float>, IF_SIMD(_VMin32f)>(src1, step1, src2, step2, dst, step, sz)));
vBinOp32<float, OpMin<float>, IF_SIMD(VMin<float>)>(src1, step1, src2, step2, dst, step, sz);
}
static void min64f( const double* src1, size_t step1,
@@ -791,9 +799,12 @@ static void absdiff8u( const uchar* src1, size_t step1,
const uchar* src2, size_t step2,
uchar* dst, size_t step, Size sz, void* )
{
IF_IPP(fixSteps(sz, sizeof(dst[0]), step1, step2, step);
ippiAbsDiff_8u_C1R(src1, (int)step1, src2, (int)step2, dst, (int)step, (IppiSize&)sz),
(vBinOp<uchar, OpAbsDiff<uchar>, IF_SIMD(VAbsDiff<uchar>)>(src1, step1, src2, step2, dst, step, sz)));
#if (ARITHM_USE_IPP == 1)
fixSteps(sz, sizeof(dst[0]), step1, step2, step);
if (0 <= ippicviAbsDiff_8u_C1R(src1, (int)step1, src2, (int)step2, dst, (int)step, (IppiSize&)sz))
return;
#endif
(vBinOp<uchar, OpAbsDiff<uchar>, IF_SIMD(VAbsDiff<uchar>)>(src1, step1, src2, step2, dst, step, sz));
}
static void absdiff8s( const schar* src1, size_t step1,
@@ -807,9 +818,12 @@ static void absdiff16u( const ushort* src1, size_t step1,
const ushort* src2, size_t step2,
ushort* dst, size_t step, Size sz, void* )
{
IF_IPP(fixSteps(sz, sizeof(dst[0]), step1, step2, step);
ippiAbsDiff_16u_C1R(src1, (int)step1, src2, (int)step2, dst, (int)step, (IppiSize&)sz),
(vBinOp<ushort, OpAbsDiff<ushort>, IF_SIMD(VAbsDiff<ushort>)>(src1, step1, src2, step2, dst, step, sz)));
#if (ARITHM_USE_IPP == 1)
fixSteps(sz, sizeof(dst[0]), step1, step2, step);
if (0 <= ippicviAbsDiff_16u_C1R(src1, (int)step1, src2, (int)step2, dst, (int)step, (IppiSize&)sz))
return;
#endif
(vBinOp<ushort, OpAbsDiff<ushort>, IF_SIMD(VAbsDiff<ushort>)>(src1, step1, src2, step2, dst, step, sz));
}
static void absdiff16s( const short* src1, size_t step1,
@@ -830,9 +844,12 @@ static void absdiff32f( const float* src1, size_t step1,
const float* src2, size_t step2,
float* dst, size_t step, Size sz, void* )
{
IF_IPP(fixSteps(sz, sizeof(dst[0]), step1, step2, step);
ippiAbsDiff_32f_C1R(src1, (int)step1, src2, (int)step2, dst, (int)step, (IppiSize&)sz),
(vBinOp32<float, OpAbsDiff<float>, IF_SIMD(VAbsDiff<float>)>(src1, step1, src2, step2, dst, step, sz)));
#if (ARITHM_USE_IPP == 1)
fixSteps(sz, sizeof(dst[0]), step1, step2, step);
if (0 <= ippicviAbsDiff_32f_C1R(src1, (int)step1, src2, (int)step2, dst, (int)step, (IppiSize&)sz))
return;
#endif
(vBinOp32<float, OpAbsDiff<float>, IF_SIMD(VAbsDiff<float>)>(src1, step1, src2, step2, dst, step, sz));
}
static void absdiff64f( const double* src1, size_t step1,
@@ -847,36 +864,48 @@ static void and8u( const uchar* src1, size_t step1,
const uchar* src2, size_t step2,
uchar* dst, size_t step, Size sz, void* )
{
IF_IPP(fixSteps(sz, sizeof(dst[0]), step1, step2, step);
ippiAnd_8u_C1R(src1, (int)step1, src2, (int)step2, dst, (int)step, (IppiSize&)sz),
(vBinOp<uchar, OpAnd<uchar>, IF_SIMD(VAnd<uchar>)>(src1, step1, src2, step2, dst, step, sz)));
#if (ARITHM_USE_IPP == 1)
fixSteps(sz, sizeof(dst[0]), step1, step2, step);
if (0 <= ippicviAnd_8u_C1R(src1, (int)step1, src2, (int)step2, dst, (int)step, (IppiSize&)sz))
return;
#endif
(vBinOp<uchar, OpAnd<uchar>, IF_SIMD(VAnd<uchar>)>(src1, step1, src2, step2, dst, step, sz));
}
static void or8u( const uchar* src1, size_t step1,
const uchar* src2, size_t step2,
uchar* dst, size_t step, Size sz, void* )
{
IF_IPP(fixSteps(sz, sizeof(dst[0]), step1, step2, step);
ippiOr_8u_C1R(src1, (int)step1, src2, (int)step2, dst, (int)step, (IppiSize&)sz),
(vBinOp<uchar, OpOr<uchar>, IF_SIMD(VOr<uchar>)>(src1, step1, src2, step2, dst, step, sz)));
#if (ARITHM_USE_IPP == 1)
fixSteps(sz, sizeof(dst[0]), step1, step2, step);
if (0 <= ippicviOr_8u_C1R(src1, (int)step1, src2, (int)step2, dst, (int)step, (IppiSize&)sz))
return;
#endif
(vBinOp<uchar, OpOr<uchar>, IF_SIMD(VOr<uchar>)>(src1, step1, src2, step2, dst, step, sz));
}
static void xor8u( const uchar* src1, size_t step1,
const uchar* src2, size_t step2,
uchar* dst, size_t step, Size sz, void* )
{
IF_IPP(fixSteps(sz, sizeof(dst[0]), step1, step2, step);
ippiXor_8u_C1R(src1, (int)step1, src2, (int)step2, dst, (int)step, (IppiSize&)sz),
(vBinOp<uchar, OpXor<uchar>, IF_SIMD(VXor<uchar>)>(src1, step1, src2, step2, dst, step, sz)));
#if (ARITHM_USE_IPP == 1)
fixSteps(sz, sizeof(dst[0]), step1, step2, step);
if (0 <= ippicviXor_8u_C1R(src1, (int)step1, src2, (int)step2, dst, (int)step, (IppiSize&)sz))
return;
#endif
(vBinOp<uchar, OpXor<uchar>, IF_SIMD(VXor<uchar>)>(src1, step1, src2, step2, dst, step, sz));
}
static void not8u( const uchar* src1, size_t step1,
const uchar* src2, size_t step2,
uchar* dst, size_t step, Size sz, void* )
{
IF_IPP(fixSteps(sz, sizeof(dst[0]), step1, step2, step); (void *)src2;
ippiNot_8u_C1R(src1, (int)step1, dst, (int)step, (IppiSize&)sz),
(vBinOp<uchar, OpNot<uchar>, IF_SIMD(VNot<uchar>)>(src1, step1, src2, step2, dst, step, sz)));
#if (ARITHM_USE_IPP == 1)
fixSteps(sz, sizeof(dst[0]), step1, step2, step); (void *)src2;
if (0 <= ippicviNot_8u_C1R(src1, (int)step1, dst, (int)step, (IppiSize&)sz))
return;
#endif
(vBinOp<uchar, OpNot<uchar>, IF_SIMD(VNot<uchar>)>(src1, step1, src2, step2, dst, step, sz));
}
/****************************************************************************************\
@@ -2357,7 +2386,7 @@ static void cmp8u(const uchar* src1, size_t step1, const uchar* src2, size_t ste
if( op >= 0 )
{
fixSteps(size, sizeof(dst[0]), step1, step2, step);
if( ippiCompare_8u_C1R(src1, (int)step1, src2, (int)step2, dst, (int)step, (IppiSize&)size, op) >= 0 )
if (0 <= ippicviCompare_8u_C1R(src1, (int)step1, src2, (int)step2, dst, (int)step, (IppiSize&)size, op))
return;
}
#endif
@@ -2440,7 +2469,7 @@ static void cmp16u(const ushort* src1, size_t step1, const ushort* src2, size_t
if( op >= 0 )
{
fixSteps(size, sizeof(dst[0]), step1, step2, step);
if( ippiCompare_16u_C1R(src1, (int)step1, src2, (int)step2, dst, (int)step, (IppiSize&)size, op) >= 0 )
if (0 <= ippicviCompare_16u_C1R(src1, (int)step1, src2, (int)step2, dst, (int)step, (IppiSize&)size, op))
return;
}
#endif
@@ -2455,7 +2484,7 @@ static void cmp16s(const short* src1, size_t step1, const short* src2, size_t st
if( op > 0 )
{
fixSteps(size, sizeof(dst[0]), step1, step2, step);
if( ippiCompare_16s_C1R(src1, (int)step1, src2, (int)step2, dst, (int)step, (IppiSize&)size, op) >= 0 )
if (0 <= ippicviCompare_16s_C1R(src1, (int)step1, src2, (int)step2, dst, (int)step, (IppiSize&)size, op))
return;
}
#endif
@@ -2561,7 +2590,7 @@ static void cmp32f(const float* src1, size_t step1, const float* src2, size_t st
if( op >= 0 )
{
fixSteps(size, sizeof(dst[0]), step1, step2, step);
if( ippiCompare_32f_C1R(src1, (int)step1, src2, (int)step2, dst, (int)step, (IppiSize&)size, op) >= 0 )
if (0 <= ippicviCompare_32f_C1R(src1, (int)step1, src2, (int)step2, dst, (int)step, (IppiSize&)size, op))
return;
}
#endif