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https://github.com/opencv/opencv.git
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Merge pull request #2620 from ilya-lavrenov:ipp_integration
This commit is contained in:
Andrey Pavlenko
OpenCV Buildbot
commit
d93161812b
@ -1078,13 +1078,39 @@ void cv::filterSpeckles( InputOutputArray _img, double _newval, int maxSpeckleSi
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double _maxDiff, InputOutputArray __buf )
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{
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Mat img = _img.getMat();
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int type = img.type();
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Mat temp, &_buf = __buf.needed() ? __buf.getMatRef() : temp;
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CV_Assert( img.type() == CV_8UC1 || img.type() == CV_16SC1 );
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CV_Assert( type == CV_8UC1 || type == CV_16SC1 );
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int newVal = cvRound(_newval);
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int maxDiff = cvRound(_maxDiff);
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int newVal = cvRound(_newval), maxDiff = cvRound(_maxDiff);
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if (img.type() == CV_8UC1)
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#if defined HAVE_IPP && !defined HAVE_IPP_ICV_ONLY
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Ipp32s bufsize = 0;
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IppiSize roisize = { img.cols, img.rows };
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IppDataType datatype = type == CV_8UC1 ? ipp8u : ipp16s;
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if (!__buf.needed() && (type == CV_8UC1 || type == CV_16SC1))
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{
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IppStatus status = ippiMarkSpecklesGetBufferSize(roisize, datatype, CV_MAT_CN(type), &bufsize);
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Ipp8u * buffer = ippsMalloc_8u(bufsize);
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if ((int)status >= 0)
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{
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if (type == CV_8UC1)
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status = ippiMarkSpeckles_8u_C1IR((Ipp8u *)img.data, (int)img.step, roisize,
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(Ipp8u)newVal, maxSpeckleSize, (Ipp8u)maxDiff, ippiNormL1, buffer);
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else
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status = ippiMarkSpeckles_16s_C1IR((Ipp16s *)img.data, (int)img.step, roisize,
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(Ipp16s)newVal, maxSpeckleSize, (Ipp16s)maxDiff, ippiNormL1, buffer);
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}
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if (status >= 0)
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return;
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setIppErrorStatus();
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}
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#endif
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if (type == CV_8UC1)
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filterSpecklesImpl<uchar>(img, newVal, maxSpeckleSize, maxDiff, _buf);
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else
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filterSpecklesImpl<short>(img, newVal, maxSpeckleSize, maxDiff, _buf);
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@ -35,6 +35,28 @@ OCL_PERF_TEST_P(SetToFixture, SetTo,
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SANITY_CHECK(src);
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}
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///////////// SetTo with mask ////////////////////////
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typedef Size_MatType SetToFixture;
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OCL_PERF_TEST_P(SetToFixture, SetToWithMask,
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::testing::Combine(OCL_TEST_SIZES, OCL_TEST_TYPES))
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{
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const Size_MatType_t params = GetParam();
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const Size srcSize = get<0>(params);
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const int type = get<1>(params);
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const Scalar s = Scalar::all(17);
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checkDeviceMaxMemoryAllocSize(srcSize, type);
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UMat src(srcSize, type), mask(srcSize, CV_8UC1);
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declare.in(src, mask, WARMUP_RNG).out(src);
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OCL_TEST_CYCLE() src.setTo(s, mask);
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SANITY_CHECK(src);
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}
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///////////// ConvertTo ////////////////////////
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typedef Size_MatType ConvertToFixture;
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@ -79,6 +101,27 @@ OCL_PERF_TEST_P(CopyToFixture, CopyTo,
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SANITY_CHECK(dst);
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}
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///////////// CopyTo with mask ////////////////////////
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typedef Size_MatType CopyToFixture;
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OCL_PERF_TEST_P(CopyToFixture, CopyToWithMask,
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::testing::Combine(OCL_TEST_SIZES, OCL_TEST_TYPES))
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{
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const Size_MatType_t params = GetParam();
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const Size srcSize = get<0>(params);
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const int type = get<1>(params);
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checkDeviceMaxMemoryAllocSize(srcSize, type);
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UMat src(srcSize, type), dst(srcSize, type), mask(srcSize, CV_8UC1);
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declare.in(src, mask, WARMUP_RNG).out(dst);
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OCL_TEST_CYCLE() src.copyTo(dst, mask);
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SANITY_CHECK(dst);
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}
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} } // namespace cvtest::ocl
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#endif // HAVE_OPENCL
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@ -705,6 +705,24 @@ static void max64f( const double* src1, size_t step1,
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const double* src2, size_t step2,
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double* dst, size_t step, Size sz, void* )
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{
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#if ARITHM_USE_IPP == 1 && !defined HAVE_IPP_ICV_ONLY
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double* s1 = (double*)src1;
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double* s2 = (double*)src2;
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double* d = dst;
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fixSteps(sz, sizeof(dst[0]), step1, step2, step);
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int i = 0;
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for(; i < sz.height; i++)
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{
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if (0 > ippsMaxEvery_64f(s1, s2, d, sz.width))
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break;
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s1 = (double*)((uchar*)s1 + step1);
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s2 = (double*)((uchar*)s2 + step2);
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d = (double*)((uchar*)d + step);
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}
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if (i == sz.height)
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return;
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setIppErrorStatus();
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#endif
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vBinOp64<double, OpMax<double>, IF_SIMD(VMax<double>)>(src1, step1, src2, step2, dst, step, sz);
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}
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@ -808,6 +826,24 @@ static void min64f( const double* src1, size_t step1,
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const double* src2, size_t step2,
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double* dst, size_t step, Size sz, void* )
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{
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#if ARITHM_USE_IPP == 1 && !defined HAVE_IPP_ICV_ONLY
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double* s1 = (double*)src1;
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double* s2 = (double*)src2;
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double* d = dst;
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fixSteps(sz, sizeof(dst[0]), step1, step2, step);
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int i = 0;
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for(; i < sz.height; i++)
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{
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if (0 > ippsMinEvery_64f(s1, s2, d, sz.width))
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break;
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s1 = (double*)((uchar*)s1 + step1);
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s2 = (double*)((uchar*)s2 + step2);
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d = (double*)((uchar*)d + step);
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}
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if (i == sz.height)
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return;
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setIppErrorStatus();
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#endif
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vBinOp64<double, OpMin<double>, IF_SIMD(VMin<double>)>(src1, step1, src2, step2, dst, step, sz);
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}
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@ -1977,7 +2013,16 @@ recip_( const T*, size_t, const T* src2, size_t step2,
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static void mul8u( const uchar* src1, size_t step1, const uchar* src2, size_t step2,
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uchar* dst, size_t step, Size sz, void* scale)
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{
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mul_(src1, step1, src2, step2, dst, step, sz, (float)*(const double*)scale);
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float fscale = (float)*(const double*)scale;
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#if defined HAVE_IPP && !defined HAVE_IPP_ICV_ONLY
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if (std::fabs(fscale - 1) <= FLT_EPSILON)
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{
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if (ippiMul_8u_C1RSfs(src1, (int)step1, src2, (int)step2, dst, (int)step, ippiSize(sz), 0) >= 0)
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return;
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setIppErrorStatus();
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}
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#endif
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mul_(src1, step1, src2, step2, dst, step, sz, fscale);
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}
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static void mul8s( const schar* src1, size_t step1, const schar* src2, size_t step2,
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@ -1989,13 +2034,31 @@ static void mul8s( const schar* src1, size_t step1, const schar* src2, size_t st
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static void mul16u( const ushort* src1, size_t step1, const ushort* src2, size_t step2,
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ushort* dst, size_t step, Size sz, void* scale)
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{
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mul_(src1, step1, src2, step2, dst, step, sz, (float)*(const double*)scale);
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float fscale = (float)*(const double*)scale;
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#if defined HAVE_IPP && !defined HAVE_IPP_ICV_ONLY
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if (std::fabs(fscale - 1) <= FLT_EPSILON)
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{
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if (ippiMul_16u_C1RSfs(src1, (int)step1, src2, (int)step2, dst, (int)step, ippiSize(sz), 0) >= 0)
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return;
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setIppErrorStatus();
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}
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#endif
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mul_(src1, step1, src2, step2, dst, step, sz, fscale);
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}
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static void mul16s( const short* src1, size_t step1, const short* src2, size_t step2,
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short* dst, size_t step, Size sz, void* scale)
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{
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mul_(src1, step1, src2, step2, dst, step, sz, (float)*(const double*)scale);
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float fscale = (float)*(const double*)scale;
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#if defined HAVE_IPP && !defined HAVE_IPP_ICV_ONLY
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if (std::fabs(fscale - 1) <= FLT_EPSILON)
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{
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if (ippiMul_16s_C1RSfs(src1, (int)step1, src2, (int)step2, dst, (int)step, ippiSize(sz), 0) >= 0)
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return;
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setIppErrorStatus();
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}
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#endif
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mul_(src1, step1, src2, step2, dst, step, sz, fscale);
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}
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static void mul32s( const int* src1, size_t step1, const int* src2, size_t step2,
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@ -2007,7 +2070,16 @@ static void mul32s( const int* src1, size_t step1, const int* src2, size_t step2
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static void mul32f( const float* src1, size_t step1, const float* src2, size_t step2,
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float* dst, size_t step, Size sz, void* scale)
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{
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mul_(src1, step1, src2, step2, dst, step, sz, (float)*(const double*)scale);
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float fscale = (float)*(const double*)scale;
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#if defined HAVE_IPP && !defined HAVE_IPP_ICV_ONLY
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if (std::fabs(fscale - 1) <= FLT_EPSILON)
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{
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if (ippiMul_32f_C1R(src1, (int)step1, src2, (int)step2, dst, (int)step, ippiSize(sz)) >= 0)
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return;
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setIppErrorStatus();
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}
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#endif
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mul_(src1, step1, src2, step2, dst, step, sz, fscale);
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}
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static void mul64f( const double* src1, size_t step1, const double* src2, size_t step2,
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@ -81,6 +81,12 @@ copyMask_(const uchar* _src, size_t sstep, const uchar* mask, size_t mstep, ucha
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template<> void
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copyMask_<uchar>(const uchar* _src, size_t sstep, const uchar* mask, size_t mstep, uchar* _dst, size_t dstep, Size size)
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{
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#if defined HAVE_IPP && !defined HAVE_IPP_ICV_ONLY
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if (ippiCopy_8u_C1MR(_src, (int)sstep, _dst, (int)dstep, ippiSize(size), mask, (int)mstep) >= 0)
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return;
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setIppErrorStatus();
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#endif
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for( ; size.height--; mask += mstep, _src += sstep, _dst += dstep )
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{
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const uchar* src = (const uchar*)_src;
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@ -111,6 +117,12 @@ copyMask_<uchar>(const uchar* _src, size_t sstep, const uchar* mask, size_t mste
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template<> void
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copyMask_<ushort>(const uchar* _src, size_t sstep, const uchar* mask, size_t mstep, uchar* _dst, size_t dstep, Size size)
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{
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#if defined HAVE_IPP && !defined HAVE_IPP_ICV_ONLY
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if (ippiCopy_16u_C1MR((const Ipp16u *)_src, (int)sstep, (Ipp16u *)_dst, (int)dstep, ippiSize(size), mask, (int)mstep) >= 0)
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return;
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setIppErrorStatus();
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#endif
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for( ; size.height--; mask += mstep, _src += sstep, _dst += dstep )
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{
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const ushort* src = (const ushort*)_src;
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@ -165,15 +177,34 @@ static void copyMask##suffix(const uchar* src, size_t sstep, const uchar* mask,
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copyMask_<type>(src, sstep, mask, mstep, dst, dstep, size); \
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}
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#if defined HAVE_IPP && !defined HAVE_IPP_ICV_ONLY
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#define DEF_COPY_MASK_F(suffix, type, ippfavor, ipptype) \
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static void copyMask##suffix(const uchar* src, size_t sstep, const uchar* mask, size_t mstep, \
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uchar* dst, size_t dstep, Size size, void*) \
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{ \
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if (ippiCopy_##ippfavor((const ipptype *)src, (int)sstep, (ipptype *)dst, (int)dstep, ippiSize(size), (const Ipp8u *)mask, (int)mstep) >= 0) \
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return; \
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setIppErrorStatus(); \
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copyMask_<type>(src, sstep, mask, mstep, dst, dstep, size); \
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}
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#else
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#define DEF_COPY_MASK_F(suffix, type, ippfavor, ipptype) \
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static void copyMask##suffix(const uchar* src, size_t sstep, const uchar* mask, size_t mstep, \
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uchar* dst, size_t dstep, Size size, void*) \
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{ \
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copyMask_<type>(src, sstep, mask, mstep, dst, dstep, size); \
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}
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#endif
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DEF_COPY_MASK(8u, uchar)
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DEF_COPY_MASK(16u, ushort)
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DEF_COPY_MASK(8uC3, Vec3b)
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DEF_COPY_MASK(32s, int)
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DEF_COPY_MASK(16uC3, Vec3s)
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DEF_COPY_MASK_F(8uC3, Vec3b, 8u_C3MR, Ipp8u)
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DEF_COPY_MASK_F(32s, int, 32s_C1MR, Ipp32s)
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DEF_COPY_MASK_F(16uC3, Vec3s, 16u_C3MR, Ipp16u)
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DEF_COPY_MASK(32sC2, Vec2i)
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DEF_COPY_MASK(32sC3, Vec3i)
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DEF_COPY_MASK(32sC4, Vec4i)
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DEF_COPY_MASK_F(32sC3, Vec3i, 32s_C3MR, Ipp32s)
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DEF_COPY_MASK_F(32sC4, Vec4i, 32s_C4MR, Ipp32s)
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DEF_COPY_MASK(32sC6, Vec6i)
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DEF_COPY_MASK(32sC8, Vec8i)
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@ -250,6 +281,12 @@ void Mat::copyTo( OutputArray _dst ) const
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Size sz = getContinuousSize(*this, dst);
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size_t len = sz.width*elemSize();
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#if defined HAVE_IPP && !defined HAVE_IPP_ICV_ONLY
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if (ippiCopy_8u_C1R(sptr, (int)step, dptr, (int)dst.step, ippiSize((int)len, sz.height)) >= 0)
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return;
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setIppErrorStatus();
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#endif
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for( ; sz.height--; sptr += step, dptr += dst.step )
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memcpy( dptr, sptr, len );
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}
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@ -323,6 +360,27 @@ Mat& Mat::operator = (const Scalar& s)
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if( is[0] == 0 && is[1] == 0 && is[2] == 0 && is[3] == 0 )
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{
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#if defined HAVE_IPP && !defined HAVE_IPP_ICV_ONLY && 0
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if (dims <= 2 || isContinuous())
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{
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IppiSize roisize = { cols, rows };
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if (isContinuous())
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{
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roisize.width = (int)total();
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roisize.height = 1;
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if (ippsZero_8u(data, static_cast<int>(roisize.width * elemSize())) >= 0)
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return *this;
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setIppErrorStatus();
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}
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roisize.width *= (int)elemSize();
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if (ippiSet_8u_C1R(0, data, (int)step, roisize) >= 0)
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return *this;
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setIppErrorStatus();
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}
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#endif
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for( size_t i = 0; i < it.nplanes; i++, ++it )
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memset( dptr, 0, elsize );
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}
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@ -359,7 +417,82 @@ Mat& Mat::setTo(InputArray _value, InputArray _mask)
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Mat value = _value.getMat(), mask = _mask.getMat();
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CV_Assert( checkScalar(value, type(), _value.kind(), _InputArray::MAT ));
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CV_Assert( mask.empty() || mask.type() == CV_8U );
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CV_Assert( mask.empty() || (mask.type() == CV_8U && size == mask.size) );
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#if defined HAVE_IPP && !defined HAVE_IPP_ICV_ONLY
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int cn = channels(), depth0 = depth();
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if (!mask.empty() && (dims <= 2 || (isContinuous() && mask.isContinuous())) &&
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(depth0 == CV_8U || depth0 == CV_16U || depth0 == CV_16S || depth0 == CV_32S || depth0 == CV_32F) &&
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(cn == 1 || cn == 3 || cn == 4))
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{
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uchar _buf[32];
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void * buf = _buf;
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convertAndUnrollScalar( value, type(), _buf, 1 );
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IppStatus status = (IppStatus)-1;
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IppiSize roisize = { cols, rows };
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int mstep = (int)mask.step, dstep = (int)step;
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if (isContinuous() && mask.isContinuous())
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{
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roisize.width = (int)total();
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roisize.height = 1;
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}
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if (cn == 1)
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{
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if (depth0 == CV_8U)
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status = ippiSet_8u_C1MR(*(Ipp8u *)buf, (Ipp8u *)data, dstep, roisize, mask.data, mstep);
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else if (depth0 == CV_16U)
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status = ippiSet_16u_C1MR(*(Ipp16u *)buf, (Ipp16u *)data, dstep, roisize, mask.data, mstep);
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else if (depth0 == CV_16S)
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status = ippiSet_16s_C1MR(*(Ipp16s *)buf, (Ipp16s *)data, dstep, roisize, mask.data, mstep);
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else if (depth0 == CV_32S)
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status = ippiSet_32s_C1MR(*(Ipp32s *)buf, (Ipp32s *)data, dstep, roisize, mask.data, mstep);
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else if (depth0 == CV_32F)
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status = ippiSet_32f_C1MR(*(Ipp32f *)buf, (Ipp32f *)data, dstep, roisize, mask.data, mstep);
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}
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else if (cn == 3 || cn == 4)
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{
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#define IPP_SET(ippfavor, ippcn) \
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do \
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{ \
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typedef Ipp##ippfavor ipptype; \
|
||||
ipptype ippvalue[4] = { ((ipptype *)buf)[0], ((ipptype *)buf)[1], ((ipptype *)buf)[2], ((ipptype *)buf)[3] }; \
|
||||
status = ippiSet_##ippfavor##_C##ippcn##MR(ippvalue, (ipptype *)data, dstep, roisize, mask.data, mstep); \
|
||||
} while ((void)0, 0)
|
||||
|
||||
#define IPP_SET_CN(ippcn) \
|
||||
do \
|
||||
{ \
|
||||
if (cn == ippcn) \
|
||||
{ \
|
||||
if (depth0 == CV_8U) \
|
||||
IPP_SET(8u, ippcn); \
|
||||
else if (depth0 == CV_16U) \
|
||||
IPP_SET(16u, ippcn); \
|
||||
else if (depth0 == CV_16S) \
|
||||
IPP_SET(16s, ippcn); \
|
||||
else if (depth0 == CV_32S) \
|
||||
IPP_SET(32s, ippcn); \
|
||||
else if (depth0 == CV_32F) \
|
||||
IPP_SET(32f, ippcn); \
|
||||
} \
|
||||
} while ((void)0, 0)
|
||||
|
||||
IPP_SET_CN(3);
|
||||
IPP_SET_CN(4);
|
||||
|
||||
#undef IPP_SET_CN
|
||||
#undef IPP_SET
|
||||
}
|
||||
|
||||
if (status >= 0)
|
||||
return *this;
|
||||
setIppErrorStatus();
|
||||
}
|
||||
#endif
|
||||
|
||||
size_t esz = elemSize();
|
||||
BinaryFunc copymask = getCopyMaskFunc(esz);
|
||||
@ -548,31 +681,65 @@ void flip( InputArray _src, OutputArray _dst, int flip_mode )
|
||||
Mat dst = _dst.getMat();
|
||||
size_t esz = CV_ELEM_SIZE(type);
|
||||
|
||||
#if defined(HAVE_IPP) && !defined(HAVE_IPP_ICV_ONLY)
|
||||
#if defined HAVE_IPP && !defined HAVE_IPP_ICV_ONLY
|
||||
typedef IppStatus (CV_STDCALL * ippiMirror)(const void * pSrc, int srcStep, void * pDst, int dstStep, IppiSize roiSize, IppiAxis flip);
|
||||
ippiMirror ippFunc =
|
||||
type == CV_8UC1 ? (ippiMirror)ippiMirror_8u_C1R :
|
||||
type == CV_8UC3 ? (ippiMirror)ippiMirror_8u_C3R :
|
||||
type == CV_8UC4 ? (ippiMirror)ippiMirror_8u_C4R :
|
||||
type == CV_16UC1 ? (ippiMirror)ippiMirror_16u_C1R :
|
||||
type == CV_16UC3 ? (ippiMirror)ippiMirror_16u_C3R :
|
||||
type == CV_16UC4 ? (ippiMirror)ippiMirror_16u_C4R :
|
||||
type == CV_16SC1 ? (ippiMirror)ippiMirror_16s_C1R :
|
||||
type == CV_16SC3 ? (ippiMirror)ippiMirror_16s_C3R :
|
||||
type == CV_16SC4 ? (ippiMirror)ippiMirror_16s_C4R :
|
||||
type == CV_32SC1 ? (ippiMirror)ippiMirror_32s_C1R :
|
||||
type == CV_32SC3 ? (ippiMirror)ippiMirror_32s_C3R :
|
||||
type == CV_32SC4 ? (ippiMirror)ippiMirror_32s_C4R :
|
||||
type == CV_32FC1 ? (ippiMirror)ippiMirror_32f_C1R :
|
||||
type == CV_32FC3 ? (ippiMirror)ippiMirror_32f_C3R :
|
||||
type == CV_32FC4 ? (ippiMirror)ippiMirror_32f_C4R : 0;
|
||||
typedef IppStatus (CV_STDCALL * ippiMirrorI)(const void * pSrcDst, int srcDstStep, IppiSize roiSize, IppiAxis flip);
|
||||
ippiMirror ippFunc = 0;
|
||||
ippiMirrorI ippFuncI = 0;
|
||||
|
||||
if (src.data == dst.data)
|
||||
{
|
||||
CV_SUPPRESS_DEPRECATED_START
|
||||
ippFuncI =
|
||||
type == CV_8UC1 ? (ippiMirrorI)ippiMirror_8u_C1IR :
|
||||
type == CV_8UC3 ? (ippiMirrorI)ippiMirror_8u_C3IR :
|
||||
type == CV_8UC4 ? (ippiMirrorI)ippiMirror_8u_C4IR :
|
||||
type == CV_16UC1 ? (ippiMirrorI)ippiMirror_16u_C1IR :
|
||||
type == CV_16UC3 ? (ippiMirrorI)ippiMirror_16u_C3IR :
|
||||
type == CV_16UC4 ? (ippiMirrorI)ippiMirror_16u_C4IR :
|
||||
type == CV_16SC1 ? (ippiMirrorI)ippiMirror_16s_C1IR :
|
||||
type == CV_16SC3 ? (ippiMirrorI)ippiMirror_16s_C3IR :
|
||||
type == CV_16SC4 ? (ippiMirrorI)ippiMirror_16s_C4IR :
|
||||
type == CV_32SC1 ? (ippiMirrorI)ippiMirror_32s_C1IR :
|
||||
type == CV_32SC3 ? (ippiMirrorI)ippiMirror_32s_C3IR :
|
||||
type == CV_32SC4 ? (ippiMirrorI)ippiMirror_32s_C4IR :
|
||||
type == CV_32FC1 ? (ippiMirrorI)ippiMirror_32f_C1IR :
|
||||
type == CV_32FC3 ? (ippiMirrorI)ippiMirror_32f_C3IR :
|
||||
type == CV_32FC4 ? (ippiMirrorI)ippiMirror_32f_C4IR : 0;
|
||||
CV_SUPPRESS_DEPRECATED_END
|
||||
}
|
||||
else
|
||||
{
|
||||
ippFunc =
|
||||
type == CV_8UC1 ? (ippiMirror)ippiMirror_8u_C1R :
|
||||
type == CV_8UC3 ? (ippiMirror)ippiMirror_8u_C3R :
|
||||
type == CV_8UC4 ? (ippiMirror)ippiMirror_8u_C4R :
|
||||
type == CV_16UC1 ? (ippiMirror)ippiMirror_16u_C1R :
|
||||
type == CV_16UC3 ? (ippiMirror)ippiMirror_16u_C3R :
|
||||
type == CV_16UC4 ? (ippiMirror)ippiMirror_16u_C4R :
|
||||
type == CV_16SC1 ? (ippiMirror)ippiMirror_16s_C1R :
|
||||
type == CV_16SC3 ? (ippiMirror)ippiMirror_16s_C3R :
|
||||
type == CV_16SC4 ? (ippiMirror)ippiMirror_16s_C4R :
|
||||
type == CV_32SC1 ? (ippiMirror)ippiMirror_32s_C1R :
|
||||
type == CV_32SC3 ? (ippiMirror)ippiMirror_32s_C3R :
|
||||
type == CV_32SC4 ? (ippiMirror)ippiMirror_32s_C4R :
|
||||
type == CV_32FC1 ? (ippiMirror)ippiMirror_32f_C1R :
|
||||
type == CV_32FC3 ? (ippiMirror)ippiMirror_32f_C3R :
|
||||
type == CV_32FC4 ? (ippiMirror)ippiMirror_32f_C4R : 0;
|
||||
}
|
||||
IppiAxis axis = flip_mode == 0 ? ippAxsHorizontal :
|
||||
flip_mode > 0 ? ippAxsVertical : ippAxsBoth;
|
||||
IppiSize roisize = { dst.cols, dst.rows };
|
||||
|
||||
if (ippFunc != 0)
|
||||
{
|
||||
IppStatus status = ippFunc(src.data, (int)src.step, dst.data, (int)dst.step, ippiSize(src.cols, src.rows), axis);
|
||||
if (status >= 0)
|
||||
if (ippFunc(src.data, (int)src.step, dst.data, (int)dst.step, ippiSize(src.cols, src.rows), axis) >= 0)
|
||||
return;
|
||||
setIppErrorStatus();
|
||||
}
|
||||
else if (ippFuncI != 0)
|
||||
{
|
||||
if (ippFuncI(dst.data, (int)dst.step, roisize, axis) >= 0)
|
||||
return;
|
||||
setIppErrorStatus();
|
||||
}
|
||||
|
||||
@ -3019,24 +3019,52 @@ void cv::transpose( InputArray _src, OutputArray _dst )
|
||||
return;
|
||||
}
|
||||
|
||||
#if defined(HAVE_IPP) && !defined(HAVE_IPP_ICV_ONLY)
|
||||
#if defined HAVE_IPP && !defined HAVE_IPP_ICV_ONLY
|
||||
typedef IppStatus (CV_STDCALL * ippiTranspose)(const void * pSrc, int srcStep, void * pDst, int dstStep, IppiSize roiSize);
|
||||
ippiTranspose ippFunc =
|
||||
type == CV_8UC1 ? (ippiTranspose)ippiTranspose_8u_C1R :
|
||||
type == CV_8UC3 ? (ippiTranspose)ippiTranspose_8u_C3R :
|
||||
type == CV_8UC4 ? (ippiTranspose)ippiTranspose_8u_C4R :
|
||||
type == CV_16UC1 ? (ippiTranspose)ippiTranspose_16u_C1R :
|
||||
type == CV_16UC3 ? (ippiTranspose)ippiTranspose_16u_C3R :
|
||||
type == CV_16UC4 ? (ippiTranspose)ippiTranspose_16u_C4R :
|
||||
type == CV_16SC1 ? (ippiTranspose)ippiTranspose_16s_C1R :
|
||||
type == CV_16SC3 ? (ippiTranspose)ippiTranspose_16s_C3R :
|
||||
type == CV_16SC4 ? (ippiTranspose)ippiTranspose_16s_C4R :
|
||||
type == CV_32SC1 ? (ippiTranspose)ippiTranspose_32s_C1R :
|
||||
type == CV_32SC3 ? (ippiTranspose)ippiTranspose_32s_C3R :
|
||||
type == CV_32SC4 ? (ippiTranspose)ippiTranspose_32s_C4R :
|
||||
type == CV_32FC1 ? (ippiTranspose)ippiTranspose_32f_C1R :
|
||||
type == CV_32FC3 ? (ippiTranspose)ippiTranspose_32f_C3R :
|
||||
type == CV_32FC4 ? (ippiTranspose)ippiTranspose_32f_C4R : 0;
|
||||
typedef IppStatus (CV_STDCALL * ippiTransposeI)(const void * pSrcDst, int srcDstStep, IppiSize roiSize);
|
||||
ippiTranspose ippFunc = 0;
|
||||
ippiTransposeI ippFuncI = 0;
|
||||
|
||||
if (dst.data == src.data && dst.cols == dst.rows)
|
||||
{
|
||||
CV_SUPPRESS_DEPRECATED_START
|
||||
ippFuncI =
|
||||
type == CV_8UC1 ? (ippiTransposeI)ippiTranspose_8u_C1IR :
|
||||
type == CV_8UC3 ? (ippiTransposeI)ippiTranspose_8u_C3IR :
|
||||
type == CV_8UC4 ? (ippiTransposeI)ippiTranspose_8u_C4IR :
|
||||
type == CV_16UC1 ? (ippiTransposeI)ippiTranspose_16u_C1IR :
|
||||
type == CV_16UC3 ? (ippiTransposeI)ippiTranspose_16u_C3IR :
|
||||
type == CV_16UC4 ? (ippiTransposeI)ippiTranspose_16u_C4IR :
|
||||
type == CV_16SC1 ? (ippiTransposeI)ippiTranspose_16s_C1IR :
|
||||
type == CV_16SC3 ? (ippiTransposeI)ippiTranspose_16s_C3IR :
|
||||
type == CV_16SC4 ? (ippiTransposeI)ippiTranspose_16s_C4IR :
|
||||
type == CV_32SC1 ? (ippiTransposeI)ippiTranspose_32s_C1IR :
|
||||
type == CV_32SC3 ? (ippiTransposeI)ippiTranspose_32s_C3IR :
|
||||
type == CV_32SC4 ? (ippiTransposeI)ippiTranspose_32s_C4IR :
|
||||
type == CV_32FC1 ? (ippiTransposeI)ippiTranspose_32f_C1IR :
|
||||
type == CV_32FC3 ? (ippiTransposeI)ippiTranspose_32f_C3IR :
|
||||
type == CV_32FC4 ? (ippiTransposeI)ippiTranspose_32f_C4IR : 0;
|
||||
CV_SUPPRESS_DEPRECATED_END
|
||||
}
|
||||
else
|
||||
{
|
||||
ippFunc =
|
||||
type == CV_8UC1 ? (ippiTranspose)ippiTranspose_8u_C1R :
|
||||
type == CV_8UC3 ? (ippiTranspose)ippiTranspose_8u_C3R :
|
||||
type == CV_8UC4 ? (ippiTranspose)ippiTranspose_8u_C4R :
|
||||
type == CV_16UC1 ? (ippiTranspose)ippiTranspose_16u_C1R :
|
||||
type == CV_16UC3 ? (ippiTranspose)ippiTranspose_16u_C3R :
|
||||
type == CV_16UC4 ? (ippiTranspose)ippiTranspose_16u_C4R :
|
||||
type == CV_16SC1 ? (ippiTranspose)ippiTranspose_16s_C1R :
|
||||
type == CV_16SC3 ? (ippiTranspose)ippiTranspose_16s_C3R :
|
||||
type == CV_16SC4 ? (ippiTranspose)ippiTranspose_16s_C4R :
|
||||
type == CV_32SC1 ? (ippiTranspose)ippiTranspose_32s_C1R :
|
||||
type == CV_32SC3 ? (ippiTranspose)ippiTranspose_32s_C3R :
|
||||
type == CV_32SC4 ? (ippiTranspose)ippiTranspose_32s_C4R :
|
||||
type == CV_32FC1 ? (ippiTranspose)ippiTranspose_32f_C1R :
|
||||
type == CV_32FC3 ? (ippiTranspose)ippiTranspose_32f_C3R :
|
||||
type == CV_32FC4 ? (ippiTranspose)ippiTranspose_32f_C4R : 0;
|
||||
}
|
||||
|
||||
IppiSize roiSize = { src.cols, src.rows };
|
||||
if (ippFunc != 0)
|
||||
@ -3045,6 +3073,12 @@ void cv::transpose( InputArray _src, OutputArray _dst )
|
||||
return;
|
||||
setIppErrorStatus();
|
||||
}
|
||||
else if (ippFuncI != 0)
|
||||
{
|
||||
if (ippFuncI(dst.data, (int)dst.step, roiSize) >= 0)
|
||||
return;
|
||||
setIppErrorStatus();
|
||||
}
|
||||
#endif
|
||||
|
||||
if( dst.data == src.data )
|
||||
|
||||
@ -431,6 +431,59 @@ void cv::accumulate( InputArray _src, InputOutputArray _dst, InputArray _mask )
|
||||
|
||||
Mat src = _src.getMat(), dst = _dst.getMat(), mask = _mask.getMat();
|
||||
|
||||
#if defined HAVE_IPP && !defined HAVE_IPP_ICV_ONLY
|
||||
if (src.dims <= 2 || (src.isContinuous() && dst.isContinuous() && (mask.empty() || mask.isContinuous())))
|
||||
{
|
||||
typedef IppStatus (CV_STDCALL * ippiAdd)(const void * pSrc, int srcStep, Ipp32f * pSrcDst, int srcdstStep, IppiSize roiSize);
|
||||
typedef IppStatus (CV_STDCALL * ippiAddMask)(const void * pSrc, int srcStep, const Ipp8u * pMask, int maskStep, Ipp32f * pSrcDst,
|
||||
int srcDstStep, IppiSize roiSize);
|
||||
ippiAdd ippFunc = 0;
|
||||
ippiAddMask ippFuncMask = 0;
|
||||
|
||||
if (mask.empty())
|
||||
{
|
||||
CV_SUPPRESS_DEPRECATED_START
|
||||
ippFunc = sdepth == CV_8U && ddepth == CV_32F ? (ippiAdd)ippiAdd_8u32f_C1IR :
|
||||
sdepth == CV_16U && ddepth == CV_32F ? (ippiAdd)ippiAdd_16u32f_C1IR :
|
||||
sdepth == CV_32F && ddepth == CV_32F ? (ippiAdd)ippiAdd_32f_C1IR : 0;
|
||||
CV_SUPPRESS_DEPRECATED_END
|
||||
}
|
||||
else if (scn == 1)
|
||||
{
|
||||
ippFuncMask = sdepth == CV_8U && ddepth == CV_32F ? (ippiAddMask)ippiAdd_8u32f_C1IMR :
|
||||
sdepth == CV_16U && ddepth == CV_32F ? (ippiAddMask)ippiAdd_16u32f_C1IMR :
|
||||
sdepth == CV_32F && ddepth == CV_32F ? (ippiAddMask)ippiAdd_32f_C1IMR : 0;
|
||||
}
|
||||
|
||||
if (ippFunc || ippFuncMask)
|
||||
{
|
||||
IppStatus status = ippStsNoErr;
|
||||
|
||||
Size size = src.size();
|
||||
int srcstep = (int)src.step, dststep = (int)dst.step, maskstep = (int)mask.step;
|
||||
if (src.isContinuous() && dst.isContinuous() && mask.isContinuous())
|
||||
{
|
||||
srcstep = static_cast<int>(src.total() * src.elemSize());
|
||||
dststep = static_cast<int>(dst.total() * dst.elemSize());
|
||||
maskstep = static_cast<int>(mask.total() * mask.elemSize());
|
||||
size.width = static_cast<int>(src.total());
|
||||
size.height = 1;
|
||||
}
|
||||
size.width *= scn;
|
||||
|
||||
if (mask.empty())
|
||||
status = ippFunc(src.data, srcstep, (Ipp32f *)dst.data, dststep, ippiSize(size.width, size.height));
|
||||
else
|
||||
status = ippFuncMask(src.data, srcstep, (const Ipp8u *)mask.data, maskstep,
|
||||
(Ipp32f *)dst.data, dststep, ippiSize(size.width, size.height));
|
||||
|
||||
if (status >= 0)
|
||||
return;
|
||||
setIppErrorStatus();
|
||||
}
|
||||
}
|
||||
#endif
|
||||
|
||||
int fidx = getAccTabIdx(sdepth, ddepth);
|
||||
AccFunc func = fidx >= 0 ? accTab[fidx] : 0;
|
||||
CV_Assert( func != 0 );
|
||||
@ -498,7 +551,7 @@ void cv::accumulateSquare( InputArray _src, InputOutputArray _dst, InputArray _m
|
||||
if (mask.empty())
|
||||
status = ippFunc(src.data, srcstep, (Ipp32f *)dst.data, dststep, ippiSize(size.width, size.height));
|
||||
else
|
||||
status = ippFuncMask(src.data, srcstep, (Ipp8u *)mask.data, maskstep,
|
||||
status = ippFuncMask(src.data, srcstep, (const Ipp8u *)mask.data, maskstep,
|
||||
(Ipp32f *)dst.data, dststep, ippiSize(size.width, size.height));
|
||||
|
||||
if (status >= 0)
|
||||
@ -580,7 +633,7 @@ void cv::accumulateProduct( InputArray _src1, InputArray _src2,
|
||||
status = ippFunc(src1.data, src1step, src2.data, src2step, (Ipp32f *)dst.data,
|
||||
dststep, ippiSize(size.width, size.height));
|
||||
else
|
||||
status = ippFuncMask(src1.data, src1step, src2.data, src2step, (Ipp8u *)mask.data, maskstep,
|
||||
status = ippFuncMask(src1.data, src1step, src2.data, src2step, (const Ipp8u *)mask.data, maskstep,
|
||||
(Ipp32f *)dst.data, dststep, ippiSize(size.width, size.height));
|
||||
|
||||
if (status >= 0)
|
||||
@ -660,7 +713,7 @@ void cv::accumulateWeighted( InputArray _src, InputOutputArray _dst,
|
||||
if (mask.empty())
|
||||
status = ippFunc(src.data, srcstep, (Ipp32f *)dst.data, dststep, ippiSize(size.width, size.height), (Ipp32f)alpha);
|
||||
else
|
||||
status = ippFuncMask(src.data, srcstep, (Ipp8u *)mask.data, maskstep,
|
||||
status = ippFuncMask(src.data, srcstep, (const Ipp8u *)mask.data, maskstep,
|
||||
(Ipp32f *)dst.data, dststep, ippiSize(size.width, size.height), (Ipp32f)alpha);
|
||||
|
||||
if (status >= 0)
|
||||
|
||||
@ -251,10 +251,10 @@ cornerEigenValsVecs( const Mat& src, Mat& eigenv, int block_size,
|
||||
int depth = src.depth();
|
||||
double scale = (double)(1 << ((aperture_size > 0 ? aperture_size : 3) - 1)) * block_size;
|
||||
if( aperture_size < 0 )
|
||||
scale *= 2.;
|
||||
scale *= 2.0;
|
||||
if( depth == CV_8U )
|
||||
scale *= 255.;
|
||||
scale = 1./scale;
|
||||
scale *= 255.0;
|
||||
scale = 1.0/scale;
|
||||
|
||||
CV_Assert( src.type() == CV_8UC1 || src.type() == CV_32FC1 );
|
||||
|
||||
@ -381,15 +381,15 @@ static bool ocl_cornerMinEigenValVecs(InputArray _src, OutputArray _dst, int blo
|
||||
const char * const cornerType[] = { "CORNER_MINEIGENVAL", "CORNER_HARRIS", 0 };
|
||||
|
||||
|
||||
float scale = (float)(1 << ((aperture_size > 0 ? aperture_size : 3) - 1)) * block_size;
|
||||
double scale = (double)(1 << ((aperture_size > 0 ? aperture_size : 3) - 1)) * block_size;
|
||||
if (aperture_size < 0)
|
||||
scale *= 2.0f;
|
||||
scale *= 2.0;
|
||||
if (depth == CV_8U)
|
||||
scale *= 255.0f;
|
||||
scale = 1.0f / scale;
|
||||
scale *= 255.0;
|
||||
scale = 1.0 / scale;
|
||||
|
||||
UMat Dx, Dy;
|
||||
if (!extractCovData(_src, Dx, Dy, depth, scale, aperture_size, borderType))
|
||||
if (!extractCovData(_src, Dx, Dy, depth, (float)scale, aperture_size, borderType))
|
||||
return false;
|
||||
|
||||
ocl::Kernel cornelKernel("corner", ocl::imgproc::corner_oclsrc,
|
||||
@ -472,6 +472,51 @@ void cv::cornerHarris( InputArray _src, OutputArray _dst, int blockSize, int ksi
|
||||
Mat src = _src.getMat();
|
||||
_dst.create( src.size(), CV_32FC1 );
|
||||
Mat dst = _dst.getMat();
|
||||
|
||||
#if IPP_VERSION_X100 >= 801 && !defined HAVE_IPP_ICV_ONLY
|
||||
int type = src.type(), depth = CV_MAT_DEPTH(type), cn = CV_MAT_CN(type);
|
||||
int borderTypeNI = borderType & ~BORDER_ISOLATED;
|
||||
bool isolated = (borderType & BORDER_ISOLATED) != 0;
|
||||
|
||||
if ( (ksize == 3 || ksize == 5) && (type == CV_8UC1 || type == CV_32FC1) &&
|
||||
(borderTypeNI == BORDER_CONSTANT || borderTypeNI == BORDER_REPLICATE) && cn == 1 && (!src.isSubmatrix() || isolated) )
|
||||
{
|
||||
IppiSize roisize = { src.cols, src.rows };
|
||||
IppiMaskSize masksize = ksize == 5 ? ippMskSize5x5 : ippMskSize3x3;
|
||||
IppDataType datatype = type == CV_8UC1 ? ipp8u : ipp32f;
|
||||
Ipp32s bufsize = 0;
|
||||
|
||||
double scale = (double)(1 << ((ksize > 0 ? ksize : 3) - 1)) * blockSize;
|
||||
if (ksize < 0)
|
||||
scale *= 2.0;
|
||||
if (depth == CV_8U)
|
||||
scale *= 255.0;
|
||||
scale = std::pow(scale, -4.0f);
|
||||
|
||||
if (ippiHarrisCornerGetBufferSize(roisize, masksize, blockSize, datatype, cn, &bufsize) >= 0)
|
||||
{
|
||||
Ipp8u * buffer = ippsMalloc_8u(bufsize);
|
||||
IppiDifferentialKernel filterType = ksize > 0 ? ippFilterSobel : ippFilterScharr;
|
||||
IppiBorderType borderTypeIpp = borderTypeNI == BORDER_CONSTANT ? ippBorderConst : ippBorderRepl;
|
||||
IppStatus status = (IppStatus)-1;
|
||||
|
||||
if (depth == CV_8U)
|
||||
status = ippiHarrisCorner_8u32f_C1R((const Ipp8u *)src.data, (int)src.step, (Ipp32f *)dst.data, (int)dst.step, roisize,
|
||||
filterType, masksize, blockSize, (Ipp32f)k, (Ipp32f)scale, borderTypeIpp, 0, buffer);
|
||||
else if (depth == CV_32F)
|
||||
status = ippiHarrisCorner_32f_C1R((const Ipp32f *)src.data, (int)src.step, (Ipp32f *)dst.data, (int)dst.step, roisize,
|
||||
filterType, masksize, blockSize, (Ipp32f)k, (Ipp32f)scale, borderTypeIpp, 0, buffer);
|
||||
ippsFree(buffer);
|
||||
|
||||
if (status >= 0)
|
||||
return;
|
||||
setIppErrorStatus();
|
||||
}
|
||||
else
|
||||
setIppErrorStatus();
|
||||
}
|
||||
#endif
|
||||
|
||||
cornerEigenValsVecs( src, dst, blockSize, ksize, HARRIS, k, borderType );
|
||||
}
|
||||
|
||||
|
||||
Loading…
Reference in New Issue
Block a user