fixed ipp-related warnings
This commit is contained in:
Ilya Lavrenov
@@ -289,8 +289,8 @@ static bool IPPDerivScharr(const Mat& src, Mat& dst, int ddepth, int dx, int dy,
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ippiFilterScharrVertGetBufferSize_8u16s_C1R(roi,&bufSize);
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buffer.allocate(bufSize);
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ippiFilterScharrVertBorder_8u16s_C1R((const Ipp8u*)src.data, src.step,
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(Ipp16s*)dst.data, dst.step, roi, ippBorderRepl, 0, (Ipp8u*)(char*)buffer);
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ippiFilterScharrVertBorder_8u16s_C1R((const Ipp8u*)src.data, (int)src.step,
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(Ipp16s*)dst.data, (int)dst.step, roi, ippBorderRepl, 0, (Ipp8u*)(char*)buffer);
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return true;
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}
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@@ -300,8 +300,8 @@ static bool IPPDerivScharr(const Mat& src, Mat& dst, int ddepth, int dx, int dy,
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ippiFilterScharrHorizGetBufferSize_8u16s_C1R(roi,&bufSize);
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buffer.allocate(bufSize);
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ippiFilterScharrHorizBorder_8u16s_C1R((const Ipp8u*)src.data, src.step,
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(Ipp16s*)dst.data, dst.step, roi, ippBorderRepl, 0, (Ipp8u*)(char*)buffer);
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ippiFilterScharrHorizBorder_8u16s_C1R((const Ipp8u*)src.data, (int)src.step,
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(Ipp16s*)dst.data, (int)dst.step, roi, ippBorderRepl, 0, (Ipp8u*)(char*)buffer);
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return true;
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}
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@@ -322,12 +322,12 @@ static bool IPPDerivScharr(const Mat& src, Mat& dst, int ddepth, int dx, int dy,
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ippiFilterScharrVertGetBufferSize_32f_C1R(ippiSize(src.cols, src.rows),&bufSize);
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buffer.allocate(bufSize);
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ippiFilterScharrVertBorder_32f_C1R((const Ipp32f*)src.data, src.step,
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(Ipp32f*)dst.data, dst.step, ippiSize(src.cols, src.rows),
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ippiFilterScharrVertBorder_32f_C1R((const Ipp32f*)src.data, (int)src.step,
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(Ipp32f*)dst.data, (int)dst.step, ippiSize(src.cols, src.rows),
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ippBorderRepl, 0, (Ipp8u*)(char*)buffer);
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if(scale != 1)
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/* IPP is fast, so MulC produce very little perf degradation */
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ippiMulC_32f_C1IR((Ipp32f)scale,(Ipp32f*)dst.data,dst.step,ippiSize(dst.cols*dst.channels(),dst.rows));
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ippiMulC_32f_C1IR((Ipp32f)scale, (Ipp32f*)dst.data, (int)dst.step, ippiSize(dst.cols*dst.channels(), dst.rows));
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return true;
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}
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@@ -337,11 +337,11 @@ static bool IPPDerivScharr(const Mat& src, Mat& dst, int ddepth, int dx, int dy,
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ippiFilterScharrHorizGetBufferSize_32f_C1R(ippiSize(src.cols, src.rows),&bufSize);
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buffer.allocate(bufSize);
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ippiFilterScharrHorizBorder_32f_C1R((const Ipp32f*)src.data, src.step,
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(Ipp32f*)dst.data, dst.step, ippiSize(src.cols, src.rows),
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ippiFilterScharrHorizBorder_32f_C1R((const Ipp32f*)src.data, (int)src.step,
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(Ipp32f*)dst.data, (int)dst.step, ippiSize(src.cols, src.rows),
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ippBorderRepl, 0, (Ipp8u*)(char*)buffer);
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if(scale != 1)
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ippiMulC_32f_C1IR((Ipp32f)scale,(Ipp32f *)dst.data,dst.step,ippiSize(dst.cols*dst.channels(),dst.rows));
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ippiMulC_32f_C1IR((Ipp32f)scale, (Ipp32f *)dst.data, (int)dst.step, ippiSize(dst.cols*dst.channels(), dst.rows));
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return true;
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}
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@@ -374,8 +374,8 @@ static bool IPPDeriv(const Mat& src, Mat& dst, int ddepth, int dx, int dy, int k
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ippiFilterSobelNegVertGetBufferSize_8u16s_C1R(ippiSize(src.cols, src.rows), (IppiMaskSize)(ksize*10+ksize),&bufSize);
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buffer.allocate(bufSize);
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ippiFilterSobelNegVertBorder_8u16s_C1R((const Ipp8u*)src.data, src.step,
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(Ipp16s*)dst.data, dst.step, ippiSize(src.cols, src.rows), (IppiMaskSize)(ksize*10+ksize),
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ippiFilterSobelNegVertBorder_8u16s_C1R((const Ipp8u*)src.data, (int)src.step,
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(Ipp16s*)dst.data, (int)dst.step, ippiSize(src.cols, src.rows), (IppiMaskSize)(ksize*10+ksize),
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ippBorderRepl, 0, (Ipp8u*)(char*)buffer);
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return true;
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}
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@@ -385,8 +385,8 @@ static bool IPPDeriv(const Mat& src, Mat& dst, int ddepth, int dx, int dy, int k
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ippiFilterSobelHorizGetBufferSize_8u16s_C1R(ippiSize(src.cols, src.rows), (IppiMaskSize)(ksize*10+ksize),&bufSize);
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buffer.allocate(bufSize);
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ippiFilterSobelHorizBorder_8u16s_C1R((const Ipp8u*)src.data, src.step,
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(Ipp16s*)dst.data, dst.step, ippiSize(src.cols, src.rows), (IppiMaskSize)(ksize*10+ksize),
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ippiFilterSobelHorizBorder_8u16s_C1R((const Ipp8u*)src.data, (int)src.step,
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(Ipp16s*)dst.data, (int)dst.step, ippiSize(src.cols, src.rows), (IppiMaskSize)(ksize*10+ksize),
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ippBorderRepl, 0, (Ipp8u*)(char*)buffer);
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return true;
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@@ -397,8 +397,8 @@ static bool IPPDeriv(const Mat& src, Mat& dst, int ddepth, int dx, int dy, int k
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ippiFilterSobelVertSecondGetBufferSize_8u16s_C1R(ippiSize(src.cols, src.rows), (IppiMaskSize)(ksize*10+ksize),&bufSize);
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buffer.allocate(bufSize);
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ippiFilterSobelVertSecondBorder_8u16s_C1R((const Ipp8u*)src.data, src.step,
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(Ipp16s*)dst.data, dst.step, ippiSize(src.cols, src.rows), (IppiMaskSize)(ksize*10+ksize),
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ippiFilterSobelVertSecondBorder_8u16s_C1R((const Ipp8u*)src.data, (int)src.step,
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(Ipp16s*)dst.data, (int)dst.step, ippiSize(src.cols, src.rows), (IppiMaskSize)(ksize*10+ksize),
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ippBorderRepl, 0, (Ipp8u*)(char*)buffer);
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return true;
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@@ -409,8 +409,8 @@ static bool IPPDeriv(const Mat& src, Mat& dst, int ddepth, int dx, int dy, int k
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ippiFilterSobelHorizSecondGetBufferSize_8u16s_C1R(ippiSize(src.cols, src.rows), (IppiMaskSize)(ksize*10+ksize),&bufSize);
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buffer.allocate(bufSize);
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ippiFilterSobelHorizSecondBorder_8u16s_C1R((const Ipp8u*)src.data, src.step,
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(Ipp16s*)dst.data, dst.step, ippiSize(src.cols, src.rows), (IppiMaskSize)(ksize*10+ksize),
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ippiFilterSobelHorizSecondBorder_8u16s_C1R((const Ipp8u*)src.data, (int)src.step,
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(Ipp16s*)dst.data, (int)dst.step, ippiSize(src.cols, src.rows), (IppiMaskSize)(ksize*10+ksize),
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ippBorderRepl, 0, (Ipp8u*)(char*)buffer);
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return true;
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@@ -421,14 +421,14 @@ static bool IPPDeriv(const Mat& src, Mat& dst, int ddepth, int dx, int dy, int k
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{
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if((dx == 1) && (dy == 0))
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{
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ippiFilterSobelNegVertGetBufferSize_32f_C1R(ippiSize(src.cols, src.rows), (IppiMaskSize)(ksize*10+ksize),&bufSize);
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ippiFilterSobelNegVertGetBufferSize_32f_C1R(ippiSize(src.cols, src.rows), (IppiMaskSize)(ksize*10+ksize), &bufSize);
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buffer.allocate(bufSize);
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ippiFilterSobelNegVertBorder_32f_C1R((const Ipp32f*)src.data, src.step,
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(Ipp32f*)dst.data, dst.step, ippiSize(src.cols, src.rows), (IppiMaskSize)(ksize*10+ksize),
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ippiFilterSobelNegVertBorder_32f_C1R((const Ipp32f*)src.data, (int)src.step,
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(Ipp32f*)dst.data, (int)dst.step, ippiSize(src.cols, src.rows), (IppiMaskSize)(ksize*10+ksize),
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ippBorderRepl, 0, (Ipp8u*)(char*)buffer);
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if(scale != 1)
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ippiMulC_32f_C1IR((Ipp32f)scale,(Ipp32f *)dst.data,dst.step,ippiSize(dst.cols*dst.channels(),dst.rows));
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ippiMulC_32f_C1IR((Ipp32f)scale, (Ipp32f *)dst.data, (int)dst.step, ippiSize(dst.cols*dst.channels(), dst.rows));
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return true;
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}
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@@ -438,11 +438,11 @@ static bool IPPDeriv(const Mat& src, Mat& dst, int ddepth, int dx, int dy, int k
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ippiFilterSobelHorizGetBufferSize_32f_C1R(ippiSize(src.cols, src.rows), (IppiMaskSize)(ksize*10+ksize),&bufSize);
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buffer.allocate(bufSize);
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ippiFilterSobelHorizBorder_32f_C1R((const Ipp32f*)src.data, src.step,
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(Ipp32f*)dst.data, dst.step, ippiSize(src.cols, src.rows), (IppiMaskSize)(ksize*10+ksize),
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ippiFilterSobelHorizBorder_32f_C1R((const Ipp32f*)src.data, (int)src.step,
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(Ipp32f*)dst.data, (int)dst.step, ippiSize(src.cols, src.rows), (IppiMaskSize)(ksize*10+ksize),
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ippBorderRepl, 0, (Ipp8u*)(char*)buffer);
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if(scale != 1)
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ippiMulC_32f_C1IR((Ipp32f)scale,(Ipp32f *)dst.data,dst.step,ippiSize(dst.cols*dst.channels(),dst.rows));
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ippiMulC_32f_C1IR((Ipp32f)scale, (Ipp32f *)dst.data, (int)dst.step, ippiSize(dst.cols*dst.channels(), dst.rows));
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return true;
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}
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@@ -452,11 +452,11 @@ static bool IPPDeriv(const Mat& src, Mat& dst, int ddepth, int dx, int dy, int k
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ippiFilterSobelVertSecondGetBufferSize_32f_C1R(ippiSize(src.cols, src.rows), (IppiMaskSize)(ksize*10+ksize),&bufSize);
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buffer.allocate(bufSize);
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ippiFilterSobelVertSecondBorder_32f_C1R((const Ipp32f*)src.data, src.step,
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(Ipp32f*)dst.data, dst.step, ippiSize(src.cols, src.rows), (IppiMaskSize)(ksize*10+ksize),
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ippiFilterSobelVertSecondBorder_32f_C1R((const Ipp32f*)src.data, (int)src.step,
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(Ipp32f*)dst.data, (int)dst.step, ippiSize(src.cols, src.rows), (IppiMaskSize)(ksize*10+ksize),
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ippBorderRepl, 0, (Ipp8u*)(char*)buffer);
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if(scale != 1)
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ippiMulC_32f_C1IR((Ipp32f)scale,(Ipp32f *)dst.data,dst.step,ippiSize(dst.cols*dst.channels(),dst.rows));
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ippiMulC_32f_C1IR((Ipp32f)scale, (Ipp32f *)dst.data, (int)dst.step, ippiSize(dst.cols*dst.channels(), dst.rows));
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return true;
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}
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@@ -466,11 +466,11 @@ static bool IPPDeriv(const Mat& src, Mat& dst, int ddepth, int dx, int dy, int k
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ippiFilterSobelHorizSecondGetBufferSize_32f_C1R(ippiSize(src.cols, src.rows), (IppiMaskSize)(ksize*10+ksize),&bufSize);
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buffer.allocate(bufSize);
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ippiFilterSobelHorizSecondBorder_32f_C1R((const Ipp32f*)src.data, src.step,
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(Ipp32f*)dst.data, dst.step, ippiSize(src.cols, src.rows), (IppiMaskSize)(ksize*10+ksize),
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ippiFilterSobelHorizSecondBorder_32f_C1R((const Ipp32f*)src.data, (int)src.step,
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(Ipp32f*)dst.data, (int)dst.step, ippiSize(src.cols, src.rows), (IppiMaskSize)(ksize*10+ksize),
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ippBorderRepl, 0, (Ipp8u*)(char*)buffer);
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if(scale != 1)
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ippiMulC_32f_C1IR((Ipp32f)scale,(Ipp32f *)dst.data,dst.step,ippiSize(dst.cols*dst.channels(),dst.rows));
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ippiMulC_32f_C1IR((Ipp32f)scale, (Ipp32f *)dst.data, (int)dst.step, ippiSize(dst.cols*dst.channels(), dst.rows));
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return true;
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}
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