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some restructuring of resize algorithm code
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222303f24b
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@ -1405,25 +1405,29 @@ public:
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resizeArea_Invoker(const Mat& _src, Mat& _dst, const DecimateAlpha* _xofs,
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int _xofs_count, double _scale_y_
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#ifdef HAVE_TBB
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, const int* _yofs, const int* _cur_dy_ofs
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, const int* _cur_dy_ofs, const std::vector<std::pair<int, int> >& _bands
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#endif
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) :
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ParallelLoopBody(), src(_src), dst(_dst), xofs(_xofs),
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xofs_count(_xofs_count), scale_y_(_scale_y_)
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#ifdef HAVE_TBB
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, yofs(_yofs), cur_dy_ofs(_cur_dy_ofs)
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, cur_dy_ofs(_cur_dy_ofs), bands(_bands)
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#endif
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{
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}
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#ifdef HAVE_TBB
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void resize_signle_band(const Range& range) const
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#else
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virtual void operator() (const Range& range) const
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#endif
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{
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Size ssize = src.size(), dsize = dst.size();
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int cn = src.channels();
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dsize.width *= cn;
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AutoBuffer<WT> _buffer(dsize.width*2);
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WT *buf = _buffer, *sum = buf + dsize.width;
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int k = -1000, sy = -1000, dx = -1000, cur_dy = -1000;
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int k = 0, sy = 0, dx = 0, cur_dy = 0;
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WT scale_y = (WT)scale_y_;
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CV_Assert( cn <= 4 );
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@ -1431,90 +1435,8 @@ public:
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buf[dx] = sum[dx] = 0;
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#ifdef HAVE_TBB
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sy = yofs[range.start];
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cur_dy = cur_dy_ofs[sy];
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for ( ; sy < range.start; sy++ )
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{
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const T* S = (const T*)(src.data + src.step*sy);
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if( cn == 1 )
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for( k = 0; k < xofs_count; k++ )
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{
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int dxn = xofs[k].di;
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WT alpha = xofs[k].alpha;
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buf[dxn] += S[xofs[k].si]*alpha;
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}
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else if( cn == 2 )
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for( k = 0; k < xofs_count; k++ )
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{
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int sxn = xofs[k].si;
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int dxn = xofs[k].di;
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WT alpha = xofs[k].alpha;
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WT t0 = buf[dxn] + S[sxn]*alpha;
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WT t1 = buf[dxn+1] + S[sxn+1]*alpha;
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buf[dxn] = t0; buf[dxn+1] = t1;
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}
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else if( cn == 3 )
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for( k = 0; k < xofs_count; k++ )
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{
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int sxn = xofs[k].si;
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int dxn = xofs[k].di;
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WT alpha = xofs[k].alpha;
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WT t0 = buf[dxn] + S[sxn]*alpha;
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WT t1 = buf[dxn+1] + S[sxn+1]*alpha;
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WT t2 = buf[dxn+2] + S[sxn+2]*alpha;
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buf[dxn] = t0; buf[dxn+1] = t1; buf[dxn+2] = t2;
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}
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else
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for( k = 0; k < xofs_count; k++ )
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{
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int sxn = xofs[k].si;
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int dxn = xofs[k].di;
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WT alpha = xofs[k].alpha;
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WT t0 = buf[dxn] + S[sxn]*alpha;
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WT t1 = buf[dxn+1] + S[sxn+1]*alpha;
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buf[dxn] = t0; buf[dxn+1] = t1;
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t0 = buf[dxn+2] + S[sxn+2]*alpha;
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t1 = buf[dxn+3] + S[sxn+3]*alpha;
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buf[dxn+2] = t0; buf[dxn+3] = t1;
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}
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if( (cur_dy + 1)*scale_y <= sy + 1 || sy == ssize.height - 1 )
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{
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WT beta = std::max(sy + 1 - (cur_dy+1)*scale_y, (WT)0);
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if( fabs(beta) < 1e-3 )
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{
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if(cur_dy >= dsize.height)
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break;
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for( dx = 0; dx < dsize.width; dx++ )
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sum[dx] = buf[dx] = 0;
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}
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else
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for( dx = 0; dx < dsize.width; dx++ )
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{
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sum[dx] = buf[dx]*beta;
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buf[dx] = 0;
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}
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cur_dy++;
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}
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else
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{
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for( dx = 0; dx <= dsize.width - 2; dx += 2 )
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{
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WT t0 = sum[dx] + buf[dx];
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WT t1 = sum[dx+1] + buf[dx+1];
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sum[dx] = t0; sum[dx+1] = t1;
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buf[dx] = buf[dx+1] = 0;
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}
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for( ; dx < dsize.width; dx++ )
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{
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sum[dx] += buf[dx];
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buf[dx] = 0;
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}
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}
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}
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cur_dy = cur_dy_ofs[range.start];
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#endif
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for( sy = range.start; sy < range.end; sy++ )
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{
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const T* S = (const T*)(src.data + src.step*sy);
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@ -1602,6 +1524,17 @@ public:
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}
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}
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#ifdef HAVE_TBB
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virtual void operator() (const Range& range) const
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{
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for (int i = range.start; i < range.end; ++i)
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{
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Range band_range(bands[i].first, bands[i].second);
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resize_signle_band(band_range);
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}
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}
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#endif
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private:
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const Mat src;
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Mat dst;
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@ -1609,7 +1542,8 @@ private:
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const int xofs_count;
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const double scale_y_;
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#ifdef HAVE_TBB
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const int *yofs, *cur_dy_ofs;
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const int *cur_dy_ofs;
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std::vector<std::pair<int, int> > bands;
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#endif
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resizeArea_Invoker(const resizeArea_Invoker&);
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resizeArea_Invoker& operator=(const resizeArea_Invoker&);
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@ -1620,9 +1554,10 @@ static void resizeArea_( const Mat& src, Mat& dst, const DecimateAlpha* xofs, in
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{
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#ifdef HAVE_TBB
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Size ssize = src.size(), dsize = dst.size();
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AutoBuffer<int> _yofs(2 * ssize.height);
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int *yofs = _yofs, *cur_dy_ofs = _yofs + ssize.height;
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int index = 0, cur_dy = 0;
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AutoBuffer<int> _yofs(ssize.height);
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int *cur_dy_ofs = _yofs;
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int cur_dy = 0, index = 0;
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std::vector<std::pair<int, int> > bands;
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// cur_dy_ofs - dy for the current sy
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// yofs - a starting row for calculating a band according to the current sy
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@ -1630,7 +1565,6 @@ static void resizeArea_( const Mat& src, Mat& dst, const DecimateAlpha* xofs, in
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for (int sy = 0; sy < ssize.height; sy++)
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{
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cur_dy_ofs[sy] = cur_dy;
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yofs[sy] = index;
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if ((cur_dy + 1) * scale_y_ <= sy + 1 || sy == ssize.height - 1 )
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{
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@ -1639,19 +1573,22 @@ static void resizeArea_( const Mat& src, Mat& dst, const DecimateAlpha* xofs, in
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{
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if (cur_dy >= dsize.height)
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break;
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bands.push_back(std::make_pair(index, sy + 1));
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index = sy + 1;
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}
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cur_dy++;
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}
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}
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bands.push_back(std::make_pair(index, ssize.height));
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#endif
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Range range(0, src.rows);
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resizeArea_Invoker<T, WT> invoker(src, dst, xofs, xofs_count, scale_y_
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#ifdef HAVE_TBB
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, yofs, cur_dy_ofs
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Range range(0, bands.size());
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resizeArea_Invoker<T, WT> invoker(src, dst, xofs, xofs_count, scale_y_, cur_dy_ofs, bands);
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#else
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Range range(0, src.rows);
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resizeArea_Invoker<T, WT> invoker(src, dst, xofs, xofs_count, scale_y_);
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#endif
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);
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parallel_for_(range, invoker);
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}
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@ -1501,7 +1501,6 @@ TEST(Imgproc_resize_area, regression)
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Mat diff;
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absdiff(actual, expected, diff);
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std::cout << "Abs diff:" << std::endl << diff << std::endl;
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Mat one_channel_diff = diff; //.reshape(1);
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@ -1523,6 +1522,7 @@ TEST(Imgproc_resize_area, regression)
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int rmin = MAX(dy - radius, 0), rmax = MIN(dy + radius, dsize.height);
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int cmin = MAX(dx - radius, 0), cmax = MIN(dx + radius, dsize.width);
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std::cout << "Abs diff:" << std::endl << diff << std::endl;
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std::cout << "actual result:\n" << actual(Range(rmin, rmax), Range(cmin, cmax)) << std::endl;
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std::cout << "expected result:\n" << expected(Range(rmin, rmax), Range(cmin, cmax)) << std::endl;
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