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@ -857,107 +857,122 @@ Rect getValidDisparityROI( Rect roi1, Rect roi2, |
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void cv::filterSpeckles( InputOutputArray _img, double _newval, int maxSpeckleSize, |
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double _maxDiff, InputOutputArray __buf ) |
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namespace |
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{ |
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Mat img = _img.getMat(); |
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Mat temp, &_buf = __buf.needed() ? __buf.getMatRef() : temp; |
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CV_Assert( img.type() == CV_16SC1 ); |
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int newVal = cvRound(_newval); |
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int maxDiff = cvRound(_maxDiff); |
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int width = img.cols, height = img.rows, npixels = width*height; |
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size_t bufSize = npixels*(int)(sizeof(Point2s) + sizeof(int) + sizeof(uchar)); |
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if( !_buf.isContinuous() || !_buf.data || _buf.cols*_buf.rows*_buf.elemSize() < bufSize ) |
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_buf.create(1, (int)bufSize, CV_8U); |
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uchar* buf = _buf.data; |
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int i, j, dstep = (int)(img.step/sizeof(short)); |
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int* labels = (int*)buf; |
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buf += npixels*sizeof(labels[0]); |
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Point2s* wbuf = (Point2s*)buf; |
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buf += npixels*sizeof(wbuf[0]); |
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uchar* rtype = (uchar*)buf; |
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int curlabel = 0; |
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// clear out label assignments
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memset(labels, 0, npixels*sizeof(labels[0])); |
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for( i = 0; i < height; i++ ) |
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template <typename T> |
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void filterSpecklesImpl(cv::Mat& img, int newVal, int maxSpeckleSize, int maxDiff, cv::Mat& _buf) |
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{ |
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short* ds = img.ptr<short>(i); |
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int* ls = labels + width*i; |
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for( j = 0; j < width; j++ ) |
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using namespace cv; |
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int width = img.cols, height = img.rows, npixels = width*height; |
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size_t bufSize = npixels*(int)(sizeof(Point2s) + sizeof(int) + sizeof(uchar)); |
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if( !_buf.isContinuous() || !_buf.data || _buf.cols*_buf.rows*_buf.elemSize() < bufSize ) |
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_buf.create(1, (int)bufSize, CV_8U); |
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uchar* buf = _buf.data; |
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int i, j, dstep = (int)(img.step/sizeof(T)); |
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int* labels = (int*)buf; |
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buf += npixels*sizeof(labels[0]); |
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Point2s* wbuf = (Point2s*)buf; |
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buf += npixels*sizeof(wbuf[0]); |
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uchar* rtype = (uchar*)buf; |
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int curlabel = 0; |
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// clear out label assignments
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memset(labels, 0, npixels*sizeof(labels[0])); |
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for( i = 0; i < height; i++ ) |
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{ |
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if( ds[j] != newVal ) // not a bad disparity
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T* ds = img.ptr<T>(i); |
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int* ls = labels + width*i; |
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for( j = 0; j < width; j++ ) |
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{ |
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if( ls[j] ) // has a label, check for bad label
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{ |
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if( rtype[ls[j]] ) // small region, zero out disparity
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ds[j] = (short)newVal; |
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} |
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// no label, assign and propagate
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else |
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if( ds[j] != newVal ) // not a bad disparity
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{ |
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Point2s* ws = wbuf; // initialize wavefront
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Point2s p((short)j, (short)i); // current pixel
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curlabel++; // next label
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int count = 0; // current region size
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ls[j] = curlabel; |
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// wavefront propagation
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while( ws >= wbuf ) // wavefront not empty
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if( ls[j] ) // has a label, check for bad label
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{ |
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count++; |
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// put neighbors onto wavefront
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short* dpp = &img.at<short>(p.y, p.x); |
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short dp = *dpp; |
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int* lpp = labels + width*p.y + p.x; |
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if( p.x < width-1 && !lpp[+1] && dpp[+1] != newVal && std::abs(dp - dpp[+1]) <= maxDiff ) |
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if( rtype[ls[j]] ) // small region, zero out disparity
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ds[j] = (T)newVal; |
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} |
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// no label, assign and propagate
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else |
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{ |
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Point2s* ws = wbuf; // initialize wavefront
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Point2s p((short)j, (short)i); // current pixel
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curlabel++; // next label
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int count = 0; // current region size
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ls[j] = curlabel; |
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// wavefront propagation
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while( ws >= wbuf ) // wavefront not empty
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{ |
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lpp[+1] = curlabel; |
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*ws++ = Point2s(p.x+1, p.y); |
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} |
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count++; |
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// put neighbors onto wavefront
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T* dpp = &img.at<T>(p.y, p.x); |
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T dp = *dpp; |
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int* lpp = labels + width*p.y + p.x; |
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if( p.x > 0 && !lpp[-1] && dpp[-1] != newVal && std::abs(dp - dpp[-1]) <= maxDiff ) |
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{ |
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lpp[-1] = curlabel; |
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*ws++ = Point2s(p.x-1, p.y); |
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} |
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if( p.x < width-1 && !lpp[+1] && dpp[+1] != newVal && std::abs(dp - dpp[+1]) <= maxDiff ) |
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{ |
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lpp[+1] = curlabel; |
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*ws++ = Point2s(p.x+1, p.y); |
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} |
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if( p.y < height-1 && !lpp[+width] && dpp[+dstep] != newVal && std::abs(dp - dpp[+dstep]) <= maxDiff ) |
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{ |
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lpp[+width] = curlabel; |
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*ws++ = Point2s(p.x, p.y+1); |
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if( p.x > 0 && !lpp[-1] && dpp[-1] != newVal && std::abs(dp - dpp[-1]) <= maxDiff ) |
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{ |
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lpp[-1] = curlabel; |
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*ws++ = Point2s(p.x-1, p.y); |
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} |
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if( p.y < height-1 && !lpp[+width] && dpp[+dstep] != newVal && std::abs(dp - dpp[+dstep]) <= maxDiff ) |
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{ |
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lpp[+width] = curlabel; |
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*ws++ = Point2s(p.x, p.y+1); |
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} |
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if( p.y > 0 && !lpp[-width] && dpp[-dstep] != newVal && std::abs(dp - dpp[-dstep]) <= maxDiff ) |
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{ |
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lpp[-width] = curlabel; |
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*ws++ = Point2s(p.x, p.y-1); |
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} |
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// pop most recent and propagate
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// NB: could try least recent, maybe better convergence
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p = *--ws; |
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} |
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if( p.y > 0 && !lpp[-width] && dpp[-dstep] != newVal && std::abs(dp - dpp[-dstep]) <= maxDiff ) |
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// assign label type
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if( count <= maxSpeckleSize ) // speckle region
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{ |
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lpp[-width] = curlabel; |
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*ws++ = Point2s(p.x, p.y-1); |
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rtype[ls[j]] = 1; // small region label
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ds[j] = (T)newVal; |
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} |
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// pop most recent and propagate
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// NB: could try least recent, maybe better convergence
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p = *--ws; |
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} |
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// assign label type
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if( count <= maxSpeckleSize ) // speckle region
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{ |
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rtype[ls[j]] = 1; // small region label
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ds[j] = (short)newVal; |
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else |
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rtype[ls[j]] = 0; // large region label
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} |
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else |
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rtype[ls[j]] = 0; // large region label
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} |
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} |
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} |
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} |
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} |
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void cv::filterSpeckles( InputOutputArray _img, double _newval, int maxSpeckleSize, |
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double _maxDiff, InputOutputArray __buf ) |
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{ |
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Mat img = _img.getMat(); |
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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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int newVal = cvRound(_newval); |
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int maxDiff = cvRound(_maxDiff); |
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if (img.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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} |
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void cv::validateDisparity( InputOutputArray _disp, InputArray _cost, int minDisparity, |
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int numberOfDisparities, int disp12MaxDiff ) |
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{ |
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Vladislav Vinogradov
12 years ago