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@ -122,57 +122,24 @@ static void convertBGRImageToOpponentColorSpace( const Mat& bgrImage, vector<Mat |
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if( bgrImage.type() != CV_8UC3 ) |
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CV_Error( CV_StsBadArg, "input image must be an BGR image of type CV_8UC3" ); |
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// Split image into RGB to allow conversion to Opponent Color Space.
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vector<Mat> bgrChannels(3); |
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split( bgrImage, bgrChannels ); |
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// Prepare opponent color space storage matrices.
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opponentChannels.resize( 3 ); |
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opponentChannels[0] = cv::Mat(bgrImage.size(), CV_8UC1); // R-G RED-GREEN
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opponentChannels[1] = cv::Mat(bgrImage.size(), CV_8UC1); // R+G-2B YELLOW-BLUE
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opponentChannels[2] = cv::Mat(bgrImage.size(), CV_8UC1); // R+G+B
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// Calculate the channels of the opponent color space
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{ |
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// (R - G)/sqrt(2), but converted to the destination data type
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MatConstIterator_<signed char> rIt = bgrChannels[2].begin<signed char>(); |
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MatConstIterator_<signed char> gIt = bgrChannels[1].begin<signed char>(); |
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MatIterator_<unsigned char> dstIt = opponentChannels[0].begin<unsigned char>(); |
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for( ; dstIt != opponentChannels[0].end<unsigned char>(); ++rIt, ++gIt, ++dstIt ) |
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{ |
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float value = 0.5f * (static_cast<int>(*gIt) - |
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static_cast<int>(*rIt) + 255); |
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(*dstIt) = static_cast<unsigned char>(value + 0.5f); |
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} |
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} |
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{ |
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// (R + G - 2B)/sqrt(6), but converted to the destination data type
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MatConstIterator_<signed char> rIt = bgrChannels[2].begin<signed char>(); |
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MatConstIterator_<signed char> gIt = bgrChannels[1].begin<signed char>(); |
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MatConstIterator_<signed char> bIt = bgrChannels[0].begin<signed char>(); |
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MatIterator_<unsigned char> dstIt = opponentChannels[1].begin<unsigned char>(); |
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for( ; dstIt != opponentChannels[1].end<unsigned char>(); ++rIt, ++gIt, ++bIt, ++dstIt ) |
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for(int y = 0; y < bgrImage.rows; ++y) |
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for(int x = 0; x < bgrImage.cols; ++x) |
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{ |
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float value = 0.25f * (static_cast<int>(*rIt) + static_cast<int>(*gIt) - |
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2*static_cast<int>(*bIt) + 510); |
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(*dstIt) = static_cast<unsigned char>(value + 0.5f); |
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Vec3b v = bgrImage.at<Vec3b>(y, x); |
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uchar& b = v[0]; |
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uchar& g = v[1]; |
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uchar& r = v[2]; |
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opponentChannels[0].at<uchar>(y, x) = saturate_cast<uchar>(0.5f * (255 + g - r)); // (R - G)/sqrt(2), but converted to the destination data type
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opponentChannels[1].at<uchar>(y, x) = saturate_cast<uchar>(0.25f * (510 + r + g - 2*b)); // (R + G - 2B)/sqrt(6), but converted to the destination data type
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opponentChannels[2].at<uchar>(y, x) = saturate_cast<uchar>(1.f/3.f * (r + g + b)); // (R + G + B)/sqrt(3), but converted to the destination data type
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} |
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} |
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{ |
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// (R + G + B)/sqrt(3), but converted to the destination data type
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MatConstIterator_<signed char> rIt = bgrChannels[2].begin<signed char>(); |
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MatConstIterator_<signed char> gIt = bgrChannels[1].begin<signed char>(); |
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MatConstIterator_<signed char> bIt = bgrChannels[0].begin<signed char>(); |
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MatIterator_<unsigned char> dstIt = opponentChannels[2].begin<unsigned char>(); |
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float factor = 1.f/3.f; |
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for( ; dstIt != opponentChannels[2].end<unsigned char>(); ++rIt, ++gIt, ++bIt, ++dstIt ) |
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{ |
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float value = factor * (static_cast<int>(*rIt) +
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static_cast<int>(*gIt) +
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static_cast<int>(*bIt)); |
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(*dstIt) = static_cast<unsigned char>(value + 0.5f); |
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} |
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} |
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} |
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struct KP_LessThan |
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Andrey Kamaev
13 years ago