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Open Source Computer Vision Library
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351 lines
11 KiB
351 lines
11 KiB
/*M/////////////////////////////////////////////////////////////////////////////////////// |
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// |
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// IMPORTANT: READ BEFORE DOWNLOADING, COPYING, INSTALLING OR USING. |
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// |
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// By downloading, copying, installing or using the software you agree to this license. |
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// If you do not agree to this license, do not download, install, |
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// copy or use the software. |
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// |
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// |
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// License Agreement |
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// For Open Source Computer Vision Library |
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// |
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// Copyright (C) 2013, OpenCV Foundation, all rights reserved. |
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// Third party copyrights are property of their respective owners. |
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// |
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// Redistribution and use in source and binary forms, with or without modification, |
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// are permitted provided that the following conditions are met: |
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// |
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// * Redistribution's of source code must retain the above copyright notice, |
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// this list of conditions and the following disclaimer. |
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// |
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// * Redistribution's in binary form must reproduce the above copyright notice, |
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// this list of conditions and the following disclaimer in the documentation |
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// and/or other materials provided with the distribution. |
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// |
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// * The name of the copyright holders may not be used to endorse or promote products |
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// derived from this software without specific prior written permission. |
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// |
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// This software is provided by the copyright holders and contributors "as is" and |
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// any express or implied warranties, including, but not limited to, the implied |
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// warranties of merchantability and fitness for a particular purpose are disclaimed. |
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// In no event shall the Intel Corporation or contributors be liable for any direct, |
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// indirect, incidental, special, exemplary, or consequential damages |
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// (including, but not limited to, procurement of substitute goods or services; |
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// loss of use, data, or profits; or business interruption) however caused |
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// and on any theory of liability, whether in contract, strict liability, |
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// or tort (including negligence or otherwise) arising in any way out of |
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// the use of this software, even if advised of the possibility of such damage. |
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// |
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//M*/ |
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#include "precomp.hpp" |
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#include "opencv2/photo.hpp" |
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#include "opencv2/imgproc.hpp" |
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#include "hdr_common.hpp" |
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namespace cv |
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{ |
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class MergeDebevecImpl : public MergeDebevec |
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{ |
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public: |
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MergeDebevecImpl() : |
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name("MergeDebevec"), |
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weights(tringleWeights()) |
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{ |
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} |
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void process(InputArrayOfArrays src, OutputArray dst, InputArray _times, InputArray input_response) |
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{ |
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std::vector<Mat> images; |
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src.getMatVector(images); |
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Mat times = _times.getMat(); |
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CV_Assert(images.size() == times.total()); |
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checkImageDimensions(images); |
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CV_Assert(images[0].depth() == CV_8U); |
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int channels = images[0].channels(); |
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Size size = images[0].size(); |
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int CV_32FCC = CV_MAKETYPE(CV_32F, channels); |
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dst.create(images[0].size(), CV_32FCC); |
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Mat result = dst.getMat(); |
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Mat response = input_response.getMat(); |
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if(response.empty()) { |
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response = linearResponse(channels); |
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response.at<Vec3f>(0) = response.at<Vec3f>(1); |
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} |
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log(response, response); |
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CV_Assert(response.rows == LDR_SIZE && response.cols == 1 && |
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response.channels() == channels); |
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Mat exp_values(times); |
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log(exp_values, exp_values); |
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result = Mat::zeros(size, CV_32FCC); |
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std::vector<Mat> result_split; |
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split(result, result_split); |
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Mat weight_sum = Mat::zeros(size, CV_32F); |
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for(size_t i = 0; i < images.size(); i++) { |
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std::vector<Mat> splitted; |
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split(images[i], splitted); |
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Mat w = Mat::zeros(size, CV_32F); |
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for(int c = 0; c < channels; c++) { |
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LUT(splitted[c], weights, splitted[c]); |
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w += splitted[c]; |
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} |
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w /= channels; |
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Mat response_img; |
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LUT(images[i], response, response_img); |
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split(response_img, splitted); |
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for(int c = 0; c < channels; c++) { |
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result_split[c] += w.mul(splitted[c] - exp_values.at<float>((int)i)); |
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} |
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weight_sum += w; |
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} |
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weight_sum = 1.0f / weight_sum; |
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for(int c = 0; c < channels; c++) { |
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result_split[c] = result_split[c].mul(weight_sum); |
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} |
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merge(result_split, result); |
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exp(result, result); |
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} |
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void process(InputArrayOfArrays src, OutputArray dst, InputArray times) |
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{ |
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process(src, dst, times, Mat()); |
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} |
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protected: |
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String name; |
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Mat weights; |
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}; |
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Ptr<MergeDebevec> createMergeDebevec() |
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{ |
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return makePtr<MergeDebevecImpl>(); |
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} |
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class MergeMertensImpl : public MergeMertens |
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{ |
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public: |
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MergeMertensImpl(float _wcon, float _wsat, float _wexp) : |
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name("MergeMertens"), |
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wcon(_wcon), |
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wsat(_wsat), |
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wexp(_wexp) |
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{ |
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} |
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void process(InputArrayOfArrays src, OutputArrayOfArrays dst, InputArray, InputArray) |
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{ |
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process(src, dst); |
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} |
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void process(InputArrayOfArrays src, OutputArray dst) |
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{ |
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std::vector<Mat> images; |
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src.getMatVector(images); |
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checkImageDimensions(images); |
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int channels = images[0].channels(); |
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CV_Assert(channels == 1 || channels == 3); |
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Size size = images[0].size(); |
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int CV_32FCC = CV_MAKETYPE(CV_32F, channels); |
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std::vector<Mat> weights(images.size()); |
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Mat weight_sum = Mat::zeros(size, CV_32F); |
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for(size_t i = 0; i < images.size(); i++) { |
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Mat img, gray, contrast, saturation, wellexp; |
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std::vector<Mat> splitted(channels); |
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images[i].convertTo(img, CV_32F, 1.0f/255.0f); |
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if(channels == 3) { |
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cvtColor(img, gray, COLOR_RGB2GRAY); |
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} else { |
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img.copyTo(gray); |
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} |
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split(img, splitted); |
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Laplacian(gray, contrast, CV_32F); |
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contrast = abs(contrast); |
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Mat mean = Mat::zeros(size, CV_32F); |
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for(int c = 0; c < channels; c++) { |
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mean += splitted[c]; |
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} |
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mean /= channels; |
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saturation = Mat::zeros(size, CV_32F); |
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for(int c = 0; c < channels; c++) { |
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Mat deviation = splitted[c] - mean; |
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pow(deviation, 2.0f, deviation); |
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saturation += deviation; |
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} |
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sqrt(saturation, saturation); |
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wellexp = Mat::ones(size, CV_32F); |
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for(int c = 0; c < channels; c++) { |
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Mat exp = splitted[c] - 0.5f; |
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pow(exp, 2.0f, exp); |
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exp = -exp / 0.08f; |
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wellexp = wellexp.mul(exp); |
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} |
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pow(contrast, wcon, contrast); |
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pow(saturation, wsat, saturation); |
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pow(wellexp, wexp, wellexp); |
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weights[i] = contrast; |
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if(channels == 3) { |
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weights[i] = weights[i].mul(saturation); |
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} |
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weights[i] = weights[i].mul(wellexp) + 1e-12f; |
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weight_sum += weights[i]; |
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} |
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int maxlevel = static_cast<int>(logf(static_cast<float>(min(size.width, size.height))) / logf(2.0f)); |
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std::vector<Mat> res_pyr(maxlevel + 1); |
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for(size_t i = 0; i < images.size(); i++) { |
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weights[i] /= weight_sum; |
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Mat img; |
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images[i].convertTo(img, CV_32F, 1.0f/255.0f); |
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std::vector<Mat> img_pyr, weight_pyr; |
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buildPyramid(img, img_pyr, maxlevel); |
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buildPyramid(weights[i], weight_pyr, maxlevel); |
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for(int lvl = 0; lvl < maxlevel; lvl++) { |
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Mat up; |
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pyrUp(img_pyr[lvl + 1], up, img_pyr[lvl].size()); |
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img_pyr[lvl] -= up; |
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} |
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for(int lvl = 0; lvl <= maxlevel; lvl++) { |
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std::vector<Mat> splitted(channels); |
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split(img_pyr[lvl], splitted); |
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for(int c = 0; c < channels; c++) { |
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splitted[c] = splitted[c].mul(weight_pyr[lvl]); |
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} |
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merge(splitted, img_pyr[lvl]); |
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if(res_pyr[lvl].empty()) { |
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res_pyr[lvl] = img_pyr[lvl]; |
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} else { |
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res_pyr[lvl] += img_pyr[lvl]; |
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} |
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} |
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} |
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for(int lvl = maxlevel; lvl > 0; lvl--) { |
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Mat up; |
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pyrUp(res_pyr[lvl], up, res_pyr[lvl - 1].size()); |
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res_pyr[lvl - 1] += up; |
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} |
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dst.create(size, CV_32FCC); |
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res_pyr[0].copyTo(dst.getMat()); |
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} |
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float getContrastWeight() const { return wcon; } |
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void setContrastWeight(float val) { wcon = val; } |
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float getSaturationWeight() const { return wsat; } |
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void setSaturationWeight(float val) { wsat = val; } |
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float getExposureWeight() const { return wexp; } |
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void setExposureWeight(float val) { wexp = val; } |
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void write(FileStorage& fs) const |
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{ |
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fs << "name" << name |
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<< "contrast_weight" << wcon |
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<< "saturation_weight" << wsat |
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<< "exposure_weight" << wexp; |
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} |
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void read(const FileNode& fn) |
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{ |
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FileNode n = fn["name"]; |
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CV_Assert(n.isString() && String(n) == name); |
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wcon = fn["contrast_weight"]; |
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wsat = fn["saturation_weight"]; |
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wexp = fn["exposure_weight"]; |
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} |
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protected: |
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String name; |
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float wcon, wsat, wexp; |
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}; |
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Ptr<MergeMertens> createMergeMertens(float wcon, float wsat, float wexp) |
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{ |
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return makePtr<MergeMertensImpl>(wcon, wsat, wexp); |
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} |
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class MergeRobertsonImpl : public MergeRobertson |
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{ |
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public: |
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MergeRobertsonImpl() : |
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name("MergeRobertson"), |
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weight(RobertsonWeights()) |
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{ |
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} |
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void process(InputArrayOfArrays src, OutputArray dst, InputArray _times, InputArray input_response) |
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{ |
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std::vector<Mat> images; |
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src.getMatVector(images); |
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Mat times = _times.getMat(); |
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CV_Assert(images.size() == times.total()); |
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checkImageDimensions(images); |
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CV_Assert(images[0].depth() == CV_8U); |
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int channels = images[0].channels(); |
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int CV_32FCC = CV_MAKETYPE(CV_32F, channels); |
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dst.create(images[0].size(), CV_32FCC); |
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Mat result = dst.getMat(); |
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Mat response = input_response.getMat(); |
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if(response.empty()) { |
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float middle = LDR_SIZE / 2.0f; |
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response = linearResponse(channels) / middle; |
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} |
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CV_Assert(response.rows == LDR_SIZE && response.cols == 1 && |
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response.channels() == channels); |
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result = Mat::zeros(images[0].size(), CV_32FCC); |
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Mat wsum = Mat::zeros(images[0].size(), CV_32FCC); |
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for(size_t i = 0; i < images.size(); i++) { |
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Mat im, w; |
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LUT(images[i], weight, w); |
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LUT(images[i], response, im); |
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result += times.at<float>((int)i) * w.mul(im); |
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wsum += times.at<float>((int)i) * times.at<float>((int)i) * w; |
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} |
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result = result.mul(1 / wsum); |
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} |
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void process(InputArrayOfArrays src, OutputArray dst, InputArray times) |
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{ |
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process(src, dst, times, Mat()); |
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} |
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protected: |
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String name; |
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Mat weight; |
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}; |
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Ptr<MergeRobertson> createMergeRobertson() |
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{ |
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return makePtr<MergeRobertsonImpl>(); |
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} |
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}
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