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Merge pull request #13362 from alalek:photo_move_durand_contrib
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@ -180,17 +180,6 @@
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volume = {9},
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volume = {9},
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publisher = {Walter de Gruyter}
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publisher = {Walter de Gruyter}
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}
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}
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@inproceedings{DD02,
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author = {Durand, Fr{\'e}do and Dorsey, Julie},
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title = {Fast bilateral filtering for the display of high-dynamic-range images},
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booktitle = {ACM Transactions on Graphics (TOG)},
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year = {2002},
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pages = {257--266},
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volume = {21},
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number = {3},
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publisher = {ACM},
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url = {https://www.researchgate.net/profile/Julie_Dorsey/publication/220184746_Fast_Bilateral_Filtering_for_the_Display_of_High_-_dynamic_-_range_Images/links/54566b000cf26d5090a95f96/Fast-Bilateral-Filtering-for-the-Display-of-High-dynamic-range-Images.pdf}
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}
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@inproceedings{DM03,
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@inproceedings{DM03,
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author = {Drago, Fr{\'e}d{\'e}ric and Myszkowski, Karol and Annen, Thomas and Chiba, Norishige},
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author = {Drago, Fr{\'e}d{\'e}ric and Myszkowski, Karol and Annen, Thomas and Chiba, Norishige},
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title = {Adaptive logarithmic mapping for displaying high contrast scenes},
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title = {Adaptive logarithmic mapping for displaying high contrast scenes},
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@ -85,10 +85,8 @@ we will later have to clip the data in order to avoid overflow.
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@code{.py}
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@code{.py}
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# Tonemap HDR image
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# Tonemap HDR image
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tonemap1 = cv.createTonemapDurand(gamma=2.2)
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tonemap1 = cv.createTonemap(gamma=2.2)
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res_debevec = tonemap1.process(hdr_debevec.copy())
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res_debevec = tonemap1.process(hdr_debevec.copy())
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tonemap2 = cv.createTonemapDurand(gamma=1.3)
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res_robertson = tonemap2.process(hdr_robertson.copy())
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@endcode
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@endcode
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### 4. Merge exposures using Mertens fusion
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### 4. Merge exposures using Mertens fusion
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@ -173,5 +171,5 @@ Additional Resources
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Exercises
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Exercises
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---------
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---------
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1. Try all tonemap algorithms: cv::TonemapDrago, cv::TonemapDurand, cv::TonemapMantiuk and cv::TonemapReinhard
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1. Try all tonemap algorithms: cv::TonemapDrago, cv::TonemapMantiuk and cv::TonemapReinhard
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2. Try changing the parameters in the HDR calibration and tonemap methods.
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2. Try changing the parameters in the HDR calibration and tonemap methods.
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@ -171,7 +171,7 @@ Now it's time to look at the results. Note that HDR image can't be stored in one
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formats, so we save it to Radiance image (.hdr). Also all HDR imaging functions return results in
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formats, so we save it to Radiance image (.hdr). Also all HDR imaging functions return results in
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[0, 1] range so we should multiply result by 255.
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[0, 1] range so we should multiply result by 255.
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You can try other tonemap algorithms: cv::TonemapDrago, cv::TonemapDurand, cv::TonemapMantiuk and cv::TonemapReinhard
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You can try other tonemap algorithms: cv::TonemapDrago, cv::TonemapMantiuk and cv::TonemapReinhard
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You can also adjust the parameters in the HDR calibration and tonemap methods for your own photos.
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You can also adjust the parameters in the HDR calibration and tonemap methods for your own photos.
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Results
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Results
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@ -376,43 +376,6 @@ results, default value is 0.85.
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*/
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*/
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CV_EXPORTS_W Ptr<TonemapDrago> createTonemapDrago(float gamma = 1.0f, float saturation = 1.0f, float bias = 0.85f);
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CV_EXPORTS_W Ptr<TonemapDrago> createTonemapDrago(float gamma = 1.0f, float saturation = 1.0f, float bias = 0.85f);
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/** @brief This algorithm decomposes image into two layers: base layer and detail layer using bilateral filter
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and compresses contrast of the base layer thus preserving all the details.
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This implementation uses regular bilateral filter from opencv.
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Saturation enhancement is possible as in ocvTonemapDrago.
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For more information see @cite DD02 .
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*/
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class CV_EXPORTS_W TonemapDurand : public Tonemap
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{
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public:
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CV_WRAP virtual float getSaturation() const = 0;
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CV_WRAP virtual void setSaturation(float saturation) = 0;
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CV_WRAP virtual float getContrast() const = 0;
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CV_WRAP virtual void setContrast(float contrast) = 0;
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CV_WRAP virtual float getSigmaSpace() const = 0;
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CV_WRAP virtual void setSigmaSpace(float sigma_space) = 0;
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CV_WRAP virtual float getSigmaColor() const = 0;
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CV_WRAP virtual void setSigmaColor(float sigma_color) = 0;
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};
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/** @brief Creates TonemapDurand object
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@param gamma gamma value for gamma correction. See createTonemap
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@param contrast resulting contrast on logarithmic scale, i. e. log(max / min), where max and min
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are maximum and minimum luminance values of the resulting image.
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@param saturation saturation enhancement value. See createTonemapDrago
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@param sigma_space bilateral filter sigma in color space
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@param sigma_color bilateral filter sigma in coordinate space
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*/
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CV_EXPORTS_W Ptr<TonemapDurand>
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createTonemapDurand(float gamma = 1.0f, float contrast = 4.0f, float saturation = 1.0f, float sigma_space = 2.0f, float sigma_color = 2.0f);
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/** @brief This is a global tonemapping operator that models human visual system.
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/** @brief This is a global tonemapping operator that models human visual system.
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@ -193,94 +193,6 @@ Ptr<TonemapDrago> createTonemapDrago(float gamma, float saturation, float bias)
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return makePtr<TonemapDragoImpl>(gamma, saturation, bias);
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return makePtr<TonemapDragoImpl>(gamma, saturation, bias);
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}
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}
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class TonemapDurandImpl CV_FINAL : public TonemapDurand
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{
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public:
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TonemapDurandImpl(float _gamma, float _contrast, float _saturation, float _sigma_color, float _sigma_space) :
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name("TonemapDurand"),
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gamma(_gamma),
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contrast(_contrast),
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saturation(_saturation),
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sigma_color(_sigma_color),
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sigma_space(_sigma_space)
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{
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}
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void process(InputArray _src, OutputArray _dst) CV_OVERRIDE
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{
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CV_INSTRUMENT_REGION();
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Mat src = _src.getMat();
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CV_Assert(!src.empty());
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_dst.create(src.size(), CV_32FC3);
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Mat img = _dst.getMat();
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Ptr<Tonemap> linear = createTonemap(1.0f);
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linear->process(src, img);
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Mat gray_img;
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cvtColor(img, gray_img, COLOR_RGB2GRAY);
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Mat log_img;
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log_(gray_img, log_img);
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Mat map_img;
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bilateralFilter(log_img, map_img, -1, sigma_color, sigma_space);
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double min, max;
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minMaxLoc(map_img, &min, &max);
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float scale = contrast / static_cast<float>(max - min);
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exp(map_img * (scale - 1.0f) + log_img, map_img);
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log_img.release();
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mapLuminance(img, img, gray_img, map_img, saturation);
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pow(img, 1.0f / gamma, img);
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}
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float getGamma() const CV_OVERRIDE { return gamma; }
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void setGamma(float val) CV_OVERRIDE { gamma = val; }
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float getSaturation() const CV_OVERRIDE { return saturation; }
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void setSaturation(float val) CV_OVERRIDE { saturation = val; }
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float getContrast() const CV_OVERRIDE { return contrast; }
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void setContrast(float val) CV_OVERRIDE { contrast = val; }
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float getSigmaColor() const CV_OVERRIDE { return sigma_color; }
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void setSigmaColor(float val) CV_OVERRIDE { sigma_color = val; }
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float getSigmaSpace() const CV_OVERRIDE { return sigma_space; }
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void setSigmaSpace(float val) CV_OVERRIDE { sigma_space = val; }
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void write(FileStorage& fs) const CV_OVERRIDE
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{
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writeFormat(fs);
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fs << "name" << name
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<< "gamma" << gamma
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<< "contrast" << contrast
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<< "sigma_color" << sigma_color
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<< "sigma_space" << sigma_space
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<< "saturation" << saturation;
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}
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void read(const FileNode& fn) CV_OVERRIDE
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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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gamma = fn["gamma"];
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contrast = fn["contrast"];
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sigma_color = fn["sigma_color"];
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sigma_space = fn["sigma_space"];
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saturation = fn["saturation"];
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}
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protected:
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String name;
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float gamma, contrast, saturation, sigma_color, sigma_space;
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};
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Ptr<TonemapDurand> createTonemapDurand(float gamma, float contrast, float saturation, float sigma_color, float sigma_space)
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{
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return makePtr<TonemapDurandImpl>(gamma, contrast, saturation, sigma_color, sigma_space);
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}
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class TonemapReinhardImpl CV_FINAL : public TonemapReinhard
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class TonemapReinhardImpl CV_FINAL : public TonemapReinhard
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{
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{
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public:
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public:
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@ -105,12 +105,6 @@ TEST(Photo_Tonemap, regression)
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result.convertTo(result, CV_8UC3, 255);
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result.convertTo(result, CV_8UC3, 255);
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checkEqual(result, expected, 3, "Drago");
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checkEqual(result, expected, 3, "Drago");
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Ptr<TonemapDurand> durand = createTonemapDurand(gamma);
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durand->process(img, result);
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loadImage(test_path + "durand.png", expected);
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result.convertTo(result, CV_8UC3, 255);
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checkEqual(result, expected, 3, "Durand");
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Ptr<TonemapReinhard> reinhard = createTonemapReinhard(gamma);
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Ptr<TonemapReinhard> reinhard = createTonemapReinhard(gamma);
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reinhard->process(img, result);
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reinhard->process(img, result);
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loadImage(test_path + "reinhard.png", expected);
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loadImage(test_path + "reinhard.png", expected);
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//! [Tonemap HDR image]
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//! [Tonemap HDR image]
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Mat ldr;
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Mat ldr;
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Ptr<TonemapDurand> tonemap = createTonemapDurand(2.2f);
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Ptr<Tonemap> tonemap = createTonemap(2.2f);
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tonemap->process(hdr, ldr);
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tonemap->process(hdr, ldr);
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//! [Tonemap HDR image]
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//! [Tonemap HDR image]
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@ -13,7 +13,7 @@ import org.opencv.photo.CalibrateDebevec;
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import org.opencv.photo.MergeDebevec;
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import org.opencv.photo.MergeDebevec;
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import org.opencv.photo.MergeMertens;
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import org.opencv.photo.MergeMertens;
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import org.opencv.photo.Photo;
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import org.opencv.photo.Photo;
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import org.opencv.photo.TonemapDurand;
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import org.opencv.photo.Tonemap;
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class HDRImaging {
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class HDRImaging {
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public void loadExposureSeq(String path, List<Mat> images, List<Float> times) {
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public void loadExposureSeq(String path, List<Mat> images, List<Float> times) {
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@ -71,7 +71,7 @@ class HDRImaging {
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//! [Tonemap HDR image]
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//! [Tonemap HDR image]
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Mat ldr = new Mat();
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Mat ldr = new Mat();
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TonemapDurand tonemap = Photo.createTonemapDurand(2.2f, 4.0f, 1.0f, 2.0f, 2.0f);
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Tonemap tonemap = Photo.createTonemap(2.2f);
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tonemap.process(hdr, ldr);
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tonemap.process(hdr, ldr);
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//! [Tonemap HDR image]
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//! [Tonemap HDR image]
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## [Make HDR image]
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## [Make HDR image]
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## [Tonemap HDR image]
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## [Tonemap HDR image]
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tonemap = cv.createTonemapDurand(2.2)
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tonemap = cv.createTonemap(2.2)
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ldr = tonemap.process(hdr)
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ldr = tonemap.process(hdr)
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## [Tonemap HDR image]
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## [Tonemap HDR image]
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