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490 lines
21 KiB
490 lines
21 KiB
/*M/////////////////////////////////////////////////////////////////////////////////////// |
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// |
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// IMPORTANT: READ BEFORE DOWNLOADING, COPYING, INSTALLING OR USING. |
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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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// License Agreement |
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// For Open Source Computer Vision Library |
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// |
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// Copyright (C) 2000-2008, Intel Corporation, all rights reserved. |
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// Copyright (C) 2009, Willow Garage Inc., all rights reserved. |
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// Third party copyrights are property of their respective owners. |
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// Redistribution and use in source and binary forms, with or without modification, |
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// * Redistribution's of source code must retain the above copyright notice, |
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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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// * 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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// This software is provided by the copyright holders and contributors "as is" and |
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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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#ifndef OPENCV_CUDAFEATURES2D_HPP |
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#define OPENCV_CUDAFEATURES2D_HPP |
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#ifndef __cplusplus |
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# error cudafeatures2d.hpp header must be compiled as C++ |
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#endif |
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#include "opencv2/core/cuda.hpp" |
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#include "opencv2/features2d.hpp" |
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#include "opencv2/cudafilters.hpp" |
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/** |
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@addtogroup cuda |
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@{ |
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@defgroup cudafeatures2d Feature Detection and Description |
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@} |
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*/ |
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namespace cv { namespace cuda { |
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//! @addtogroup cudafeatures2d |
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//! @{ |
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// |
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// DescriptorMatcher |
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// |
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/** @brief Abstract base class for matching keypoint descriptors. |
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It has two groups of match methods: for matching descriptors of an image with another image or with |
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an image set. |
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*/ |
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class CV_EXPORTS_W DescriptorMatcher : public cv::Algorithm |
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{ |
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public: |
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// |
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// Factories |
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// |
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/** @brief Brute-force descriptor matcher. |
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For each descriptor in the first set, this matcher finds the closest descriptor in the second set |
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by trying each one. This descriptor matcher supports masking permissible matches of descriptor |
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sets. |
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@param normType One of NORM_L1, NORM_L2, NORM_HAMMING. L1 and L2 norms are |
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preferable choices for SIFT and SURF descriptors, NORM_HAMMING should be used with ORB, BRISK and |
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BRIEF). |
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*/ |
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CV_WRAP static Ptr<cuda::DescriptorMatcher> createBFMatcher(int normType = cv::NORM_L2); |
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// |
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// Utility |
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// |
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/** @brief Returns true if the descriptor matcher supports masking permissible matches. |
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*/ |
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CV_WRAP virtual bool isMaskSupported() const = 0; |
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// |
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// Descriptor collection |
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// |
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/** @brief Adds descriptors to train a descriptor collection. |
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If the collection is not empty, the new descriptors are added to existing train descriptors. |
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@param descriptors Descriptors to add. Each descriptors[i] is a set of descriptors from the same |
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train image. |
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*/ |
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CV_WRAP virtual void add(const std::vector<GpuMat>& descriptors) = 0; |
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/** @brief Returns a constant link to the train descriptor collection. |
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*/ |
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CV_WRAP virtual const std::vector<GpuMat>& getTrainDescriptors() const = 0; |
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/** @brief Clears the train descriptor collection. |
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*/ |
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CV_WRAP virtual void clear() = 0; |
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/** @brief Returns true if there are no train descriptors in the collection. |
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*/ |
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CV_WRAP virtual bool empty() const = 0; |
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/** @brief Trains a descriptor matcher. |
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Trains a descriptor matcher (for example, the flann index). In all methods to match, the method |
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train() is run every time before matching. |
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*/ |
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CV_WRAP virtual void train() = 0; |
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// |
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// 1 to 1 match |
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// |
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/** @brief Finds the best match for each descriptor from a query set (blocking version). |
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@param queryDescriptors Query set of descriptors. |
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@param trainDescriptors Train set of descriptors. This set is not added to the train descriptors |
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collection stored in the class object. |
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@param matches Matches. If a query descriptor is masked out in mask , no match is added for this |
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descriptor. So, matches size may be smaller than the query descriptors count. |
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@param mask Mask specifying permissible matches between an input query and train matrices of |
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descriptors. |
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In the first variant of this method, the train descriptors are passed as an input argument. In the |
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second variant of the method, train descriptors collection that was set by DescriptorMatcher::add is |
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used. Optional mask (or masks) can be passed to specify which query and training descriptors can be |
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matched. Namely, queryDescriptors[i] can be matched with trainDescriptors[j] only if |
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mask.at\<uchar\>(i,j) is non-zero. |
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*/ |
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CV_WRAP virtual void match(InputArray queryDescriptors, InputArray trainDescriptors, |
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CV_OUT std::vector<DMatch>& matches, |
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InputArray mask = noArray()) = 0; |
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/** @overload |
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*/ |
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CV_WRAP virtual void match(InputArray queryDescriptors, |
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CV_OUT std::vector<DMatch>& matches, |
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const std::vector<GpuMat>& masks = std::vector<GpuMat>()) = 0; |
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/** @brief Finds the best match for each descriptor from a query set (asynchronous version). |
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@param queryDescriptors Query set of descriptors. |
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@param trainDescriptors Train set of descriptors. This set is not added to the train descriptors |
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collection stored in the class object. |
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@param matches Matches array stored in GPU memory. Internal representation is not defined. |
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Use DescriptorMatcher::matchConvert method to retrieve results in standard representation. |
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@param mask Mask specifying permissible matches between an input query and train matrices of |
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descriptors. |
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@param stream CUDA stream. |
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In the first variant of this method, the train descriptors are passed as an input argument. In the |
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second variant of the method, train descriptors collection that was set by DescriptorMatcher::add is |
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used. Optional mask (or masks) can be passed to specify which query and training descriptors can be |
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matched. Namely, queryDescriptors[i] can be matched with trainDescriptors[j] only if |
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mask.at\<uchar\>(i,j) is non-zero. |
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*/ |
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CV_WRAP virtual void matchAsync(InputArray queryDescriptors, InputArray trainDescriptors, |
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OutputArray matches, |
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InputArray mask = noArray(), |
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Stream& stream = Stream::Null()) = 0; |
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/** @overload |
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*/ |
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CV_WRAP virtual void matchAsync(InputArray queryDescriptors, |
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OutputArray matches, |
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const std::vector<GpuMat>& masks = std::vector<GpuMat>(), |
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Stream& stream = Stream::Null()) = 0; |
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/** @brief Converts matches array from internal representation to standard matches vector. |
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The method is supposed to be used with DescriptorMatcher::matchAsync to get final result. |
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Call this method only after DescriptorMatcher::matchAsync is completed (ie. after synchronization). |
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@param gpu_matches Matches, returned from DescriptorMatcher::matchAsync. |
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@param matches Vector of DMatch objects. |
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*/ |
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CV_WRAP virtual void matchConvert(InputArray gpu_matches, |
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CV_OUT std::vector<DMatch>& matches) = 0; |
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// |
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// knn match |
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// |
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/** @brief Finds the k best matches for each descriptor from a query set (blocking version). |
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@param queryDescriptors Query set of descriptors. |
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@param trainDescriptors Train set of descriptors. This set is not added to the train descriptors |
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collection stored in the class object. |
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@param matches Matches. Each matches[i] is k or less matches for the same query descriptor. |
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@param k Count of best matches found per each query descriptor or less if a query descriptor has |
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less than k possible matches in total. |
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@param mask Mask specifying permissible matches between an input query and train matrices of |
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descriptors. |
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@param compactResult Parameter used when the mask (or masks) is not empty. If compactResult is |
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false, the matches vector has the same size as queryDescriptors rows. If compactResult is true, |
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the matches vector does not contain matches for fully masked-out query descriptors. |
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These extended variants of DescriptorMatcher::match methods find several best matches for each query |
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descriptor. The matches are returned in the distance increasing order. See DescriptorMatcher::match |
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for the details about query and train descriptors. |
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*/ |
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CV_WRAP virtual void knnMatch(InputArray queryDescriptors, InputArray trainDescriptors, |
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CV_OUT std::vector<std::vector<DMatch> >& matches, |
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int k, |
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InputArray mask = noArray(), |
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bool compactResult = false) = 0; |
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/** @overload |
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*/ |
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CV_WRAP virtual void knnMatch(InputArray queryDescriptors, |
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CV_OUT std::vector<std::vector<DMatch> >& matches, |
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int k, |
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const std::vector<GpuMat>& masks = std::vector<GpuMat>(), |
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bool compactResult = false) = 0; |
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/** @brief Finds the k best matches for each descriptor from a query set (asynchronous version). |
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@param queryDescriptors Query set of descriptors. |
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@param trainDescriptors Train set of descriptors. This set is not added to the train descriptors |
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collection stored in the class object. |
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@param matches Matches array stored in GPU memory. Internal representation is not defined. |
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Use DescriptorMatcher::knnMatchConvert method to retrieve results in standard representation. |
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@param k Count of best matches found per each query descriptor or less if a query descriptor has |
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less than k possible matches in total. |
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@param mask Mask specifying permissible matches between an input query and train matrices of |
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descriptors. |
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@param stream CUDA stream. |
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These extended variants of DescriptorMatcher::matchAsync methods find several best matches for each query |
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descriptor. The matches are returned in the distance increasing order. See DescriptorMatcher::matchAsync |
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for the details about query and train descriptors. |
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*/ |
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CV_WRAP virtual void knnMatchAsync(InputArray queryDescriptors, InputArray trainDescriptors, |
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OutputArray matches, |
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int k, |
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InputArray mask = noArray(), |
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Stream& stream = Stream::Null()) = 0; |
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/** @overload |
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*/ |
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CV_WRAP virtual void knnMatchAsync(InputArray queryDescriptors, |
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OutputArray matches, |
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int k, |
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const std::vector<GpuMat>& masks = std::vector<GpuMat>(), |
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Stream& stream = Stream::Null()) = 0; |
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/** @brief Converts matches array from internal representation to standard matches vector. |
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The method is supposed to be used with DescriptorMatcher::knnMatchAsync to get final result. |
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Call this method only after DescriptorMatcher::knnMatchAsync is completed (ie. after synchronization). |
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@param gpu_matches Matches, returned from DescriptorMatcher::knnMatchAsync. |
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@param matches Vector of DMatch objects. |
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@param compactResult Parameter used when the mask (or masks) is not empty. If compactResult is |
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false, the matches vector has the same size as queryDescriptors rows. If compactResult is true, |
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the matches vector does not contain matches for fully masked-out query descriptors. |
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*/ |
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CV_WRAP virtual void knnMatchConvert(InputArray gpu_matches, |
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std::vector< std::vector<DMatch> >& matches, |
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bool compactResult = false) = 0; |
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// |
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// radius match |
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// |
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/** @brief For each query descriptor, finds the training descriptors not farther than the specified distance (blocking version). |
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@param queryDescriptors Query set of descriptors. |
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@param trainDescriptors Train set of descriptors. This set is not added to the train descriptors |
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collection stored in the class object. |
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@param matches Found matches. |
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@param maxDistance Threshold for the distance between matched descriptors. Distance means here |
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metric distance (e.g. Hamming distance), not the distance between coordinates (which is measured |
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in Pixels)! |
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@param mask Mask specifying permissible matches between an input query and train matrices of |
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descriptors. |
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@param compactResult Parameter used when the mask (or masks) is not empty. If compactResult is |
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false, the matches vector has the same size as queryDescriptors rows. If compactResult is true, |
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the matches vector does not contain matches for fully masked-out query descriptors. |
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For each query descriptor, the methods find such training descriptors that the distance between the |
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query descriptor and the training descriptor is equal or smaller than maxDistance. Found matches are |
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returned in the distance increasing order. |
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*/ |
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CV_WRAP virtual void radiusMatch(InputArray queryDescriptors, InputArray trainDescriptors, |
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CV_OUT std::vector<std::vector<DMatch> >& matches, |
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float maxDistance, |
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InputArray mask = noArray(), |
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bool compactResult = false) = 0; |
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/** @overload |
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*/ |
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CV_WRAP virtual void radiusMatch(InputArray queryDescriptors, |
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CV_OUT std::vector<std::vector<DMatch> >& matches, |
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float maxDistance, |
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const std::vector<GpuMat>& masks = std::vector<GpuMat>(), |
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bool compactResult = false) = 0; |
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/** @brief For each query descriptor, finds the training descriptors not farther than the specified distance (asynchronous version). |
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@param queryDescriptors Query set of descriptors. |
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@param trainDescriptors Train set of descriptors. This set is not added to the train descriptors |
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collection stored in the class object. |
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@param matches Matches array stored in GPU memory. Internal representation is not defined. |
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Use DescriptorMatcher::radiusMatchConvert method to retrieve results in standard representation. |
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@param maxDistance Threshold for the distance between matched descriptors. Distance means here |
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metric distance (e.g. Hamming distance), not the distance between coordinates (which is measured |
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in Pixels)! |
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@param mask Mask specifying permissible matches between an input query and train matrices of |
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descriptors. |
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@param stream CUDA stream. |
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For each query descriptor, the methods find such training descriptors that the distance between the |
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query descriptor and the training descriptor is equal or smaller than maxDistance. Found matches are |
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returned in the distance increasing order. |
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*/ |
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CV_WRAP virtual void radiusMatchAsync(InputArray queryDescriptors, InputArray trainDescriptors, |
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OutputArray matches, |
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float maxDistance, |
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InputArray mask = noArray(), |
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Stream& stream = Stream::Null()) = 0; |
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/** @overload |
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*/ |
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CV_WRAP virtual void radiusMatchAsync(InputArray queryDescriptors, |
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OutputArray matches, |
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float maxDistance, |
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const std::vector<GpuMat>& masks = std::vector<GpuMat>(), |
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Stream& stream = Stream::Null()) = 0; |
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/** @brief Converts matches array from internal representation to standard matches vector. |
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The method is supposed to be used with DescriptorMatcher::radiusMatchAsync to get final result. |
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Call this method only after DescriptorMatcher::radiusMatchAsync is completed (ie. after synchronization). |
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@param gpu_matches Matches, returned from DescriptorMatcher::radiusMatchAsync. |
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@param matches Vector of DMatch objects. |
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@param compactResult Parameter used when the mask (or masks) is not empty. If compactResult is |
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false, the matches vector has the same size as queryDescriptors rows. If compactResult is true, |
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the matches vector does not contain matches for fully masked-out query descriptors. |
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*/ |
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CV_WRAP virtual void radiusMatchConvert(InputArray gpu_matches, |
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std::vector< std::vector<DMatch> >& matches, |
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bool compactResult = false) = 0; |
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}; |
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// |
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// Feature2DAsync |
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// |
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/** @brief Abstract base class for CUDA asynchronous 2D image feature detectors and descriptor extractors. |
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*/ |
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class CV_EXPORTS_W Feature2DAsync : public cv::Feature2D |
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{ |
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public: |
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CV_WRAP virtual ~Feature2DAsync(); |
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/** @brief Detects keypoints in an image. |
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@param image Image. |
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@param keypoints The detected keypoints. |
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@param mask Mask specifying where to look for keypoints (optional). It must be a 8-bit integer |
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matrix with non-zero values in the region of interest. |
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@param stream CUDA stream. |
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*/ |
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CV_WRAP virtual void detectAsync(InputArray image, |
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OutputArray keypoints, |
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InputArray mask = noArray(), |
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Stream& stream = Stream::Null()); |
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/** @brief Computes the descriptors for a set of keypoints detected in an image. |
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@param image Image. |
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@param keypoints Input collection of keypoints. |
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@param descriptors Computed descriptors. Row j is the descriptor for j-th keypoint. |
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@param stream CUDA stream. |
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*/ |
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CV_WRAP virtual void computeAsync(InputArray image, |
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OutputArray keypoints, |
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OutputArray descriptors, |
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Stream& stream = Stream::Null()); |
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/** Detects keypoints and computes the descriptors. */ |
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CV_WRAP virtual void detectAndComputeAsync(InputArray image, |
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InputArray mask, |
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OutputArray keypoints, |
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OutputArray descriptors, |
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bool useProvidedKeypoints = false, |
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Stream& stream = Stream::Null()); |
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/** Converts keypoints array from internal representation to standard vector. */ |
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CV_WRAP virtual void convert(InputArray gpu_keypoints, |
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std::vector<KeyPoint>& keypoints) = 0; |
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}; |
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// |
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// FastFeatureDetector |
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// |
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/** @brief Wrapping class for feature detection using the FAST method. |
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*/ |
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class CV_EXPORTS_W FastFeatureDetector : public Feature2DAsync |
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{ |
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public: |
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enum |
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{ |
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LOCATION_ROW = 0, |
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RESPONSE_ROW, |
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ROWS_COUNT, |
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FEATURE_SIZE = 7 |
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}; |
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CV_WRAP static Ptr<cuda::FastFeatureDetector> create(int threshold=10, |
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bool nonmaxSuppression=true, |
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int type=cv::FastFeatureDetector::TYPE_9_16, |
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int max_npoints = 5000); |
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CV_WRAP virtual void setThreshold(int threshold) = 0; |
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CV_WRAP virtual void setMaxNumPoints(int max_npoints) = 0; |
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CV_WRAP virtual int getMaxNumPoints() const = 0; |
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}; |
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// |
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// ORB |
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// |
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/** @brief Class implementing the ORB (*oriented BRIEF*) keypoint detector and descriptor extractor |
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* |
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* @sa cv::ORB |
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*/ |
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class CV_EXPORTS_W ORB : public Feature2DAsync |
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{ |
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public: |
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enum |
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{ |
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X_ROW = 0, |
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Y_ROW, |
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RESPONSE_ROW, |
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ANGLE_ROW, |
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OCTAVE_ROW, |
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SIZE_ROW, |
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ROWS_COUNT |
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}; |
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CV_WRAP static Ptr<cuda::ORB> create(int nfeatures=500, |
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float scaleFactor=1.2f, |
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int nlevels=8, |
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int edgeThreshold=31, |
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int firstLevel=0, |
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int WTA_K=2, |
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int scoreType=cv::ORB::HARRIS_SCORE, |
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int patchSize=31, |
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int fastThreshold=20, |
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bool blurForDescriptor=false); |
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//! if true, image will be blurred before descriptors calculation |
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CV_WRAP virtual void setBlurForDescriptor(bool blurForDescriptor) = 0; |
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CV_WRAP virtual bool getBlurForDescriptor() const = 0; |
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}; |
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//! @} |
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}} // namespace cv { namespace cuda { |
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#endif /* OPENCV_CUDAFEATURES2D_HPP */
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