2014-04-28 20:01:42 +08:00
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/*M///////////////////////////////////////////////////////////////////////////////////////
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//
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// IMPORTANT: READ BEFORE DOWNLOADING, COPYING, INSTALLING OR USING.
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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) 2008, Willow Garage Inc., all rights reserved.
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//M*/
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/*
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OpenCV wrapper of reference implementation of
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[1] Fast Explicit Diffusion for Accelerated Features in Nonlinear Scale Spaces.
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Pablo F. Alcantarilla, J. Nuevo and Adrien Bartoli.
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In British Machine Vision Conference (BMVC), Bristol, UK, September 2013
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http://www.robesafe.com/personal/pablo.alcantarilla/papers/Alcantarilla13bmvc.pdf
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@author Eugene Khvedchenya <ekhvedchenya@gmail.com>
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*/
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2014-04-05 15:25:46 +08:00
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#include "precomp.hpp"
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2014-07-30 22:02:08 +08:00
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#include "kaze/AKAZEFeatures.h"
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#include <iostream>
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2014-04-05 15:25:46 +08:00
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namespace cv
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{
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2014-10-16 02:49:17 +08:00
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using namespace std;
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2014-10-16 02:49:17 +08:00
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class AKAZE_Impl : public AKAZE
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{
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public:
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AKAZE_Impl(int _descriptor_type, int _descriptor_size, int _descriptor_channels,
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float _threshold, int _octaves, int _sublevels, int _diffusivity)
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2014-05-10 03:21:26 +08:00
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: descriptor(_descriptor_type)
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, descriptor_channels(_descriptor_channels)
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, descriptor_size(_descriptor_size)
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, threshold(_threshold)
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, octaves(_octaves)
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, sublevels(_sublevels)
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, diffusivity(_diffusivity)
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{
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}
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virtual ~AKAZE_Impl()
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{
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}
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2014-10-19 00:44:26 +08:00
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void setDescriptorType(int dtype) { descriptor = dtype; }
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int getDescriptorType() const { return descriptor; }
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void setDescriptorSize(int dsize) { descriptor_size = dsize; }
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int getDescriptorSize() const { return descriptor_size; }
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void setDescriptorChannels(int dch) { descriptor_channels = dch; }
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int getDescriptorChannels() const { return descriptor_channels; }
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void setThreshold(double threshold_) { threshold = threshold_; }
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double getThreshold() const { return threshold; }
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void setNOctaves(int octaves_) { octaves = octaves_; }
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int getNOctaves() const { return octaves; }
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void setNOctaveLayers(int octaveLayers_) { sublevels = octaveLayers_; }
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int getNOctaveLayers() const { return sublevels; }
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void setDiffusivity(int diff_) { diffusivity = diff_; }
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int getDiffusivity() const { return diffusivity; }
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// returns the descriptor size in bytes
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int descriptorSize() const
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{
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switch (descriptor)
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{
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case DESCRIPTOR_KAZE:
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case DESCRIPTOR_KAZE_UPRIGHT:
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return 64;
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case DESCRIPTOR_MLDB:
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case DESCRIPTOR_MLDB_UPRIGHT:
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// We use the full length binary descriptor -> 486 bits
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if (descriptor_size == 0)
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{
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int t = (6 + 36 + 120) * descriptor_channels;
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return (int)ceil(t / 8.);
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}
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else
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{
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// We use the random bit selection length binary descriptor
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return (int)ceil(descriptor_size / 8.);
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}
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2014-05-09 23:46:00 +08:00
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default:
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return -1;
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}
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2014-04-05 15:25:46 +08:00
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}
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// returns the descriptor type
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int descriptorType() const
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{
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switch (descriptor)
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{
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case DESCRIPTOR_KAZE:
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case DESCRIPTOR_KAZE_UPRIGHT:
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return CV_32F;
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case DESCRIPTOR_MLDB:
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case DESCRIPTOR_MLDB_UPRIGHT:
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return CV_8U;
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default:
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return -1;
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}
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2014-04-05 15:25:46 +08:00
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}
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2014-10-16 02:49:17 +08:00
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// returns the default norm type
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int defaultNorm() const
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{
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switch (descriptor)
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{
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case DESCRIPTOR_KAZE:
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case DESCRIPTOR_KAZE_UPRIGHT:
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return NORM_L2;
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2014-10-16 02:49:17 +08:00
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case DESCRIPTOR_MLDB:
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case DESCRIPTOR_MLDB_UPRIGHT:
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return NORM_HAMMING;
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default:
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return -1;
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}
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2014-04-05 15:25:46 +08:00
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}
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2014-10-16 02:49:17 +08:00
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void detectAndCompute(InputArray image, InputArray mask,
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std::vector<KeyPoint>& keypoints,
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OutputArray descriptors,
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bool useProvidedKeypoints)
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{
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Mat img = image.getMat();
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if (img.type() != CV_8UC1)
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cvtColor(image, img, COLOR_BGR2GRAY);
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Mat img1_32;
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img.convertTo(img1_32, CV_32F, 1.0 / 255.0, 0);
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AKAZEOptions options;
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options.descriptor = descriptor;
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options.descriptor_channels = descriptor_channels;
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options.descriptor_size = descriptor_size;
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options.img_width = img.cols;
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options.img_height = img.rows;
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options.dthreshold = threshold;
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options.omax = octaves;
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options.nsublevels = sublevels;
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options.diffusivity = diffusivity;
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AKAZEFeatures impl(options);
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impl.Create_Nonlinear_Scale_Space(img1_32);
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if (!useProvidedKeypoints)
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{
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impl.Feature_Detection(keypoints);
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}
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if (!mask.empty())
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{
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KeyPointsFilter::runByPixelsMask(keypoints, mask.getMat());
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}
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2014-10-16 02:49:17 +08:00
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if( descriptors.needed() )
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{
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Mat& desc = descriptors.getMatRef();
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impl.Compute_Descriptors(keypoints, desc);
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CV_Assert((!desc.rows || desc.cols == descriptorSize()));
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CV_Assert((!desc.rows || (desc.type() == descriptorType())));
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}
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}
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2014-10-16 21:00:40 +08:00
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void write(FileStorage& fs) const
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{
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fs << "descriptor" << descriptor;
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fs << "descriptor_channels" << descriptor_channels;
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fs << "descriptor_size" << descriptor_size;
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fs << "threshold" << threshold;
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fs << "octaves" << octaves;
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fs << "sublevels" << sublevels;
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fs << "diffusivity" << diffusivity;
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}
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void read(const FileNode& fn)
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{
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descriptor = (int)fn["descriptor"];
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descriptor_channels = (int)fn["descriptor_channels"];
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descriptor_size = (int)fn["descriptor_size"];
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threshold = (float)fn["threshold"];
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octaves = (int)fn["octaves"];
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sublevels = (int)fn["sublevels"];
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diffusivity = (int)fn["diffusivity"];
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}
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2014-10-16 02:49:17 +08:00
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int descriptor;
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int descriptor_channels;
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int descriptor_size;
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float threshold;
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int octaves;
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int sublevels;
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int diffusivity;
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};
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Ptr<AKAZE> AKAZE::create(int descriptor_type,
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int descriptor_size, int descriptor_channels,
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float threshold, int octaves,
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int sublevels, int diffusivity)
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2014-04-05 15:25:46 +08:00
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{
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2014-10-16 02:49:17 +08:00
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return makePtr<AKAZE_Impl>(descriptor_type, descriptor_size, descriptor_channels,
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threshold, octaves, sublevels, diffusivity);
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2014-04-05 15:25:46 +08:00
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}
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2014-07-30 22:02:08 +08:00
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}
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