opencv/modules/features2d/src/kaze.cpp
Hamdi Sahloul ef5579dc86 Merge pull request #12310 from cv3d:chunks/enum_interface
* Cleanup macros and enable expansion of `__VA_ARGS__` for Visual Studio

* Macros for enum-arguments backwards compatibility

* Convert struct Param to enum struct

* Enabled ParamType.type for enum types

* Enabled `cv.read` and `cv.write` for enum types

* Rename unnamed enum to AAKAZE.DescriptorType

* Rename unnamed enum to AccessFlag

* Rename unnamed enum to AgastFeatureDetector.DetectorType

* Convert struct DrawMatchesFlags to enum struct

* Rename unnamed enum to FastFeatureDetector.DetectorType

* Rename unnamed enum to Formatter.FormatType

* Rename unnamed enum to HOGDescriptor.HistogramNormType

* Rename unnamed enum to DescriptorMatcher.MatcherType

* Rename unnamed enum to KAZE.DiffusivityType

* Rename unnamed enum to ORB.ScoreType

* Rename unnamed enum to UMatData.MemoryFlag

* Rename unnamed enum to _InputArray.KindFlag

* Rename unnamed enum to _OutputArray.DepthMask

* Convert normType enums to static const NormTypes

* Avoid conflicts with ElemType

* Rename unnamed enum to DescriptorStorageFormat
2018-09-21 18:12:35 +03:00

206 lines
7.4 KiB
C++

/*M///////////////////////////////////////////////////////////////////////////////////////
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/*
OpenCV wrapper of reference implementation of
[1] KAZE Features. Pablo F. Alcantarilla, Adrien Bartoli and Andrew J. Davison.
In European Conference on Computer Vision (ECCV), Fiorenze, Italy, October 2012
http://www.robesafe.com/personal/pablo.alcantarilla/papers/Alcantarilla12eccv.pdf
@author Eugene Khvedchenya <ekhvedchenya@gmail.com>
*/
#include "precomp.hpp"
#include "kaze/KAZEFeatures.h"
namespace cv
{
class KAZE_Impl CV_FINAL : public KAZE
{
public:
KAZE_Impl(bool _extended, bool _upright, float _threshold, int _octaves,
int _sublevels, KAZE::DiffusivityType _diffusivity)
: extended(_extended)
, upright(_upright)
, threshold(_threshold)
, octaves(_octaves)
, sublevels(_sublevels)
, diffusivity(_diffusivity)
{
}
virtual ~KAZE_Impl() CV_OVERRIDE {}
void setExtended(bool extended_) CV_OVERRIDE { extended = extended_; }
bool getExtended() const CV_OVERRIDE { return extended; }
void setUpright(bool upright_) CV_OVERRIDE { upright = upright_; }
bool getUpright() const CV_OVERRIDE { return upright; }
void setThreshold(double threshold_) CV_OVERRIDE { threshold = (float)threshold_; }
double getThreshold() const CV_OVERRIDE { return threshold; }
void setNOctaves(int octaves_) CV_OVERRIDE { octaves = octaves_; }
int getNOctaves() const CV_OVERRIDE { return octaves; }
void setNOctaveLayers(int octaveLayers_) CV_OVERRIDE { sublevels = octaveLayers_; }
int getNOctaveLayers() const CV_OVERRIDE { return sublevels; }
void setDiffusivity(KAZE::DiffusivityType diff_) CV_OVERRIDE{ diffusivity = diff_; }
KAZE::DiffusivityType getDiffusivity() const CV_OVERRIDE{ return diffusivity; }
// returns the descriptor size in bytes
int descriptorSize() const CV_OVERRIDE
{
return extended ? 128 : 64;
}
// returns the descriptor type
int descriptorType() const CV_OVERRIDE
{
return CV_32F;
}
// returns the default norm type
int defaultNorm() const CV_OVERRIDE
{
return NORM_L2;
}
void detectAndCompute(InputArray image, InputArray mask,
std::vector<KeyPoint>& keypoints,
OutputArray descriptors,
bool useProvidedKeypoints) CV_OVERRIDE
{
CV_INSTRUMENT_REGION();
cv::Mat img = image.getMat();
if (img.channels() > 1)
cvtColor(image, img, COLOR_BGR2GRAY);
Mat img1_32;
if ( img.depth() == CV_32F )
img1_32 = img;
else if ( img.depth() == CV_8U )
img.convertTo(img1_32, CV_32F, 1.0 / 255.0, 0);
else if ( img.depth() == CV_16U )
img.convertTo(img1_32, CV_32F, 1.0 / 65535.0, 0);
CV_Assert( ! img1_32.empty() );
KAZEOptions options;
options.img_width = img.cols;
options.img_height = img.rows;
options.extended = extended;
options.upright = upright;
options.dthreshold = threshold;
options.omax = octaves;
options.nsublevels = sublevels;
options.diffusivity = diffusivity;
KAZEFeatures impl(options);
impl.Create_Nonlinear_Scale_Space(img1_32);
if (!useProvidedKeypoints)
{
impl.Feature_Detection(keypoints);
}
if (!mask.empty())
{
cv::KeyPointsFilter::runByPixelsMask(keypoints, mask.getMat());
}
if( descriptors.needed() )
{
Mat desc;
impl.Feature_Description(keypoints, desc);
desc.copyTo(descriptors);
CV_Assert((!desc.rows || desc.cols == descriptorSize()));
CV_Assert((!desc.rows || (desc.type() == descriptorType())));
}
}
void write(FileStorage& fs) const CV_OVERRIDE
{
writeFormat(fs);
fs << "extended" << (int)extended;
fs << "upright" << (int)upright;
fs << "threshold" << threshold;
fs << "octaves" << octaves;
fs << "sublevels" << sublevels;
fs << "diffusivity" << diffusivity;
}
void read(const FileNode& fn) CV_OVERRIDE
{
extended = (int)fn["extended"] != 0;
upright = (int)fn["upright"] != 0;
threshold = (float)fn["threshold"];
octaves = (int)fn["octaves"];
sublevels = (int)fn["sublevels"];
diffusivity = static_cast<KAZE::DiffusivityType>((int)fn["diffusivity"]);
}
bool extended;
bool upright;
float threshold;
int octaves;
int sublevels;
KAZE::DiffusivityType diffusivity;
};
Ptr<KAZE> KAZE::create(bool extended, bool upright,
float threshold,
int octaves, int sublevels,
KAZE::DiffusivityType diffusivity)
{
return makePtr<KAZE_Impl>(extended, upright, threshold, octaves, sublevels, diffusivity);
}
String KAZE::getDefaultName() const
{
return (Feature2D::getDefaultName() + ".KAZE");
}
}