18 #include <mrpt/3rdparty/do_opencv_includes.h> 33 unsigned int nDesiredFeatures, [[maybe_unused]]
const TImageROI& ROI)
39 #if MRPT_OPENCV_VERSION_NUM < 0x300 44 vector<KeyPoint> cv_feats;
48 #if MRPT_OPENCV_VERSION_NUM >= 0x300 51 Ptr<AKAZE> akaze = AKAZE::create(
52 #
if MRPT_OPENCV_VERSION_NUM >= 0x400
53 static_cast<cv::AKAZE::DescriptorType>(
54 options.AKAZEOptions.descriptor_type),
56 options.AKAZEOptions.descriptor_type,
58 options.AKAZEOptions.descriptor_size,
59 options.AKAZEOptions.descriptor_channels,
60 options.AKAZEOptions.threshold, options.AKAZEOptions.nOctaves,
61 options.AKAZEOptions.nOctaveLayers,
62 #
if MRPT_OPENCV_VERSION_NUM >= 0x400
63 static_cast<cv::KAZE::DiffusivityType>(options.AKAZEOptions.diffusivity)
65 options.AKAZEOptions.diffusivity
69 akaze->detect(theImg, cv_feats);
72 const size_t N = cv_feats.size();
76 for (
size_t i = 0; i < N; i++)
78 for (
size_t j = i + 1; j < N; j++)
80 if (cv_feats.at(j).response > cv_feats.at(i).response)
82 KeyPoint temp_point = cv_feats.at(i);
83 cv_feats.at(i) = cv_feats.at(j);
84 cv_feats.at(j) = temp_point;
90 (nDesiredFeatures != 0 && N > nDesiredFeatures) ? nDesiredFeatures : N;
91 const int offset = (int)this->options.patchSize / 2 + 1;
92 const size_t size_2 = options.patchSize / 2;
94 const size_t imgW = inImg.
getWidth();
96 unsigned int cont = 0;
99 if (!options.addNewFeatures) feats.
clear();
101 while (cont != nMax && i != N)
104 const KeyPoint& kp = cv_feats[i];
108 const int xBorderInf = (int)floor(kp.pt.x - size_2);
109 const int xBorderSup = (int)floor(kp.pt.x + size_2);
110 const int yBorderInf = (int)floor(kp.pt.y - size_2);
111 const int yBorderSup = (int)floor(kp.pt.y + size_2);
113 if (!(xBorderSup < (
int)imgW && xBorderInf > 0 &&
114 yBorderSup < (int)imgH && yBorderInf > 0))
128 if (options.patchSize > 0)
Shallow copy: the copied object is a reference to the original one.
uint64_t TFeatureID
Definition of a feature ID.
#define THROW_EXCEPTION(msg)
A safe way to call enter() and leave() of a mrpt::system::CTimeLogger upon construction and destructi...
TKeyPointMethod type
Keypoint method used to detect this feature.
size_t getHeight() const override
Returns the height of the image in pixels.
TFeatureID ID
ID of the feature.
void asCvMat(cv::Mat &out_img, copy_type_t copy_type) const
Makes a shallow or deep copy of this image into the provided cv::Mat.
A structure for defining a ROI within an image.
This base provides a set of functions for maths stuff.
size_t getWidth() const override
Returns the width of the image in pixels.
std::optional< mrpt::img::CImage > patch
A patch of the image surrounding the feature.
Classes for computer vision, detectors, features, etc.
A generic 2D feature from an image, extracted with CFeatureExtraction Each feature may have one or mo...
A list of visual features, to be used as output by detectors, as input/output by trackers, etc.
float response
A measure of the "goodness" of the feature.
AKAZE detector, OpenCV's implementation.
This is the global namespace for all Mobile Robot Programming Toolkit (MRPT) libraries.
uint8_t octave
The image octave the image was found in: 0=original image, 1=1/2 image, 2=1/4 image, etc.
void extract_patch(CImage &patch, const unsigned int col=0, const unsigned int row=0, const unsigned int width=1, const unsigned int height=1) const
Extract a patch from this image, saveing it into "patch" (its previous contents will be overwritten)...
float orientation
Main orientation of the feature.
uint16_t patchSize
Size of the patch (patchSize x patchSize) (it must be an odd number)
void emplace_back(CFeature &&f)
pixel_coords_t pt
Coordinates in the image.
A class for storing images as grayscale or RGB bitmaps.
int round(const T value)
Returns the closer integer (int) to x.