//javadoc: NMSBoxes(bboxes, scores, score_threshold, nms_threshold, indices)
public static void NMSBoxes(MatOfRect bboxes, MatOfFloat scores, float score_threshold, float nms_threshold, MatOfInt indices)
{
if (bboxes != null)
{
bboxes.ThrowIfDisposed();
}
if (scores != null)
{
scores.ThrowIfDisposed();
}
if (indices != null)
{
indices.ThrowIfDisposed();
}
#if UNITY_PRO_LICENSE || ((UNITY_ANDROID || UNITY_IOS || UNITY_WEBGL) && !UNITY_EDITOR) || UNITY_5 || UNITY_5_3_OR_NEWER
Mat bboxes_mat = bboxes;
Mat scores_mat = scores;
Mat indices_mat = indices;
dnn_Dnn_NMSBoxes_12(bboxes_mat.nativeObj, scores_mat.nativeObj, score_threshold, nms_threshold, indices_mat.nativeObj);
return;
#else
return;
#endif
}
//
// C++: void compute(Mat img, vector_float& descriptors, Size winStride = Size(), Size padding = Size(), vector_Point locations = std::vector<Point>())
//
//javadoc: HOGDescriptor::compute(img, descriptors, winStride, padding, locations)
public void compute(Mat img, MatOfFloat descriptors, Size winStride, Size padding, MatOfPoint locations)
{
ThrowIfDisposed();
if (img != null)
{
img.ThrowIfDisposed();
}
if (descriptors != null)
{
descriptors.ThrowIfDisposed();
}
if (locations != null)
{
locations.ThrowIfDisposed();
}
#if UNITY_PRO_LICENSE || ((UNITY_ANDROID || UNITY_IOS || UNITY_WEBGL) && !UNITY_EDITOR) || UNITY_5 || UNITY_5_3_OR_NEWER
Mat descriptors_mat = descriptors;
Mat locations_mat = locations;
objdetect_HOGDescriptor_compute_10(nativeObj, img.nativeObj, descriptors_mat.nativeObj, winStride.width, winStride.height, padding.width, padding.height, locations_mat.nativeObj);
return;
#else
return;
#endif
}
//
// C++: static Ptr_BRISK cv::BRISK::create(int thresh, int octaves, vector_float radiusList, vector_int numberList, float dMax = 5.85f, float dMin = 8.2f, vector_int indexChange = std::vector<int>())
//
//javadoc: BRISK::create(thresh, octaves, radiusList, numberList, dMax, dMin, indexChange)
public static BRISK create(int thresh, int octaves, MatOfFloat radiusList, MatOfInt numberList, float dMax, float dMin, MatOfInt indexChange)
{
if (radiusList != null)
{
radiusList.ThrowIfDisposed();
}
if (numberList != null)
{
numberList.ThrowIfDisposed();
}
if (indexChange != null)
{
indexChange.ThrowIfDisposed();
}
#if UNITY_PRO_LICENSE || ((UNITY_ANDROID || UNITY_IOS || UNITY_WEBGL) && !UNITY_EDITOR) || UNITY_5 || UNITY_5_3_OR_NEWER
Mat radiusList_mat = radiusList;
Mat numberList_mat = numberList;
Mat indexChange_mat = indexChange;
BRISK retVal = BRISK.__fromPtr__(features2d_BRISK_create_10(thresh, octaves, radiusList_mat.nativeObj, numberList_mat.nativeObj, dMax, dMin, indexChange_mat.nativeObj));
return(retVal);
#else
return(null);
#endif
}
//
// C++: void detect(Mat inputImage, vector_Rect& Bbox, vector_float& confidence)
//
//javadoc: TextDetector::detect(inputImage, Bbox, confidence)
public virtual void detect(Mat inputImage, MatOfRect Bbox, MatOfFloat confidence)
{
ThrowIfDisposed();
if (inputImage != null)
{
inputImage.ThrowIfDisposed();
}
if (Bbox != null)
{
Bbox.ThrowIfDisposed();
}
if (confidence != null)
{
confidence.ThrowIfDisposed();
}
#if UNITY_PRO_LICENSE || ((UNITY_ANDROID || UNITY_IOS || UNITY_WEBGL) && !UNITY_EDITOR) || UNITY_5 || UNITY_5_3_OR_NEWER
Mat Bbox_mat = Bbox;
Mat confidence_mat = confidence;
text_TextDetector_detect_10(nativeObj, inputImage.nativeObj, Bbox_mat.nativeObj, confidence_mat.nativeObj);
return;
#else
return;
#endif
}
//
// C++: static vector_float getDaimlerPeopleDetector()
//
//javadoc: HOGDescriptor::getDaimlerPeopleDetector()
public static MatOfFloat getDaimlerPeopleDetector()
{
#if UNITY_PRO_LICENSE || ((UNITY_ANDROID || UNITY_IOS) && !UNITY_EDITOR) || UNITY_5
MatOfFloat retVal = MatOfFloat.fromNativeAddr(objdetect_HOGDescriptor_getDaimlerPeopleDetector_10());
return(retVal);
#else
return(null);
#endif
}
//
// C++: static vector_float getDefaultPeopleDetector()
//
//javadoc: HOGDescriptor::getDefaultPeopleDetector()
public static MatOfFloat getDefaultPeopleDetector()
{
#if UNITY_PRO_LICENSE || ((UNITY_ANDROID || UNITY_IOS || UNITY_WEBGL) && !UNITY_EDITOR) || UNITY_5 || UNITY_5_3_OR_NEWER
MatOfFloat retVal = MatOfFloat.fromNativeAddr(objdetect_HOGDescriptor_getDefaultPeopleDetector_10());
return(retVal);
#else
return(null);
#endif
}
//
// C++: vector_float HOGDescriptor::svmDetector
//
//javadoc: HOGDescriptor::get_svmDetector()
public MatOfFloat get_svmDetector()
{
ThrowIfDisposed();
#if UNITY_PRO_LICENSE || ((UNITY_ANDROID || UNITY_IOS || UNITY_WEBGL) && !UNITY_EDITOR) || UNITY_5 || UNITY_5_3_OR_NEWER
MatOfFloat retVal = MatOfFloat.fromNativeAddr(objdetect_HOGDescriptor_get_1svmDetector_10(nativeObj));
return(retVal);
#else
return(null);
#endif
}
//
// C++: vector_float getobjectnessValues()
//
//javadoc: ObjectnessBING::getobjectnessValues()
public MatOfFloat getobjectnessValues()
{
ThrowIfDisposed();
#if UNITY_PRO_LICENSE || ((UNITY_ANDROID || UNITY_IOS || UNITY_WEBGL) && !UNITY_EDITOR) || UNITY_5 || UNITY_5_3_OR_NEWER
MatOfFloat retVal = MatOfFloat.fromNativeAddr(saliency_ObjectnessBING_getobjectnessValues_10(nativeObj));
return(retVal);
#else
return(null);
#endif
}
//
// C++: void setWeights(vector_float weights)
//
//javadoc: PCTSignatures::setWeights(weights)
public void setWeights(MatOfFloat weights)
{
ThrowIfDisposed();
if (weights != null)
{
weights.ThrowIfDisposed();
}
#if UNITY_PRO_LICENSE || ((UNITY_ANDROID || UNITY_IOS || UNITY_WEBGL) && !UNITY_EDITOR) || UNITY_5 || UNITY_5_3_OR_NEWER
Mat weights_mat = weights;
xfeatures2d_PCTSignatures_setWeights_10(nativeObj, weights_mat.nativeObj);
return;
#else
return;
#endif
}
//
// C++: void setTranslations(vector_float translations)
//
//javadoc: PCTSignatures::setTranslations(translations)
public void setTranslations(MatOfFloat translations)
{
ThrowIfDisposed();
if (translations != null)
{
translations.ThrowIfDisposed();
}
#if UNITY_PRO_LICENSE || ((UNITY_ANDROID || UNITY_IOS || UNITY_WEBGL) && !UNITY_EDITOR) || UNITY_5 || UNITY_5_3_OR_NEWER
Mat translations_mat = translations;
xfeatures2d_PCTSignatures_setTranslations_10(nativeObj, translations_mat.nativeObj);
return;
#else
return;
#endif
}
//javadoc: BRISK::create(radiusList, numberList)
public static BRISK create(MatOfFloat radiusList, MatOfInt numberList)
{
if (radiusList != null)
{
radiusList.ThrowIfDisposed();
}
if (numberList != null)
{
numberList.ThrowIfDisposed();
}
#if UNITY_PRO_LICENSE || ((UNITY_ANDROID || UNITY_IOS || UNITY_WEBGL) && !UNITY_EDITOR) || UNITY_5 || UNITY_5_3_OR_NEWER
Mat radiusList_mat = radiusList;
Mat numberList_mat = numberList;
BRISK retVal = BRISK.__fromPtr__(features2d_BRISK_create_111(radiusList_mat.nativeObj, numberList_mat.nativeObj));
return(retVal);
#else
return(null);
#endif
}
//javadoc: HOGDescriptor::compute(img, descriptors)
public void compute(Mat img, MatOfFloat descriptors)
{
ThrowIfDisposed();
if (img != null)
{
img.ThrowIfDisposed();
}
if (descriptors != null)
{
descriptors.ThrowIfDisposed();
}
#if UNITY_PRO_LICENSE || ((UNITY_ANDROID || UNITY_IOS || UNITY_WEBGL) && !UNITY_EDITOR) || UNITY_5 || UNITY_5_3_OR_NEWER
Mat descriptors_mat = descriptors;
objdetect_HOGDescriptor_compute_11(nativeObj, img.nativeObj, descriptors_mat.nativeObj);
return;
#else
return;
#endif
}
//javadoc: fastNlMeansDenoising(src, dst, h)
public static void fastNlMeansDenoising(Mat src, Mat dst, MatOfFloat h)
{
if (src != null)
{
src.ThrowIfDisposed();
}
if (dst != null)
{
dst.ThrowIfDisposed();
}
if (h != null)
{
h.ThrowIfDisposed();
}
#if UNITY_PRO_LICENSE || ((UNITY_ANDROID || UNITY_IOS || UNITY_WEBGL) && !UNITY_EDITOR) || UNITY_5 || UNITY_5_3_OR_NEWER
Mat h_mat = h;
photo_Photo_fastNlMeansDenoising_13(src.nativeObj, dst.nativeObj, h_mat.nativeObj);
return;
#else
return;
#endif
}
//
// C++: void fastNlMeansDenoising(Mat src, Mat& dst, vector_float h, int templateWindowSize = 7, int searchWindowSize = 21, int normType = NORM_L2)
//
//javadoc: fastNlMeansDenoising(src, dst, h, templateWindowSize, searchWindowSize, normType)
public static void fastNlMeansDenoising(Mat src, Mat dst, MatOfFloat h, int templateWindowSize, int searchWindowSize, int normType)
{
if (src != null)
{
src.ThrowIfDisposed();
}
if (dst != null)
{
dst.ThrowIfDisposed();
}
if (h != null)
{
h.ThrowIfDisposed();
}
#if UNITY_PRO_LICENSE || ((UNITY_ANDROID || UNITY_IOS) && !UNITY_EDITOR) || UNITY_5
Mat h_mat = h;
photo_Photo_fastNlMeansDenoising_12(src.nativeObj, dst.nativeObj, h_mat.nativeObj, templateWindowSize, searchWindowSize, normType);
return;
#else
return;
#endif
}
//javadoc: fastNlMeansDenoisingMulti(srcImgs, dst, imgToDenoiseIndex, temporalWindowSize, h)
public static void fastNlMeansDenoisingMulti(List <Mat> srcImgs, Mat dst, int imgToDenoiseIndex, int temporalWindowSize, MatOfFloat h)
{
if (dst != null)
{
dst.ThrowIfDisposed();
}
if (h != null)
{
h.ThrowIfDisposed();
}
#if UNITY_PRO_LICENSE || ((UNITY_ANDROID || UNITY_IOS) && !UNITY_EDITOR) || UNITY_5
Mat srcImgs_mat = Converters.vector_Mat_to_Mat(srcImgs);
Mat h_mat = h;
photo_Photo_fastNlMeansDenoisingMulti_13(srcImgs_mat.nativeObj, dst.nativeObj, imgToDenoiseIndex, temporalWindowSize, h_mat.nativeObj);
return;
#else
return;
#endif
}
//javadoc: calcOpticalFlowPyrLK(prevImg, nextImg, prevPts, nextPts, status, err, winSize, maxLevel)
public static void calcOpticalFlowPyrLK(Mat prevImg, Mat nextImg, MatOfPoint2f prevPts, MatOfPoint2f nextPts, MatOfByte status, MatOfFloat err, Size winSize, int maxLevel)
{
if (prevImg != null)
{
prevImg.ThrowIfDisposed();
}
if (nextImg != null)
{
nextImg.ThrowIfDisposed();
}
if (prevPts != null)
{
prevPts.ThrowIfDisposed();
}
if (nextPts != null)
{
nextPts.ThrowIfDisposed();
}
if (status != null)
{
status.ThrowIfDisposed();
}
if (err != null)
{
err.ThrowIfDisposed();
}
#if UNITY_PRO_LICENSE || ((UNITY_ANDROID || UNITY_IOS) && !UNITY_EDITOR) || UNITY_5
Mat prevPts_mat = prevPts;
Mat nextPts_mat = nextPts;
Mat status_mat = status;
Mat err_mat = err;
video_Video_calcOpticalFlowPyrLK_11(prevImg.nativeObj, nextImg.nativeObj, prevPts_mat.nativeObj, nextPts_mat.nativeObj, status_mat.nativeObj, err_mat.nativeObj, winSize.width, winSize.height, maxLevel);
return;
#else
return;
#endif
}
//
// C++: void calcOpticalFlowPyrLK(Mat prevImg, Mat nextImg, vector_Point2f prevPts, vector_Point2f& nextPts, vector_uchar& status, vector_float& err, Size winSize = Size(21,21), int maxLevel = 3, TermCriteria criteria = TermCriteria(TermCriteria::COUNT+TermCriteria::EPS, 30, 0.01), int flags = 0, double minEigThreshold = 1e-4)
//
//javadoc: calcOpticalFlowPyrLK(prevImg, nextImg, prevPts, nextPts, status, err, winSize, maxLevel, criteria, flags, minEigThreshold)
public static void calcOpticalFlowPyrLK(Mat prevImg, Mat nextImg, MatOfPoint2f prevPts, MatOfPoint2f nextPts, MatOfByte status, MatOfFloat err, Size winSize, int maxLevel, TermCriteria criteria, int flags, double minEigThreshold)
{
if (prevImg != null)
{
prevImg.ThrowIfDisposed();
}
if (nextImg != null)
{
nextImg.ThrowIfDisposed();
}
if (prevPts != null)
{
prevPts.ThrowIfDisposed();
}
if (nextPts != null)
{
nextPts.ThrowIfDisposed();
}
if (status != null)
{
status.ThrowIfDisposed();
}
if (err != null)
{
err.ThrowIfDisposed();
}
#if UNITY_PRO_LICENSE || ((UNITY_ANDROID || UNITY_IOS || UNITY_WEBGL) && !UNITY_EDITOR) || UNITY_5 || UNITY_5_3_OR_NEWER
Mat prevPts_mat = prevPts;
Mat nextPts_mat = nextPts;
Mat status_mat = status;
Mat err_mat = err;
video_Video_calcOpticalFlowPyrLK_10(prevImg.nativeObj, nextImg.nativeObj, prevPts_mat.nativeObj, nextPts_mat.nativeObj, status_mat.nativeObj, err_mat.nativeObj, winSize.width, winSize.height, maxLevel, criteria.type, criteria.maxCount, criteria.epsilon, flags, minEigThreshold);
return;
#else
return;
#endif
}
//javadoc: calcOpticalFlowPyrLK(prevImg, nextImg, prevPts, nextPts, status, err)
public static void calcOpticalFlowPyrLK(Mat prevImg, Mat nextImg, MatOfPoint2f prevPts, MatOfPoint2f nextPts, MatOfByte status, MatOfFloat err)
{
if (prevImg != null)
{
prevImg.ThrowIfDisposed();
}
if (nextImg != null)
{
nextImg.ThrowIfDisposed();
}
if (prevPts != null)
{
prevPts.ThrowIfDisposed();
}
if (nextPts != null)
{
nextPts.ThrowIfDisposed();
}
if (status != null)
{
status.ThrowIfDisposed();
}
if (err != null)
{
err.ThrowIfDisposed();
}
#if UNITY_PRO_LICENSE || ((UNITY_ANDROID || UNITY_IOS || UNITY_WEBGL) && !UNITY_EDITOR) || UNITY_5 || UNITY_5_3_OR_NEWER
Mat prevPts_mat = prevPts;
Mat nextPts_mat = nextPts;
Mat status_mat = status;
Mat err_mat = err;
video_Video_calcOpticalFlowPyrLK_12(prevImg.nativeObj, nextImg.nativeObj, prevPts_mat.nativeObj, nextPts_mat.nativeObj, status_mat.nativeObj, err_mat.nativeObj);
return;
#else
return;
#endif
}
//
// C++: void cv::xfeatures2d::PCTSignaturesSQFD::computeQuadraticFormDistances(Mat sourceSignature, vector_Mat imageSignatures, vector_float distances)
//
//javadoc: PCTSignaturesSQFD::computeQuadraticFormDistances(sourceSignature, imageSignatures, distances)
public void computeQuadraticFormDistances(Mat sourceSignature, List <Mat> imageSignatures, MatOfFloat distances)
{
ThrowIfDisposed();
if (sourceSignature != null)
{
sourceSignature.ThrowIfDisposed();
}
if (distances != null)
{
distances.ThrowIfDisposed();
}
#if UNITY_PRO_LICENSE || ((UNITY_ANDROID || UNITY_IOS || UNITY_WEBGL) && !UNITY_EDITOR) || UNITY_5 || UNITY_5_3_OR_NEWER
Mat imageSignatures_mat = Converters.vector_Mat_to_Mat(imageSignatures);
Mat distances_mat = distances;
xfeatures2d_PCTSignaturesSQFD_computeQuadraticFormDistances_10(nativeObj, sourceSignature.nativeObj, imageSignatures_mat.nativeObj, distances_mat.nativeObj);
return;
#else
return;
#endif
}
public static int chamerMatching(Mat img, Mat templ, List <MatOfPoint> results, MatOfFloat cost)
{
if (img != null)
{
img.ThrowIfDisposed();
}
if (templ != null)
{
templ.ThrowIfDisposed();
}
if (cost != null)
{
cost.ThrowIfDisposed();
}
#if UNITY_PRO_LICENSE || ((UNITY_ANDROID || UNITY_IOS) && !UNITY_EDITOR) || UNITY_5
Mat results_mat = new Mat();
Mat cost_mat = cost;
int retVal = contrib_Contrib_chamerMatching_11(img.nativeObj, templ.nativeObj, results_mat.nativeObj, cost_mat.nativeObj);
Converters.Mat_to_vector_vector_Point(results_mat, results);
return(retVal);
#else
return(0);
#endif
}
//
// C++: int chamerMatching(Mat img, Mat templ, vector_vector_Point& results, vector_float& cost, double templScale = 1, int maxMatches = 20, double minMatchDistance = 1.0, int padX = 3, int padY = 3, int scales = 5, double minScale = 0.6, double maxScale = 1.6, double orientationWeight = 0.5, double truncate = 20)
//
public static int chamerMatching(Mat img, Mat templ, List <MatOfPoint> results, MatOfFloat cost, double templScale, int maxMatches, double minMatchDistance, int padX, int padY, int scales, double minScale, double maxScale, double orientationWeight, double truncate)
{
if (img != null)
{
img.ThrowIfDisposed();
}
if (templ != null)
{
templ.ThrowIfDisposed();
}
if (cost != null)
{
cost.ThrowIfDisposed();
}
#if UNITY_PRO_LICENSE || ((UNITY_ANDROID || UNITY_IOS) && !UNITY_EDITOR) || UNITY_5
Mat results_mat = new Mat();
Mat cost_mat = cost;
int retVal = contrib_Contrib_chamerMatching_10(img.nativeObj, templ.nativeObj, results_mat.nativeObj, cost_mat.nativeObj, templScale, maxMatches, minMatchDistance, padX, padY, scales, minScale, maxScale, orientationWeight, truncate);
Converters.Mat_to_vector_vector_Point(results_mat, results);
return(retVal);
#else
return(0);
#endif
}
