// // This file is auto-generated. Please don't modify it! // package org.opencv.features2d; import java.lang.String; import java.util.ArrayList; import java.util.List; import org.opencv.core.Mat; import org.opencv.core.MatOfDMatch; import org.opencv.utils.Converters; // C++: class javaDescriptorMatcher //javadoc: javaDescriptorMatcher public class DescriptorMatcher { protected final long nativeObj; protected DescriptorMatcher(long addr) { nativeObj = addr; } public static final int FLANNBASED = 1, BRUTEFORCE = 2, BRUTEFORCE_L1 = 3, BRUTEFORCE_HAMMING = 4, BRUTEFORCE_HAMMINGLUT = 5, BRUTEFORCE_SL2 = 6; // // C++: bool isMaskSupported() // //javadoc: javaDescriptorMatcher::isMaskSupported() public boolean isMaskSupported() { boolean retVal = isMaskSupported_0(nativeObj); return retVal; } // // C++: void add(vector_Mat descriptors) // //javadoc: javaDescriptorMatcher::add(descriptors) public void add(List<Mat> descriptors) { Mat descriptors_mat = Converters.vector_Mat_to_Mat(descriptors); add_0(nativeObj, descriptors_mat.nativeObj); return; } // // C++: vector_Mat getTrainDescriptors() // //javadoc: javaDescriptorMatcher::getTrainDescriptors() public List<Mat> getTrainDescriptors() { List<Mat> retVal = new ArrayList<Mat>(); Mat retValMat = new Mat(getTrainDescriptors_0(nativeObj)); Converters.Mat_to_vector_Mat(retValMat, retVal); return retVal; } // // C++: void clear() // //javadoc: javaDescriptorMatcher::clear() public void clear() { clear_0(nativeObj); return; } // // C++: bool empty() // //javadoc: javaDescriptorMatcher::empty() public boolean empty() { boolean retVal = empty_0(nativeObj); return retVal; } // // C++: void train() // //javadoc: javaDescriptorMatcher::train() public void train() { train_0(nativeObj); return; } // // C++: void match(Mat queryDescriptors, Mat trainDescriptors, vector_DMatch& matches, Mat mask = Mat()) // //javadoc: javaDescriptorMatcher::match(queryDescriptors, trainDescriptors, matches, mask) public void match(Mat queryDescriptors, Mat trainDescriptors, MatOfDMatch matches, Mat mask) { Mat matches_mat = matches; match_0(nativeObj, queryDescriptors.nativeObj, trainDescriptors.nativeObj, matches_mat.nativeObj, mask.nativeObj); return; } //javadoc: javaDescriptorMatcher::match(queryDescriptors, trainDescriptors, matches) public void match(Mat queryDescriptors, Mat trainDescriptors, MatOfDMatch matches) { Mat matches_mat = matches; match_1(nativeObj, queryDescriptors.nativeObj, trainDescriptors.nativeObj, matches_mat.nativeObj); return; } // // C++: void knnMatch(Mat queryDescriptors, Mat trainDescriptors, vector_vector_DMatch& matches, int k, Mat mask = Mat(), bool compactResult = false) // //javadoc: javaDescriptorMatcher::knnMatch(queryDescriptors, trainDescriptors, matches, k, mask, compactResult) public void knnMatch(Mat queryDescriptors, Mat trainDescriptors, List<MatOfDMatch> matches, int k, Mat mask, boolean compactResult) { Mat matches_mat = new Mat(); knnMatch_0(nativeObj, queryDescriptors.nativeObj, trainDescriptors.nativeObj, matches_mat.nativeObj, k, mask.nativeObj, compactResult); Converters.Mat_to_vector_vector_DMatch(matches_mat, matches); matches_mat.release(); return; } //javadoc: javaDescriptorMatcher::knnMatch(queryDescriptors, trainDescriptors, matches, k) public void knnMatch(Mat queryDescriptors, Mat trainDescriptors, List<MatOfDMatch> matches, int k) { Mat matches_mat = new Mat(); knnMatch_1(nativeObj, queryDescriptors.nativeObj, trainDescriptors.nativeObj, matches_mat.nativeObj, k); Converters.Mat_to_vector_vector_DMatch(matches_mat, matches); matches_mat.release(); return; } // // C++: void radiusMatch(Mat queryDescriptors, Mat trainDescriptors, vector_vector_DMatch& matches, float maxDistance, Mat mask = Mat(), bool compactResult = false) // //javadoc: javaDescriptorMatcher::radiusMatch(queryDescriptors, trainDescriptors, matches, maxDistance, mask, compactResult) public void radiusMatch(Mat queryDescriptors, Mat trainDescriptors, List<MatOfDMatch> matches, float maxDistance, Mat mask, boolean compactResult) { Mat matches_mat = new Mat(); radiusMatch_0(nativeObj, queryDescriptors.nativeObj, trainDescriptors.nativeObj, matches_mat.nativeObj, maxDistance, mask.nativeObj, compactResult); Converters.Mat_to_vector_vector_DMatch(matches_mat, matches); matches_mat.release(); return; } //javadoc: javaDescriptorMatcher::radiusMatch(queryDescriptors, trainDescriptors, matches, maxDistance) public void radiusMatch(Mat queryDescriptors, Mat trainDescriptors, List<MatOfDMatch> matches, float maxDistance) { Mat matches_mat = new Mat(); radiusMatch_1(nativeObj, queryDescriptors.nativeObj, trainDescriptors.nativeObj, matches_mat.nativeObj, maxDistance); Converters.Mat_to_vector_vector_DMatch(matches_mat, matches); matches_mat.release(); return; } // // C++: void match(Mat queryDescriptors, vector_DMatch& matches, vector_Mat masks = std::vector<Mat>()) // //javadoc: javaDescriptorMatcher::match(queryDescriptors, matches, masks) public void match(Mat queryDescriptors, MatOfDMatch matches, List<Mat> masks) { Mat matches_mat = matches; Mat masks_mat = Converters.vector_Mat_to_Mat(masks); match_2(nativeObj, queryDescriptors.nativeObj, matches_mat.nativeObj, masks_mat.nativeObj); return; } //javadoc: javaDescriptorMatcher::match(queryDescriptors, matches) public void match(Mat queryDescriptors, MatOfDMatch matches) { Mat matches_mat = matches; match_3(nativeObj, queryDescriptors.nativeObj, matches_mat.nativeObj); return; } // // C++: void knnMatch(Mat queryDescriptors, vector_vector_DMatch& matches, int k, vector_Mat masks = std::vector<Mat>(), bool compactResult = false) // //javadoc: javaDescriptorMatcher::knnMatch(queryDescriptors, matches, k, masks, compactResult) public void knnMatch(Mat queryDescriptors, List<MatOfDMatch> matches, int k, List<Mat> masks, boolean compactResult) { Mat matches_mat = new Mat(); Mat masks_mat = Converters.vector_Mat_to_Mat(masks); knnMatch_2(nativeObj, queryDescriptors.nativeObj, matches_mat.nativeObj, k, masks_mat.nativeObj, compactResult); Converters.Mat_to_vector_vector_DMatch(matches_mat, matches); matches_mat.release(); return; } //javadoc: javaDescriptorMatcher::knnMatch(queryDescriptors, matches, k) public void knnMatch(Mat queryDescriptors, List<MatOfDMatch> matches, int k) { Mat matches_mat = new Mat(); knnMatch_3(nativeObj, queryDescriptors.nativeObj, matches_mat.nativeObj, k); Converters.Mat_to_vector_vector_DMatch(matches_mat, matches); matches_mat.release(); return; } // // C++: void radiusMatch(Mat queryDescriptors, vector_vector_DMatch& matches, float maxDistance, vector_Mat masks = std::vector<Mat>(), bool compactResult = false) // //javadoc: javaDescriptorMatcher::radiusMatch(queryDescriptors, matches, maxDistance, masks, compactResult) public void radiusMatch(Mat queryDescriptors, List<MatOfDMatch> matches, float maxDistance, List<Mat> masks, boolean compactResult) { Mat matches_mat = new Mat(); Mat masks_mat = Converters.vector_Mat_to_Mat(masks); radiusMatch_2(nativeObj, queryDescriptors.nativeObj, matches_mat.nativeObj, maxDistance, masks_mat.nativeObj, compactResult); Converters.Mat_to_vector_vector_DMatch(matches_mat, matches); matches_mat.release(); return; } //javadoc: javaDescriptorMatcher::radiusMatch(queryDescriptors, matches, maxDistance) public void radiusMatch(Mat queryDescriptors, List<MatOfDMatch> matches, float maxDistance) { Mat matches_mat = new Mat(); radiusMatch_3(nativeObj, queryDescriptors.nativeObj, matches_mat.nativeObj, maxDistance); Converters.Mat_to_vector_vector_DMatch(matches_mat, matches); matches_mat.release(); return; } // // C++: javaDescriptorMatcher* jclone(bool emptyTrainData = false) // //javadoc: javaDescriptorMatcher::jclone(emptyTrainData) public DescriptorMatcher clone(boolean emptyTrainData) { DescriptorMatcher retVal = new DescriptorMatcher(clone_0(nativeObj, emptyTrainData)); return retVal; } //javadoc: javaDescriptorMatcher::jclone() public DescriptorMatcher clone() { DescriptorMatcher retVal = new DescriptorMatcher(clone_1(nativeObj)); return retVal; } // // C++: static javaDescriptorMatcher* create(int matcherType) // //javadoc: javaDescriptorMatcher::create(matcherType) public static DescriptorMatcher create(int matcherType) { DescriptorMatcher retVal = new DescriptorMatcher(create_0(matcherType)); return retVal; } // // C++: void write(String fileName) // //javadoc: javaDescriptorMatcher::write(fileName) public void write(String fileName) { write_0(nativeObj, fileName); return; } // // C++: void read(String fileName) // //javadoc: javaDescriptorMatcher::read(fileName) public void read(String fileName) { read_0(nativeObj, fileName); return; } @Override protected void finalize() throws Throwable { delete(nativeObj); } // C++: bool isMaskSupported() private static native boolean isMaskSupported_0(long nativeObj); // C++: void add(vector_Mat descriptors) private static native void add_0(long nativeObj, long descriptors_mat_nativeObj); // C++: vector_Mat getTrainDescriptors() private static native long getTrainDescriptors_0(long nativeObj); // C++: void clear() private static native void clear_0(long nativeObj); // C++: bool empty() private static native boolean empty_0(long nativeObj); // C++: void train() private static native void train_0(long nativeObj); // C++: void match(Mat queryDescriptors, Mat trainDescriptors, vector_DMatch& matches, Mat mask = Mat()) private static native void match_0(long nativeObj, long queryDescriptors_nativeObj, long trainDescriptors_nativeObj, long matches_mat_nativeObj, long mask_nativeObj); private static native void match_1(long nativeObj, long queryDescriptors_nativeObj, long trainDescriptors_nativeObj, long matches_mat_nativeObj); // C++: void knnMatch(Mat queryDescriptors, Mat trainDescriptors, vector_vector_DMatch& matches, int k, Mat mask = Mat(), bool compactResult = false) private static native void knnMatch_0(long nativeObj, long queryDescriptors_nativeObj, long trainDescriptors_nativeObj, long matches_mat_nativeObj, int k, long mask_nativeObj, boolean compactResult); private static native void knnMatch_1(long nativeObj, long queryDescriptors_nativeObj, long trainDescriptors_nativeObj, long matches_mat_nativeObj, int k); // C++: void radiusMatch(Mat queryDescriptors, Mat trainDescriptors, vector_vector_DMatch& matches, float maxDistance, Mat mask = Mat(), bool compactResult = false) private static native void radiusMatch_0(long nativeObj, long queryDescriptors_nativeObj, long trainDescriptors_nativeObj, long matches_mat_nativeObj, float maxDistance, long mask_nativeObj, boolean compactResult); private static native void radiusMatch_1(long nativeObj, long queryDescriptors_nativeObj, long trainDescriptors_nativeObj, long matches_mat_nativeObj, float maxDistance); // C++: void match(Mat queryDescriptors, vector_DMatch& matches, vector_Mat masks = std::vector<Mat>()) private static native void match_2(long nativeObj, long queryDescriptors_nativeObj, long matches_mat_nativeObj, long masks_mat_nativeObj); private static native void match_3(long nativeObj, long queryDescriptors_nativeObj, long matches_mat_nativeObj); // C++: void knnMatch(Mat queryDescriptors, vector_vector_DMatch& matches, int k, vector_Mat masks = std::vector<Mat>(), bool compactResult = false) private static native void knnMatch_2(long nativeObj, long queryDescriptors_nativeObj, long matches_mat_nativeObj, int k, long masks_mat_nativeObj, boolean compactResult); private static native void knnMatch_3(long nativeObj, long queryDescriptors_nativeObj, long matches_mat_nativeObj, int k); // C++: void radiusMatch(Mat queryDescriptors, vector_vector_DMatch& matches, float maxDistance, vector_Mat masks = std::vector<Mat>(), bool compactResult = false) private static native void radiusMatch_2(long nativeObj, long queryDescriptors_nativeObj, long matches_mat_nativeObj, float maxDistance, long masks_mat_nativeObj, boolean compactResult); private static native void radiusMatch_3(long nativeObj, long queryDescriptors_nativeObj, long matches_mat_nativeObj, float maxDistance); // C++: javaDescriptorMatcher* jclone(bool emptyTrainData = false) private static native long clone_0(long nativeObj, boolean emptyTrainData); private static native long clone_1(long nativeObj); // C++: static javaDescriptorMatcher* create(int matcherType) private static native long create_0(int matcherType); // C++: void write(String fileName) private static native void write_0(long nativeObj, String fileName); // C++: void read(String fileName) private static native void read_0(long nativeObj, String fileName); // native support for java finalize() private static native void delete(long nativeObj); }