Короче говоря, вы можете использовать метод put CvMat.
Вот полное решение после некоторых модификаций вашего кода:
import java.io.*;
import java.util.*;
import static com.googlecode.javacv.cpp.opencv_core.*;
import static com.googlecode.javacv.cpp.opencv_imgproc.*;
import static com.googlecode.javacv.cpp.opencv_highgui.*;
import static com.googlecode.javacv.cpp.opencv_calib3d.*;
/**
*
* @author rics
*/
public class Main {
/**
* @param args the command line arguments
*/
public static void main(String[] args) {
List<CvPoint2D32f> points = new ArrayList<CvPoint2D32f>();
List<CvPoint2D32f> known = new ArrayList<CvPoint2D32f>();
// points and known should be filled with valid values
// here are just some ad-hoc numbers that do not result a singular (unsolvable) configuration
for(int i=0; i < 2; i++){
points.add(cvPoint2D32f((double)i,10 - 2* (double)i));
known.add(cvPoint2D32f((double)i,10 - 2*(double)i));
}
for(int i=2; i < 5; i++){
points.add(cvPoint2D32f((double)i,(double)i));
known.add(cvPoint2D32f((double)i,(double)i));
}
CvMat matsrc = cvCreateMat(points.size(), 2, CV_32FC1);
CvMat matdst = cvCreateMat(known.size(), 2, CV_32FC1);
// filling the matrices with the point coordinates
for(int s=0; s < points.size(); s++){
CvPoint2D32f p = points.get(s);//.get("Point");
//Add this point to matsrc
matsrc.put(s,0,p.x());
matsrc.put(s,1,p.y());
}
for(int s=0; s < known.size(); s++){
CvPoint2D32f p = known.get(s);//.get("Point");
//Add this point to matdst
matdst.put(s,0,p.x());
matdst.put(s,1,p.y());
}
CvMat mat = cvCreateMat(3, 3, CV_32FC1);
cvFindHomography(matsrc, matdst, mat); //Here the matrices created are used to find the 3x3 Homography transform Matrix
// displaying the resulting matrix
for( int i = 0; i < 3; ++i) {
for( int j = 0; j < 3; ++j) {
System.out.print(mat.get(i,j) + ",");
}
System.out.println();
}
}
}
Результат для меня:
1.0,5.011022034363615E-16,-5.249974158069671E-15,
1.6479031282788333E-15,1.0,-5.495862740459911E-15,
4.4222287862990617E-16,1.2693993089577568E-16,1.0,