This source file includes following definitions.
- fromNativeAddr
- alloc
- fromArray
- toArray
- fromList
- toList
package org.opencv.core;
import java.util.Arrays;
import java.util.List;
public class MatOfPoint2f extends Mat {
private static final int _depth = CvType.CV_32F;
private static final int _channels = 2;
public MatOfPoint2f() {
super();
}
protected MatOfPoint2f(long addr) {
super(addr);
if( !empty() && checkVector(_channels, _depth) < 0 )
throw new IllegalArgumentException("Incompatible Mat");
}
public static MatOfPoint2f fromNativeAddr(long addr) {
return new MatOfPoint2f(addr);
}
public MatOfPoint2f(Mat m) {
super(m, Range.all());
if( !empty() && checkVector(_channels, _depth) < 0 )
throw new IllegalArgumentException("Incompatible Mat");
}
public MatOfPoint2f(Point...a) {
super();
fromArray(a);
}
public void alloc(int elemNumber) {
if(elemNumber>0)
super.create(elemNumber, 1, CvType.makeType(_depth, _channels));
}
public void fromArray(Point...a) {
if(a==null || a.length==0)
return;
int num = a.length;
alloc(num);
float buff[] = new float[num * _channels];
for(int i=0; i<num; i++) {
Point p = a[i];
buff[_channels*i+0] = (float) p.x;
buff[_channels*i+1] = (float) p.y;
}
put(0, 0, buff);
}
public Point[] toArray() {
int num = (int) total();
Point[] ap = new Point[num];
if(num == 0)
return ap;
float buff[] = new float[num * _channels];
get(0, 0, buff);
for(int i=0; i<num; i++)
ap[i] = new Point(buff[i*_channels], buff[i*_channels+1]);
return ap;
}
public void fromList(List<Point> lp) {
Point ap[] = lp.toArray(new Point[0]);
fromArray(ap);
}
public List<Point> toList() {
Point[] ap = toArray();
return Arrays.asList(ap);
}
}