The aspect-ratio=height/width is always >1 (for most cases even >2), so it should be clear/precise how I'd like to rotate.

I have a RotatedRect object in OpenCV / Java.
I can get an Array of it with 4 Objects of Type Point and Point defines x/y-values.

Now I'd like to sort those 4 Points so that the top-left Point is the first element of the Array and then clockwise, so that the top-bottom point is the fourth element.

I'm assuming that the Rectangles aren't rotated much (just some small angles), e.g.

I've indicated in the example which point I'd refer to as top left (TL).

How to do it?

You don't need to tell me specifically for OpenCV etc., just assume you'd have two arrays

int[] x = new int[4];
int[] y = new int[4];

Whereas the n-th Point has the coordinates (x[n-1], y[n-1]). I can then do it for OpenCV specifically myself.

  • Is one of the small sides of the rectangle always the upper edge? Mar 27, 2014 at 19:06
  • Yes exactly. And I'm as well assuming that the angles are small, which means like shown in the image
    – tim
    Mar 27, 2014 at 19:09
  • In image space, what are you rotating relative to what? Mar 27, 2014 at 19:13
  • Is it ever possible for the angle to be 45 degrees? I assume not because then the it's ambiguous whether you want the top or the left corner
    – durron597
    Mar 27, 2014 at 19:13
  • @staticx: Im not quite sure what you are refering to. I've got a rectangle-object as shown and the four corner points unordered and just want to sort them as I supposed. ||durron597: I assume not as well. But I would not see any problems with it. Maybe I should have mentioned that the rectangle is always higher then its width (aspect-ratio > 1), i.e. it would still be unique/distinct which is the top-left point :-)
    – tim
    Mar 27, 2014 at 19:20

5 Answers 5



There is an extremely easy solution if you know that:

  1. -45 < roundedRect.angle < 45
  2. roundedRect.size.height > roundedRect.size.width

If that is true, then the points, in clockwise order, will ALWAYS be in this order:

pts[0], pts[3], pts[2], pts[1]

As an aside, if it doesn't harm your program too much, the points are delivered in counterclockwise order, starting with the top left... then you wouldn't have to do any reordering / sorting.

Other cases:

  • height > width && 135 < roundedRect.angle < 225
    • The clockwise order starting from the top left is 2,3,0,1
    • The counterclockwise order from top left is 2,1,0,3.
  • width > height && -135 < roundedRect.angle < -45
    • The clockwise order starting from the top left is 3,2,1,0
    • The counterclockwise order from top left is 3,0,1,2
  • width > height && 45 < roundedRect.angle < 135
    • The clockwise order starting from the top left is 1,0,3,2
    • The counterclockwise order from top left is 1,2,3,0

The remaining cases would all imply that the rectangle is bigger from left to right than it is from top to bottom, which cannot happen in your scenario. Also, if the angle is outside these ranges, you can add or subtract 360 successively to get an angle in one of these ranges.



We know this from how OpenCV calculates the values of those points. You can figure this out with a little experimentation. Here's a little program I wrote that demonstrates it:

import java.awt.BorderLayout;
import java.awt.Dimension;
import java.awt.EventQueue;
import java.awt.Graphics;
import java.awt.event.ActionEvent;
import java.awt.event.ActionListener;

import javax.swing.JComponent;
import javax.swing.JFrame;
import javax.swing.JPanel;
import javax.swing.Timer;

import org.opencv.core.Point;
import org.opencv.core.RotatedRect;
import org.opencv.core.Size;

public class TestFrame extends JFrame {
    public static void main(String... args) {
        final TestFrame frame = new TestFrame();
        EventQueue.invokeLater(new Runnable() {
            public void run() {

    private RectComponent rect;

    public TestFrame() {
        JPanel containerPane = new JPanel(new BorderLayout());
        rect = new RectComponent();
        new Timer(100, rect).start();

    public class RectComponent extends JComponent implements ActionListener {
        private RotatedRect rect = new RotatedRect(new Point(0,0), new Size(1, 3), 0);

        private final Point[] pts = new Point[4];

        protected void paintComponent(Graphics g) {
            Dimension size = getSize();
            drawRectLine(g, pts[0], pts[1], size);
            drawRectLine(g, pts[1], pts[2], size);
            drawRectLine(g, pts[2], pts[3], size);
            drawRectLine(g, pts[0], pts[3], size);

        private void printPoints() {
            System.out.format("A: %d, TL: %s, TR: %s, BR: %s, BL%s%n",
                    (int) (rect.angle + (rect.angle < 0 ? -1e-6 : 1e-6)), // Stupid doubles, stupid rounding error

        private String pointToString(Point p) {
            return String.format("{%.2f,%.2f}",p.x, p.y);

        private void drawRectLine(Graphics g, Point left, Point right, Dimension size) {
            g.drawLine(scale(left.x, size.width), scale(left.y, size.height),
                    scale(right.x, size.width), scale(right.y, size.height));

        private int scale(double value, int coord) {
            return (int) (value * coord) / 4 + coord / 2;

        public void actionPerformed(ActionEvent e) {
            rect.angle += 1;
            if(rect.angle > 44) rect.angle = -44;
  • Really? Oh well... That sounds very good indeed. All the manual calculations not necessary would be awesome :-)
    – tim
    Mar 27, 2014 at 20:29
  • 1
    @tim Yeah I mean, I saw everyone going nuts with math and I thought "there has got to be a better way than that, they wouldn't randomize the order of the points" So I sketched it out, then wrote the above program ;)
    – durron597
    Mar 27, 2014 at 20:32
  • Maybe it's because I did not clearly state that OpenCV might have it's own order internally already... Ill look into it, thanks for looking it up. EDIT: Verified! WORKING. How nice. thanks for this nice piece of code you've put up there. Would have taken ages for me to do this :D
    – tim
    Mar 27, 2014 at 20:40
  • The problem I'm right now still seeing is: Im using findContours which returns me the contour and then I'm using Imgproc.minAreaRect to calculate the rotated rect for the found rectangular contour... I just ran my program and even though it's a rectangular like shown above, the rotated rect still gives me angles of somethnig like -80° and I'm wondering why and how opencv sees the angle...
    – tim
    Mar 27, 2014 at 21:01
  • 1
    @tim yes it does, it's stored in the size field. Please print rect2.size.width and rect2.size.height
    – durron597
    Mar 27, 2014 at 21:22

EDIT: If you are free to assume that the rectangle has not been rotated by much, you can directly go ahead and find the top-left point by calculating the distance from the origin using the formula length = ((y1-y2)^2 + (x1-x2)^2)^(0.5) above with origin being (0,0). The point with the smallest distance will be the top left. And then you can proceed using the steps I have given below.

If you cannot assume that, there is another way of proceeding more elegantly once you have identified the top left point of the rectangle (and hence the first three steps remain the same). Once you have identified the top left:

  1. Find out the distance from the top left point to the other three points using the Pythagorean formula, length = ((y1-y2)^2 + (x1-x2)^2)^(0.5)
  2. You now have three lengths corresponding to the length of each vertex from the top-left point.
  3. The position of the vertices can be easily found as (going in clockwise order):

    shortest distance = top right point 
    longest distance = bottom right point 
    middle distance = bottom left point

You do not need to use if conditions.

NOTE: This holds as long as the condition that the height is always greater than the width is maintained.

  • Nice approach but as there's now a better solution, I'll take it... :-) Thanks
    – tim
    Mar 27, 2014 at 20:44

Search for the 2 points with the highest y-values, one of these is always the TL in your definition (width < height and small angles(not higher then 45°!).

Sort your array in descending order for your y-values and get the element with the 2nd heighest y-value.

If this point has the lowest x-value it defines your right picture (1). Else the point with the highest value is your TL and defines your left picture (2).

Now you get the clockwise order where the TL is your first element.

In case (1): Change the position of the last 2 elemnts of your sorted array In case (2): Change the position of the first 2 elemnts.

This is true because of your definition but I can't explain it in a proper mathematically way.


I just tried out one approach. I'm not sure whether it's "simpler" or in any other way "better" than yours, but I'll post it here as a suggestion:

You can compute the center of the rectangle. Then you can move the rectangle, so that its center is at the origin. Then you can compute the angle that each point has to the x-axis, using the Math.atan2 method. The neat thing here is: It returns the angle in the range -PI ... +PI, which exactly matches your desired ordering: The upper left point will have the "most negative" angle, and the lower left point will have the "most positive".

This description is just for illustration. Some of these steps (particularly "moving" the rectangle) do not have to be done explicitly.

However: In this example, you can set the corner points via mouse clicks. Each point will be labeled with its index and the angle, as described above. When the fourth point is set, then the points will be reordered accordingly, and the resulting indices/angles will be shown.

As far as I can see, the results seem to be what you intended to compute.

import java.awt.Color;
import java.awt.Graphics;
import java.awt.Graphics2D;
import java.awt.event.MouseEvent;
import java.awt.event.MouseListener;
import java.awt.geom.Ellipse2D;
import java.awt.geom.Point2D;
import java.util.ArrayList;
import java.util.Collections;
import java.util.Comparator;
import java.util.List;

import javax.swing.JFrame;
import javax.swing.JPanel;
import javax.swing.SwingUtilities;

public class RectanglePointReorderingTest
    public static void main(String[] args)
        SwingUtilities.invokeLater(new Runnable()
            public void run()

    private static void createAndShowGUI()
        JFrame f = new JFrame();
        f.getContentPane().add(new RectanglePointReorderingPanel());
        f.setSize(800, 800);

    static Point2D computeCenter(List<Point2D> points)
        double x = 0;
        double y = 0;
        for (Point2D p : points)
            x += p.getX();
            y += p.getY();
        x /= points.size();
        y /= points.size();
        return new Point2D.Double(x, y);

    static double computeAngle(Point2D center, Point2D point)
        double dx = point.getX() - center.getX();
        double dy = point.getY() - center.getY();
        double angleRad = Math.atan2(dy, dx);
        return angleRad;

    static Comparator<Point2D> createComparator(Point2D center)
        final Point2D finalCenter = 
            new Point2D.Double(center.getX(), center.getY());
        return new Comparator<Point2D>()
            public int compare(Point2D p0, Point2D p1)
                double angle0 = computeAngle(finalCenter, p0);
                double angle1 = computeAngle(finalCenter, p1);
                return Double.compare(angle0, angle1);

    static void sortPoints(List<Point2D> points)
        Collections.sort(points, createComparator(computeCenter(points)));


class RectanglePointReorderingPanel extends JPanel implements MouseListener
    private List<Point2D> points = new ArrayList<Point2D>();

    public RectanglePointReorderingPanel()

    protected void paintComponent(Graphics gr)
        Graphics2D g = (Graphics2D)gr;

        if (points.size() < 4)
            g.drawString("Click to create points", 20, 20);
            g.drawString("Sorted points. Click again to clear.", 20, 20);
        for (int i=0; i<points.size(); i++)
            Point2D point = points.get(i);
            double x = point.getX();
            double y = point.getY();
            g.fill(new Ellipse2D.Double(x-5,y-5,10,10));


            double angleRad = 
                    RectanglePointReorderingTest.computeCenter(points), point);
            String angleString = String.valueOf((int)Math.toDegrees(angleRad));
            g.drawString(String.valueOf(i)+" ("+angleString+")", (int)x+5, (int)y+5);


    public void mouseClicked(MouseEvent e)
        if (points.size() == 4)
            if (points.size() == 4)

    public void mouseEntered(MouseEvent e) {}

    public void mouseExited(MouseEvent e) { }

    public void mousePressed(MouseEvent e) { }

    public void mouseReleased(MouseEvent e) { }

  • Thank you very much for your code and the energy you've put in... :-)
    – tim
    Mar 27, 2014 at 20:43

Because you are specifically asking for the order of the points from the RotatedRect data structure, that order is predictable and never changes (unless you update the library and the developers somehow needed to change that code -> very unlikely).

The order I got is quite odd and is the following:

point[0] - bottom left
point[1] - top left
point[2] - top right
point[3] - bottom right

You can see in OpenCV source code how that list of points from the RotatedRect is created, based on its center and angle:

public void points(Point pt[])
        double _angle = angle * Math.PI / 180.0;
        double b = (double) Math.cos(_angle) * 0.5f;
        double a = (double) Math.sin(_angle) * 0.5f;

        pt[0] = new Point(
                center.x - a * size.height - b * size.width,
                center.y + b * size.height - a * size.width);

        pt[1] = new Point(
                center.x + a * size.height - b * size.width,
                center.y - b * size.height - a * size.width);

        pt[2] = new Point(
                2 * center.x - pt[0].x,
                2 * center.y - pt[0].y);

        pt[3] = new Point(
                2 * center.x - pt[1].x,
                2 * center.y - pt[1].y);

EDIT (after comments):

If you realize that the corner order depends from the angle. It is easier to get the order based on the Pythagorean formula like it was said before by Sunil.

Depending which sign the variables a and b will have, the order will be different. Those signs depend from the cos() and sin() results which in turn depend from the angle. So you have 4 combinations of signs (+a, +b), (-a ,-b), (+a, -b), (-a, +b). These will give, if my theory stands, the 4 different point orders.

You can get the top-left corner by getting all points distance to (0,0). You will either get one minimum or 2 (equal) minimum distances. If you get 2 minimums, you chose one as the top-left rectangle corner: the one with smaller x coordinate is what makes more sense in my opinion and according to your drawing. The same process can be used for the other rectangle corners.

// Distance (x1, y1) to (x2, y2) = abs( sqrt( (x2-x1)^2 + (y2-y1)^2 ) )
// Note:This is a quite literal translation of the formula, there are more efficient ways.
public static final double pointsDist(Point pt1, Point pt2){        
   return  Math.abs( Math.sqrt( Math.pow((double) (pt2.x - pt1.x), 2) + Math.pow((double) (pt2.y - pt1.y), 2) ) );          
  • I am double checking this order because it is strange. Let me know if this is the order you have. Mar 27, 2014 at 22:49
  • Yeah please recheck it because when you compare it to answer #1, it seems your answer isn't correct.
    – tim
    Mar 27, 2014 at 22:51
  • 1
    I assumed the order would always be the same but maybe it depends from the angle similar to how @durron597 presented. The source code is that one, points come from playing with center and angle. Mar 27, 2014 at 22:57
  • 1
    The "treatment" is right there in the code, depending which sign the variables 'a' and 'b' will have, the order will be different, I think. Those signs depend from the cos() and sin() results which depend from the angle. Mar 27, 2014 at 23:12
  • 1
    So you have 4 combinations of signs (+a, +b), (-a ,-b), (+a, -b), (-a, +b). These will probably give the 4 different point orders. Similar to how @durron597 said, but maybe he got the intervals a bit wrong. Mar 27, 2014 at 23:16

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