98

I have a 300x200 image in a Matrix src. I am doing the following operation on the image.

for(int i=0;i<src.rows;i++){
  for(int j=0;j<src.cols;j++){
    line( src, Point(i,j),Point(i,j), Scalar( 255, 0, 0 ),  1,8 );
  }
}
imshow("A",src);
waitKey(0);

I was expecting it to cover the entire image in white, but lower portion of the image remain empty. While if I do this

  for(int i=0;i<src.rows;i++){
    for(int j=0;j<src.cols;j++){
      src.at<uchar>(i,j)=255;
    }
  }
  imshow("A",src);
  waitKey(0);

Entire image is covered in white. So, this means that src.at<uchar>(i,j) is using (i,j) as (row,column) but Point(x,y) is using (x,y) as (column,row)

3
  • 4
    That's correct. The documentation says as much - Point(x,y) and at(row,col) is the way it's implemented. Sep 3, 2014 at 11:00
  • 2
    yes. Points and Size go (x,y); (width,height) ,- Mat has (row,col).
    – berak
    Sep 3, 2014 at 11:00
  • 5
    Thanks for asking this question. This damn inconsistency costs me hours of debugging...
    – yuqli
    Aug 30, 2019 at 21:03

4 Answers 4

149

So, this means that src.at(i,j) is using (i,j) as (row,column) but Point(x,y) is using (x,y) as (column,row)

That is right! Since this seems to confuse many people I'll write my interpretation for the reason:

In OpenCV, cv::Mat is used for both, images and matrices, since a discrete image is basically the same as a matrix.

In mathematics, we have some different things:

  1. matrices, which have a number of rows and a number of columns.
  2. graphs (of functions), which have multiple axes and graphically represent the graph in the form of an image.
  3. points, which are ordered by the axes of the coordinate system which normally is a cartesian coordinate.

1. For matrices, the mathematical notation is to order in row-major-order which is

Following conventional matrix notation, rows are numbered by the first index of a two-dimensional array and columns by the second index, i.e., a1,2 is the second element of the first row, counting downwards and rightwards. (Note this is the opposite of Cartesian conventions.)

Taken from http://en.wikipedia.org/wiki/Row-major_order#Explanation_and_example

As in mathematics, row:0, column:0 is the top-left element of the matrix. Row/column are just like in tables...

0/0---column--->
 |
 |
row
 |
 |
 v

2. For Points, a coordinate system is chosen that fulfills two things: 1. it uses the same unit-sizes and the same "origin" as the matrix notation, so top-left is Point(0,0) and axis length 1 means the length of 1 row or 1 column. 2. it uses "image notation" for axis-ordering, which means that abscissa (horizontal axis) is the first value designating the x-direction and the ordinate (vertical axis) is the second value designating the y-direction.

The point where the axes meet is the common origin of the two number lines and is simply called the origin. It is often labeled O and if so then the axes are called Ox and Oy. A plane with x- and y-axes defined is often referred to as the Cartesian plane or xy plane. The value of x is called the x-coordinate or abscissa and the value of y is called the y-coordinate or ordinate.

The choices of letters come from the original convention, which is to use the latter part of the alphabet to indicate unknown values. The first part of the alphabet was used to designate known values.

http://en.wikipedia.org/wiki/Cartesian_coordinate_system#Two_dimensions

so in a perfect world, we would choose the coordinate system of points/images to be:

 ^
 |
 |
 Y
 |
 |
0/0---X--->

but since we want to have that origin in top-left and positive values to go to the bottom, it is instead:

0/0---X--->
 |
 |
 Y
 |
 |
 v

So, for image processing people row-first notation might be weird, but for mathematicians x-axis-first would be strange to access a matrix.

So, in OpenCV, you can use: mat.at<type>(row,column) or mat.at<type>(cv::Point(x,y)) to access the same point if x=column and y=row which is perfectly comprehensible =)

Hope this correct. I don't know much about the notations, but that's what my experience in mathematics and imaging tells me.

4
  • 3
    fun fact: In school I couldn't easily remember the matrix index ordering in the beginning, so my educated guess was "column index probably first, because it is the same direction as the x-axis, which is first for points"... unfortunately wrong :-(
    – Micka
    Aug 2, 2018 at 6:32
  • What did you mean by "graphs (of functions)"? Sorry, I didn't get that. Could you please elaborate on that or share any useful resources for that? Thanks!
    – Milan
    Aug 24, 2020 at 17:10
  • 1
    graphs (of functions) are visualizations in mathematics, which are something like an image, where x and y coordinate directions are given by convention.
    – Micka
    Aug 24, 2020 at 18:40
  • 1
    Oh, now, I got it. I had confused it with "graph -- a data structure" and "function -- in programming" :-D Thanks for clarifying :)
    – Milan
    Aug 24, 2020 at 19:38
8

Here's a visual example to distinguish python's [row, columns] from OpenCV's [x,y].

import numpy as np
import matplotlib.pyplot as plt
import cv2

img = np.zeros((5,5))  # initialize empty image as numpy array
img[0,2] = 1  # assign 1 to the pixel of row 0 and column 2

M = cv2.moments(img)  # calculate moments of binary image
cX = int(M["m10"] / M["m00"])  # calculate x coordinate of centroid
cY = int(M["m01"] / M["m00"])  # calculate y coordinate of centroid

img2 = np.zeros((5,5))  # initialize another empty image
img2[cX,cY] = 1  # assign 1 to the pixel with x = cX and y = cY

img3 = np.zeros((5,5))  # initialize another empty image
img3[cY,cX] = 1  # invert x and y

plt.figure()
plt.subplots_adjust(wspace=0.4)  # add space between subplots
plt.subplot(131), plt.imshow(img, cmap = "gray"), plt.title("With [rows,cols]")
plt.subplot(132), plt.imshow(img2, cmap = "gray"), plt.title("With [x,y]")
plt.subplot(133), plt.imshow(img3, cmap= "gray"), plt.title("With [y,x]"), plt.xlabel('x'), plt.ylabel('y')

This will output:

enter image description here

6

I found a quick and fast fix to this problem by just converting the coordinates from opencv to Cartesian coordinates in 4th quadrant, simply by putting a (-)ve sign in front of the y coordinate.

This way, i was able to use my existing algorithms and all the standard Cartesian system equations with opencv without putting much overhead on the system by doing an expensive conversion between coordinate systems.

0/0---X--->
 |
 |
 Y
 |
 |
 v
 (opencv)

0/0---X----> 
|
|
|
-Y
|
|
v
(4th quadrant)
4
  • I being trying to convert opencv coordinates to cartesian coordianates. could you explain me how did you do it. I'm working with python. and getting x, y coodenates with x,y,w,h = cv2.boundingRect(c) function. thanks Dec 8, 2017 at 15:20
  • just wanted to say that the answer i gave earlier was wrong. Here is the correct one, marked changes in quotes Dec 11, 2017 at 12:53
  • So, add a -ve sign on the "ordinate" of your coordinates, i.e. change "y" to "-y" and it should do the job. w, h may be left as is, since they aren't coordinates Dec 11, 2017 at 12:54
  • Why this works? In OpenCV world, when moving "Left-to-Right" along the horizontal axis, we see that the coordinates increase and when moving Top-to-Bottom along, the vertical axis, the coordinates Increase. This kind of behavior is observed in the 4th quadrant of Cartesian system. Dec 11, 2017 at 12:54
0

Conventionally, point at OpenCV followed (x, y). x is column wise, and y is row wise on the computer screen. Here is example using built-in circle function.

win_name = "Test"
    
image_width, image_height = 300, 200
center_x, center_y = 300, 0
   
circle_radius = 9 
    
# Create a black image
img = np.zeros((image_height, image_width, 3), np.uint8)
# BGR
cv2.circle(img, center=tuple([center_x, center_y]), 
    radius=circle_radius, color=(255,0,0), 
    thickness=-1)
        
# Open openCV window
cv2.namedWindow(win_name, cv2.WINDOW_NORMAL)
cv2.resizeWindow(win_name, image_width, image_height)
cv2.moveWindow(win_name, 120, 850)
cv2.setWindowTitle(win_name, win_name)
cv2.imshow(win_name, img) 
k = cv2.waitKey(0)

By the way, they follow height and width order on making a image, and BGR color format not RGB. This is the opposite of conventional.

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