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I'd like to use the same affine matrix M on some individual (x,y) points as I use on images with cv2.warpAffine. It seems cv2.transform is the way to go . When I try send an Nx2 matrix of points I get negged (

   src = np.array([
        [x1,y1],[x2,y2],[x3,y3],[x4,y4]],  dtype = "float32")
    print('source shape '+str(src.shape))
    dst=cv2.transform(src,M)

cv2.error: /home/jeremy/sw/opencv-3.1.0/modules/core/src/matmul.cpp:1947: error: (-215) scn == m.cols || scn + 1 == m.cols in function transform

I can get the transform I want just using numpy arithmetic :

    dst = np.dot(src,M[:,0:2]) +M[:,2]
    print('dest:{}'.format(dst))

But would like to understand whats going on . The docs say that cv2.transform wants a number of channels equal to number of columns in M but I'm not clear what the channels would be - maybe an 'x' channel and 'y' channel, but then would would the third be, and what would the different rows signify?

  • 1
    Often times when OpenCV expects points they like them in the form np.array([ [[x1, y1]], [[x2, y2]], ... ]). They usually want that for point transformations---a single column or row vector with length as the number of points and channels equivalent to the number of coordinates. The third coordinate could be a coordinate in a third dimension---transformation matrices aren't just for 2D transformations after all. – alkasm Jun 6 '17 at 0:29
  • thanks that did the trick , i had the dimension order backwards mentally, chw instead of hwc, too much caffe – jeremy_rutman Jun 6 '17 at 9:36
5

OpenCV on Python often wants points in the form

np.array([ [[x1, y1]], ..., [[xn, yn]] ])

This is not clear in the documentation for cv2.transform() but is more clear in the documentation for other functions that use points, like cv2.perspectiveTransform() where they mention coordinates to be on separate channels:

src – input two-channel or three-channel floating-point array

Transforms can also be used in 3D (using a 4x4 perspective transformation matrix) so that would explain the ability to use two- or three-channel arrays in cv2.transform().

  • For the use case mentioned above (2D transform of an Nx2 matrix of points), one shorthand is dst = cv2.transform( np.array([src]),M)[0] – Jerod Jun 22 '18 at 14:10

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