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?

`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 0:29hw instead of hwc, too much caffe – jeremy_rutman Jun 6 '17 at 9:36`(np.dot(M[:,:2], a.T)+M[:,2].reshape(2,1)).T`

– thisisbhavin Dec 28 '19 at 7:13