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i want to transform an entire image according to the magnitude of a straight line (y=ax+b) with an angle ( arcTan(a) ) this angle should be applied just to the y axis of all the points.

i wanted to use the warpAffine(...)

method but what I was able to make work with this method is using points (generally 3) in the image so that warpAffine(...) can figure out the angle for itself and transform that part of the image, and that's not what I need because I want to transform the whole image not just a piece.

if there's a way to do this with warpAffine(...) or any other method please let me know

cv::Mat t(3,3,CV_64F);
t=0;<double>(0,0) = 1;<double>(1,1) = 1;<double>(0,1) = -tan(0.17);<double>(2,2) = 1;

cv::Mat dest;
cv::Size size(imgb1.cols,imgb1.rows);
warpAffine(imgb1, dest, t, size, INTER_LINEAR, BORDER_CONSTANT);

imshow("outputImage.jpg", dest);

that's what I could achieve till now, my transformation matrix is like this :

1 -tan(angle) 0
0     1       0
0     0       1
share|improve this question
"... but it asks for the destination vertices ..." - I don't think so, are you sure you checked the documentation? – Roger Rowland Jul 17 '14 at 16:54
thank you, I edited my question. as matter of fact I did gave it a transformation matrix but i couldn't figure out how to represent it using the angle I found – Namine Jul 17 '14 at 17:40
Can you show us the portion of your code that generates the transformation matrix and then warps the image? – beaker Jul 17 '14 at 18:20
This is what I achieved till now – Namine Jul 17 '14 at 18:36
up vote 0 down vote accepted

warpAffine takes a 2x3 matrix; just leave off the bottom row of your transform. (I also changed the matrix initialization.) This worked for me:

    cv::Mat t(2,3,CV_64F, cvScalar(0.0));<double>(0,0) = 1;<double>(1,1) = 1;<double>(0,1) = -tan(0.17);    
//<double>(2,2) = 1;

    cv::Mat dest;
    cv::Size size(smiley_image.cols,smiley_image.rows);
    warpAffine(smiley_image, dest, t, size, INTER_LINEAR, BORDER_CONSTANT);

    imshow("outputImage", dest);

Here's what I got:

Original ImageOutput Image


To apply shear in the Y-direction you need to change your transformation matrix to:

1               0       0
-tan(angle)     1       0
0               0       1

(Actually, the shear transformation is usually cot(angle) which is the reciprocal of tan(angle), but if it gives you the results you want, then use it.)

Here's the output image using the new transformation matrix:

Output Image with Y-Shear

share|improve this answer
Thank you for your answer it does work now but what I want to do is to apply this transformation on the Y axis – Namine Jul 20 '14 at 14:21
@Namine Was this what you wanted? – beaker Jul 22 '14 at 17:06
@breaker Thank you :) – Namine Aug 3 '14 at 15:36

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