how to transform an image with a transformation Matrix in OpenCv?

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;

t.at<double>(0,0) = 1;
t.at<double>(1,1) = 1;
t.at<double>(0,1) = -tan(0.17);
t.at<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
``````
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"... 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

`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));

t.at<double>(0,0) = 1;
t.at<double>(1,1) = 1;
t.at<double>(0,1) = -tan(0.17);
//    t.at<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:

Edit

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:

-
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