# Warping an image using roll, pitch, and yaw

I am currently using OpenCV in Python to correct for image distortion in an aerial image. I have the data for the roll, pitch, and yaw. I understand that I need to create a warp matrix, and apply the matrix to my original coordinate points to create the output points for the image. I am able to affect the way the image moves, but I feel that there is an error because the only values that seem to work for very small values.

Here is my current code:

``````warp_mat = np.array([[math.cos(theta)*math.cos(psy), math.cos(phi)*math.sin(psy)+math.sin(phi)*math.sin(theta)*math.cos(psy), math.sin(phi)*math.sin(psy)-math.cos(phi)*math.sin(theta)*math.cos(psy)],\
[-1*math.cos(theta)*math.sin(psy), math.cos(phi)*math.cos(psy)-math.sin(phi)*math.sin(theta)*math.sin(psy), math.sin(phi)*math.cos(psy)+math.cos(phi)*math.sin(theta)*math.sin(psy)],\
[math.sin(theta), -1*math.sin(phi)*math.cos(theta), math.cos(phi)*math.cos(theta)]], dtype='float32')

srcPts = np.array([[-2064, 1161, 1],\
[2064, 1161, 1],\
[2064, -1161, 1],\
[-2064, -1161, 1]], dtype='float32')

dstPts = np.empty(shape = (4,3), dtype='float32')

dstPts[0][0] = srcPts[0][0] * warp_mat[0][0] + srcPts[0][1] * warp_mat[1][0] + srcPts[0][2] * warp_mat[2][0];
dstPts[0][1] = srcPts[0][0] * warp_mat[0][1] + srcPts[0][1] * warp_mat[1][1] + srcPts[0][2] * warp_mat[2][1];
dstPts[0][2] = srcPts[0][0] * warp_mat[0][2] + srcPts[0][1] * warp_mat[1][2] + srcPts[0][2] * warp_mat[2][2];

dstPts[1][0] = srcPts[1][0] * warp_mat[0][0] + srcPts[1][1] * warp_mat[1][0] + srcPts[1][2] * warp_mat[2][0];
dstPts[1][1] = srcPts[1][0] * warp_mat[0][1] + srcPts[1][1] * warp_mat[1][1] +     srcPts[1][2] * warp_mat[2][1];
dstPts[1][2] = srcPts[1][0] * warp_mat[0][2] + srcPts[1][1] * warp_mat[1][2] + srcPts[1][2] * warp_mat[2][2];

dstPts[2][0] = srcPts[2][0] * warp_mat[0][0] + srcPts[2][1] * warp_mat[1][0] + srcPts[2][2] * warp_mat[2][0];
dstPts[2][1] = srcPts[2][0] * warp_mat[0][1] + srcPts[2][1] * warp_mat[1][1] + srcPts[2][2] * warp_mat[2][1];
dstPts[2][2] = srcPts[2][0] * warp_mat[0][2] + srcPts[2][1] * warp_mat[1][2] + srcPts[2][2] * warp_mat[2][2];

dstPts[3][0] = srcPts[3][0] * warp_mat[0][0] + srcPts[3][1] * warp_mat[1][0] + srcPts[3][2] * warp_mat[2][0];
dstPts[3][1] = srcPts[3][0] * warp_mat[0][1] + srcPts[3][1] * warp_mat[1][1] + srcPts[3][2] * warp_mat[2][1];
dstPts[3][2] = srcPts[3][0] * warp_mat[0][2] + srcPts[3][1] * warp_mat[1][2] + srcPts[3][2] * warp_mat[2][2];

dstPts[0][0] = dstPts[0][0] / dstPts[0][2];
dstPts[0][1] = dstPts[0][1] / dstPts[0][2];
dstPts[0][2] = dstPts[0][2] / dstPts[0][2];

dstPts[1][0] = dstPts[1][0] / dstPts[1][2];
dstPts[1][1] = dstPts[1][1] / dstPts[1][2];
dstPts[1][2] = dstPts[1][2] / dstPts[1][2];

dstPts[2][0] = dstPts[2][0] / dstPts[2][2];
dstPts[2][1] = dstPts[2][1] / dstPts[2][2];
dstPts[2][2] = dstPts[2][2] / dstPts[2][2];

dstPts[3][0] = dstPts[3][0] / dstPts[3][2];
dstPts[3][1] = dstPts[3][1] / dstPts[3][2];
dstPts[3][2] = dstPts[3][2] / dstPts[3][2];

srcPts2 = np.array([[srcPts[0][0],srcPts[0][1]],\
[srcPts[1][0],srcPts[1][1]],\
[srcPts[2][0],srcPts[2][1]],\
[srcPts[3][0],srcPts[3][1]]], dtype='float32')

dstPts2 = np.array([[dstPts[0][0],dstPts[0][1]],\
[dstPts[1][0],dstPts[1][1]],\
[dstPts[2][0],dstPts[2][1]],\
[dstPts[3][0],dstPts[3][1]]], dtype='float32')

transMatrix = cv.getPerspectiveTransform(srcPts2, dstPts2)

dst = cv.warpPerspective(imgFile,transMatrix,(4128,2322) ,borderMode = cv.BORDER_CONSTANT,borderValue = 0)
``````
-

`Mat R = RX * RY * RZ;` to
`Mat R = RZ * RX * RY;` in order to get it the transformation right.