This example shows one way to perform step 2:
A = 'peppers.jpg';
img = im2double(imread(A));
img_r=imrotate(img,20,'nearest','crop'); % <-- this is the distorted image
% rotated 20 deg
xopt = fminsearch(@(x) imr(x,img_r,img), 10); % <-- start with 10 deg as guess
imr is the function
function obj= imr(x,img1,img2);
img1_r = imrotate(img1,x,'nearest','crop');
obj = sum((img2(:)-img1_r(:)).^2);
The function wraps
imrotate, generating an objective function to minimize so that it can be used by
This shows the original, distorted, and reversed image (with angle determined as above):
Note the limitations: the rotated images are cropped so that a point-by-point comparison is possible during computation of the objective function.
This is probably not the absolutely best way to do this, as I imagine that there are morphological algorithms designed to answer your specific question in a more general way. Still it worked.