# Projective Transform - matlab code

i can't use any toolbox function i need to build it from scratch.

% load images

% call the main function
mapIntoImage(img1,img2)

function    [newImage] = mapIntoImage(imageA,imageB)
%  Input:      imageA, imageB - a grayscale image in the range [0..255].
%
%  Output:    newImage – imageA into which image B has been mapped.
%
showImage(imageA)
hold on
% Initially, the list of points is empty.
xy = [];
% Loop, picking up the points.
disp('Please enter corners of place to insert image in clockwise order.')

for j = 1:4
[xi,yi] = ginput(1);
%draw a yellow dot
plot(xi,yi,'yo')
xy(:,j) = [xi;yi];
end

% get x1 y1 cordinates  - xy(:, 1)

imgRow = size(imageB,1);
imgCol = size(imageB,2);

[X,Y] = meshgrid(1:imgCol,1:imgRow);

imgBcords = [0 size(imageB, 1) size(imageB,1) 0 ;
0 0 size(imageB,2) size(imageB,2)];
coefs = findCoefficients(xy, imgBcords);

A = [coefs(1) coefs(2) coefs(5);coefs(3) coefs(4) coefs(6); coefs(7) coefs(8) 1];

temp = zeros(size(X,1), size(X,2), 3);
new = ones(256);
for i = 1:size(X,1)
for j = 1:size(X,2)
temp(i,j,:) =A*[X(i,j); Y(i,j); new(i,j)];
end
end

end

function [ result ] = findCoefficients( imageA, imageB )
% finds coefficients for inverse mapping algorithem
%   takes 2 X 2d vectors each consists of 4 points x,y
%   and returns the coef accroding to reverse mapping function
%
% x y 0 0 1 0 -xx' -yx'
% 0 0 x y 0 1 -xy' -yy'
%                       y' and x' are in the destenation picture;

A = [imageB(1,1) imageB(2,1) 0 0 1 0 -imageB(1,1)*imageA(1,1) -imageB(2,1)*imageA(1,1);
0 0 imageB(1,1) imageB(2,1) 0 1 -imageB(1,1)*imageA(2,1) -imageB(2,1)*imageA(2,1);
imageB(1,2) imageB(2,2) 0 0 1 0 -imageB(1,2)*imageA(1,2) -imageB(2,2)*imageA(1,2);
0 0 imageB(1,2) imageB(2,2) 0 1 -imageB(1,2)*imageA(2,2) -imageB(2,2)*imageA(2,2);
imageB(1,3) imageB(2,3) 0 0 1 0 -imageB(1,3)*imageA(1,3) -imageB(2,3)*imageA(1,3);
0 0 imageB(1,3) imageB(2,3) 0 1 -imageB(1,3)*imageA(2,3) -imageB(2,3)*imageA(2,3);
imageB(1,4) imageB(2,4) 0 0 1 0 -imageB(1,4)*imageA(1,4) -imageB(2,4)*imageA(1,4);
0 0 imageB(1,4) imageB(2,4) 0 1 -imageB(1,4)*imageA(2,4) -imageB(2,4)*imageA(2,4)];
B = [imageB(1,1); imageB(2,1); imageB(1,2); imageB(2,2); imageB(1,3); imageB(2,3); imageB(1,4); imageB(2,4)];

result = pinv(A)*B;
end


i want to build now the transform [x' y' 1] = A*[X Y 1]; i have figured out that i would need to use repmat, but i can't seem to get to the real syntax without loops. what's the most efficient way to do it?

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## migrated from dsp.stackexchange.comDec 17 '12 at 22:42

This question came from our site for practitioners of the art and science of signal, image and video processing.

This is a programming question about MATLAB, and not a signal processing question. It should be migrated to a programming site on SE. If not, it should be closed here. – Dilip Sarwate Dec 1 '12 at 21:53
@DilipSarwate please look at my last question.it's an image processing question – Gilad Dec 2 '12 at 2:28
Your last question as of now reads "... i can't seem to get to the real syntax without loops. what's the most efficient way to do it?" In what sense is this a signal processing question? – Dilip Sarwate Dec 2 '12 at 3:24

A projective transform has the form of

$x' = \frac {a_{11}x+a_{12}y+a_{13}}{a_{13}x+a_{23}y+a_{33}} \\ y' = \frac {a_{21}x+a_{22}y+a_{23}}{a_{13}x+a_{23}y+a_{33}}$

Where the coefficients are defined up to some scale factor. One of the ways to ensure a constant scale factor is to set $a_{33}=1$. One easy way to think about it is to use the homogenous coordinates:

$\left( \begin{array}{ccc} x'\\y'\\S\end{array} \right) = \left( \begin{array}{ccc} a_{11} & a_{12} & a_{13}\\a_{21} & a_{22} & a_{23}\\ a_{31} & a_{32} & a_{33}\end{array} \right) \left( \begin{array}{ccc} x\\y\\1\end{array} \right)$

These coordinates are defined up to scale. That is,

$\left( \begin{array}{ccc} x'/S\\y'/S\\1\end{array} \right) \equiv \left( \begin{array}{ccc} x'\\y'\\S\end{array} \right)$

Thus, in your case you should do: (Assuming that x and y are column vectors, and A is the transpose of the matrix that I described above:

  XY = A * [x y ones(size(x))];
XY(:,1) = XY(:,1)./XY(:,3);
XY(:,2) = XY(:,2)./XY(:,3);

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thank for the answer ,i can share my whole code if that helps. let's a assume i have a 256X256 grayscale picture (imageB) i want to map into a bigger picture (imageA). so when i use the above code what i'll get will be X=256X256 and so will be Y=256X256. so the code for that will need to different than what you wrote, correct? – Gilad Dec 1 '12 at 21:34
@Androidy, if you want to map images you should also add interpolation and use inverse transform. You should really take a look at how Matlab does it. Check out dsp.stackexchange.com/questions/4804/… – Andrey Rubshtein Dec 1 '12 at 21:47
my problem is not the image processing knowledge but more of a Matlab syntax, should i post this in StackOverFlow? i'm going to use bilinear interpolation, but before that i need to apply the inverse transform. – Gilad Dec 1 '12 at 21:56
@Androidy, sorry, but I don't understand your problem. Can you please describe it better, including a reproducible code/ example? – Andrey Rubshtein Dec 1 '12 at 22:00
i have added my full code. and some more explanations thanks. – Gilad Dec 1 '12 at 22:19