Posts tagged as ' indexed ' ...

Here is a handy MATLAB function for converting a M*N*3 dimensional RGB image into an M*N dimensional array of indexes and a P*3 dimensional map. This is interesting because it’s lossless, unlike the MATLAB function rgb2ind, which has a low maximum number of colors.
function [ ind, map ] = myrgb2ind( rgb )
%MYRGB2IND Converts an RGB image into an index array and a map of colors
% make a map of all color values in rgb
% map = 3 columns, index of and the second is the color[rgb_width,rgb_height,channels] = size(rgb); % W*H*channels matrix
% don't use the rectangular shape of the image, just use one long column
[rgb_width,rgb_height,rgb_channels] = size(rgb);
index_all = reshape(rgb,rgb_width*rgb_height,rgb_channels);
% sort the image so all the colors are in order
index_all_sorted = sortrows(index_all);
% remove all colors that are duplicates
map = unique(index_all_sorted,'rows');
% assign index values of the map to each pixel position where the color occurred
% and the reshaped image is index_all;
[NULL,ind_reshaped] = ismember(index_all,map,'rows'); % ind_reshaped holds the row number of the corresponding color
ind = reshape(ind_reshaped, rgb_width,rgb_height); % reshape ind to the size of the image
end

And then for converting back:
function [ rgb ] = myind2rgb( ind, map )
%MYIND2RGB converts from lossless index to uint8 rgb
% determine the sizes, NULL can be ~ in 2009b and beyond
[NULL,rgb_channels] = size(map);
[rgb_width,rgb_height] = size(ind);
% reshape ind to the size of the image
ind_reshaped = reshape(ind, rgb_width, rgb_height);
% assign the colors via the index of each color in map
rgb_reshaped = map(ind_reshaped,:);
% get the picture to the right dimensions
rgb = reshape(rgb_reshaped, rgb_width, rgb_height, rgb_channels);
end

To test this I created the .m file program:
close all; clear all
%read in the image and show it
me_rgb = imread('../me.jpg');
imshow(me_rgb);
%convert from rgb into an index
[me_ind, me_map] = myrgb2ind(me_rgb);
% and back again
new_rgb = myind2rgb(me_ind,me_map);
%check that the two images are the same == lossless
assert (isequal(me_rgb, new_rgb), '@ta: matrix going in doesnt equal the one coming out');
%display the outputted image
figure
imshow(new_rgb);

Here, the assert function demonstrates that the rgb image coming out is the same as the one going in. If you tried this with the MATLAB function for rgb2ind and ind2rgb, you will not get the two to be equal unless there are less than 65536 colors (which is the max number of colors defined for rgb2ind).