# Sort a matrix based on the order given in a second matrix (MATLAB)

I have a bigmatrix that is sorted. However, I need to re-order it as per the order of IDs in another matrix (`col. 1 here for both matrices`). How can I do this using vectorization? Eg:

``````bigmat = [ ...
1 10 ;
1 30 ;
1 40 ;
2 1  ;
2 11 ;
3 58 ;
4 2  ;
4 5 ] ;

ordermat = [ 2 ; 1 ; 4 ; 3 ; 6] ;       % Integer IDs

finalans = [ ...
2 1  ;
2 11 ;
1 10 ;
1 30 ;
1 40 ;
4 2  ;
4 5  ;
3 58 ; ] ;
``````

It is possible that all some IDs (integers here) in `ordermat` may not be present in bigmat. They can be ignored as shown above with `id = 6`. Thanks!

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What do you mean by vectorization? –  Mark Aug 11 '11 at 21:43
I meant without using a for-loop on bigmatrix. I hope the solution uses a function like `ismember` etc. Bigmatrix has over 0.5 million rows. –  Maddy Aug 11 '11 at 21:48

``````%# Input values:
bigmat = [1 10; 1 30; 1 40; 2 1; 2 11; 3 58;  4 2; 4 5];
ordermat = [ 2 ; 1 ; 4 ; 3 ; 6] ;

%# Make a look-up table that tells us the relative order for each order id
sortmat(ordermat) = 1:length(ordermat);

%# Extract the order ID's from the big matrix
keys = bigmat(:,1);

%# Get the new ordering
new_key = sortmat(keys);

%# Sort the new ordering, remembering the permutation necessary
[~, permutation] = sort(new_key);

%# Apply the permutation to the big matrix
finalans = bigmat(permutation, :);
``````
-

Here is my solution:

``````ordermat = [2; 1; 4; 3; 6];
bigmat = [
1 10
1 30
1 40
2 1
2 11
3 58
4 2
4 5
];
%#bigmat = sortrows(bigmat,1);

%# keep valid IDs,
ord = ordermat( ismember(ordermat,bigmat(:,1)) );
ord = grp2idx(ord);

%# starting/ending locations of the different IDs in bigmat
startInd = find( diff([0;bigmat(:,1)]) );
endInd = [startInd(2:end)-1; size(bigmat,1)];

%# generate startInd(i):endInd(i) intervals
ind = arrayfun(@colon, startInd, endInd, 'UniformOutput',false);

%# order then combine the intervals of indices
ind = [ind{ord}];

%# get final sorted result
finalans = bigmat(ind,:);
``````

I made sure it handles different cases like:

• `ordermat` contains IDs not found in `bigmat`: `ordermat = [2;1;4;3;6]`
• not all IDs of `bigmat` are represented in `ordermat`: `ordermat = [2;1]`
• IDs not sequential and/or not starting at 1: `ordermat=ordermat+10; bigmat=bigmat+10;`
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Does `grp2idx` require the statistics toolbox? –  nibot Aug 12 '11 at 4:44
@nibot: yes it does, but its a very popular toolbox that I assume everyone has it :) –  Amro Aug 12 '11 at 14:32
we can use the third argument of the UNIQUE function instead of GRP2IDX –  Amro Aug 26 '11 at 18:11

I'd split `bigmat` into chunks according to the unique identifiers, and then reorder the chunks, like this:

``````%# this assumes bigmat is sorted, btw
%# i.e. that the different ids are grouped together

%# find unique ids
dd = [true;diff(bigmat(:,1))~=0];

uniqueIDs = bigmat(dd,1);

%# reorder uniqueIDs
[~,newOrder] = ismember(uniqueIDs,ordermat);

%# if there are uniqueIDs that are not in ordermat
%# we'd need to remove those. I assume this won't
%# be the case

%# chop up bigmat
numUniqueIds = diff([find(dd);length(dd)+1]);
bigChunks = mat2cell(bigmat,numUniqueIds,size(bigmat,2));

%# reorder chunks
finalans = cat(1,bigChunks{newOrder});
``````
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an alternative is to number ordermat, use intlut to replace each index value with it's number, then use sortrows, followed by the reverse intlut. hope that's clear - i don't know enough matlab to post a full answer, so adding as a comment. –  andrew cooke Aug 11 '11 at 23:07