# locating common elements in 2D arrays

I have two very long 2D lists called "first_data*" and "second_data", and I would like to locate the elements that are equal and place them in the list "final_data". I have a MWE here:

``````first_data  = [1 2; 3 4]';
second_data = [1 2; 9 4]';

final = [];
for i=1:length(first_data(:, 1))
for j=1:length(second_data(:, 1))
if(first_data(i, 2) == second_data(j, 2))
final = [final first_data(i, 1)];
end
end
end
``````

This gives me 2, as desired. This works, but it is very computationally intensive for very large data sets. Is there a more efficient way to write the above code?

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Are you sure the example code works? You declare `final_data` and reference it as `final` in the `if` block. A sample input for the two arrays would be helpful as well in case the solution from my answer does not work correctly for you. – harpun Feb 24 '13 at 12:51
@harpun I have clarified my question and added a small example that works – BillyJean Feb 24 '13 at 13:02
There are three common elements in the arrays. Shouldn't the answer be [1, 2, 4] instead of [2]? – harpun Feb 24 '13 at 13:08
The main reason your code is slow is that you don't preassign `final`. – Jonas Feb 24 '13 at 14:00
@niles_1710373: You can either make an array you know will be large enough, and then clip the unused rows, or you can assign to, say, 100 rows, and add another 100 rows each time you'd outgrow the array. – Jonas Feb 25 '13 at 19:57

`ismember` will allow you to do what you want.

``````%# identify the rows in first_data's second column
%# that occur in second_data's second column
goodIdx = ismember(first_data(:,2),second_data(:,2));

%# return the corresponding values of first_data's first column
final = first_data(goodIdx,1);
``````
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goodIdx has the form [0 0 ... 1 ... 0], but if I manually call final = first_data([0 1], 1) then I get an error. Why is that? – BillyJean Feb 25 '13 at 19:44
@niles_1710373: `goodIdx` is a logical vector. `final_data(logical([0 1]))` will work. – Jonas Feb 25 '13 at 19:50

Try this code:

``````first_data  = [1 2; 3 4]';
second_data = [1 2; 9 4]';
diff_data=first_data-second_data;
Ind=find(diff_data==0);
final=first_data(Ind);
``````
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use:

``````[c, ia, ib] = intersect(first_data(:, 2), second_data(:, 2));
final = second_data(ib,1);
``````

note: I haven't tested this, but it should work (at least up to row/column mixups)

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So your two datasets can be completely described by the following tuples?

"first_data" described by `(i,j,data_1)` - which indicates that the value data_1 is at row i, column j

"second_data" described by `(i,j,data_2)`

And you want to find such tuples that are equal?

Convert "first_data", and "second_data" to sets using a Bloom Filter

Perform set intersection using the Bloom Filter representation of "first_data" and "second_data" and obtain essentially constant time set intersection using the bitwise AND of the two representations.

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