# I want to calculate the mean of two rows in matlab only if the first elemensts of thee two rows are equal [duplicate]

Possible Duplicate:
I want to calculate the mean of two rows in matlab

I am sorry for repeating myself but I am stuck at a point. I have a 1028 by 18 matrix with some entire rows having NaN values.So I need to compare the first two elements of adjacent rows and calculate the average only if the first two elements are equal. D is the 1028 by 18 matrix

`````` [m,n]=size(D);
for i=1:m-1
if D(i,1)==D(i+1,1)
D=reshape(D, 2, m/2*n);
D=(D(i,:)+D(i+1,:))/2;
D=reshape(D, m/2, n);
else
end
end
``````
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## marked as duplicate by woodchips, Jonas, Oli, Lucifer, jonscaSep 26 '12 at 3:13

What do you want to do with the result? Put it in another matrix? Where? What do you want to put there if the first 2 elements don't match? If you answer the questions and write it down in the form of code, you'll probably have your answer. Or at least a question that's detailed enough for someone to answer. –  Peter Sep 25 '12 at 21:54
...and the problem is? –  Jonas Sep 25 '12 at 22:01
It might also help to explicitly write out, a very small matrix, with some rows you average and some you don't, and then show what the result of your function would be. –  crowding Sep 25 '12 at 22:27
Why not ask the same question again? Third times a charm. DON"T repeat yourself. Edit that first question instead. –  user85109 Sep 25 '12 at 22:35

I do not have matlab with me but the logic will be something like this

``````for row=0,row++

if ( m[row,1]  == m[row+1,1])
{
mean1 = mean(m[row]);
mean2 = mean(m[row+1]);
mean = mean(mean1,mean2);
}

end for
``````

/* note this syntax is not correct, it just give you the idea */

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D is the 1028 by 18 matrix –  Anand Sep 25 '12 at 21:15
it gives you the idea, how to compare first element of the two adjacent rows and find the mean. Or do you want a full solution :) –  hmd Sep 25 '12 at 21:26

You can have a logical index of the valid rows according to your definition using `all(~diff(D(:,1:2)), 2)`, i.e. the elements where both first and second column, row-wise difference is zero.

Then you can use this index to return either integer line indices or index within a matrix of global row-wise mean.

``````index_row = 1:1:size(D, 1); % linear row index
index_valid = all(~diff(D(:,1:2)), 2); % valid rows (logical)

mean_matrix = (D(1:end-1,:) + D(2:end,:))/2; % matrix of all means

% matrix of valid mean rows only
mean_matrix_valid = mean_matrix(index_valid,:); % logical index
% linear index of valid rows, i.e. the pairs indexed (i, i+1)
index_row_valid = index_row(index_valid); % valid rows (int)
``````

For example with

``````D = [1 2 3 4 5; 1 1 1 1 1; 1 2 4 4 4; 1 2 3 3 3; 2 2 2 2 2; 2 2 3 3 3];

>> D =
1     2     3     4     5
1     1     1     1     1
1     2     4     4     4
1     2     3     3     3
2     2     2     2     2
2     2     3     3     3
``````

you will get, using the above

``````>> index_valid =

0
0
1
0
1

>> index_row_valid =

3     5

>> mean_matrix_valid =

1.0000    2.0000    3.5000    3.5000    3.5000
2.0000    2.0000    2.5000    2.5000    2.5000
``````

which are the means of rows (3,4) and (5,6) respectively.

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