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I have two matrices like the following ones:

'01/01/2010'          1
'02/01/2010'          2
'03/01/2010'          3
'05/01/2010'         11
'06/01/2010'         17

'01/01/2010'          4
'02/01/2010'          5
'04/01/2010'          6
'05/01/2010'          7

, and after doing a few tricky things in MATLAB, I want to create the following three matrices:

'01/01/2010'          1          4
'02/01/2010'          2          5
'03/01/2010'          3        NaN
'04/01/2010'        NaN          6
'05/01/2010'         11          7
'06/01/2010'         17        NaN


'01/01/2010'          1          4
'02/01/2010'          2          5
'05/01/2010'         11          7

Any idea on how to join these tables? Cheers.

EDIT: Really sorry for my typos, guys. I updated both the question and the input/output data. Please, feel free to provide suggestions.

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How did you get the bottom section? What's the operation? Where do the letters come from? –  Phonon Jun 11 '12 at 14:01
    
I can only see 2 matrices in the question, albeit one of them is presented twice. Perhaps if OP could explain in detail the transformation from inputs to outputs then either OP or SO could formulate a function. –  High Performance Mark Jun 11 '12 at 14:06
    
You were right. Just updated the question. The problem is similar to the join function in SQL, but I can't find how to do that in MATLAB. –  user706838 Jun 11 '12 at 16:08

3 Answers 3

up vote 5 down vote accepted

I believe what you are trying to achieve are called inner join, and full outer join in the database world.

First we start with the two datasets:

d1 = {
 '01/01/2010'          1
 '02/01/2010'          2
 '03/01/2010'          3
 '05/01/2010'         11
 '06/01/2010'         17
};
d2 = {
 '01/01/2010'          4
 '02/01/2010'          5
 '04/01/2010'          6
 '05/01/2010'          7
};

Here is the code to perform the two types of join:

%# get all possible dates, and convert them to indices starting at 1
[keys,~,ind] = unique( [d1(:,1);d2(:,1)] );

%# full outer join
ind1 = ind(1:size(d1,1));
ind2 = ind(size(d1,1)+1:end);

fullOuterJoin = cell(numel(keys),3);
fullOuterJoin(:) = {NaN};           %# fill with NaNs
fullOuterJoin(:,1) = keys;          %# union of dates
fullOuterJoin(ind1,2) = d1(:,2);    %# insert 1st dataset values
fullOuterJoin(ind2,3) = d2(:,2);    %# insert 2nd dataset values

%# inner join
loc1 = ismember(ind1, ind2);
loc2 = ismember(ind2, ind1);

innerJoin = cell(sum(loc1),3);
innerJoin(:,1) = d1(loc1,1);        %# intersection of dates
innerJoin(:,2) = d1(loc1,2);        %# insert 1st dataset values
innerJoin(:,3) = d2(loc2,2);        %# insert 2nd dataset values

Alternatively, we could have extracted the inner join from the outer join dataset by simply removing rows with any NaN values:

idx = all(~isnan(cell2mat(fullOuterJoin(:,2:end))), 2);
innerJoin = fullOuterJoin(idx,:);

Either way, the result:

>> fullOuterJoin
fullOuterJoin = 
    '01/01/2010'    [  1]    [  4]
    '02/01/2010'    [  2]    [  5]
    '03/01/2010'    [  3]    [NaN]
    '04/01/2010'    [NaN]    [  6]
    '05/01/2010'    [ 11]    [  7]
    '06/01/2010'    [ 17]    [NaN]

>> innerJoin
innerJoin = 
    '01/01/2010'    [ 1]    [4]
    '02/01/2010'    [ 2]    [5]
    '05/01/2010'    [11]    [7]
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Amro, Thank you so much for the clean and well-explained solution to my problem! I very much appreciate it. Cheers! –  user706838 Jun 12 '12 at 23:38
    
Amro, may I ask you one more question please? Well, the result data are in the form of a cell, right? Could you please help me convert it to a matrix? –  user706838 Jun 15 '12 at 16:42
    
@eualin: If you want to convert to a matrix, all the elements have to be of the same type, thus you can't mix strings of dates with numbers. The solution would be to convert the dates to serial date numbers (DATENUM), then use CELL2MAT to get a matrix. Something like: M = [datenum(innerJoin(:,1),'dd/mm/yyyy') cell2mat(innerJoin(:,2:end))] –  Amro Jun 15 '12 at 16:47
    
Let me then change the question a bit. In each loop I get the following two columns of data that are obviously of different type. I need to place one next to other some how and thus to construct the first input of the function you wrote above. How to do that? hist_date = '2012-01-03' '2012-01-04' '2012-01-05' '2012-01-06' '2012-01-09' hist_close = 35.3400 35.1400 35.2100 35.0200 35.0700 35.1200 –  user706838 Jun 15 '12 at 17:17
    
@eualin: try: d = [hist_date(:) num2cell(hist_close(:))] assuming they are of the same length (in the data you just posted, one is of length 5 the other 6, but I'm assuming this is just a typo). Of course the first is a cell array: hist_date = {'2012-01-03' '2012-01-04' '2012-01-05' '2012-01-06' '2012-01-09'};, the second a matrix: hist_close = [35.3400 35.1400 35.2100 35.0200 35.0700]; –  Amro Jun 15 '12 at 17:24

In MATLAB, you cannot have strings as matrix elements. For that you need to use a cell array. This is a solution using cell arrays and containers.Maps.

FirstCellArray = {
'01/01/2010', 1;
'02/01/2010', 2;
'03/01/2010', 3;
'05/01/2010', 11;
'06/01/2010', 17
};

SecondCellArray = {
'01/01/2010', 4;
'02/01/2010', 5;
'04/01/2010', 6;
'05/01/2010', 7;
};

AllDatesCellArray = union(FirstCellArray(:,1), SecondCellArray(:,1));

% Create containers.Maps for both cell arrays. containers.Maps are hash tables.

DateToFirstNumberMap = containers.Map(FirstCellArray(:,1), FirstCellArray(:,2));
DateToSecondNumberMap = containers.Map(SecondCellArray(:,1), SecondCellArray(:,2));

WithNaNsCellArray = AllDatesCellArray;

for Index = 1:size(WithNaNsCellArray, 1)
    Key = AllDatesCellArray{Index, 1};
    try
        NumberOne = cell2mat(values(DateToFirstNumberMap, cellstr(Key)));
    catch
        NumberOne = NaN;
    end
    WithNaNsCellArray{Index, 2} = NumberOne;
    try
        NumberTwo = cell2mat(values(DateToSecondNumberMap, cellstr(Key)));
    catch
        NumberTwo = NaN;
    end
    WithNaNsCellArray{Index, 3} = NumberTwo;
end

WithoutNaNsCellArray = WithNaNsCellArray;
NaNIndicesVector = (isnan([WithNaNsCellArray{:,2}]) | isnan([WithNaNsCellArray{:,3}]));
WithoutNaNsCellArray(NaNIndicesVector == 1, :) = [];

Then WithNaNsCellArray contains the result with NaN rows and WithoutNaNsCellArray contains the result without NaN rows.

WithNaNsCellArray = 
'01/01/2010'    [  1]    [  4]
'02/01/2010'    [  2]    [  5]
'03/01/2010'    [  3]    [NaN]
'04/01/2010'    [NaN]    [  6]
'05/01/2010'    [ 11]    [  7]
'06/01/2010'    [ 17]    [NaN]

WithoutNaNsCellArray = 
'01/01/2010'    [ 1]    [4]
'02/01/2010'    [ 2]    [5]
'05/01/2010'    [11]    [7]
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+1 for understanding the question and providing a complete answer. –  Christopher Chiche Jun 11 '12 at 15:45
    
Sorry for my mistake, could you please take a look in the updated question? –  user706838 Jun 11 '12 at 16:09
    
@eualin I edited my answer according to the change in question. I also reorganized my code a little bit to make it clearer. –  nrz Jun 11 '12 at 18:56
    
I have cleaned it up a bit for readability (removed edit warnings). The original question has been stable for a while now so people won't be confused as to what exactly you are answering to. –  Dennis Jaheruddin Jul 29 '13 at 14:37

The statistics toolbox contains a function called JOIN that basically does what you want.

http://www.mathworks.de/de/help/stats/dataset.join.html

Unfortunately, it probably can't handle strings and polytyped matrices. But you might be able to use JOIN to shorten the solutions proposed by the other answers.

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