Can parallel traversals be done in MATLAB just as in Python?

Using the `zip` function, Python allows for loops to traverse multiple sequences in parallel.

`for (x,y) in zip(List1, List2):`

Does MATLAB have an equivalent syntax? If not, what is the best way to iterate over two parallel arrays at the same time using MATLAB?

If x and y are column vectors, you can do:

``````for i=[x';y']
# do stuff with i(1) and i(2)
end
``````

(with row vectors, just use `x` and `y`).

Here is an example run:

``````>> x=[1 ; 2; 3;]

x =

1
2
3

>> y=[10 ; 20; 30;]

y =

10
20
30

>> for i=[x';y']
disp(['size of i = ' num2str(size(i)) ', i(1) = ' num2str(i(1)) ', i(2) = ' num2str(i(2))])
end
size of i = 2  1, i(1) = 1, i(2) = 10
size of i = 2  1, i(1) = 2, i(2) = 20
size of i = 2  1, i(1) = 3, i(2) = 30
>>
``````
• @Hi-Angel: I'm not sure what you're talking about, but you can just do `foo = x+y`. There is often no need to loop in MATLAB. – Cris Luengo Feb 1 at 17:34

If I'm not mistaken the zip function you use in python creates a pair of the items found in list1 and list2. Basically it still is a for loop with the addition that it will retrieve the data from the two seperate lists for you, instead that you have to do it yourself.

So maybe your best option is to use a standard for loop like this:

``````for i=1:length(a)
c(i) = a(i) + b(i);
end
``````

or whatever you have to do with the data.

If you really are talking about parallel computing then you should take a look at the Parallel Computing Toolbox for matlab, and more specifically at parfor

Tested only in octave... (no matlab license). Variations of arrayfun() exist, check the documentation.

``````dostuff = @(my_ten, my_one) my_ten + my_one;

tens = [ 10 20 30 ];
ones = [ 1 2 3];

x = arrayfun(dostuff, tens, ones);

x
``````

Yields...

``````x =

11   22   33
``````
• this I like the most as it works not only in for loop but inline statements. thanks so much! :) – deeenes Dec 19 '18 at 21:51

I would recommend to join the two arrays for the computation:

``````% assuming you have column vectors a and b
x = [a b];

for i = 1:length(a)
% do stuff with one row...
x(i,:);
end
``````

This will work great if your functions can work with vectors. Then again, many functions can even work with matrices, so you wouldn't even need the loop.

``````for (x,y) in zip(List1, List2):
``````

should be for example:

``````>> for row = {'string' 10
>>           'property' 100 }'
>>    fprintf([row{1,:} '%d\n'], row{2, :});
>> end
string10
property100
``````

This is tricky because the cell is more than 2x2, and the cell is even transposed. Please try this.

And this is another example:

``````>> cStr = cell(1,10);cStr(:)={'string'};
>> cNum=cell(1,10);for cnt=1:10, cNum(cnt)={cnt};
>> for row = {cStr{:}; cNum{:}}
>>    fprintf([row{1,:} '%d\n'], row{2,:});
>> end
string1
string2
string3
string4
string5
string6
string7
string8
string9
string10
``````
• For iterates through the columns of the argument, not the rows. Look at the most upvoted answer, to see how this works. – Cris Luengo Feb 1 at 17:38
• Dear Cris, I updated the comment. It's still tricky, but the code is rather intuitive. Cell in matlab has a potential (but, to be honest, it may not beautiful...). – Sean Feb 2 at 15:21

`for` loops in MATLAB used to be slow, but this is not true anymore.

So vectorizing is not always the miracle solution. Just use the profiler, and `tic` and `toc` functions to help you identify possible bottlenecks.

• should be "tic" and "toc"... – Mr Fooz Oct 11 '08 at 5:52
• from my experience 'arrayfun' is much slower than 'for', for example – Alex Kreimer Apr 6 '15 at 18:24
• Arrayfun is no vectorization, it is just a fancy looking loop. – Daniel Feb 20 '16 at 21:11
• How does this actually answer the question? The question asks if you can iterate through corresponding pairs of elements between two vectors, not on how efficient it should be. – rayryeng Oct 3 '17 at 14:38
• @FrankT, code goes as code, not between quotes. Please don't randomly edit just for badges, if you edit, make it count. – Adriaan Oct 3 '17 at 16:10