# Map function in MATLAB?

I'm a little surprised that MATLAB doesn't have a Map function, so I hacked one together myself since it's something I can't live without. Is there a better version out there? Is there a somewhat-standard functional programming library for MATLAB out there that I'm missing?

``````function results = map(f,list)
% why doesn't MATLAB have a Map function?
results = zeros(1,length(list));
for k = 1:length(list)
results(1,k) = f(list(k));
end

end
``````

usage would be e.g.

``````map( @(x)x^2,1:10)
``````
-
Lesson #1 going from other languages to Matlab: Don't use for loops, they are a few orders of magnitude slower than a vectorized solution. –  CookieOfFortune Jun 11 '09 at 19:58
What about recursion? –  Dario Jun 11 '09 at 20:25
With the introduction of the JIT, for loops do not take the penalty that they once did. –  MatlabDoug Jun 12 '09 at 16:31
@CookieOfFortune I think that's not true anymore... –  Ander Biguri May 28 '13 at 12:54
@AnderBiguri I think they've added some improvements but it's still much slower. –  CookieOfFortune May 28 '13 at 18:17

It seems that the built-in arrayfun doesn't work if the result needed is an array of function: eg: map(@(x)[x x^2 x^3],1:10)

slight mods below make this work better:

``````function results = map(f,list)
% why doesn't MATLAB have a Map function?
for k = 1:length(list)
if (k==1)
r1=f(list(k));
results = zeros(length(r1),length(list));
results(:,k)=r1;
else
results(:,k) = f(list(k));

end;
end;
end
``````
-
ARRAYFUN would work for your example, you would just have to include the input arguments `..., 'UniformOutput', false);` to create a cell array output containing your arrays, then format and combine them however you want into a non-cell array. –  gnovice Apr 26 '12 at 16:18

A rather simple solution, using Matlab's vectorization would be:

``````a = [ 10 20 30 40 50 ]; % the array with the original values
b = [ 10 8 6 4 2 ]; % the mapping array
c = zeros( 1, 10 ); % your target array
``````

Now, typing

``````c( b ) = a
``````

returns

``````c = 0    50     0    40     0    30     0    20     0    10
``````

c( b ) is a reference to a vector of size 5 with the elements of c at the indices given by b. Now if you assing values to this reference vector, the original values in c are overwritten, since c( b ) contains references to the values in c and no copies.

-

The short answer: the built-in function ARRAYFUN does exactly what your map function does for numeric arrays:

``````>> y = arrayfun(@(x) x^2,1:10)
y =

1     4     9    16    25    36    49    64    81   100
``````

There are two other built-in functions that behave similarly: CELLFUN (which operates on elements of cell arrays) and STRUCTFUN (which operates on each field of a structure).

However, these functions are often not necessary if you take advantage of vectorization, specifically using element-wise arithmetic operators. For the example you gave, a vectorized solution would be:

``````>> x = 1:10;
>> y = x.^2
y =

1     4     9    16    25    36    49    64    81   100
``````

Some operations will automatically operate across elements (like adding a scalar value to a vector) while others operators have a special syntax for element-wise operation (denoted by a "." before the operator). Many functions in MATLAB are designed to operate on vector and matrix arguments using element-wise operations, and thus don't require map functions.

To summarize, here are some different ways to square each element in an array:

``````x = 1:10;       %# Sample array
f = @(x) x.^2;  %# Anonymous function that squares each element of its input

%# Option #1:
y = x.^2;  %# Use the element-wise power operator

%# Option #2:
y = f(x);  %# Pass a vector to f

%# Option #3:
y = arrayfun(f,x);  %# Pass each element to f separately
``````

Of course, for such a simple operation, option #1 is the most sensible choice.

-
One should note that option 1 is not only simpler, but also faster (compared to option 3, 2 should be very similar to 1)! –  Diederick C. Niehorster Jan 5 at 16:46

In addition to vector and element-wise operations, there's also `cellfun` for mapping functions over cell arrays. For example:

``````cellfun(@upper, {'a', 'b', 'c'}, 'UniformOutput',false)
ans =
'A'    'B'    'C'
``````

If 'UniformOutput' is true (or not provided), it will attempt to concatenate the results according to the dimensions of the cell array, so

``````cellfun(@upper, {'a', 'b', 'c'})
ans =
ABC
``````
-

You don't need `map` since a scalar-function that is applied to a list of values is applied to each of the values and hence works similar to `map`. Just try

``````l = 1:10
f = @(x) x + 1

f(l)
``````

In your particular case, you could even write

``````l.^2
``````
-
-1: That's actually not true. Matlab does not have a type system strong enough to specify scalar functions. f is called with the vector and a single vector addition is performed in your example. To verify this, profile your code sample ("profile on" before running the code, then "profile off report" after it). You'll see there's a single call to f. –  Mr Fooz Jun 14 '09 at 3:16

If matlab does not have a built in map function, it could be because of efficiency considerations. In your implementation you are using a loop to iterate over the elements of the list, which is generally frowned upon in the matlab world. Most built-in matlab functions are "vectorized", i. e. it is more efficient to call a function on an entire array, than to iterate over it yourself and call the function for each element.

In other words, this

``````
a = 1:10;
a.^2
``````

is much faster than this

``````
a = 1:10;
map(@(x)x^2, a)
``````