# How can I index a MATLAB array returned by a function without first assigning it to a local variable?

For example, if I want to read the middle value from magic(5), I can do so like this:

M = magic(5);
value = M(3,3);

to get value == 13. I'd like to be able to do something like one of these:

value = magic(5)(3,3);
value = (magic(5))(3,3);

to dispense with the intermediate variable. However, MATLAB complains about Unbalanced or unexpected parenthesis or bracket on the first parenthesis before the 3.

Is it possible to read values from an array/matrix without first assigning it to a variable?

-
I also found the following article on this theme: mathworks.com/matlabcentral/newsreader/view_thread/280225 Anybody has new information on this theme, will it be implemented? –  user758294 May 17 '11 at 23:19
By switching to octave. –  Mechanical snail Oct 17 '11 at 7:25
Some people work in corporate settings where Octave, or the even better option of Python with NumPy/SciPy, are not available. –  Chad Feb 15 '13 at 20:50

It actually is possible to do what you want, but only if you use the functional form of the indexing operator. When you perform an indexing operation using (), you are actually making a call to the SUBSREF function. So, even though you can't do this:

value = magic(5)(3,3);

You can do this:

value = subsref(magic(5),struct('type','()','subs',{{3,3}}));

Ugly, but possible, ;)

In general, you just have to change the indexing step to a function call so you don't have two sets of parentheses immediately following one another. Another way to do this would be to define your own anonymous function to do the subscripted indexing:

subindex = @(A,r,c) A(r,c);      %# An anonymous function to index a matrix
value = subindex(magic(5),3,3);  %# Use the function to index the matrix

However, when all is said and done the temporary local variable solution is much more readable, and definitely what I would suggest.

-
well what do you know! though i agree it's pretty ugly, and probably less readable than a temp-var solution. +1 for impressive obscure matlab knowledge! –  second Sep 2 '10 at 16:02
That's disgusting, but a very clear answer. Good work! Should've guessed there'd be a back way into it. I'll think I'll carry on with the temp variable. –  Joe Kearney Sep 2 '10 at 16:52
Bear in mind that the intermediate variable is still fully created though. So if the purpose is to save memory by not having to create a temporary local variable, no luck. –  Sam Roberts Sep 21 '11 at 16:18
@SamRoberts: You can't really get around that in a strict-evaluation language like Matlab. The main reason people want this is conciseness/readability, not memory savings. –  Mechanical snail Oct 17 '11 at 7:24
@SamRoberts: true, but it does save you from the burden of calling clear on the temporary (which no-one ever does) -- the temporary tends to stick around longer –  Rody Oldenhuis Jun 28 '13 at 11:33

There was just good blog post on Loren on the Art of Matlab a couple days ago with a couple gems that might help. In particular, using helper functions like:

paren = @(x, varargin) x(varargin{:});
curly = @(x, varargin) x{varargin{:}};

where paren() can be used like

paren(magic(5), 3, 3);

would return

ans = 16

I would also surmise that this will be faster than gnovice's answer, but I haven't checked (Use the profiler!!!). That being said, you also have to include these function definitions somewhere. I personally have made them independent functions in my path, because they are super useful.

-
This is a slightly more general version of the second half of gnovice's answer; also good. –  Joe Kearney Feb 28 '13 at 17:23
What about myfunc().attr? –  gerrit Mar 19 '13 at 15:22
@gerrit, how does at help? and the x.attr() field isn't available unless you have the database toolbox. –  T. Furfaro Mar 21 '13 at 16:14
@T.Furfaro Huh? If myfunc() returns a structure that includes an attribute attr, then to access attr currently I need to do S = myfunc(); S.attr. The question is if we can have a helper function like getattr(myfunc(), 'attr') in analogy to the paren and curly helpers. I don't understand what this has to do with the database toolbox. –  gerrit Mar 21 '13 at 16:27
@gerrit Sorry, total confusion ( I wasn't aware that your "attr" was arbitrary -- in the db tb there's such a field explicity defined ). I believe what you're looking for is getfield() –  T. Furfaro Apr 4 '13 at 14:57
show 1 more comment

How do you feel about using undocumented features:

>> builtin('_paren', magic(5), 3, 3)               %# M(3,3)
ans =
13

or for cell arrays:

>> builtin('_brace', num2cell(magic(5)), 3, 3)     %# C{3,3}
ans =
13

Just like magic :)

-
+1! how did you find that? –  Rody Oldenhuis Jun 28 '13 at 11:30
@RodyOldenhuis: I dont recall now, I guess I must have read it in some buried code ;) –  Amro Jun 28 '13 at 15:15

unfortunately syntax like magic(5)(3,3) is not supported by matlab. you need to use temporary intermediate variables. you can free up the memory after use, e.g.

tmp = magic(3);
myVar = tmp(3,3);
clear tmp
-
Not supported? That's a bit disappointing. Oh well, thanks for the quick response. –  Joe Kearney Sep 2 '10 at 12:47
Is there anywhere we can vote for this feature to be added? –  Evgeni Sergeev Dec 18 '12 at 1:58
@EvgeniSergeev you can vote with your feet, by using a language such as R which supports this. –  jwg Dec 20 '12 at 6:43

At least in MATLAB 2013a you can use getfield like:

a=rand(5);
getfield(a,{1,2}) % etc

to get the element at (1,2)

-
This is actually a nice method. Any drawbacks? –  mmumboss Mar 7 at 16:28

Note that if you compare running times with the standard way (asign the result and then access entries), they are exactly the same.

subs=@(M,i,j) M(i,j);
>> for nit=1:10;tic;subs(magic(100),1:10,1:10);tlap(nit)=toc;end;mean(tlap)

ans =

0.0103

>> for nit=1:10,tic;M=magic(100); M(1:10,1:10);tlap(nit)=toc;end;mean(tlap)

ans =

0.0101

To my opinion, the bottom line is : MATLAB does not have pointers, you have to live with it.

Cheers

-
okay I have to say I got a little carried away, I edited my comment accordingly –  titus Feb 9 '12 at 13:30

It could be more simple if you make a new function:

function [ element ] = getElem( matrix, index1, index2 )
element = matrix(index1, index2);
end

and then use it:

value = getElem(magic(5), 3, 3);
-
but this is exactly what subref does... but in a more general way. –  Shai May 1 '13 at 16:58
yes, more general way, but not friendly... to much ugly in my opinion. –  Vugar May 1 '13 at 17:03

Your initial notation is the most concise way to do this:

M = magic(5);  %create
value = M(3,3);  % extract useful data
clear M;  %free memory

If you are doing this in a loop you can just reassign M every time and ignore the clear statement as well.

-
I agree that this is more concise, and clearing is a good idea in a loop, as you say, but the question was specifically whether the intermediate assignment can be avoided. –  Joe Kearney Aug 21 '12 at 8:43

Here is an indexing function:

getIndex = @(A, x, y) A(x, y)
getIndex( magic(5), 3, 3 )

Tests in Matlab :

>> getIndex = @(A, x, y) A(x, y)

getIndex =

@(A,x,y)A(x,y)

>> getIndex( magic(5), 3, 3 )

ans =

13

Or else, your goal ( get the middle number of magic matrix ) could be derived by math, Define and call:

magicCenter = @(n) ceil( n * n / 2 )
magicCenter(5)

Tests in Matlab :

K>> magicCenter = @(n) ceil( n * n / 2 )

magicCenter =

@(n)ceil(n*n/2)

K>> magicCenter(3)

ans =

5

K>> magicCenter(5)

ans =

13

Hope that helps!

-

str = ['Give the magic matrix order : '];
n= input(str);
M= magic(n)
i= ceil(n/2);
j=i;
M(i,j)
-
This is what the OP wanted to avoid. –  Milind R Dec 21 '13 at 7:55