26

It's common to use the end keyword as a shortcut for accessing or extending an array in Matlab, as in

>> x = [1,2,3];
>> x(1:end-1)
ans =
    1   2
>> x(end+1) = 4
x =
    1   2   3   4

However, I was surprised to find that the following also works

>> x(1:min(5, end))
ans =
    1   2   3   4

I thought that end might be a special form, like :, that can be special-cased in indexing operations, so I created a class to detect this

classdef IndexDisplayer
  methods
    function subsref(self, s)
      disp(s);
    end
  end
end

You can see how : is special cased in the following example

>> a = IndexDisplayer;
>> a(1:3)
    type: '()'
    subs: {[1 2 3]}
>> a(:)
    type: '()'
    subs: {':'}

However, when I index with end I just see

>> a(end)
    type: '()'
    subs: {[1]}

Here the end is replaced with a 1. Where does that 1 come from? My first guess was that any end inside an indexing expression x(end) would be replaced with a call to length(x) so I tried overriding length as well

classdef IndexDisplayer
  methods
    function subsref(self, s)
      disp(s);
    end
    function len = length(self)
      len = 10;
    end
  end
end

However, that gives

>> a = IndexDisplayer;
>> length(a)
ans =
    10
>> a(end)
    type: '()'
    subs: {[1]}

so that theory is out the window. Can anyone explain the semantics of end?

2 Answers 2

17

Firstly, I think it's kind of a bug, or at least an unexpected feature, that your syntax x(1:min(5, end)) works at all. When I was at MathWorks, I remember someone pointing this out, and quite a few of the developers had to spend a while figuring out what was going on. I'm not sure if they ever really agreed whether it was a problem or not.

To explain the (intended) semantics of end: end is implemented as a function ind = end(obj, k, n). k is the index of the expression containing end, and n is the total number of indices in the expression.

So, for example, when you call a(1,end,1), k is 2, as the end is in argument 2, and n is 3 as there are 3 arguments.

ind is returned as the index that can replace end in the expression.

You can overload end for your own classes (in the same way as you can overload colon, size, subsref etc).

To extend your example:

classdef IndexDisplayer
  methods
    function ind = end(self,k,n)
        disp(k)
        disp(n)
        ind = builtin('end', self, k, n);
    end
  end
end

>> a = IndexDisplayer;
>> a(1,end,1)
 2
 3

See here for more information.

5
  • Interesting, thanks. I suppose that the default end for objects just returns 1? I'd be interested to find out how it works in the case of x(1:min(5,end)). Do you walk up the call tree until you find an object for which the end function is defined? Apr 11, 2014 at 16:06
  • I'm not sure what exactly is happening with x(1:min(5,end)), and I'm not sure you could definitively find out unless you had access to the internals of MATLAB. It's not obvious to me how it chooses which end function to dispatch to when it's in an expression like that. For example, if you redefine min to be an array, end seems to refer to the end of the array min, not the end of x, and I can't really explain why. You may need to ask MathWorks, although I'm not sure anyone except a couple of developers would be able to give you a full explanation. Apr 11, 2014 at 16:22
  • If you're lucky, @Edric might hear this batcall and explain things better than I can... Apr 11, 2014 at 16:26
  • PS You also asked whether the default end for objects just returns 1. An object is just a scalar array (of size (1,1)), so yes, when called on just an object, it would return 1. But if called on an array of objects of different size, it would return whatever was appropriate - unless you've overloaded end for that class. There's an example in the doc of a class that has a Data property, where end is overloaded to return information about Data rather than the object itself. When doing that you would have to be very careful to get the correct behavior when called on an array of objects. Apr 12, 2014 at 20:06
  • 2
    Someone in Mathworks tech support essentially confirmed that this is undocumented behaviour, and shouldn't be relied upon (in particular, it could disappear or change behaviour in later versions of MATLAB). I'll mark this accepted for now. Apr 14, 2014 at 17:02
4

I find this a curiosity too. Nevertheless, I often use (exploit?) this behavior to shorten statements. For example, in this answer, to get all but the kth element(s) of a vector, a clean solution that occurred to me was,

vector(setdiff(1:end,k))

This end replaces a call to numel(vector). For a scalar k, this is an alternative to vector(1:end ~= k) or vector([1:k-1 k+1:end]). It seemed perfectly reasonable at the time, although I drew attention to the oddity of this usage. Is this really bad practice? Perhaps, but I've accepted it for what it's worth and move on.

I don't offer any insight into how this works or what the rules are, as Sam Roberts does in his answer, but conceptually, I see this as a matter of context. That is, when end occurs, I would assume it evaluates to an index (or dimension subscript) for the array with the most immediate scope, looking "up" through nested statements to make the determination. Not sure if that is the right wording, but it seems to be a useful way to interpret the operation of end.

I haven't been bitten by this interpretation yet.

2
  • I just wandered around here. Just wanted to point you to the comment by OP 3 days after your post (just in case you missed it): this is officially undocumented behaviour. Sep 28, 2015 at 16:00
  • 1
    @AndrasDeak I did see that thanks. I should say that I would only use such a statement in the interactive MATLAB command prompt, NOT when writing functions or scripts that you hope to use in the future.
    – chappjc
    Sep 28, 2015 at 16:03

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