I need to generate multiple results but one at a time, as opposed to everything at once in an array.

How do I do that in Matlab with a generator like syntax as in Python?

  • 7
    I don't think Matlab has lazy evaluation. – senshin Jan 13 '14 at 18:54
  • Take a look at varargout, this will probably solve your problem. – Daniel Jan 13 '14 at 20:18
  • 2
    varargout won't solve the problem if it is a shortage of memory. – Lyndon White Feb 5 '15 at 4:50
  • Some related references: Coroutine, Generator, Iterator, Lazy evaluation – Amro Nov 15 '16 at 4:09

When executing functions that use the yield keyword, they actually return a generator. Generators are a type of iterators. While MATLAB does not provide the syntax for either, you can implement the "iterator interface" yourself. Here is an example similar to xrange function in python:

classdef rangeIterator < handle
    properties (Access = private)

        function obj = rangeIterator(n)
            obj.i = 0;
            obj.n = n;

        function val = next(obj)
            if obj.i < obj.n
                val = obj.i;
                obj.i = obj.i + 1;
                error('Iterator:StopIteration', 'Stop iteration')

        function reset(obj)
            obj.i = 0;

Here is how we use the iterator:

r = rangeIterator(10);
    % keep call next() method until it throws StopIteration
    while true
        x = r.next();
catch ME
    % if it is not the "stop iteration" exception, rethrow it as an error
    if ~strcmp(ME.identifier,'Iterator:StopIteration')

Note the when using the construct for .. in .. in Python on iterators, it internally does a similar thing.

You could write something similar using regular functions instead of classes, by using either persistent variables or a closure to store the local state of the function, and return "intermediate results" each time it is called.

  • Gah, got interrupted by my crying son. I was writing a solution that would accept a function handle as well in the constructor. Anyway, +1 – Jonas Jan 13 '14 at 20:23
  • If you overload the size (returning [1,n]) and subsref methods on the Iterator appropriately, you can even simply keep the normal for .. in ... syntax. – sebastian Jan 14 '14 at 8:31

In MATLAB (not yet? in Octave), you can use closures (nested, scoped functions):

function iterator = MyTimeStampedValues(values)

    index = 1;

    function [value, timestamp, done] = next()
        if index <= length(values)
            value = values(index);
            timestamp = datestr(now);
            done = (index == length(values));
            index = index + 1;
            error('Values exhausted');

    iterator = @next;

and then

iterator = MyTimeStampedValues([1 2 3 4 5]);
[v, ts, done] = iterator();    % [1, '13-Jan-2014 23:30:45', false]
[v, ts, done] = iterator();    % ...
  • 1
    This works just well in MATLAB R2013b, but values is constructed when MyTimeStampedValues is called. So, there isn’t really any lazy evaluation. – Lumen May 12 '14 at 9:23
  • @Lumen It's not the numbers, it's the timestamps that are lazily generated here in this example. In principle it does the job and yield in Python is just a shortcut for it. What it does is implementing something that keeps state in between calls. – Trilarion Dec 22 '15 at 22:31

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