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Say we have a vector:

dx = [ 1 10 20 ]

Now we want to generate a linearly spaced vector from 0-100 in steps of dx for each value in dx so that we get something like the following, call it vals:

vals = 0   0  0
       1  10 20
       2  20 40
       3  30 60
       .  .   .
       .  . 100
       . 100

So that we arrive at an vector of differently sized vectors. Eventually we'll want to apply a function to vals and then we need to sum up the inner vectors so that the result will be a vector with 3 elements. What's the best way of going about this?

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2 Answers 2

up vote 4 down vote accepted

You can solve this with arrayfun and cellfun:

dx = [1 10 20];
vals = arrayfun(@(x)0:x:100, dx, 'UniformOutput', false);

result = cellfun(@(x)sum(someFunction(x)), vals);

where someFunction is the function you want to apply to the vectors.

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This is what I was looking for! I haven't any experience with arrayfun and cellfun so I'll have to play with them some more. Thanks! – Dan K Mar 26 '13 at 22:21

I put the result in a list since the columns are not the same size and it won't fit in an array.

dx = [1 10 20];
l = 1 + 100 ./ dx;
% disp(l); % so you can see what the above calculation did
vals = {linspace(0,100,l(1,1))', linspace(0,100,l(1,2))',linspace(0,100,l(1,3))}
% the (') after the linspace() function is a matrix transpose since linspace() returns a row vector
% lists work like matrices except you use list_name{m} as opposed to matrix_name(m,n)

Have fun with vectorization!

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I suggest you don't call your array length, since this is the name of a frequently-used builtin function. – Jonas Mar 26 '13 at 22:07
This only works for a fixed length of dx. I was looking for something scalable. Thanks anyway! – Dan K Mar 26 '13 at 22:22
@Jonas Thanks for your correction, my Octave/Matlab is a bit rusty. :) – Nolo Mar 28 '13 at 15:25

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