How to avoid for loops when generating index arrays?

2013 4월 30
6 답변
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1 개 추천

I often find myself coding nested for loops to generate vectors of integer indices. For example:
n = 4;
i = 1;
for L = 0:n
for M = -L:L
l(i) = L;
m(i) = M;
i = i+1;
end
end
All I need are the vectors "l" and "m". I can preallocate to save some speed, but my real problem is having to use the for loops as sometimes the index vectors I need to create have many more nested for loops whose (note that the inner loop index depends on the outer loop index).
Is there a simple way to avoid using loops to generate index vectors like these?

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Matt J
Matt J 2013년 4월 30일

0 개 추천

Here's another method, less memory consuming than NDGRID
mm=sparse(-n:n);
ll=sparse(0:n);
map=bsxfun(@le,abs(mm.'),ll);
idx=nonzeros(bsxfun(@times,map,1:length(ll) ));
l=full(ll(idx));
idx=nonzeros(bsxfun(@times,map,(1:length(mm)).')) ;
m=full(mm(idx));

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Roger Stafford
Roger Stafford 2013년 4월 30일
편집: Matt J 2013년 4월 30일

1 개 추천

For your particular problem you can do this:
M = (0:n*(n+2))';
L = floor(sqrt(M));
M = M-L.*(L+1);
(I've used uppercase letters, 'L' and 'M', in place of your lowercase 'l' and 'm'.)
As with Matt Kindig, I am not sure this will be any faster than your for-loops. Time it with a large value for n and see.
Matt J
Matt J 2013년 4월 30일
편집: Matt J 2013년 4월 30일

1 개 추천

Here's a way to do it using NDGRID. It's not apriori obvious whether for loops would or would not be faster. It depends what you plan to reuse.
[mg,lg]=ndgrid(-n:n,0:n);
idx=abs(mg)<=lg;
l=lg(idx).',
m=mg(idx).',

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Oliver
Oliver 2013년 4월 30일
Thanks Matt, this is definitely a simple way to do it. However, it requires creation of an intermediate array which can be much larger than the final array. Is there a solution which is efficient in terms of both memory and vectorization?
Matt J
Matt J 2013년 4월 30일
편집: Matt J 2013년 4월 30일
To answer that meaningfully, you need to give us more of a sense of the scope of what you're doing. I cannot see why the intermediate array "can be much larger than the final array". In this example, they are less than twice its size. As I also mentioned, it's not clear what you might be able to reuse. If you plan to generate further arrays, it might be worth keeping lg and mg around, regardless of the memory they consume.
Oliver
Oliver 2013년 4월 30일
Consider the case of n = 1. In this case the vectors l and m should be:
l = [0, 1, 1, 1]; m = [0, -1, 0, 1];
Using ndgrid would create lg and mg which are each 2-by-3 arrays, clearly larger than the final result in which l and m are 1-by-4 arrays. If you consider something much larger, such as n = 10 you get size(lg) = [21,11], whereas size(l) = [1 121]. In this case the intermediate array lg uses nearly twice as much memory as the final array l.
Matt J
Matt J 2013년 4월 30일
In this case the intermediate array lg uses nearly twice as much memory as the final array l.
Again, why do we care? Even for n=300, lg and mg consume a measly 2MB. And as I've said (3 times now), you might be able to reuse lg and mg to generate other stuff.
Oliver
Oliver 2013년 5월 1일
The reason that I care is that I have only given you a simplified example. In practice I have things like:
for N = 0:2:30
for L = 0:N
for M = -L:L
for P = 0:M
for Q = -P:P
...
end
end
end
end
end
So making the intermediate arrays in this case would require a 5-dimensional array that takes up a lot of space.
Matt J
Matt J 2013년 5월 1일
편집: Matt J 2013년 5월 2일
I'm starting to think Sean's advice about sticking with for-loops is the best one. There can definitely be ways to cut down on the loop nesting (see my newest Answer based on cell arrays), but the required form would depend on the body of the original set of for-loops.

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Sean de Wolski
Sean de Wolski 2013년 4월 30일
편집: Sean de Wolski 2013년 4월 30일

0 개 추천

doc meshgrid
doc ndgrid %?
:)
And of course, depending on your application, two nested for-loops or bsxfun() might be better.

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Oliver
Oliver 2013년 4월 30일
I can't use ndgrid or meshgrid because the inner loop depends on the outer loop. If i had something like
i = 1;
for L = 3:6
for M = 1:5
l(i) = L;
m(i) = M;
i = i+1;
end
end
then I could use:
[l,m] = meshgrid(3:6,1:5);
But, this won't work with the dependency.
Sean de Wolski
Sean de Wolski 2013년 4월 30일
Just use the for-loops, they'll be the fastest by far. If you want to disguise it, write a function that takes L and M and returns l and m.
cellfun and arrayfun are slow and converting between cells and numeric types is slow. The above with preallocation will be pretty quick.

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Matt Kindig
Matt Kindig 2013년 4월 30일

0 개 추천

It's kind of hack-y, but it gives the same output as your original posting:
n=4;
l = cell2mat(arrayfun(@(x) x*ones(1,2*x+1), 0:n, 'uni', false));
m= cell2mat( arrayfun(@(x) (-x:1:x), 0:n, 'uni', false));
Keep in mind that this may very well be slower than for-loops--I haven't done any timing comparisons.
Matt J
Matt J 2013년 5월 1일
편집: Matt J 2013년 5월 1일

0 개 추천

Here's a way to eliminate one nested loop
l=cell(1,n+1);
m=l;
for L=0:n
i=L+1;
m{i}=-L:L;
l{i}=m{i};
l{i}(:)=L;
end
l=[l{:}],
m=[m{:}],

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Sean de Wolski
Sean de Wolski 2013년 5월 1일
I'd be surprised if this is faster due to the cell array conversions. I guess one of us will have to run a timing test.
Matt J
Matt J 2013년 5월 1일
편집: Matt J 2013년 5월 2일
For n=1000 I get this,
Original Approach:
Elapsed time is 0.093130 seconds.
Cell-Based Approach
Elapsed time is 0.027393 seconds.
I think the vectorization inherent in
m{i}=-L:L;
l{i}=m{i};
l{i}(:)=L;
trumps the overhead from the cell conversion.

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Oliver
Oliver
2013년 4월 30일

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