# python double loop question

i am wondering if the following code can be written in a somewhat nice way. basically, i want to calculate z = f(x,y) for a (x,y) meshgrid.

``````a = linspace(0,xr,100)
b = linspace(0,yr,100)

for i in xrange(100):
for j in xrange(100):
z[i][j] = f(a[i],b[j])
``````

thanks

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I don't see why that wouldn't work. Are you actually having a problem? –  Matt Ball Dec 17 '10 at 23:41
it works. im curious if it can be written in one line or some other ways. –  nos Dec 17 '10 at 23:44
Personally, I think that is a 'nice' way to have your code. Even if it can be in one line, this is clear, and not overly verbose. –  corsiKa Dec 17 '10 at 23:44
two answers in under 1 min, this site is incredible –  matcheek Dec 17 '10 at 23:46
@glowcoder thanks very much. –  nos Dec 17 '10 at 23:47
show 1 more comment

Yeah. Your code as presented in the question is nice.

Do not ever think that few lines is "nice" or "cool". What counts is clarity, readability and maintainability. Other people should be able to understand your code (and you should understand it in 12 months, when you need to find a bug).

Many programmers, especially young ones, things that "clever" solutions are desirable. They are not. And that's what is so nice with the python community. We are much less afflicted by that mistake than others.

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I upvoted this because it's a lesson that I'm learning myself but if they're just lists then I think that my solution is nicer than OP's code because it sidesteps extraneous iterators. With the same assumptions, wheatie's answer is better yet. –  aaronasterling Dec 18 '10 at 0:01
The iterators are still there. It doesn't sidestep anything. That said I use list comprehensions all the time, of course, but if I have to nest them I expand them instead, so they get easier to read. –  Lennart Regebro Dec 18 '10 at 7:32

you could do something like

``````z = [[f(item_a, item_b) for item_b in b] for item_a in a]
``````
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You could use itertools' product:

``````[f(i,j) for i,j in product( a, b )]
``````

and if you really want to shrink those 5 lines into 1 then:

``````[f(i,j) for i,j in product( linspace(0,xr,100), linspace(0,yr,100)]
``````

To take it even further if you want a function of `xr` and `yr` where you can also preset the ranges of 0 and 100 to something else:

``````def ranged_linspace( _start, _end, _function ):
def output_z( xr, yr ):
return [_function( i, j ) for i,j in product( linspace( _start, xr, _end ), linspace( _start, yr, _end ) )]
return output_z
``````
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It should be noted that all of these solutions produce a one-dimensional list instead of a nested list like OP's solution. –  aaronasterling Dec 18 '10 at 0:32

If you set it all at once, you can use a list comprehension;

``````[[f(a[i], b[j]) for j in range(100)] for i in range(100)]
``````

If you need to use a `z` that's already there, however, you can't do that and your code is about the neatest you'll get.

Addition: I don't know with what this `lingrid` does, but if it produces a 100-element list, use aaronasterling's list comprehension; no point in creating an extra iterator if you don't need to.

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This shows the general result. `a` is made into a list 6-long and `b` is 4-long. The result is a list of 6 lists, and each nested list is 4 elements long.

``````>>> def f(x,y):
...     return x+y
...
>>> a, b = list(range(0, 12, 2)), list(range(0, 12, 3))
>>> print len(a), len(b)
6 4
>>> result = [[f(aa, bb) for bb in b] for aa in a]
>>> print result
[[0, 3, 6, 9], [2, 5, 8, 11], [4, 7, 10, 13], [6, 9, 12, 15], [8, 11, 14, 17], [10, 13, 16, 19]]
``````
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