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Consider the following toy example:

>>> def square(x): return x*x
... 
>>> [square(x) for x in range(12) if square(x) > 50]
[64, 81, 100, 121]

I have to call square(x) twice in the list comprehension. The duplication is ugly, bug-prone (it's easy to change only one of the two calls when modifying the code), and inefficient.

Of course I can do this:

>>> squares = [square(x) for x in range(12)]
>>> [s for s in squares if s > 50]
[64, 81, 100, 121]

or this:

[s for s in [square(x) for x in range(12)] if s > 50]

These are both livable, but it feels as though there might be a way to do it all in a single statement without nesting the two list comprehensions, which I know I'll have to stare it for a while next time I'm reading the code just to figure out what's going on. Is there a way?

I think a fair question to ask of me would be what I imagine such syntax could look like. Here are two ideas, but neither feels idiomatic in Python (nor do they work). They are inspired by anaphoric macros in Lisp.

[square(x) for x in range(12) if it > 50]
[it=square(x) for x in range(12) if it > 50]
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Just make your inner list-comp a gen-comp instead: [s for s in (square(x) for x in range(12)) if s > 50] –  Jon Clements Nov 20 '13 at 0:38
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5 Answers

up vote 18 down vote accepted

You should use a generator:

[s for s in (square(x) for x in range(12)) if s > 50]

This avoids creating an intermediate unfiltered list of squares.

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2  
Beautiful! Solves issue and remains very readable. –  rdodev Nov 20 '13 at 0:42
    
This is pretty similar to [s for s in [square(x) for x in range(12)] if s > 50] although I hear you about the efficiency, and I think using () instead of [] as the inner set of delimiters is a little more readable. –  kuzzooroo Nov 20 '13 at 1:03
1  
@kuzzooroo They are called generator expressions if you want to know more about them. –  Bakuriu Nov 20 '13 at 6:57
    
@kuzzooroo It's not really similar. I suggest you read about generators to understand why this is far superior. –  arshajii Nov 20 '13 at 13:41
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[square(s) for s in range(12) if s >= 7]  # sqrt(50) = 7.071...

Or even simpler (no branching, woo!)

[square(s) for s in range(7, 12)]  # sqrt(50) = 7.071...
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2  
Why not range(7, 12)? –  thefourtheye Nov 20 '13 at 0:41
2  
i think the example is contrived to the point where, though this may be correct, it probably is not what the OP was looking for. –  randomfigure Nov 20 '13 at 0:51
1  
I was going to give this answer but you beat me to it. While this is not what the OP was asking (as a general structure) this does make a valid point - if you can compute the limits, you don't call square unneccesarily. But instead of 7, write sqrt(50) - namely the inverse of square. –  Floris Nov 20 '13 at 1:35
1  
@Floris: I considered using sqrt(50), but that would compute sqrt multiple times, which would be inefficient as compared to computing it just the once –  inspectorG4dget Nov 20 '13 at 3:14
1  
Yeah - I just tried it too. Using math.sqrt(50) instead of 7 slowed things down by about 2x... Well - I have learnt "my new thing for the day". I can go have a beer and some dinner now... –  Floris Nov 20 '13 at 3:30
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Another alternative, using "chained" list comps rather than nested ones:

[s for n in range(12) for s in [square(n)] if s > 50]

Might be a weird read, though.

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+1 although I was never very comfortable with creating a list and iterating just to make a local binding. I wish there was a better syntax for it. It's slower than the genexp for cpython, but faster for pypy –  gnibbler Nov 20 '13 at 1:34
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Here is a comparison of nested generator vs "chained" list comps vs calculating twice

$ python -m timeit "[s for n in range(12) for s in [n * n] if s > 50]"
100000 loops, best of 3: 2.48 usec per loop
$ python -m timeit "[s for s in (x * x for x in range(12)) if s > 50]"
1000000 loops, best of 3: 1.89 usec per loop
$ python -m timeit "[n * n for n in range(12) if n * n > 50]"
1000000 loops, best of 3: 1.1 usec per loop

$ pypy -m timeit "[s for n in range(12) for s in [n * n] if s > 50]"
1000000 loops, best of 3: 0.211 usec per loop
$ pypy -m timeit "[s for s in (x * x for x in range(12)) if s > 50]"
1000000 loops, best of 3: 0.359 usec per loop
$ pypy -m timeit "[n * n for n in range(12) if n * n > 50]"
10000000 loops, best of 3: 0.0834 usec per loop

I used n * n instead of square(n) because it was convenient and removes the function call overhead from the benckmark

TLDR: For simple cases it may be best to just duplicate the calculation.

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Wow - pypy really knocks that last expression out of the park! Any insights why it is so much more efficient ? –  Floris Nov 20 '13 at 1:37
    
@Floris it's probably just very very amenable to JIT: that can be trivially compiled into a machine-code loop without having to worry much about Python semantics, and then the duplicate multiplication is easily factored out as well –  Eevee Nov 20 '13 at 3:48
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EDIT: I'm blind, duplicated Eevee's answer.

It is possible to abuse iteration over a 1-element list to "bind" intermediate variables:

[s for x in range(12) for s in [square(x)] if s > 50]

I'm hesitant to recommend this as a readable solution though.

Pro: Compared to the nested comprehension, I prefer the order here — having for x in range(12) outside. You can just read it sequentially instead of zooming in then back out...

Con: The for s in [...] is a non-idiomatic hack and might give readers a pause. The nested comprehension while arguably harder to decipher at least uses language features in an "obvious" way.

  • Idea: Renaming the intermediate variable something like tmp could I think make it clearer.

The bottom line is that I'm not happy with either. Probably the most readable is naming the intermediate generator:

squares = (square(x) for x in range(12))
result = [s for s in squares if s > 50]

[Side note: naming results of generator expressions is a bit rare. But read David Beazley's lecture and it might grow on you.]

OTOH if you're going to write such constructs a lot, go for the for tmp in [expr(x)] pattern — it will become "locally idiomatic" within your code and once familiar, its compactness will pay off. My readability concern is more about one-off use...

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