# List comprehension expression

I have a function which looks like that:

``````  def roulette(self):
sum = 0
lst = []
for x in self.drinkList:
sum += x.fitness
lst.append(sum)
return lst
``````

Can it be replaced with list comprehension expression or something more efficient than for loop?

PS: it apperars that if I do random.randrange(0), it raises an exception ValueError: empty range for randrange(). Is there a way to avoid it without using if test?

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Regarding PS: What would you expect a random number between 0 and 0 exclusive to be? It's the empty range. You can't randomly choose an element from an empty set. –  delnan Nov 5 '11 at 16:21
The exact formula I use is random.randrange(maxValue - value), where value differs. when maxValue and value are the same, I would like the randrange to return just 0. I thought there is some way (or other method) to do it without handling the exception. –  kyooryu Nov 5 '11 at 16:27
Not using just `randomrange`, or any other function from `random`. What you ask for is a special case that does something entirely different from random number generation. And I highly doubt there's a function specifically for this purpose. A small check via `if` is perfectly fine. –  delnan Nov 5 '11 at 16:28

It's actually possible to 'peek' at the list being built in a list comprehension. the outermost list has the name `_[1]`, which of course is not a valid python identifier, so it must be accessed in another way:

``````def roulette(self):
return [drink.fitness + (locals()['_[1]'][-1] if locals()['_[1]'] else 0)
for drink
in self.drinkList]
``````

But just because you can doesn't mean you should; go with your `for` loop, it looks like exactly what it does, and also doesn't rely on an undocumented python feature.

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That's a damn impressive trick ! But what is the interest of not defining and initializing the list to be returned before populating it before return (as in my answer) ? –  eyquem Nov 6 '11 at 0:39
The question was "Can I do x with a list comprehension", and my answer is self contained in the list comprehension with no outside dependencies. presumably this is worthwhile because it's a functionally independent expression, and could be "plonked in" wherever you happen to need a list value. A function call can do that; but if you are going that far, a function call around a for loop is more readable. –  IfLoop Nov 6 '11 at 1:29
You mean that if the wrapping inside a function is removed, your list comprehension can take place in a code as a one liner ? Yes, but as I wrote it, I think there's no real interest to do that and that this trick needs too much complexity to be acceptable. Anyway, I upvote because I learnt the trick `_[1]` –  eyquem Nov 6 '11 at 2:39
-1 This "trick" works only in Python 2.5 and 2.6. A different implementation in 2.7, 3.1, and 3.2 means `locals()` contains no visible name for the temporary list. Result is `KeyError: '_[1]'` –  John Machin Nov 6 '11 at 3:15

I don't know if it is more efficient, but this has a list comprehension and less lines:

``````def roulette(self):
lst = [self.drinkList.pop(0).fitness]
[ lst.append(x.fitness + lst[-1]) for x in self.drinkList]
return lst
``````

.

## Edit

As nothing authorizes me to modify the list self.drinkList , I rewrite:

``````def roulette(self):
lst = [0]
[ lst.append(x.fitness + lst[-1]) for x in self.drinkList]
return lst[1:]
``````
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-1 List comprehensions with side effects are evil. –  John Machin Nov 6 '11 at 0:50
What do you mean ? Explain what is the problem, presently, please. –  eyquem Nov 6 '11 at 0:52
Clearly, it is easier and faster to downvote with an unargumented bold turn of phrase than to seriously explain the reason of such a claim whose concision seems to pretend that it is a well-known point of doctine –  eyquem Nov 6 '11 at 1:19
for some reason you are modifying `self.drinkList`. It's not clear from the question that this list is in any way disposable. In addition to that, you are using a list comprehension to execute a function that has a side effect, but not using the generated list. you are replacing a for loop with a list comprehension only for its loopyness, not its listyness. –  IfLoop Nov 6 '11 at 1:32
@TokenMacGuy You are perfectly right concerning the modification of self.drinkList: I have no clue that I can do that without consequence. I wrote the code so because I wanted to avoid to return lst[1:]. I think that such a modification is truly what is called 'side effect' –  eyquem Nov 6 '11 at 2:00

Your `roulette` function is computing the partial sums of the list of `x.fitness` elements.

You can reach the same result by defining a closure and using `map` on a generator expression.

``````sum = 0
def partial_sum(x):
sum += x
return sum
lst = map(partial_sum, (x.fitness for x in self.drinkList))
``````

This is certainly less readable than a `for` loop; it could be faster but you'll have to experiment: `map` is generally faster than `for`, but function calls are slow. (Substituting a list comprehension for the generator expression might speed things up at the expense of memory.)

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I don't see where the closure is. According to this web page: (ynniv.com/blog/2007/08/closures-in-python.html) , "Closures in python are created by function calls" and the call records a value in a function, without to be visible. Here I don't see which value is recorded. –  eyquem Nov 6 '11 at 0:44
@eyquem I'm using the word closure in the sense described in the Wikipedia article: "a function together with a referencing environment for the non-local variables of that function." The closure is formed by the function `partial_sum` together with its free variable `sum`, which belongs in the definition environment, i.e., the function `roulette`. The fact that the value of `sum` is preserved across calls to `partial_sum` is key to the code fitting the intended purpose. –  Riccardo Murri Nov 6 '11 at 18:16
``````[sum(x.fitness for x in self.drinklist[:i+1]) for i in range(len(self.drinklist))]
``````

But this would be O(n^2), while yours is O(n).

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