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Here is the thing, join a list:

>>> ''.join([ str(_) for _ in xrange(10) ])
'0123456789'

join must take an iteratable.

Apparently, join's argument is [ str(_) for _ in xrange(10) ], and it's a list-comprehension.

Look at this:

>>>''.join( str(_) for _ in xrange(10) )
'0123456789'

Now, join's argument is just str(_) for _ in xrange(10), no [], but the result is the same.

Why? Does str(_) for _ in xrange(10)also produce a list or an iteratable?

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1  
I would imagine that join is most likely written in C and therefore runs much faster than a list comprehension... Testing time! –  Joel Cornett Jan 30 '12 at 7:31
    
Apparently, I read your question completely wrong. It seems to be returning a generator for me... –  Joel Cornett Jan 30 '12 at 7:38
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Just a note: _ has no special meaning, it's a regular variable name. It's often used as a throw-away name but this is not the case (you are using the variable). I would avoid using it in a code (in this way at least). –  rplnt Jan 30 '12 at 9:22
    
@rplnt, thanks for the note. –  Alcott Jan 31 '12 at 1:06

7 Answers 7

up vote 23 down vote accepted
>>>''.join( str(_) for _ in xrange(10) )

This is called a generator expression, and is explained in PEP 289.

The main difference between generator expressions and list comprehensions is that the former don't create the list in memory.

Note that there's a third way to write the expression:

''.join(map(str, xrange(10)))
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1  
As I know it, a generator can be produce through a tuple-like expression, like ( str(_) for _ in xrange(10) ). But I was confused that, why the () can be omited in join, which means, the code should be like `''.join( (str(_) for _ in xrange(10)) ), right? –  Alcott Jan 30 '12 at 7:44
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I read the PEP289, and now I know about generator, thanks . –  Alcott Jan 30 '12 at 7:53

The other respondents were correct in answering that you had discovered a generator expression (which has a notation similar to list comprehensions but without the surrounding square brackets).

In general, genexps (as they are affectionately known) are more memory efficient and faster than list comprehensions.

HOWEVER, it the case of ''.join(), a list comprehension is both faster and more memory efficient. The reason is that join needs to make two passes over the data, so it actually needs a real list. If you give it one, it can start its work immediately. If you give it a genexp instead, it cannot start work until it builds-up a new list in memory by running the genexp to exhaustion:

~ $ python -m timeit '"".join(str(n) for n in xrange(1000))'
1000 loops, best of 3: 335 usec per loop
~ $ python -m timeit '"".join([str(n) for n in xrange(1000)])'
1000 loops, best of 3: 288 usec per loop

The same result holds when comparing itertools.imap versus map:

~ $ python -m timeit -s'from itertools import imap' '"".join(imap(str, xrange(1000)))'
1000 loops, best of 3: 220 usec per loop
~ $ python -m timeit '"".join(map(str, xrange(1000)))'
1000 loops, best of 3: 212 usec per loop
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@lazyr Your second timing is doing too much work. Don't wrap a genexp around a listcomp -- just use a genexp directly. No wonder you got odd timings. –  Raymond Hettinger Jan 30 '12 at 9:51
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In an effort to time only join, I put everything except "".join(l) in the setup statement. And therein lies the problem -- the genexp was exhausted on the first loop, so the next 999999 times it joined an empty genexp. No wonder it was fast. –  Lauritz V. Thaulow Jan 30 '12 at 10:06
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Could you explain why ''.join() needs 2 passes over the iterator to build a string? –  ovgolovin Jan 30 '12 at 10:42
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@ovgolovin I'd guess the first pass is to sum the lengths of the strings so as to be able to allocate the correct amount of memory for the concatenated string, while the second pass is to copy the individual strings into the allocated space. –  Lauritz V. Thaulow Jan 30 '12 at 13:42
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@lazyr That guess is correct. That is exactly what str.join does :-) –  Raymond Hettinger Jan 30 '12 at 15:49

Your second example uses a generator expression rather than a list comprehension. The difference is that with the list comprehension, a list is completely built and passed to .join(). With the generator expression, items are generated one by one and consumed by .join(). The latter uses less memory and is generally faster.

As it happens, the list constructor will happily consume any iterable, including a generator expression. So:

[str(n) for n in xrange(10)]

is just "syntactic sugar" for:

list(str(n) for n in xrange(10))

In other words, a list comprehension is just a generator expression that is turned into a list.

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Are you sure they're equivalent under the hood? Timeit says: [str(x) for x in xrange(1000)]: 262 usec, list(str(x) for x in xrange(1000)): 304 usec. –  Lauritz V. Thaulow Jan 30 '12 at 8:53
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@lazyr You are right. List comprehension is faster. And this is the reason why list comprehensions leak in Python 2.x. This is what GVR wrote: ""This was an artifact of the original implementation of list comprehensions; it was one of Python's "dirty little secrets" for years. It started out as an intentional compromise to make list comprehensions blindingly fast, and while it was not a common pitfall for beginners, it definitely stung people occasionally." python-history.blogspot.com/2010/06/… –  ovgolovin Jan 30 '12 at 9:14
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@ovgolovin The reason the listcomp is faster is because join has to create a list before it can start work. The "leak" you refer to isn't a speed issue -- it just means that the loop induction variable is exposed outside the listcomp. –  Raymond Hettinger Jan 30 '12 at 9:56
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@RaymondHettinger Then what do these word mean "It started out as an intentional compromise to make list comprehensions blindingly fast"? As I understood there is a connection of their leakage with the speed issues. GVR also wrote: "For generator expressions we could not do this. Generator expressions are implemented using generators, whose execution requires a separate execution frame. Thus, generator expressions (especially if they iterate over a short sequence) were less efficient than list comprehensions." –  ovgolovin Jan 30 '12 at 10:08
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Still, it's important to add these words of GVR: "And before you start worrying about list comprehensions becoming slow in Python 3: thanks to the enormous implementation effort that went into Python 3 to speed things up in general, both list comprehensions and generator expressions in Python 3 are actually faster than they were in Python 2! (And there is no longer a speed difference between the two.)" –  ovgolovin Jan 30 '12 at 10:11

If it's in parens, but not brackets, it's technically a generator expression. Generator expressions were first introduced in Python 2.4.

http://wiki.python.org/moin/Generators

The part after the join, ( str(_) for _ in xrange(10) ) is, by itself, a generator expression. You could do something like:

mylist = (str(_) for _ in xrange(10))
''.join(mylist)

and it means exactly the same thing that you wrote in the second case above.

Generators have some very interesting properties, not the least of which is that they don't end up allocating an entire list when you don't need one. Instead, a function like join "pumps" the items out of the generator expression one at a time, doing its work on the tiny intermediate parts.

In your particular examples, list and generator probably don't perform terribly differently, but in general, I prefer using generator expressions (and even generator functions) whenever I can, mostly because it's extremely rare for a generator to be slower than a full list materialization.

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As mentioned it's a generator expression.

From the documentation:

The parentheses can be omitted on calls with only one argument. See section Calls for the detail.

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That's a generator, rather than a list comprehension. Generators are also iterables, but rather than creating the entire list first then passing it to join, it passes each value in the xrange one by one, which can be much more efficient.

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The argument to your second join call is a generator expression. It does produce an iterable.

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