# Double every letter in string

What is the most efficient way in Python to double (or repeat n times) every letter in a string?

"abcd" -> "aabbccdd"

or

"abcd" -> "aaaabbbbccccdddd"

I have a long string that needs to be mutated in this fashion and the current solution involves a loop with n concatenations for every letter, which I imagine can be more efficient.

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Do you really need the most efficient? If one way takes 309ns and another takes 316ns, are you going to pick the first even if it's less readable, less flexible, etc.? –  abarnert Jun 4 '13 at 0:08
No, I don't really need it to be the most efficient, but the previous implementation was super verbose and I knew there must be a more "Python" way of doing it that would also be faster. –  Tim M Jun 4 '13 at 0:17
That's my point. Usually, being concise/readable/flexible/pythonic is far more important than being efficient. And from your comment, it sounds like that's true in your case. Don't ask for "most efficient" if that's not what you want. –  abarnert Jun 4 '13 at 0:20

def double_chain(s):
return ''.join(chain.from_iterable(zip(s, s)))

def double_mult(s):
return ''.join([x*2 for x in s])

# Jon Clements' answer, but optimized to take the re.compile and *2 out of the loop.
r = re.compile('(.)')
def double_re(s):
return r.sub(r'\1\1', s)

Now:

In [499]: %timeit double_chain('abcd')
1000000 loops, best of 3: 1.99 us per loop
In [500]: %timeit double_mult('abcd')
1000000 loops, best of 3: 1.25 us per loop
In [501]: %timeit double_re('abcd')
10000 loops, best of 3: 22.2 us per loop

So, the itertools method is about 60% slower than the simplest method, and using regexes is more than an order of magnitude slower still.

But a tiny string like this may not be representative for longer strings, so:

In [504]: %timeit double_chain('abcd' * 10000)
100 loops, best of 3: 4.92 ms per loop
In [505]: %timeit double_mult('abcd' * 10000)
100 loops, best of 3: 5.57 ms per loop
In [506]: %timeit double_re('abcd' * 10000)
10 loops, best of 3: 91.5 ms per loop

As expected, the itertools method gets better (and now beats the simple way), and the regexp gets even worse as the string gets longer.

So, there is no one "most efficient" way. If you're doubling billions of tiny strings, Ashwini's answer is the best. If you're doubling millions of big strings, or thousands of huge strings, drewk's is best. And if you're doing neither… there's no reason to be optimizing this in the first place.

Also, usual caveats: This test is 64-bit CPython 3.3.0 on my Mac with no load; no guarantees the same will be true for your Python implementation, version, and platform, in your app, with your real data. A quick test with 32-bit 2.6 showed similar results, but if it matters, you need to run a more realistic and relevant test yourself.

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Great answer. +1 –  dawg Jun 4 '13 at 0:36

use str.join:

>>> strs = "abcd"
>>> "".join([x*2 for x in strs])
'aabbccdd'
>>> "".join([x*4 for x in strs])
'aaaabbbbccccdddd'

from docs:

s = ""
for substring in list:
s += substring

Use s = "".join(list) instead. The former is a very common and catastrophic mistake when building large strings.

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Why create an intermediate list? –  arshajii Jun 3 '13 at 23:48
–  undefined is not a function Jun 3 '13 at 23:49
@JustinSBarrett but a join can make better use of a list, than it can a generator... (known vs unknown) –  Jon Clements Jun 3 '13 at 23:57
I've found this –  Elazar Jun 4 '13 at 0:00
@JustinSBarrett: If you read the answer Ashwini linked, Raymond Hettinger explains exactly that: In general, genexps conserve memory; in the particular case of join (or any other function that needs to make multiple passes), they can't. –  abarnert Jun 4 '13 at 0:07

You can use join, izip and chain:

>>> st='abcd'
>>> from itertools import chain,izip
>>> ''.join(chain(*izip(st,st)))
'aabbccdd'

While it is less readable than a list comprehension, the advantage is no intermediate lists; izip and chain produce iterators.

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There is still one intermediate list, because if you pass join anything that's not a sequence, it will make a list out of it. See the link from Ashwini Chaudhary's comment to his own answer. –  abarnert Jun 4 '13 at 0:21
Also, chain.from_iterable(it) is usually considered more readable than chain(*it) (it wouldn't have been added to itertools otherwise), and it's also slightly faster. –  abarnert Jun 4 '13 at 0:22
But +1, because it's a nice way to think about the problem (especially if you extend it to handling n>2), and it also happens to be the fastest for non-trivial strings. –  abarnert Jun 4 '13 at 0:23