I'm trying to map a list into hex, and then use the list elsewhere. In python 2.6, this was easy:

A: Python 2.6:

>>> map(chr, [66, 53, 0, 94])
['B', '5', '\x00', '^']

However, in Python 3.1, the above returns a map object.

B: Python 3.1:

>>> map(chr, [66, 53, 0, 94])
<map object at 0x00AF5570>

How do I retrieve the mapped list (as in A above) on Python 3.x?

Alternatively, is there a better way of doing this? My initial list object has around 45 items and id like to convert them to hex.


11 Answers 11


Do this:


In Python 3+, many processes that iterate over iterables return iterators themselves. In most cases, this ends up saving memory, and should make things go faster.

If all you're going to do is iterate over this list eventually, there's no need to even convert it to a list, because you can still iterate over the map object like so:

# Prints "ABCD"
for ch in map(chr,[65,66,67,68]):
  • 20
    Of course, you can iterate over this, too: (chr(x) for x in [65,66,67,68]). It doesn't even need map.
    – hughdbrown
    Aug 20, 2009 at 0:40
  • 5
    @hughdbrown The argument for using 3.1's map would be lazy evaluation when iterating on a complex function, large data sets, or streams. Aug 20, 2009 at 0:45
  • 24
    @Andrew actually Hugh is uing a generator comprehension which would do the same thing. Note the parentheses rather than square brackets. Aug 20, 2009 at 0:49
  • 5
    Alternate solution (faster for large inputs too) when the values are known to be ASCII/latin-1 is to do bulk conversions at the C layer: bytes(sequence_of_ints_in_range_0_to_256).decode('latin-1') which makes a str faster by avoiding Python function calls for each element in favor of a bulk conversion of all elements using only C level function calls. You can wrap the above in list if you really need a list of the individual characters, but since str is already an iterable of its own characters, the only reason you'd do so is if you need mutability. Jul 1, 2016 at 1:52
  • 3
    The "Error in argument" occures only in PDB debugger. See: stackoverflow.com/questions/17290314/…
    – Andor
    Sep 7, 2016 at 10:21

New and neat in Python 3.5:

[*map(chr, [66, 53, 0, 94])]

Thanks to Additional Unpacking Generalizations


Always seeking for shorter ways, I discovered this one also works:

*map(chr, [66, 53, 0, 94]),

Unpacking works in tuples too. Note the comma at the end. This makes it a tuple of 1 element. That is, it's equivalent to (*map(chr, [66, 53, 0, 94]),)

It's shorter by only one char from the version with the list-brackets, but, in my opinion, better to write, because you start right ahead with the asterisk - the expansion syntax, so I feel it's softer on the mind. :)

  • 11
    @Quelklef list() doesn't look as neat
    – Arijoon
    Sep 28, 2017 at 13:15
  • 6
    @Quelklef: Also, the unpacking approach is trivially faster thanks to not needing to look up the list constructor and invoke general function call machinery. For a long input, it won't matter; for a short one, it can make a big difference. Using the above code with the input as a tuple so it's not repeatedly reconstructed, ipython microbenchmarks show the list() wrapping approach takes about 20% longer than unpacking. Mind you, in absolute terms, we're talking about 150 ns, which is trivial, but you get the idea. Nov 8, 2017 at 4:41
  • 3
    *map() gives syntax error on Python 3.6: can't use starred expression here. You need to put it in a list: [ *map() ]
    – Alireza
    Dec 22, 2018 at 12:38
  • 9
    @ALH You missed the comma on the end of the command. Easy mistake to make!
    – LondonRob
    Jan 20, 2019 at 19:11
  • 1
    I've found that using list actually runs faster than this
    – Derek Eden
    Jul 3, 2020 at 3:11

Why aren't you doing this:

[chr(x) for x in [66,53,0,94]]

It's called a list comprehension. You can find plenty of information on Google, but here's the link to the Python (2.6) documentation on list comprehensions. You might be more interested in the Python 3 documenation, though.

  • 4
    Hmmmm. Maybe there needs to be a general posting on list comprehensions, generators, map(), zip(), and a lot of other speedy iteration goodness in python.
    – hughdbrown
    Aug 20, 2009 at 0:55
  • 51
    I guess because it's more verbose, you have to write an extra variable (twice)... If the operation is more complex and you end up writing a lambda, or you need also to drop some elements, I think a comprehension is definitively better than a map+filter, but if you already have the function you want to apply, map is more succinct.
    – fortran
    Jun 25, 2010 at 9:43
  • 1
    +1: Easier to read & allows you to use functions with many parameters
    – Le Droid
    Mar 6, 2014 at 21:55
  • 7
    map(chr, [66,53,0,94]) is definitely more concise than [chr(x) for x in [66,53,0,94]].
    – Giorgio
    Oct 26, 2018 at 20:01
  • way faster than the other answers
    – Evhz
    May 13, 2020 at 16:30

List-returning map function has the advantage of saving typing, especially during interactive sessions. You can define lmap function (on the analogy of python2's imap) that returns list:

lmap = lambda func, *iterable: list(map(func, *iterable))

Then calling lmap instead of map will do the job: lmap(str, x) is shorter by 5 characters (30% in this case) than list(map(str, x)) and is certainly shorter than [str(v) for v in x]. You may create similar functions for filter too.

There was a comment to the original question:

I would suggest a rename to Getting map() to return a list in Python 3.* as it applies to all Python3 versions. Is there a way to do this? – meawoppl Jan 24 at 17:58

It is possible to do that, but it is a very bad idea. Just for fun, here's how you may (but should not) do it:

__global_map = map #keep reference to the original map
lmap = lambda func, *iterable: list(__global_map(func, *iterable)) # using "map" here will cause infinite recursion
map = lmap
x = [1, 2, 3]
map(str, x) #test
map = __global_map #restore the original map and don't do that again
map(str, x) #iterator

Converting my old comment for better visibility: For a "better way to do this" without map entirely, if your inputs are known to be ASCII ordinals, it's generally much faster to convert to bytes and decode, a la bytes(list_of_ordinals).decode('ascii'). That gets you a str of the values, but if you need a list for mutability or the like, you can just convert it (and it's still faster). For example, in ipython microbenchmarks converting 45 inputs:

>>> %%timeit -r5 ordinals = list(range(45))
... list(map(chr, ordinals))
3.91 µs ± 60.2 ns per loop (mean ± std. dev. of 5 runs, 100000 loops each)

>>> %%timeit -r5 ordinals = list(range(45))
... [*map(chr, ordinals)]
3.84 µs ± 219 ns per loop (mean ± std. dev. of 5 runs, 100000 loops each)

>>> %%timeit -r5 ordinals = list(range(45))
... [*bytes(ordinals).decode('ascii')]
1.43 µs ± 49.7 ns per loop (mean ± std. dev. of 5 runs, 1000000 loops each)

>>> %%timeit -r5 ordinals = list(range(45))
... bytes(ordinals).decode('ascii')
781 ns ± 15.9 ns per loop (mean ± std. dev. of 5 runs, 1000000 loops each)

If you leave it as a str, it takes ~20% of the time of the fastest map solutions; even converting back to list it's still less than 40% of the fastest map solution. Bulk convert via bytes and bytes.decode then bulk converting back to list saves a lot of work, but as noted, only works if all your inputs are ASCII ordinals (or ordinals in some one byte per character locale specific encoding, e.g. latin-1).

  • Unfortunately, your code doesn't work in IPython 8.0.1: "UsageError: Line magic function %%timeit not found." Anyway I would prefer simple Python without "magic" (will write that myself). Feb 14 at 6:10
  • @YaroslavNikitenko: The magic is solely for microbenchmarking to demonstrate relative speed easily; the actual code ([*bytes(ordinals).decode('ascii')] or bytes(ordinals).decode('ascii')) is plain Python. You could always use the timeit module's timeit.repeat function to achieve the same result (it just looks a little uglier than the IPython display). Or just use it via the command line directly, e.g. python3 -mtimeit -s "ordinals = list(range(45))" "[*bytes(ordinals).decode('ascii')]". Feb 14 at 16:01
  • @YaroslavNikitenko: Hmm... According to the docs, IPython made updates to %timeit/%%timeit in the 8.0 timeframe, and it's still a documented feature so it should still exist. Makes me think your installation is broken in some way. Feb 14 at 16:11
  • (seems I can't insert your name). Strangely I got notification on only your last commit (oops, comment!). Anyway you are right, this method works for me in the "line mode" (with one percent sign, %timeit). Don't use IPython often. Thanks for the suggestion. I know the timeit module, and already used that in a script (calling timeit.timeit directly with its setup argument). Feb 14 at 18:35
list(map(chr, [66, 53, 0, 94]))

map(func, *iterables) --> map object Make an iterator that computes the function using arguments from each of the iterables. Stops when the shortest iterable is exhausted.

"Make an iterator"

means it will return an iterator.

"that computes the function using arguments from each of the iterables"

means that the next() function of the iterator will take one value of each iterables and pass each of them to one positional parameter of the function.

So you get an iterator from the map() funtion and jsut pass it to the list() builtin function or use list comprehensions.


In addition to above answers in Python 3, we may simply create a list of result values from a map as

li = []
for x in map(chr,[66,53,0,94]):

print (li)
>>>['B', '5', '\x00', '^']

We may generalize by another example where I was struck, operations on map can also be handled in similar fashion like in regex problem, we can write function to obtain list of items to map and get result set at the same time. Ex.

b = 'Strings: 1,072, Another String: 474 '
li = []
for x in map(int,map(int, re.findall('\d+', b))):

print (li)
>>>[1, 72, 474]
  • @miradulo I supposed in Python 2, a list was returned, but in Python 3, only type is returned and I just tried to give in same format. If you think its needless, there maybe people like me who can find it useful and thats why I added.
    – Hari_pb
    Jun 15, 2018 at 17:32
  • 5
    When there is already a list comprehension, a list function, and an unpacking answer, an explicit for loop doesn’t add much IMHO.
    – miradulo
    Jun 15, 2018 at 20:04
  • @miradulo this answer should be just downvoted. Another comment under a silly answer doesn't add much.
    – Anton K
    Nov 16, 2020 at 12:45

Using list comprehension in python and basic map function utility, one can do this also:

chi = [x for x in map(chr,[66,53,0,94])]

  • chi list will be containing, the ASIC value of the given elements. Nov 11, 2018 at 17:01
  • Why the redundant [x for x in map(chr, ...)] when you could just use [chr(x) for x in ...]? Anywhere you use [target for target in iterable], just use list(iterable), there is no point in using a list comprehension then.
    – Martijn Pieters
    Oct 13, 2020 at 14:31

You can try getting a list from the map object by just iterating each item in the object and store it in a different variable.

a = map(chr, [66, 53, 0, 94])
b = [item for item in a]
>>>['B', '5', '\x00', '^']

Another option is to create a shortcut, returning a list:

from functools import reduce
_compose = lambda f, g: lambda *args: f(g(*args))
lmap = reduce(_compose, (list, map))

>>> lmap(chr, [66, 53, 0, 94])
['B', '5', '\x00', '^']

Best Way to do this in pyton3.X

Simply you can do this in single line

input_list = [66, 53, 0, 94]
out = [chr(x) for x in input_list]

# you will get the desire output in out list
# ['B', '5', '\x00', '^']

#To retrieve your list use 'ord'

original_list = [ord(x) for x in out]
print(original_list )
#[66, 53, 0, 94]

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