How do I make a for
loop or a list comprehension so that every iteration gives me two elements?
l = [1,2,3,4,5,6]
for i,k in ???:
print str(i), '+', str(k), '=', str(i+k)
Output:
1+2=3
3+4=7
5+6=11
How do I make a for
loop or a list comprehension so that every iteration gives me two elements?
l = [1,2,3,4,5,6]
for i,k in ???:
print str(i), '+', str(k), '=', str(i+k)
Output:
1+2=3
3+4=7
5+6=11
You need a pairwise()
(or grouped()
) implementation.
For Python 2:
from itertools import izip
def pairwise(iterable):
"s -> (s0, s1), (s2, s3), (s4, s5), ..."
a = iter(iterable)
return izip(a, a)
for x, y in pairwise(l):
print "%d + %d = %d" % (x, y, x + y)
Or, more generally:
from itertools import izip
def grouped(iterable, n):
"s -> (s0,s1,s2,...sn-1), (sn,sn+1,sn+2,...s2n-1), (s2n,s2n+1,s2n+2,...s3n-1), ..."
return izip(*[iter(iterable)]*n)
for x, y in grouped(l, 2):
print "%d + %d = %d" % (x, y, x + y)
In Python 3, you can replace izip
with the built-in zip()
function, and drop the import
.
All credit to martineau for his answer to my question, I have found this to be very efficient as it only iterates once over the list and does not create any unnecessary lists in the process.
N.B: This should not be confused with the pairwise
recipe in Python's own itertools
documentation, which yields s -> (s0, s1), (s1, s2), (s2, s3), ...
, as pointed out by @lazyr in the comments.
Little addition for those who would like to do type checking with mypy on Python 3:
from typing import Iterable, Tuple, TypeVar
T = TypeVar("T")
def grouped(iterable: Iterable[T], n=2) -> Iterable[Tuple[T, ...]]:
"""s -> (s0,s1,s2,...sn-1), (sn,sn+1,sn+2,...s2n-1), ..."""
return zip(*[iter(iterable)] * n)
s -> (s0,s1), (s1,s2), (s2, s3), ...
– Lauritz V. Thaulow
Mar 22 '11 at 10:13
itertools
recipe function with the same name. Of course yours is faster...
– Sven Marnach
Mar 22 '11 at 10:22
izip_longest()
instead of izip()
. E.g: list(izip_longest(*[iter([1, 2, 3])]*2, fillvalue=0))
--> [(1, 2), (3, 0)]
. Hope this helps.
– Johnsyweb
Jan 21 '13 at 2:19
Well you need tuple of 2 elements, so
data = [1,2,3,4,5,6]
for i,k in zip(data[0::2], data[1::2]):
print str(i), '+', str(k), '=', str(i+k)
Where:
data[0::2]
means create subset collection of elements that (index % 2 == 0)
zip(x,y)
creates a tuple collection from x and y collections same index elements.for i, j, k in zip(data[0::3], data[1::3], data[2::3]):
– lifebalance
Jan 26 '14 at 15:53
import
is not one of them.
– abarnert
Aug 3 '14 at 12:20
>>> l = [1,2,3,4,5,6]
>>> zip(l,l[1:])
[(1, 2), (2, 3), (3, 4), (4, 5), (5, 6)]
>>> zip(l,l[1:])[::2]
[(1, 2), (3, 4), (5, 6)]
>>> [a+b for a,b in zip(l,l[1:])[::2]]
[3, 7, 11]
>>> ["%d + %d = %d" % (a,b,a+b) for a,b in zip(l,l[1:])[::2]]
['1 + 2 = 3', '3 + 4 = 7', '5 + 6 = 11']
zip
returns a zip
object in Python 3, which is not subscriptable. It needs to be converted to a sequence (list
, tuple
, etc.) first, but "not working" is a bit of a stretch.
– vaultah
Feb 25 '17 at 14:03
A simple solution.
l = [1, 2, 3, 4, 5, 6] for i in range(0, len(l), 2): print str(l[i]), '+', str(l[i + 1]), '=', str(l[i] + l[i + 1])
((l[i], l[i+1])for i in range(0, len(l), 2))
for a generator, can be easily modified for longer tuples.
– Basel Shishani
Jul 29 '15 at 11:30
While all the answers using zip
are correct, I find that implementing the functionality yourself leads to more readable code:
def pairwise(it):
it = iter(it)
while True:
yield next(it), next(it)
The it = iter(it)
part ensures that it
is actually an iterator, not just an iterable. If it
already is an iterator, this line is a no-op.
Usage:
for a, b in pairwise([0, 1, 2, 3, 4, 5]):
print(a + b)
it
is only an iterator and not an iterable. The other solutions seem to rely on the possibility to create two independent iterators for the sequence.
– skyking
Sep 4 '15 at 9:32
Apologies for being late.I hope this will be even more elegant way of doing it.
a = [1,2,3,4,5,6]
zip(a[::2], a[1::2])
[(1, 2), (3, 4), (5, 6)]
In case you're interested in the performance, I did a small benchmark (using my library simple_benchmark
) to compare the performance of the solutions and I included a function from one of my packages: iteration_utilities.grouper
from iteration_utilities import grouper
import matplotlib as mpl
from simple_benchmark import BenchmarkBuilder
bench = BenchmarkBuilder()
@bench.add_function()
def Johnsyweb(l):
def pairwise(iterable):
"s -> (s0, s1), (s2, s3), (s4, s5), ..."
a = iter(iterable)
return zip(a, a)
for x, y in pairwise(l):
pass
@bench.add_function()
def Margus(data):
for i, k in zip(data[0::2], data[1::2]):
pass
@bench.add_function()
def pyanon(l):
list(zip(l,l[1:]))[::2]
@bench.add_function()
def taskinoor(l):
for i in range(0, len(l), 2):
l[i], l[i+1]
@bench.add_function()
def mic_e(it):
def pairwise(it):
it = iter(it)
while True:
try:
yield next(it), next(it)
except StopIteration:
return
for a, b in pairwise(it):
pass
@bench.add_function()
def MSeifert(it):
for item1, item2 in grouper(it, 2):
pass
bench.use_random_lists_as_arguments(sizes=[2**i for i in range(1, 20)])
benchmark_result = bench.run()
mpl.rcParams['figure.figsize'] = (8, 10)
benchmark_result.plot_both(relative_to=MSeifert)
So if you want the fastest solution without external dependencies you probably should just use the approach given by Johnysweb (at the time of writing it's the most upvoted and accepted answer).
If you don't mind the additional dependency then the grouper
from iteration_utilities
will probably be a bit faster.
Some of the approaches have some restrictions, that haven't been discussed here.
For example a few solutions only work for sequences (that is lists, strings, etc.), for example Margus/pyanon/taskinoor solutions which uses indexing while other solutions work on any iterable (that is sequences and generators, iterators) like Johnysweb/mic_e/my solutions.
Then Johnysweb also provided a solution that works for other sizes than 2 while the other answers don't (okay, the iteration_utilities.grouper
also allows setting the number of elements to "group").
Then there is also the question about what should happen if there is an odd number of elements in the list. Should the remaining item be dismissed? Should the list be padded to make it even sized? Should the remaining item be returned as single? The other answer don't address this point directly, however if I haven't overlooked anything they all follow the approach that the remaining item should be dismissed (except for taskinoors answer - that will actually raise an Exception).
With grouper
you can decide what you want to do:
>>> from iteration_utilities import grouper
>>> list(grouper([1, 2, 3], 2)) # as single
[(1, 2), (3,)]
>>> list(grouper([1, 2, 3], 2, truncate=True)) # ignored
[(1, 2)]
>>> list(grouper([1, 2, 3], 2, fillvalue=None)) # padded
[(1, 2), (3, None)]
for (i, k) in zip(l[::2], l[1::2]):
print i, "+", k, "=", i+k
zip(*iterable)
returns a tuple with the next element of each iterable.
l[::2]
returns the 1st, the 3rd, the 5th, etc. element of the list: the first colon indicates that the slice starts at the beginning because there's no number behind it, the second colon is only needed if you want a 'step in the slice' (in this case 2).
l[1::2]
does the same thing but starts in the second element of the lists so it returns the 2nd, the 4th, 6th, etc. element of the original list.
[number::number]
syntax works. helpful for who doesn't use python often
– Alby
Dec 26 '13 at 21:33
Use the zip
and iter
commands together:
I find this solution using iter
to be quite elegant:
it = iter(l)
list(zip(it, it))
# [(1, 2), (3, 4), (5, 6)]
Which I found in the Python 3 zip documentation.
it = iter(l)
print(*(f'{u} + {v} = {u+v}' for u, v in zip(it, it)), sep='\n')
# 1 + 2 = 3
# 3 + 4 = 7
# 5 + 6 = 11
To generalise to N
elements at a time:
N = 2
list(zip(*([iter(l)] * N)))
# [(1, 2), (3, 4), (5, 6)]
For anyone it might help, here is a solution to a similar problem but with overlapping pairs (instead of mutually exclusive pairs).
From the Python itertools documentation:
from itertools import izip
def pairwise(iterable):
"s -> (s0,s1), (s1,s2), (s2, s3), ..."
a, b = tee(iterable)
next(b, None)
return izip(a, b)
Or, more generally:
from itertools import izip
def groupwise(iterable, n=2):
"s -> (s0,s1,...,sn-1), (s1,s2,...,sn), (s2,s3,...,sn+1), ..."
t = tee(iterable, n)
for i in range(1, n):
for j in range(0, i):
next(t[i], None)
return izip(*t)
you can use more_itertools package.
import more_itertools
lst = range(1, 7)
for i, j in more_itertools.chunked(lst, 2):
print(f'{i} + {j} = {i+j}')
I need to divide a list by a number and fixed like this.
l = [1,2,3,4,5,6]
def divideByN(data, n):
return [data[i*n : (i+1)*n] for i in range(len(data)//n)]
>>> print(divideByN(l,2))
[[1, 2], [3, 4], [5, 6]]
>>> print(divideByN(l,3))
[[1, 2, 3], [4, 5, 6]]
Thought that this is a good place to share my generalization of this for n>2, which is just a sliding window over an iterable:
def sliding_window(iterable, n):
its = [ itertools.islice(iter, i, None)
for i, iter
in enumerate(itertools.tee(iterable, n)) ]
return itertools.izip(*its)
The title of this question is misleading, you seem to be looking for consecutive pairs, but if you want to iterate over the set of all possible pairs than this will work :
for i,v in enumerate(items[:-1]):
for u in items[i+1:]:
Using typing so you can verify data using mypy static analysis tool:
from typing import Iterator, Any, Iterable, TypeVar, Tuple
T_ = TypeVar('T_')
Pairs_Iter = Iterator[Tuple[T_, T_]]
def legs(iterable: Iterator[T_]) -> Pairs_Iter:
begin = next(iterable)
for end in iterable:
yield begin, end
begin = end
A simplistic approach:
[(a[i],a[i+1]) for i in range(0,len(a),2)]
this is useful if your array is a and you want to iterate on it by pairs. To iterate on triplets or more just change the "range" step command, for example:
[(a[i],a[i+1],a[i+2]) for i in range(0,len(a),3)]
(you have to deal with excess values if your array length and the step do not fit)
Here we can have alt_elem
method which can fit in your for loop.
def alt_elem(list, index=2):
for i, elem in enumerate(list, start=1):
if not i % index:
yield tuple(list[i-index:i])
a = range(10)
for index in [2, 3, 4]:
print("With index: {0}".format(index))
for i in alt_elem(a, index):
print(i)
Output:
With index: 2
(0, 1)
(2, 3)
(4, 5)
(6, 7)
(8, 9)
With index: 3
(0, 1, 2)
(3, 4, 5)
(6, 7, 8)
With index: 4
(0, 1, 2, 3)
(4, 5, 6, 7)
Note: Above solution might not be efficient considering operations performed in func.
a_list = [1,2,3,4,5,6]
empty_list = []
for i in range(0,len(a_list),2):
empty_list.append(a_list[i]+a_list[i+1])
print(empty_list)