I have now:
list1 = [1, 2, 3]
list2 = [4, 5, 6]
I wish to have:
[1, 2, 3]
+ + +
[4, 5, 6]
|| || ||
[5, 7, 9]
Simply an element-wise addition of two lists.
I can surely iterate the two lists, but I don't want do that.
What is the most Pythonic way of doing so?
Use map with operator.add:
>>> from operator import add
>>> list( map(add, list1, list2) )
[5, 7, 9]
or zip with a list comprehension:
>>> [sum(x) for x in zip(list1, list2)]
[5, 7, 9]
>>> list2 = [4, 5, 6]*10**5
>>> list1 = [1, 2, 3]*10**5
>>> %timeit from operator import add;map(add, list1, list2)
10 loops, best of 3: 44.6 ms per loop
>>> %timeit from itertools import izip; [a + b for a, b in izip(list1, list2)]
10 loops, best of 3: 71 ms per loop
>>> %timeit [a + b for a, b in zip(list1, list2)]
10 loops, best of 3: 112 ms per loop
>>> %timeit from itertools import izip;[sum(x) for x in izip(list1, list2)]
1 loops, best of 3: 139 ms per loop
>>> %timeit [sum(x) for x in zip(list1, list2)]
1 loops, best of 3: 177 ms per loop
map will just grow more important over time. Python 2 will lose official support in less than 3 years.
– nealmcb
Apr 10 '17 at 0:29
The others gave examples how to do this in pure python. If you want to do this with arrays with 100.000 elements, you should use numpy:
In [1]: import numpy as np
In [2]: vector1 = np.array([1, 2, 3])
In [3]: vector2 = np.array([4, 5, 6])
Doing the element-wise addition is now as trivial as
In [4]: sum_vector = vector1 + vector2
In [5]: print sum_vector
[5 7 9]
just like in Matlab.
Timing to compare with Ashwini's fastest version:
In [16]: from operator import add
In [17]: n = 10**5
In [18]: vector2 = np.tile([4,5,6], n)
In [19]: vector1 = np.tile([1,2,3], n)
In [20]: list1 = [1,2,3]*n
In [21]: list2 = [4,5,6]*n
In [22]: timeit map(add, list1, list2)
10 loops, best of 3: 26.9 ms per loop
In [23]: timeit vector1 + vector2
1000 loops, best of 3: 1.06 ms per loop
So this is a factor 25 faster! But use what suits your situation. For a simple program, you probably don't want to install numpy, so use standard python (and I find Henry's version the most pythonic one). If you are into serious number crunching, let numpy do the heavy lifting. For the speed freaks: it seems that the numpy solution is faster starting around n = 8.
[a + b for a, b in zip(list1, list2)]
[sum(x) for x in zip(list1, list2)] is the same as your answer, isn't it? :)
– Sibbs Gambling
Sep 11 '13 at 10:55
As described by others, a fast and also space efficient solution is using numpy (np) with it's built-in vector manipulation capability:
1. With Numpy
x = np.array([1,2,3])
y = np.array([2,3,4])
print x+y
2. With built-ins
2.1 Lambda
list1=[1, 2, 3]
list2=[4, 5, 6]
print map(lambda x,y:x+y, list1, list2)
Notice that map() supports multiple arguments.
2.2 zip and list comprehension
list1=[1, 2, 3]
list2=[4, 5, 6]
print [x + y for x, y in zip(list1, list2)]
It's simpler to use numpy from my opinion:
import numpy as np
list1=[1,2,3]
list2=[4,5,6]
np.add(list1,list2)
Results:
For detailed parameter information, check here: numpy.add
This is simple with numpy.add()
import numpy
list1 = numpy.array([1, 2, 3])
list2 = numpy.array([4, 5, 6])
result = numpy.add(list1, list2) # result receive element-wise addition of list1 and list2
print(result)
array([5, 7, 9])
If you want to receiver a python list:
result.tolist()
Perhaps "the most pythonic way" should include handling the case where list1 and list2 are not the same size. Applying some of these methods will quietly give you an answer. The numpy approach will let you know, most likely with a ValueError.
Example:
import numpy as np
>>> list1 = [ 1, 2 ]
>>> list2 = [ 1, 2, 3]
>>> list3 = [ 1 ]
>>> [a + b for a, b in zip(list1, list2)]
[2, 4]
>>> [a + b for a, b in zip(list1, list3)]
[2]
>>> a = np.array (list1)
>>> b = np.array (list2)
>>> a+b
Traceback (most recent call last):
File "<stdin>", line 1, in <module>
ValueError: operands could not be broadcast together with shapes (2) (3)
Which result might you want if this were in a function in your problem?
This will work for 2 or more lists; iterating through the list of lists, but using numpy addition to deal with elements of each list
import numpy as np
list1=[1, 2, 3]
list2=[4, 5, 6]
lists = [list1, list2]
list_sum = np.zeros(len(list1))
for i in lists:
list_sum += i
list_sum = list_sum.tolist()
[5.0, 7.0, 9.0]
Perhaps this is pythonic and slightly useful if you have an unknown number of lists, and without importing anything.
As long as the lists are of the same length, you can use the below function.
Here the *args accepts a variable number of list arguments (but only sums the same number of elements in each).
The * is used again in the returned list to unpack the elements in each of the lists.
def sum_lists(*args):
return list(map(sum, zip(*args)))
a = [1,2,3]
b = [1,2,3]
sum_lists(a,b)
Output:
[2, 4, 6]
Or with 3 lists
sum_lists([5,5,5,5,5], [10,10,10,10,10], [4,4,4,4,4])
Output:
[19, 19, 19, 19, 19]
Use map with lambda function:
>>> map(lambda x, y: x + y, list1, list2)
[5, 7, 9]
I haven't timed it but I suspect this would be pretty quick:
import numpy as np
list1=[1, 2, 3]
list2=[4, 5, 6]
list_sum = (np.add(list1, list2)).tolist()
[5, 7, 9]
If you need to handle lists of different sizes, worry not! The wonderful itertools module has you covered:
>>> from itertools import zip_longest
>>> list1 = [1,2,1]
>>> list2 = [2,1,2,3]
>>> [sum(x) for x in zip_longest(list1, list2, fillvalue=0)]
[3, 3, 3, 3]
>>>
In Python 2, zip_longest is called izip_longest.
See also this relevant answer and comment on another question.
Although, the actual question does not want to iterate over the list to generate the result, but all the solutions that has been proposed does exactly that under-neath the hood!
To refresh: You cannot add two vectors without looking into all the vector elements. So, the algorithmic complexity of most of these solutions are Big-O(n). Where n is the dimension of the vector.
So, from an algorithmic point of view, using a for loop to iteratively generate the resulting list is logical and pythonic too. However, in addition, this method does not have the overhead of calling or importing any additional library.
# Assumption: The lists are of equal length.
resultList = [list1[i] + list2[i] for i in range(len(list1))]
The timings that are being showed/discussed here are system and implementation dependent, and cannot be reliable measure to measure the efficiency of the operation. In any case, the big O complexity of the vector addition operation is linear, meaning O(n).
[list1[i] + list2[i] for i in range(len(list1))]
a_list = []
b_list = []
for i in range(1,100):
a_list.append(random.randint(1,100))
for i in range(1,100):
a_list.append(random.randint(101,200))
[sum(x) for x in zip(a_list , b_list )]
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