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Given a list of numbers how to find differences between every (i)-th and (i+1)-th of its elements? Should one better use lambda or maybe lists comprehension?

Example: Given a list t=[1,3,6,...] it is to find a list v=[2,3,...] because 3-1=2, 6-3=3, etc.

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up vote 51 down vote accepted
>>> t
[1, 3, 6]
>>> [j-i for i, j in zip(t[:-1], t[1:])]  # or use itertools.izip in py2k
[2, 3]
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In case you need absolute differences, [abs(j-i) for i,j in zip(t, t[1:])] – Anil Jul 14 '15 at 0:09

The other answers are correct but if you're doing numerical work, you might want to consider numpy. Using numpy, the answer is:

v = numpy.diff(t)
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If you don't want to use numpy nor zip, you can use the simple (simplest in my opinion) solution:

>>> t = [1, 3, 6]
>>> v = [t[i+1]-t[i] for i in range(len(t)-1)]
>>> v
[2, 3]
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You can use itertools.tee and zip to efficiently build the result:

from itertools import tee
# python2 only:
#from itertools import izip as zip

def differences(seq):
    iterable, copied = tee(seq)
    for x, y in zip(iterable, copied):
        yield y - x

Or using itertools.islice instead:

from itertools import islice

def differences(seq):
    nexts = islice(seq, 1, len(seq))
    for x, y in zip(seq, nexts):
        yield y - x

You can also avoid using the itertools module:

def differences(seq):
    iterable = iter(seq)
    prev = next(iterable)
    for element in iterable:
        yield element - prev
        prev = element

All these solution work in constant space if you don't need to store all the results. The first and last solution also works with infinite iterables, while the second one requires a finite sequence as input.

Here are some micro-benchmarks of the solutions:

In [12]: L = range(10**6)

In [13]: from collections import deque
In [15]: %timeit deque(differences_tee(L), maxlen=0)
10 loops, best of 3: 122 ms per loop

In [16]: %timeit deque(differences_islice(L), maxlen=0)
10 loops, best of 3: 127 ms per loop

In [17]: %timeit deque(differences_no_it(L), maxlen=0)
10 loops, best of 3: 89.9 ms per loop

And the other proposed solutions:

In [18]: %timeit [x[1] - x[0] for x in zip(L[1:], L)]
10 loops, best of 3: 163 ms per loop

In [19]: %timeit [L[i+1]-L[i] for i in range(len(L)-1)]
1 loops, best of 3: 395 ms per loop

In [20]: import numpy as np

In [21]: %timeit np.diff(L)
1 loops, best of 3: 479 ms per loop

In [35]: %%timeit
    ...: res = []
    ...: for i in range(len(L) - 1):
    ...:     res.append(L[i+1] - L[i])
1 loops, best of 3: 234 ms per loop

Note that:

  • zip(L[1:], L) is equivalent to zip(L[1:], L[:-1]) since zip already terminates on the shortest input, however it avoids a whole copy of L.
  • Accessing the single elements by index is very slow because every index access is a method call in python
  • numpy.diff is slow because it has to first convert the list to a ndarray. Obviously if you start with an ndarray it will be much faster:

    In [22]: arr = np.array(L)
    In [23]: %timeit np.diff(arr)
    100 loops, best of 3: 3.02 ms per loop
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Ok. I think I found the proper solution:

v = [x[1]-x[0] for x in zip(t[1:],t[:-1])]
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ya its good, but I think it should have been v = [x[0]-x[1] for x in zip(t[1:], t[:-1])] for sorted list! – Amit Karnik Jan 31 at 10:38

My way

>>>v = [1,2,3,4,5]
>>>[v[i] - v[i-1] for i, value in enumerate(v[1:], 1)]
[1, 1, 1, 1]
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