# Elegant way to compare sequences

Does python provide an elegant way to check for "equality" of sequences of different types? The following work, but they seem rather ugly and verbose for python code:

``````def comp1(a, b):
if len(a) != len(b):
return False
for i, v in enumerate(a):
if v != b[i]:
return False
return True
``````

The following is a bit shorter, but also less efficient since a third sequence is created:

``````def comp2(a, b):
for l, r in map(None, a, b):
if l != r:
return False
return True
``````

Shoehorning one of those examples into a list comprehension isn't really what I'm looking for either.

Edit: Ideally I am looking for a solution that doesn't create another sequence during the comparison.

-

Convert both sequences to lists, and use builtin list comparison. It should be sufficient, unless your sequences are really large.

``````list(a) == list(b)
``````

Edit:

Testing done by schickb shows that using tuples is slightly faster:

``````tuple(a) == tuple(b)
``````
-
That creates two additional lists. Since the lists can be long, I'd like to avoid this. –  schickb May 22 '09 at 23:44
@schickb: How long are we talking about? Based on the title and the first sentence of your post, it's fair to put elegance as the top priority and efficiency as a bonus. To me, conversion to (new) lists is by far the most elegant and most "programmer-efficient" solution. –  John Y May 23 '09 at 0:25
@John, yeah I agree after some more testing. This solution is actually much faster than even the enumerate loop. I'm sure that changes at some sequence size however. I'll mark this one as the answer even though tuple(a) == tuple(b) seems to be better. –  schickb May 23 '09 at 1:32
@schickb - I added the tuple approach to the answer. –  Ayman Hourieh May 23 '09 at 1:48

You can determine the equality of any two iterables (strings, tuples, lists, even custom sequences) without creating and storing duplicate lists by using the following:

``````all(x == y for x, y in itertools.izip_longest(a, b))
``````

Note that if the two iterables are not the same length, the shorter one will be padded with `None`s. In other words, it will consider `[1, 2, None]` to be equal to `(1, 2)`.

Edit: As Kamil points out in the comments, `izip_longest` is only available in Python 2.6. However, the docs for the function also provide an alternate implementation which should work all the way back to 2.3.

Edit 2: After testing on a few different machines, it looks like this is only faster than `list(a) == list(b)` in certain circumstances, which I can't isolate. Most of the time, it takes about seven times as long. However, I also found `tuple(a) == tuple(b)` to be consistently at least twice as fast as the `list` version.

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Exactly what I was about to say, except I forgot about the usage of all(). The other caveat with this solution is that it requires Python 2.6 or higher. –  Kamil Kisiel May 22 '09 at 23:48
Nice and short, but that list comprehension creates a third sequence. –  schickb May 22 '09 at 23:50
@Kamil — True! The 2.6 docs for itertools offer a 2.5-friendly solution, as I recall, I'll see if I can't dig up a link. –  Ben Blank May 22 '09 at 23:51
@schickb — Not so, that's a generator, not a list comprehension. It creates a generator object which only creates each element when it's ready to emit it. –  Ben Blank May 22 '09 at 23:52
@Ben and vili: Even worse than a third sequence, then. A function call per entry. –  schickb May 22 '09 at 23:57

It looks like tuple(a) == tuple(b) is the best overall choice. Or perhaps tuple comparison with a preceding len check if they'll often be different lengths. This does create extra lists, but hopefully not an issue except for really huge lists. Here is my comparison of the various alternatives suggested:

``````import timeit

tests = (
'''
a=b=[5]*100
''',

'''
a=[5]*100
b=[5]*3
''',

'''
a=b=(5,)*100
''',

'''
a=b="This on is a string" * 5
''',

'''
import array
a=b=array.array('B', "This on is a string" * 5)
'''
)

common = '''import itertools
def comp1(a, b):
if len(a) != len(b):
return False
for i, v in enumerate(a):
if v != b[i]:
return False
return True'''

for i, setup in enumerate(tests):
t1 = timeit.Timer("comp1(a, b)", setup + common)
t2 = timeit.Timer("all(x == y for x, y in itertools.izip_longest(a, b))", setup + common)
t3 = timeit.Timer("all([x == y for x, y in itertools.izip_longest(a, b)])", setup + common)
t4 = timeit.Timer("list(a) == list(b)", setup + common)
t5 = timeit.Timer("tuple(a) == tuple(b)", setup + common)

print '==test %d==' % i
print '   comp1: %g' % t1.timeit()
print ' all gen: %g' % t2.timeit()
print 'all list: %g' % t3.timeit()
print '    list: %g' % t4.timeit()
print '   tuple: %g\n' % t5.timeit()
``````

Here are the results:

``````==test 0==
comp1: 27.8089
all gen: 31.1406
all list: 29.4887
list: 3.58438
tuple: 3.25859

==test 1==
comp1: 0.833313
all gen: 3.8026
all list: 33.5288
list: 1.90453
tuple: 1.74985

==test 2==
comp1: 30.606
all gen: 31.4755
all list: 29.5637
list: 3.56635
tuple: 1.60032

==test 3==
comp1: 33.3725
all gen: 35.3699
all list: 34.2619
list: 10.2443
tuple: 10.1124

==test 4==
comp1: 31.7014
all gen: 32.0051
all list: 31.0664
list: 8.35031
tuple: 8.16301
``````

Edit: Added a few more tests. This was run on an AMD 939 3800+ with 2GB of ram. Linux 32bit, Python 2.6.2

-
Now run all the same tests with Psyco . –  Brian Aug 9 '10 at 14:04
Your lists are trivial... it may not be the better choice if each element is a intensive-computing task. –  rafak May 17 '11 at 13:33

Since you put the word "equality" in quotes, I assume that you would like to know how the lists are the same and how the are different. Check out difflib which has a SequenceMatcher class:

``````    sm = difflib.SequenceMatcher(None, a, b)
for opcode in sm.get_opcodes():
print "    (%s %d:%d %d:%d)" % opcode
``````

You will get back a sequences of descriptions of the differences. It's fairly simple to turn that into diff-like output.

-

Apart from the extra memory used by creating temporary lists/tuples, those answers will lose out to short circuiting generator solutions for large sequences when the inequality occurs early in the sequences

``````from itertools import starmap, izip
from operator import eq
all(starmap(eq, izip(x,y)))
``````

or more concisely

``````from itertools import imap
from operator import eq
all(imap(eq, x, y))
``````

some benchmarks from ipython

``````x=range(1000)
y=range(1000);y[10]=0

timeit tuple(x)==tuple(y)
100000 loops, best of 3: 16.9 us per loop

timeit all(imap(eq,x,y))
100000 loops, best of 3: 2.86 us per loop
``````
-

It's probably not as efficient, but it looks funky:

``````def cmpLists(a, b):
return len(a) == len(b) and (False not in [a[i] == b[i] for i in range(0,len(a)])
``````

I don't know the "all" function that Ben mentioned, but perhaps you could use that instead of "False not in"

-
all is documented here: docs.python.org/3/library/functions.html#all –  Janus Troelsen May 13 '13 at 22:09

This "functional" code should be fast and generic enough for all purposes.

``````# python 2.6 ≤ x < 3.0
import operator, itertools as it

def seq_cmp(seqa, seqb):
return all(it.starmap(operator.eq, it.izip_longest(seqa, seqb)))
``````

If on Python 2.5, use the definition for izip_longest from there.

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