I've recently gotten into investigating how various data structures are implemented in Python in order to make my code more efficient. In investigating how lists and deques work, I found that I can get benefits when I want to shift and unshift reducing the time from O(n) in lists to O(1) in deques (lists being implemented as fixed-length arrays that have to be copied completely each time something is inserted at the front, etc...). What I can't seem to find are the specifics of how a deque is implemented, and the specifics of its downsides v.s. lists. Can someone enlighten me on these two questions?
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4 Answers
https://github.com/python/cpython/blob/v3.8.1/Modules/_collectionsmodule.c
A
dequeobjectis composed of a doubly-linked list ofblocknodes.
So yes, a deque is a (doubly-)linked list as another answer suggests.
Elaborating: What this means is that Python lists are much better for random-access and fixed-length operations, including slicing, while deques are much more useful for pushing and popping things off the ends, with indexing (but not slicing, interestingly) being possible but slower than with lists.
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4Note that if you just need to append and pop at one end (stack), lists should perform better as
.append()and.pop()are amortized O(1) (reallocation and copying happens, but very rarely and only until you reach the max. size the stack will ever have).– user395760Jun 6, 2011 at 20:09 -
@delnan: But if you want a queue, then something like
dequeis definitely the right way to go.– JABJun 6, 2011 at 20:30 -
1@Eli: Lists don't deal with thread-safety (well, it's not wired into their internals) and have been tuned by many smart people for a long time.– user395760Jun 7, 2011 at 14:05
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3@delnan: Actually,
deques in CPython don't really handle thread safety either; they just benefit from the GIL making their operations atomic (and in fact,appendandpopfrom the end of alisthas the same protections). In practice, if you're just using a stack, bothlistanddequehave effectively identical performance in CPython; the block allocations are more frequent withdeque(but not plain linked list frequent; you'd only end up allocating/freeing every time you crossed a 64 member boundary in CPython implementation), but the lack of huge intermittent copies compensates. Dec 2, 2015 at 2:13 -
2For a pure Python implementation in check out PyPy's code. Interestingly it is a doubly-linked list of small array blocks. May 8, 2019 at 4:12
Check out collections.deque. From the docs:
Deques support thread-safe, memory efficient appends and pops from either side of the deque with approximately the same O(1) performance in either direction.
Though list objects support similar operations, they are optimized for fast fixed-length operations and incur O(n) memory movement costs for pop(0) and insert(0, v) operations which change both the size and position of the underlying data representation.
Just as it says, using pop(0) or insert(0, v) incur large penalties with list objects. You can't use slice/index operations on a deque, but you can use popleft/appendleft, which are operations deque is optimized for. Here is a simple benchmark to demonstrate this:
import time
from collections import deque
num = 100000
def append(c):
for i in range(num):
c.append(i)
def appendleft(c):
if isinstance(c, deque):
for i in range(num):
c.appendleft(i)
else:
for i in range(num):
c.insert(0, i)
def pop(c):
for i in range(num):
c.pop()
def popleft(c):
if isinstance(c, deque):
for i in range(num):
c.popleft()
else:
for i in range(num):
c.pop(0)
for container in [deque, list]:
for operation in [append, appendleft, pop, popleft]:
c = container(range(num))
start = time.time()
operation(c)
elapsed = time.time() - start
print "Completed %s/%s in %.2f seconds: %.1f ops/sec" % (container.__name__, operation.__name__, elapsed, num / elapsed)
Results on my machine:
Completed deque/append in 0.02 seconds: 5582877.2 ops/sec
Completed deque/appendleft in 0.02 seconds: 6406549.7 ops/sec
Completed deque/pop in 0.01 seconds: 7146417.7 ops/sec
Completed deque/popleft in 0.01 seconds: 7271174.0 ops/sec
Completed list/append in 0.01 seconds: 6761407.6 ops/sec
Completed list/appendleft in 16.55 seconds: 6042.7 ops/sec
Completed list/pop in 0.02 seconds: 4394057.9 ops/sec
Completed list/popleft in 3.23 seconds: 30983.3 ops/sec
answered Jun 6, 2011 at 19:35
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3Huh, just noticed that you can't do slicing with deques even though you can do indexing. Interesting.– JABJun 6, 2011 at 20:33
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1+1 for the timings -- interesting that
listappends are slightly faster thandequeappends.– senderleJun 6, 2011 at 20:48 -
1@zeekay: That's quite odd, considering that searching for the index of a specific item would normally require iterating over the items of the collection anyway, and that you can index into a
dequejust as you would alist.– JABJun 7, 2011 at 14:29 -
1@senderle: Of course, the
listpops were slower thandeque's (likely due tolist's higher cost of intermittently resizing as it shrinks, wheredequeis just freeing blocks back to free list or small object pool), so when selecting a data structure for a stack (aka LIFO queue), the empty-to-full-to-empty performance looks slightly better fordeque(averages 6365K ops/sec forappend/pop, vs.list's 5578K ops/sec). I suspectdequewould do slightly better in the real world, asdeque's freelist means growing for the first time is more expensive than growing after shrinking. Jan 10, 2019 at 20:22 -
1To clarify my freelist reference: CPython's
dequewill not actuallyfreeup to 16 blocks (module-wide, not perdeque), instead putting them in a cheap array of available blocks for reuse. So when growing adequefor the first time, it always has to pull new blocks frommalloc(makingappendmore expensive), but if it's constantly expanding for a bit, then shrinking for a bit, and back and forth, it will usually not involvemalloc/freeat all so long as the length stays roughly within a range of 1024 elements (16 blocks on the free list, 64 slots per block). Jan 10, 2019 at 20:26
The documentation entry for deque objects spells out most of what you need to know, I suspect. Notable quotes:
Deques support thread-safe, memory efficient appends and pops from either side of the deque with approximately the same O(1) performance in either direction.
But...
Indexed access is O(1) at both ends but slows to O(n) in the middle. For fast random access, use lists instead.
I'd have to take a look at the source to tell whether the implementation is a linked list or something else, but it sounds to me as though a deque has roughly the same characteristics as a doubly-linked list.
In addition to all the other helpful answers, here is some more information comparing the time complexity (Big-Oh) of various operations on Python lists, deques, sets, and dictionaries. This should help in selecting the right data structure for a particular problem.
answered Mar 17, 2013 at 18:01
