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what are my options there? I need to call a lot of appends (to the right end) and poplefts (from the left end, naturally), but also to read from the middle of the storage, which will steadily grow, by the nature of the algorithm. I would like to have all these operations in O(1).

I could implement it in C easy enough on circularly-addressed array (what's the word?) which would grow automatically when it's full; but what about Python? Pointers to other languages are appreciated too (I realize the "collections" tag is more Java etc. oriented and would appreciate the comparison, but as a secondary goal).

I come from a Lisp background and was amazed to learn that in Python removing a head element from a list is an O(n) operation. A deque could be an answer except the documentation says access is O(n) in the middle. Is there anything else, pre-built?

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in general, en.wikipedia.org/wiki/Hashed_array_tree might be relevant. –  Will Ness Jun 8 '13 at 7:23

3 Answers 3

up vote 6 down vote accepted

You can get an amortized O(1) data structure by using two python lists, one holding the left half of the deque and the other holding the right half. The front half is stored reversed so the left end of the deque is at the back of the list. Something like this:

class mydeque(object):

  def __init__(self):
    self.left = []
    self.right = []

  def pushleft(self, v):

  def pushright(self, v):

  def popleft(self):
    if not self.left:
    return self.left.pop()

  def popright(self):
    if not self.right:
    return self.right.pop()

  def __len__(self):
    return len(self.left) + len(self.right)

  def __getitem__(self, i):
    if i >= len(self.left):
      return self.right[i-len(self.left)]
      return self.left[-(i+1)]

  def __fill_right(self):
    x = len(self.left)//2
    del self.left[0:x]

  def __fill_left(self):
    x = len(self.right)//2
    del self.right[0:x]

I'm not 100% sure if the interaction between this code and the amortized performance of python's lists actually result in O(1) for each operation, but my gut says so.

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thanks a lot, will think about it. will del self.right[0:x] take O(n) time? and extend too? –  Will Ness May 4 '12 at 17:31
actually, I never call popright and pushleft in this algorithm, so I'll just swap the reversed right for the left whenever the left gets exhausted. This is excellent! Thanks a lot! –  Will Ness May 4 '12 at 17:40
Yes, but the idea is that fill_right and fill_left are called only every O(n) operations so that each operation takes amortized O(1) time. I'm pretty sure what you ask is only possible in amortized O(1) time unless the size is bounded (the resize you mention in the Q for a C implementation will make it O(n) worst case too). –  Geoff Reedy May 4 '12 at 17:43
yes, I understand this, occasional O(n) is good (but worse than O(n) wouldn't be, is what I meant). Sorry for being unclear. But since I never call popright and pushleft the only one that gets ever exhausted is left and I'll just use the reversed right for it! I'll just use these two lists interchangeably in the code directly. Thank you very much! –  Will Ness May 4 '12 at 17:47

Accessing the middle of a lisp list is also O(n).

Python lists are array lists, which is why popping the head is expensive (popping the tail is constant time).

What you are looking for is an array with (amortised) constant time deletions at the head; that basically means that you are going to have to build a datastructure on top of list that uses lazy deletion, and is able to recycle lazily-deleted slots when the queue is empty.

Alternatively, use a hashtable, and a couple of integers to keep track of the current contiguous range of keys.

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the doc has no "hashtable" in it. –  Will Ness May 4 '12 at 17:16
can I remove a contiguous range from the head of a list in O(n) time? How? –  Will Ness May 4 '12 at 17:18
@WillNess, I'll give you a hint: dictionaries. And Marcin, you could be a little more helpful. –  Mark Ransom May 4 '12 at 17:24
I don't think I can agree with you on that one. –  Will Ness May 4 '12 at 17:28
@WillNess You haven't bothered to learn the syntax for working with basic types, or even learned what built-in datatypes exist. The answer to both of your questions posed on this answer is to actually learn python using either standard documentation or introductory materials. –  Marcin May 4 '12 at 17:29

Python's Queue Module may help you, although I'm not sure if access is O(1).

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Queue does not support access to the middle of the queue. –  Marcin May 4 '12 at 17:17

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