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I've been trying to performance optimize a BFS implementation in Python and my original implementation was using deque to store the queue of nodes to expand and a dict to store the same nodes so that I would have efficient lookup to see if it is already open.

I attempted to optimize (simplicity and efficiency) by moving to an OrderedDict. However, this takes significantly more time. 400 sample searches done take 2 seconds with deque/dict and 3.5 seconds with just an OrderedDict.

My question is, if OrderedDict does the same functionality as the two original data structures, should it not at least be similar in performance? Or am I missing something here? Code examples below.

Using just an OrderedDict:

open_nodes = OrderedDict()
closed_nodes = {}
current = Node(start_position, None, 0)
open_nodes[current.position] = current

while open_nodes:
  current = open_nodes.popitem(False)[1]
  closed_nodes[current.position] = (current)

  if goal(current.position):
    return trace_path(current, open_nodes, closed_nodes)

  # Nodes bordering current
  for neighbor in self.environment.neighbors[current.position]:
    new_node = Node(neighbor, current, current.depth + 1)
    open_nodes[new_node.position] = new_node

Using both a deque and a dictionary:

open_queue = deque()
open_nodes = {}
closed_nodes = {}
current = Node(start_position, None, 0)
open_queue.append(current)
open_nodes[current.position] = current

while open_queue:
  current = open_queue.popleft()
  del open_nodes[current.position]
  closed_nodes[current.position] = (current)

  if goal_function(current.position):
    return trace_path(current, open_nodes, closed_nodes)

  # Nodes bordering current
  for neighbor in self.environment.neighbors[current.position]:
    new_node = Node(neighbor, current, current.depth + 1)
    open_queue.append(new_node)
    open_nodes[new_node.position] = new_node
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    OrderedDict is implemented in Python, while dict and deque are both implemented in C. The combination of deque and dict doesn't allow to implement an OrderedDict with the same runtime guarantees that the current implementation gives. For example deleting an item from an OrderedDict is amortised O(1), which would not be possible with an implementation based on dict and deque. Well, if you are lucky, Raymond drops in and gives you an authorative answer. :) – Sven Marnach Nov 18 '11 at 1:06
  • If you're using python 2.7 and want to overcome the performance hit of the OrderedDict you can have a look at this project - github.com/shoyer/cyordereddict, a Cython implementation of the OrderedDict. – odedfos Sep 6 '18 at 11:00
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Both deque and dict are implemented in C and will run faster than OrderedDict which is implemented in pure Python.

The advantage of the OrderedDict is that it has O(1) getitem, setitem, and delitem just like regular dicts. This means that it scales very well, despite the slower pure python implementation.

Competing implementations using deques, lists, or binary trees usually forgo fast big-Oh times in one of those categories in order to get a speed or space benefit in another category.

Update: Starting with Python 3.5, OrderedDict() now has a C implementation. And though it hasn't been highly optimized like some of the other containers. It should run much faster than the pure python implementation. Then starting with Python 3.6, regular dictionaries has been ordered (though the ordering behavior is not yet guaranteed). Those should run faster still :-)

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    Update: Python 3.5 has a C implementation of OrderedDict. bugs.python.org/issue16991 – Fred the Fantastic Jul 1 '15 at 15:35
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    Hi Raymond, vote up for the excellent post. In the discussion you mentioned, it seems the conclusion is set/get/popitem are all O(1). Do you have any official document from python mentioning they are of performance O(1). I do not challenge your answer, I just want to read more info. – Lin Ma Jul 25 '16 at 1:20
  • I'd like to point out that regular dictionaries should not be used for ordering, even if one knows that their program will only be used in CPython. For most developers, the speed benefits aren't worth the loss of backwards compatibility and the risk of future breaking changes. – Shuklaswag Nov 24 '17 at 17:35
  • Are OrderedDict.poplast() and OrderedDict.poplast(last=False) also O(1)? What is the underlying datastructure? – wprins May 21 '20 at 11:06
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    @wprins Internally, it uses a doubly-linked list augmented by a regular dictionary that can be find a given link directly from the key. – Raymond Hettinger May 22 '20 at 0:13
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Like Sven Marnach said, OrderedDict is implemented in Python, I want to add that it is implemented using dict and list.

dict in python is implemented as hashtable. I am not sure how deque is implemented, but documentation says that deque is optimized for quick adding or accessing first/last elements, so I guess that deque is implemented as linked-list.

I think when you do pop on OrderedDict, python does hashtable look-up which is slower compared to linked-list which has direct pointers to last and first elements. Adding an element to the end of linked-list is also faster compared with hash-table.

So primary cause why OrderDict in your example is slower, is because it is faster to access last element from linked-list, than to access any element using hash-table.

My thoughts are based on information from book Beautiful Code, it describes implementation details behind dict, however I do not know much details behind list and deque, this answer is just my intuition of how things work, so in case I am wrong, I really deserve down-votes for talking things which I am not sure about. Why I talk things on which I am not sure? -Because I want to test my intuition :)

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    list is not implemented as a hashtable. dict is. – kindall Nov 18 '11 at 1:40
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    The first word of the second paragraph probably should be dict instead of list. And your guess about deque being a linked list is correct. The basis for an OrderedDict, though, is, besides a dict of course, a pure-Python implementation of a linked list. This couldn't be replaced by a deque because of limitations of deque's interface. – Sven Marnach Nov 18 '11 at 1:40
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    Deques are implemented using linked clusters of elements. This gives them some of the benefits of linked lists while retaining the cache locality benefits of short arrays. – Raymond Hettinger Nov 18 '11 at 2:33
  • I really meant dict in the second paragraph. Sorry. list is an array, it is also very fast, however pop works a little bit faster on deque than on list. – Ski Nov 18 '11 at 2:42

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