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
```

`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. :)