Consider a dictionary with keys created using objects of the class below:

```
class Point( object ):
def __init__( self, x, y ):
self.x = x
self.y = y
def __eq__( self, other ):
return self.x == other.x
def __hash__( self ):
return self.x.__hash__()
def __ne__( self, other ):
return self.x != other.x
>>> a = Point(1,1)
>>> b = Point(0, 2)
>>> dct = {}
>>> dct[a] = 15
>>> dct[b] = 16
>>> dct[a]
15
>>> c = Point(1,None)
>>> dct[c]
15
```

This happens because `c`

and `a`

share the same hash and are equal. Is there an O(1) way to implement a function that given `c`

returns `a`

(as against the O(n) implementation below?):

```
def getKey( dct, key ):
for k in dct:
if k == key:
return k
return None
```

`dict`

and maintaining an internal dictionary that maps keys to themselves. This would add some overhead to every modification to the dictionary, but you could get the actual key object in O(1) through the internal dictionary. – Andrew Clark May 31 '12 at 23:05