What is the complexity of the in operator in Python? Is it theta(n)?
Is it the same as the following?
def find(L, x)
for e in L:
if e == x:
return True
return False
L is a list.
What is the complexity of the in operator in Python? Is it theta(n)?
Is it the same as the following?
def find(L, x)
for e in L:
if e == x:
return True
return False
L is a list.
The complexity of in
depends entirely on what L
is. e in L
will become L.__contains__(e)
.
See this time complexity document for the complexity of several built-in types.
Here is the summary for in
:
The O(n) worst case for sets and dicts is very uncommon, but it can happen if __hash__
is implemented poorly. This only happens if everything in your set has the same hash value.
OrderedDict
, and as you could find out: OrderedDict
is inherited from dict
, so the most operations (of course, with exceptions) have the same complexity.
– maxkoryukov
Sep 12 '18 at 13:46
It depends entirely on the type of the container. Hashing containers (dict
, set
) use the hash and are essentially O(1). Typical sequences (list
, tuple
) are implemented as you guess and are O(n). Trees would be average O(log n). And so on. Each of these types would have an appropriate __contains__
method with its big-O characteristics.
It depends on the container you're testing. It's usually what you'd expect - linear for ordered datastructures, constant for the unordered. Of course, there are both types (ordered or unordered) which might be backed by some variant of a tree.
L
doesn't imply a list.seq
is the most common choice where one wants to imply a list.L
is a terrible variable name. Single letter ones are bad, and the capital implies it's a class. Even if it was something in particular, Python is dynamic, so state it explicitly in a case like this. – Gareth Latty Dec 14 '12 at 18:50L
meanslist
? My libtelepathy.so is probably outdated. – Zaur Nasibov Dec 14 '12 at 18:56