Two variables in Python have same id, but not lists or tuples
Immutable !=
same object.*
An immutable object is simply an object whose state cannot be altered; and that is all. When a new object is created, a new address will be assigned to it. As such, checking if the addresses are equal with is
will return False
.
The fact that 1 is 1
or "a" is "a"
returns True
is due to integer caching and string interning performed by Python so do not let it confuse you; it is not related with the objects in question being mutable/immutable.
*Empty immutable objects do refer to the same object and their is
ness does return true, this is a special implementation specific case, though.
Immutable objects don't have the same id
, and as a mater of fact this is not true for any type of objects that you define separately. Generally speaking, every time you define an object in Python, you'll create a new object with a new identity. However, for the sake of optimization (mostly) there are some exceptions for small integers (between -5 and 256) and interned strings, with a special length --usually less than 20 characters--* which are singletons and have the same id
(actually one object with multiple pointers). You can check this like following:
>>> 30 is (20 + 10)
True
>>> 300 is (200 + 100)
False
>>> 'aa' * 2 is 'a' * 4
True
>>> 'aa' * 20 is 'a' * 40
False
And for a custom object:
>>> class A:
... pass
...
>>> A() is A() # Every time you create an instance you'll have a new instance with new identity
False
Also note that the is
operator will check the object's identity, not the value. If you want to check the value you should use ==
:
>>> 300 == 3*100
True
And since there is no such optimizational or interning rule for tuples or any mutable type for that matter, if you define two same tuples in any size they'll get their own identities, hence different objects:
>>> a = (1,)
>>> b = (1,)
>>>
>>> a is b
False
It's also worth mentioning that rules of "singleton integers" and "interned strings" are true even when they've been defined within an iterator.
>>> a = (100, 700, 400)
>>>
>>> b = (100, 700, 400)
>>>
>>> a[0] is b[0]
True
>>> a[1] is b[1]
False
* A good and detailed article on this: http://guilload.com/python-string-interning/