How is the 'is' keyword implemented in Python?
... the is
keyword that can be used for equality in strings.
>>> s = 'str'
>>> s is 'str'
True
>>> s is 'st'
False
I tried both __is__()
and __eq__()
but they didn't work.
>>> class MyString:
... def __init__(self):
... self.s = 'string'
... def __is__(self, s):
... return self.s == s
...
>>>
>>>
>>> m = MyString()
>>> m is 'ss'
False
>>> m is 'string' # <--- Expected to work
False
>>>
>>> class MyString:
... def __init__(self):
... self.s = 'string'
... def __eq__(self, s):
... return self.s == s
...
>>>
>>> m = M开发者_Python百科yString()
>>> m is 'ss'
False
>>> m is 'string' # <--- Expected to work, but again failed
False
>>>
Testing strings with is
only works when the strings are interned. Unless you really know what you're doing and explicitly interned the strings you should never use is
on strings.
is
tests for identity, not equality. That means Python simply compares the memory address a object resides in. is
basically answers the question "Do I have two names for the same object?" - overloading that would make no sense.
For example, ("a" * 100) is ("a" * 100)
is False. Usually Python writes each string into a different memory location, interning mostly happens for string literals.
The is
operator is equivalent to comparing id(x)
values. For example:
>>> s1 = 'str'
>>> s2 = 'str'
>>> s1 is s2
True
>>> id(s1)
4564468760
>>> id(s2)
4564468760
>>> id(s1) == id(s2) # equivalent to `s1 is s2`
True
id
is currently implemented to use pointers as the comparison. So you can't overload is
itself, and AFAIK you can't overload id
either.
So, you can't. Unusual in python, but there it is.
The Python is
keyword tests object identity. You should NOT use it to test for string equality. It may seem to work frequently because Python implementations, like those of many very high level languages, performs "interning" of strings. That is to say that string literals and values are internally kept in a hashed list and those which are identical are rendered as references to the same object. (This is possible because Python strings are immutable).
However, as with any implementation detail, you should not rely on this. If you want to test for equality use the == operator. If you truly want to test for object identity then use is
--- and I'd be hard-pressed to come up with a case where you should care about string object identity. Unfortunately you can't count on whether two strings are somehow "intentionally" identical object references because of the aforementioned interning.
The is
keyword compares objects (or, rather, compares if two references are to the same object).
Which is, I think, why there's no mechanism to provide your own implementation.
It happens to work sometimes on strings because Python stores strings 'cleverly', such that when you create two identical strings they are stored in one object.
>>> a = "string"
>>> b = "string"
>>> a is b
True
>>> c = "str"+"ing"
>>> a is c
True
You can hopefully see the reference vs data comparison in a simple 'copy' example:
>>> a = {"a":1}
>>> b = a
>>> c = a.copy()
>>> a is b
True
>>> a is c
False
If you are not afraid of messing up with bytecode, you can intercept and patch COMPARE_OP
with 8 ("is")
argument to call your hook function on objects being compared. Look at dis
module documentation for start-in.
And don't forget to intercept __builtin__.id()
too if someone will do id(a) == id(b)
instead of a is b
.
'is' compares object identity whereas == compares values.
Example:
a=[1,2]
b=[1,2]
#a==b returns True
#a is b returns False
p=q=[1,2]
#p==q returns True
#p is q returns True
is fails to compare a string variable to string value and two string variables when the string starts with '-'. My Python version is 2.6.6
>>> s = '-hi'
>>> s is '-hi'
False
>>> s = '-hi'
>>> k = '-hi'
>>> s is k
False
>>> '-hi' is '-hi'
True
You can't overload the is
operator. What you want to overload is the ==
operator. This can be done by defining a __eq__
method in the class.
You are using identity comparison. == is probably what you want. The exception to this is when you want to be checking if one item and another are the EXACT same object and in the same memory position. In your examples, the item's aren't the same, since one is of a different type (my_string) than the other (string). Also, there's no such thing as someclass.__is__
in python (unless, of course, you put it there yourself). If there was, comparing objects with is wouldn't be reliable to simply compare the memory locations.
When I first encountered the is keyword, it confused me as well. I would have thought that is and == were no different. They produced the same output from the interpreter on many objects. This type of assumption is actually EXACTLY what is... is for. It's the python equivalent "Hey, don't mistake these two objects. they're different.", which is essentially what [whoever it was that straightened me out] said. Worded much differently, but one point == the other point.
the for some helpful examples and some text to help with the sometimes confusing differences visit a document from python.org's mail host written by "Danny Yoo"
or, if that's offline, use the unlisted pastebin I made of it's body.
in case they, in some 20 or so blue moons (blue moons are a real event), are both down, I'll quote the code examples
###
>>> my_name = "danny"
>>> your_name = "ian"
>>> my_name == your_name
0 #or False
###
###
>>> my_name[1:3] == your_name[1:3]
1 #or True
###
###
>>> my_name[1:3] is your_name[1:3]
0
###
Assertion Errors can easily arise with is keyword while comparing objects. For example, objects a and b might hold same value and share same memory address. Therefore, doing an
>>> a == b
is going to evaluate to
True
But if
>>> a is b
evaluates to
False
you should probably check
>>> type(a)
and
>>> type(b)
These might be different and a reason for failure.
Because string interning, this could look strange:
a = 'hello'
'hello' is a #True
b= 'hel-lo'
'hel-lo' is b #False
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