is is the identity equality operator (functioning like
id(a) == id(b)); it's just that two equal numbers aren't necessarily the same object. For performance reasons some small integers happen to be memoized so they will tend to be the same (this can be done since they are immutable).
=== operator, on the other hand, is described as checking equality and type:
x == y and type(x) == type(y) as per Paulo Freitas' comment. This will suffice for common numbers, but differ from
is for classes that define
__eq__ in an absurd manner:
def __eq__(self, other):
PHP apparently allows the same thing for "built-in" classes (which I take to mean implemented at C level, not in PHP). A slightly less absurd use might be a timer object, which has a different value every time it's used as a number. Quite why you'd want to emulate Visual Basic's
Now instead of showing that it is an evaluation with
time.time() I don't know.
Greg Hewill (OP) made one clarifying comment "My goal is to compare object identity, rather than equality of value. Except for numbers, where I want to treat object identity the same as equality of value."
This would have yet another answer, as we have to categorize things as numbers or not, to select whether we compare with
is. CPython defines the number protocol, including PyNumber_Check, but this is not accessible from Python itself.
We could try to use
isinstance with all the number types we know of, but this would inevitably be incomplete. The types module contains a StringTypes list but no NumberTypes. Since Python 2.6, the built in number classes have a base class numbers.Number, but it has the same problem:
import numpy, numbers
assert not issubclass(numpy.int16,numbers.Number)
By the way, NumPy will produce separate instances of low numbers.
I don't actually know an answer to this variant of the question. I suppose one could theoretically use ctypes to call PyNumber_Check, but even that function has been debated, and it's certainly not portable. We'll just have to be less particular about what we test for now.
In the end, this issue stems from Python not originally having a type tree with predicates like Scheme's
number?, or Haskell's type class Num.
is checks object identity, not value equality. PHP has a colorful history as well, where
=== apparently behaves as
is only on objects in PHP5, but not PHP4. Such are the growing pains of moving across languages (including versions of one).