If you check the source for the
operator module (add, concat), you will find these definitions for those functions:
def add(a, b):
"Same as a + b."
return a + b
def concat(a, b):
"Same as a + b, for a and b sequences."
if not hasattr(a, '__getitem__'):
msg = "'%s' object can't be concatenated" % type(a).__name__
return a + b
So there is actually no difference except that
concat actually requires a sequence type. Both functions use the
+ operator which effect depends on the types you add.
In general, using the
operator module is not that useful most of the time. The module is mostly used when you need to pass a function that performs an operation, for example to functional functions like
reduce. But usually, you can just use the
+ operator directly.
As for the underscore functions (
__concat__), these are just aliases:
__add__ = add
__concat__ = concat
But those are of course not related to the special methods used to overload operators for custom types. They are functions that match the same name as those special methods, probably to make them appear similar. Note that there is no special
__concat__ method on objects though.
__add__ on a custom type will however affect how the operator module functions work, for example:
>>> class Example:
def __init__ (self, x):
self.x = x
def __repr__ (self):
def __add__ (self, other):
return Example(self.x + other.x)
>>> a = Example(2)
>>> b = Example(4)
>>> operator.add(a, b)
>>> a + b
As you can see,
operator.add will use the implementation of the special method
Example.__add__; but the reason for that is that the implementation of
operator.add just uses the
+ operator (which behavior is explicitely defined by the special