I wanted to demonstrate the usefulness of decorators in python to some people and failed at a simple example: Consider two functions (for sake of simplicity without arguments)
One can define their sum f+g as the function that returns f() + g(). Of course adding, subtracting etc. of functions is not defined in general. But it is easy to write a decorator that transforms every function into an addable function.
Now I would like to have a decorator that transforms any function into an "operable" function, that is, a function that behaves in the described way for any operator in the standard module
operator. My implementation looks as follows:
import operator class function(object): def __init__(self, f): self.f = f def __call__(self): return self.f() def op_to_function_op(op): def function_op(self, operand): def f(): return op(self(), operand()) return function(f) return function_op binary_op_names = ['__add__', '__and__', '__div__', '__eq__', '__floordiv__', '__ge__', '__gt__', '__le__', '__lt__', '__mod__', '__mul__', '__ne__', '__or__', '__pow__', '__sub__', '__truediv__', '__xor__'] for name in binary_op_names: type.__setattr__(function, name, op_to_function_op(getattr(operator, name)))
Let's perform a little test to see if it works:
@function def a(): return 4 def b(): return 7 c = a + b print c() print c() == operator.__add__(4, 7)
This is the final version I got after some experimenting. Now let's do two small, irrelevant modifications to have a look what I tried before:
First: In the definition of
binary_op_names, change the square brackets to round brackets. Suddenly, a (for me) completely unrelated error message comes out:
Traceback (most recent call last): File "example.py", line 30, in <module> c = a + b TypeError: unsupported operand type(s) for +: 'function' and 'function'
Where does this come from??
op_to_function_op as a lambda expression:
op = getattr(operator, name) type.__setattr__(function, name, lambda self, other: function(lambda: op(self(), other())))
Perform a slightly more involved test case:
@function def a(): return 4 def b(): return 7 c = a + b print c() print c() == operator.__add__(4, 7) print c() == operator.__xor__(4, 7)
3 False True
This looks to me like scope leakage, but again I don't understand why this happens.