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python - Intercept operator lookup on metaclass

I have a class that need to make some magic with every operator, like __add__, __sub__ and so on.

Instead of creating each function in the class, I have a metaclass which defines every operator in the operator module.

import operator
class MetaFuncBuilder(type):
    def __init__(self, *args, **kw):
        super().__init__(*args, **kw)
        attr = '__{0}{1}__'
        for op in (x for x in dir(operator) if not x.startswith('__')):
            oper = getattr(operator, op)

            # ... I have my magic replacement functions here
            # `func` for `__operators__` and `__ioperators__`
            # and `rfunc` for `__roperators__`

            setattr(self, attr.format('', op), func)
            setattr(self, attr.format('r', op), rfunc)

The approach works fine, but I think It would be better if I generate the replacement operator only when needed.

Lookup of operators should be on the metaclass because x + 1 is done as type(x).__add__(x,1) instead of x.__add__(x,1), but it doesn't get caught by __getattr__ nor __getattribute__ methods.

That doesn't work:

class Meta(type):
     def __getattr__(self, name):
          if name in ['__add__', '__sub__', '__mul__', ...]:
               func = lambda:... #generate magic function
               return func

Also, the resulting "function" must be a method bound to the instance used.

Any ideas on how can I intercept this lookup? I don't know if it's clear what I want to do.


For those questioning why do I need to this kind of thing, check the full code here. That's a tool to generate functions (just for fun) that could work as replacement for lambdas.

Example:

>>> f = FuncBuilder()
>>> g = f ** 2
>>> g(10)
100
>>> g
<var [('pow', 2)]>

Just for the record, I don't want to know another way to do the same thing (I won't declare every single operator on the class... that will be boring and the approach I have works pretty fine :). I want to know how to intercept attribute lookup from an operator.

See Question&Answers more detail:os

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1 Answer

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by (71.8m points)

Some black magic let's you achieve your goal:

operators = ["add", "mul"]

class OperatorHackiness(object):
  """
  Use this base class if you want your object
  to intercept __add__, __iadd__, __radd__, __mul__ etc.
  using __getattr__.
  __getattr__ will called at most _once_ during the
  lifetime of the object, as the result is cached!
  """

  def __init__(self):
    # create a instance-local base class which we can
    # manipulate to our needs
    self.__class__ = self.meta = type('tmp', (self.__class__,), {})


# add operator methods dynamically, because we are damn lazy.
# This loop is however only called once in the whole program
# (when the module is loaded)
def create_operator(name):
  def dynamic_operator(self, *args):
    # call getattr to allow interception
    # by user
    func = self.__getattr__(name)
    # save the result in the temporary
    # base class to avoid calling getattr twice
    setattr(self.meta, name, func)
    # use provided function to calculate result
    return func(self, *args)
  return dynamic_operator

for op in operators:
  for name in ["__%s__" % op, "__r%s__" % op, "__i%s__" % op]:
    setattr(OperatorHackiness, name, create_operator(name))


# Example user class
class Test(OperatorHackiness):
  def __init__(self, x):
    super(Test, self).__init__()
    self.x = x

  def __getattr__(self, attr):
    print "__getattr__(%s)" % attr
    if attr == "__add__":
      return lambda a, b: a.x + b.x
    elif attr == "__iadd__":
      def iadd(self, other):
        self.x += other.x
        return self
      return iadd
    elif attr == "__mul__":
      return lambda a, b: a.x * b.x
    else:
      raise AttributeError

## Some test code:

a = Test(3)
b = Test(4)

# let's test addition
print(a + b) # this first call to __add__ will trigger
            # a __getattr__ call
print(a + b) # this second call will not!

# same for multiplication
print(a * b)
print(a * b)

# inplace addition (getattr is also only called once)
a += b
a += b
print(a.x) # yay!

Output

__getattr__(__add__)
7
7
__getattr__(__mul__)
12
12
__getattr__(__iadd__)
11

Now you can use your second code sample literally by inheriting from my OperatorHackiness base class. You even get an additional benefit: __getattr__ will only be called once per instance and operator and there is no additional layer of recursion involved for the caching. We hereby circumvent the problem of method calls being slow compared to method lookup (as Paul Hankin noticed correctly).

NOTE: The loop to add the operator methods is only executed once in your whole program, so the preparation takes constant overhead in the range of milliseconds.


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