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I am trying to make the following thing work but without success:

I defined my own type Unit (inherit from build-in type float) to implement algebra for quantities with units. It does things in the way that:

class Unit(float):
"""provide a simple unit converter for a given quantity"""

    def __new__(cls, unit, num=1.):
        return super(Unit, cls).__new__(cls, num)

    def __init__(self, unit, num=1.):
        """set up base unit"""
        self.unit = unit

    def __str__(self,):
        return '{:s} {:s}'.format(super(Unit, self).__str__(), self.unit)

    def __rmul__(self, other):
        print 'rmul: {:f}'.format(super(Unit, self).__rmul__(other))
        return Unit(self.unit, super(Unit, self).__rmul__(other))

    def to(self,target):
        fun_conv = _conv(self.unit, target)
        return  Unit(target, num=fun_conv(self))

c = 3e8 * Unit('m/s')   # this will 1) create a Unit instance with magnitude '1' and unit 'm/s',
                        #           2) invoke __rmul__ to return a new instance with number 3e8 and unit 'm/s' to variable 'c'
print c.to('km/s')      # returns 3e5 km/s

However, this __rmul__ is only invoked when float being the left operand. If I make something like this:

velocities = np.array([20, 10]) * Unit('m/s')

Then Unit.__rmul__ will not be invoked, and the same numpy ndarray is returned since now Unit('m/s') was treated like a plain float with value 1.0

What I expect is: after ndarray * Unit, a function similar to Unit.to can be attacted to the instance of ndarray as a method as well as an attribute unit, so I can further call ndarray.to to return a copy (or modified version, if it could, for memory efficiency) of the original ndarray that associated with new values and unit. How do I proceed?

According what I have known and searched, __mul__ of the left operand will be of the prior during *, i.e., the interpretor checks LO.__mul__() first, if it fails, then goes to RO.__rmul__(). I don't quite want to override numpy.ndarray.__mul__ because I really don't know how complicated it would be, and whether there would be a big mess in case that it breaks the rules that ndarray acting on other objects.

And, actually I even cannot find where are the codes that defines __mul__ for ndarray. I simply used inspect.getsource(np.ndarray) but without success. Why does it fail on this? the exception was barely an IOError.

Thank you so much for your concern!

share|improve this question
did you consider that in scipy.constants.physical_constants, you find the speed of light etc too? docs.scipy.org/doc/scipy/reference/constants.html They got units etc too, but i dont really know how well supported multiplying stuff with units etc is, but i guess this might point you in the right direction for not reinventing the wheel if you get my meaning –  usethedeathstar Jul 15 '13 at 7:21
I just did a quick check on that but it seems no magnitude/flux conversion is supported. And it looks too simple. What I ultimately want to do is to make possible for working with variety of non-linear conversion, as well as error propagation or something similar. And I am now learning so I wouldn't mind to reinvent the wheel. But thank you all the same! –  user1824372 Jul 15 '13 at 7:33
This is an other example of why you shouldn't inherit from built-in types. You think that subclassing them is good since you can just modify some methods and you are done, but this is false. everytime you subclass a built-in you must re-implement every method, plus implement the __r*__ methods, otherwise there will be bugs. Hence it's just simpler to use composition. –  Bakuriu Jul 15 '13 at 7:54

1 Answer 1

up vote 2 down vote accepted

If you don't inhereit from float, but instead create a new type wrapping float (so float._ mul_(yourtype) does not work), rmul will do what you want. The wrapping will of course not be free, though... and you'll have to implement all operations you want the type to support.

class T(object):
  def __init__(self, val):
    self.val = val

  def __mul__(self, x):
    return T(self.val*x)

  def __rmul__(self, x):
    return T(self.val*x)

  def __repr__(self):
    return str(self.val)

>>> t = T(2)
>>> t * 2
>>> 2*t
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