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Consider the following python code:

class MyClass:
   def __radd__(self, a):
      print "foo", a
      return a

p = MyClass()

To evoke radd the following can be run:

>>> print "bar"+p
foo bar

This is the expected behavior. __add__ is run and fails, therefore __radd__ takes over and handles the situation. But with numpy arrays it behaves a little differently:

>>> v = np.arange(2)
>>> print v+p
foo 0.
foo 1.
[0. 1.]

It seems that unlike the example abovev.__add__ itterativly goes through v's components and performes p.__radd__ on them. In other words it has decided that the returning type will be an ndarray (as long as the code don't crash). I get that this is numpy that tries to be smart, but somtimes I would like my class to handle the aritmethics.

Is it possible to get standard __radd__ behavior with numpy arrays?

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1 Answer 1

When you do a+b, a normally gets first crack at defining what that means: b.__radd__ will only be used if a.__add__ isn't implemented. So, in the general case, if you want to control addition, you have to make sure you put your object first: b+a.

According to the docs, though, there's an exception to that. If you subclass numpy.ndarray, and define an __radd__ method, that gets tried first. So, if it makes sense for your object to be based on an array, you can do that.

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It makes a quite a bit of sense. –  Jonathan May 26 '11 at 9:32
It creates a new problem though. The subsetting creates an error on initiation: TypeError: requires argument 'shape' (pos 1) not found. Customizing the __init__ is my first thought, but to no use. Is there a way to get around this (for example through hacking of __new__)? –  Jonathan May 26 '11 at 9:44
I don't know exactly how numpy works, but it might be that overriding __new__ will do the trick. –  Thomas K May 26 '11 at 11:32
Yes it is. I found the docs: link Thank you for your input. –  Jonathan May 30 '11 at 9:29

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