I have the following unexpected behaviour

import numpy as np
class Test:
    def __radd__(self, other):
        print(f'value: {other}')

[1,2,3] + Test()
# prints: value: [1,2,3]
np.array([1,2,3]) + Test()
# prints
# value: 1
# value: 2
# value: 3

I would expect the second addition to behave in the same way as the first one, but it doesn't. The only logical explanation I can see is that the numpy + operator somehow iterates over the arguments first, and tries to add each one of them to Test(), and the second addition (int + Test) falls back to the Test.__radd__


  • is there any other explanation that I'm missing?
  • if not, how does a + b work in numpy
  • is it equivalent to np.add(a, b)?
  • I believe that your explanation is correct.
    – Ma0
    May 14 '18 at 13:52
  • The only way to have the right side's __radd__() be used in preference to the left side's __add__() (in cases where that is actually implemented) is to have the right side be a subclass of the left side. However, I'm not sure whether numpy arrays can be subclassed - a quick test produced some weird results I can't explain. May 14 '18 at 14:11
  • @jasonharper: They can be subclassed, but it's too much work and defeats the purpose of radd. Thanks though. See docs.scipy.org/doc/numpy-1.14.0/user/basics.subclassing.html if you're interested
    – blue_note
    May 14 '18 at 14:17
  • There are 2 issues: 1) how + is translated into calls to __add__ or __radd__ (and for which class), 2) what ndarray does when it 'has control'. Here it appears that a+Test() is roughly equivalent to np.array([Test().__radd__(x) for x in a]) when a is a 1d ndarray.
    – hpaulj
    May 14 '18 at 16:01
  • @hpaulj: I think it translates to [x + Test() for x in a]. Then, because x is an integer, it's out of numpy's control, and python falls back to Test.__radd__
    – blue_note
    May 14 '18 at 16:03

This is because of NumPy 'broadcasting'.

Your explanation is pretty much correct as you can see in the docs for np.add.


Equivalent to x1 + x2 in terms of array broadcasting.

I find this makes a little more sense if you play around with NumPy and see how np.array differs from the built-in list.

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In [1]: import numpy as np

In [2]: [1, 2, 3] + [1, 2, 3]
Out[2]: [1, 2, 3, 1, 2, 3]

In [3]: np.array([1, 2, 3]) + np.array([1, 2, 3])
Out[3]: array([2, 4, 6])

Looking at the sourcecode here for the NDArrayOperatorsMixin which implements the special methods for almost all of Python's builtin operators defined in the `operator` module. It looks like __add__, __radd__, __iadd__ are all set to the .add umath function. But I'm not sure if the actual ndarray makes use of the mix-in, I think you'd have to dig through the C code to figure out how that's handled.

  • It may be equivalent in terms of broadcasting, but the question is whether it is actually equivalent (eg. they are aliases for the same functionality). Also, broadcasting has no part in my case, my object is neither iterable, nor has any shape attribute
    – blue_note
    May 14 '18 at 13:57
  • 1
    @blue_note np.array([1, 2, 3]) + 5 works just as well (see Nathan's answer). numpy converts your Test() to something like np.array([Test(), Test(), Test()]) internally
    – Ma0
    May 14 '18 at 13:59
  • @blue_note ah, apologies - I misunderstood. I'll try to find the right part of the source code to answer your question, if I don't spot it I'll delete this answer, sorry! May 14 '18 at 14:03
  • @AaronCritchley: don't delete it. I upvoted it, turns out it seems to be at the right direction
    – blue_note
    May 14 '18 at 14:13
  • @blue_note, tried to expand a little, hopefully that's somewhat helpful for you, I think the majority of the core functionality is written in C / Cython though so a little harder than usual to dig through than pure python :( May 14 '18 at 14:28

If I expand your class a bit we may get more of an idea of when __add__ is used, and when __radd__:

class Test:
    def __radd__(self, other):
        print(f'r value: {other}, {type(other)}')
        return f'{other}'
    def __add__(self, other):
        print(f'a value: {other}, {type(other)}')
        return other+3

With a list

In [285]: [1,2,3]+Test()
r value: [1, 2, 3], <class 'list'>    # use Test.__radd__
Out[285]: '[1, 2, 3]'
In [286]: Test()+[1,2,3]             # tries to use Test.__add__
a value: [1, 2, 3], <class 'list'>
<ipython-input-280-cd3f564be47a> in __add__(self, other)
      5     def __add__(self, other):
      6         print(f'a value: {other}, {type(other)}')
----> 7         return other+3
TypeError: can only concatenate list (not "int") to list

With an array:

In [287]: np.arange(3)+Test()     # use Test.__radd__ with each array element
r value: 0, <class 'int'>
r value: 1, <class 'int'>
r value: 2, <class 'int'>
Out[287]: array(['0', '1', '2'], dtype=object)
In [288]: Test()+np.arange(3)
a value: [0 1 2], <class 'numpy.ndarray'>
Out[288]: array([3, 4, 5])    # use Test.__add__ on whole array

With itself, a double use of Test.__add__:

In [289]: Test()+Test()
a value: <__main__.Test object at 0x7fc33a5a7a20>, <class '__main__.Test'>
a value: 3, <class 'int'>
Out[289]: 6

As I commented it can be tricky sorting out the __add__ v __radd__ delegation, and separating that from ndarray action.

add with Test() second gives the same output as [287]:

In [295]: np.add(np.arange(3),Test())
r value: 0, <class 'int'>
r value: 1, <class 'int'>
r value: 2, <class 'int'>
Out[295]: array(['0', '1', '2'], dtype=object)

np.add with Test() first is different from [288] above:

In [296]: np.add(Test(),np.arange(3))
a value: 0, <class 'int'>
a value: 1, <class 'int'>
a value: 2, <class 'int'>
Out[296]: array([3, 4, 5], dtype=object)

Your intuition is correct. Numpy adds each element. You can see this behavior with primitives as well:

np.array([1,2,3]) + 1  # [2,3,4]

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