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def f(x):
    return x
def g(x):
    return x

x_var = np.arange(5,dtype=np.double)
print x_var
print x_var

[ 0.  1.  2.  3.  4.]
[ 0.   0.2  0.4  0.6  0.8]

This behavior is a little bit strange to me, I always thought x/=5. was equivalent to x=x/5. . But clearly the g(x) function does not create a new reference with /= operation. Could anyone offer an explanation for this?

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up vote 5 down vote accepted

I always thought x/=5. was equivalent to x=x/5

It is, unless the class overrides the __idiv__ operator, like numpy.ndarray does. numpy.ndarray overrides it to modify the array in-place, which is good because it avoids creating a new copy of the array, when copying is not required. As you can guess, it also overrides the rest of the __i*__ operators.

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Thanks for the explanation, I couldn't find the documentation which would lead me to expect this behavior. – bluecat Apr 9 '13 at 16:44
This is not a numpy problem, it is a passing objects by reference problem. The default implementation of all __i*__ is to do the operation in place if possible, read the docs. You will have the same problem passing a Python list to a function that did def f(a): a *= 3; return a, it would modify the original object you called it with, not simply return a modified copy. – Jaime Apr 9 '13 at 16:52
Thanks, this was the documentation reference I was looking for. So it should perform the operation in-place if possible. If the i* is not available it will default to the normal * operation. – bluecat Apr 9 '13 at 17:03

Python's in-place operators allow the operation to modify the object on the left side of the equation rather than creating a new one. You'll see the same behavior with lists and other built-in mutable types:

x = []
y = x
x += [1]
print y   # prints [1] because x still refers to the same object as y
x = x + [2]
print x   # prints [1, 2] for obvious reasons
print y   # prints [1] again because x has been rebound to a new list
          # while y still refers to the original one

So this is expected behavior.

When dealing with immutable types, of course, a new object is created, because the existing one can't be modified.

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I always thought x/=5. was equivalent to x=x/5.

It is not. When you do x=x/5., you're in fact performing two separate operations below the hood:

temporary = x/5.
x = temporary

whereas when you're using the /= operator, you're explicitly asking Python to modify your object x in place, without the creation of a temporary object. As mentioned in other answers, the / operator calls the __div__ method of your object (if any), while /= calls its __idiv__ method.

The in-place modification is quite useful if the object you're modifying is large: no need to create an as-large temporary object. However, it can bite you if you're not careful. In particular, it's usually not that great an idea to have a function modify its input parameters without warning...

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