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# Polymorphism feature fails in case of sort() function for python and How do we sort Imaginary numbers in python?

Ideally sort() function is superb example of Polymorphism. In case of sort() function, you can sort almost anything with it.

``````In [27]: b
Out[27]: [3, 4, 5, 6]

In [28]: b = ['a','b',5,6,None]

In [29]: b.sort()

In [30]: b
Out[30]: [None, 5, 6, 'a', 'b']

In [31]: b = ['a','b',23,'c',None,5j]

In [32]: b.sort()
---------------------------------------------------------------------------
TypeError                                 Traceback (most recent call last)
/home/dubizzle/webapps/django/dubizzle/<ipython-input-32-fc40da74ac51> in <module>()
----> 1 b.sort()

TypeError: no ordering relation is defined for complex numbers
``````

but it seems that in case of imaginary numbers sort() function fails. Please note that I am getting this error TypeError: no ordering relation is defined for complex numbers.

So My questions are

1. Where exactly this ordering is defined ? How sort() function works internally ?
2. Is there any purpose for leaving this ordering relation for complex numbers or it just left out similarly as we have no power operator in c language ( A mistake).
3. How do we sort the imaginary (complex) numbers in python basically ? Do we have a pythonic way to do this ?
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The problem here isn't about python. It's about data type. There is no defined way to sort complex numbers. You'll have to pass your sort function to `sorted` using the `key` parameter – Loïc Faure-Lacroix Jul 31 '12 at 6:46
FYI most of these lists can't be sorted in Python 3 -- e.g. `sorted([3, '3'])` raises `TypeError: unorderable types: str() < int()` -- due to the cleanup of comparisons. Most of us consider this a significant improvement. – DSM Jul 31 '12 at 7:09

In mathematical terms, the set of complex numbers cannot be a totally ordered set; defining an order for them requires you to provide a key by which they can be ordered. This depends on what you want: do you want to order them by their real values?

``````b.sort(key=lambda complex_: complex_.real)
``````

By their imaginary values?

``````b.sort(key=lambda complex_: complex_.imag)
``````

By their magnitude?

``````b.sort(key=lambda complex_: sqrt(complex_.real**2 + complex_.imag**2))
``````

However you want to order them, you specify a function to compare elements using the key keyword.

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sqrt isn't needed there... – Loïc Faure-Lacroix Jul 31 '12 at 7:07

You can sort by real part, or imaginary part this way:

``````>>> x = [(1+2j),(2+3j),(2+1j),(7+4j),(2+2j)]
>>> sorted(x, key=lambda x: x.real)
[(1+2j), (2+1j), (2+2j), (2+3j), (7+4j)]
>>> sorted(x, key=lambda x: x.imag)
[(2+1j), (1+2j), (2+2j), (2+3j), (7+4j)]
``````

or:

``````>>> sorted(x, key=lambda x: (x.real, x.imag))
[(1+2j), (2+1j), (2+2j), (2+3j), (7+4j)]
``````

Complex numbers do not have a natural ordering, so you have to specify in what manner you want to sort them.

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