How can I represent an infinite number in python? No matter which number you enter in the program, no number should be greater than this representation of infinity.

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  • 34
    math.inf is useful as an initial value in optimisation problems, because it works correctly with min, eg. min(5, math.inf) == 5. For example, in shortest path algorithms, you can set unknown distances to math.inf without needing to special case None or assume an upper bound 9999999. Similarly, you can use -math.inf as a starting value for maximisation problems. – Colonel Panic Oct 12 '16 at 10:59
  • In most cases, an alternative to using math.inf in optimization problems is to start with the first value. – Tobias Bergkvist May 30 at 7:26

In Python, you can do:

test = float("inf")

In Python 3.5, you can do:

import math
test = math.inf

And then:

test > 1
test > 10000
test > x

Will always be true. Unless of course, as pointed out, x is also infinity or "nan" ("not a number").

Additionally (Python 2.x ONLY), in a comparison to Ellipsis, float(inf) is lesser, e.g:

float('inf') < Ellipsis

would return true.

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  • 16
    And if x is also inf that won't be true. – Maxim Egorushkin Oct 15 '11 at 23:11
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    Note that infinity is defined in the norm IEEE 754-1985 (en.wikipedia.org/wiki/IEEE_754-1985), which Any modern language will rely on. Another point is that, according to this norm, infinity must (obviously) be a floating-point number. This might explain why Python have chosen this akward syntax. – quickbug Mar 5 '15 at 12:00
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    It also won't be true if x is the built in Ellipsis, which compares greater than everything, including infinity. float("inf") < Ellipsis returns True – Singletoned Aug 5 '15 at 8:27
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    Not sure about the last one, math.inf < ... or float('inf') > Ellipsis throws a TypeError: unorderable types: float() < ellipsis(), at least for me. – Peter Goldsborough Oct 6 '15 at 19:34
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    I'm on 3.5. Probably a 2.x/3.x thing. – Peter Goldsborough Oct 7 '15 at 22:49

Since Python 3.5 you can use math.inf:

>>> import math
>>> math.inf
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No one seems to have mentioned about the negative infinity explicitly, so I think I should add it.

For positive infinity (just for the sake of completeness):


For negative infinity:

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I don't know exactly what you are doing, but float("inf") gives you a float Infinity, which is greater than any other number.

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There is an infinity in the NumPy library: from numpy import inf. To get negative infinity one can simply write -inf.

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Another, less convenient, way to do it is to use Decimal class:

from decimal import Decimal
pos_inf = Decimal('Infinity')
neg_inf = Decimal('-Infinity')
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  • 24
    why don't you add why it is less convenient and why anyone should use it? – Niccolò Jul 25 '14 at 11:59
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    Let's see: Decimal('Infinity') == float('inf') returns True, so it's pretty much the same. – Denis Malinovsky Nov 1 '14 at 18:17
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    @afzal_SH float('inf') is float('inf') returns False too – nemesisdesign Jun 27 '15 at 16:24
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    infinity is different even from itself, so your comment didn't make much sense to me, IMHO – nemesisdesign Jun 29 '15 at 13:20
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    float('inf') is float('inf') -> False, just holds that they are different objects with different instances, but not that the internal contents are different -- actually as @nemesisdesign pointed float('int') == float('int') holds to True. This is the same problem like comparing mutable objects like [1,2,3] is [1,2,3] and [1,2,3] == [1,2,3], which are, in order, False and True.. More info see: stackoverflow.com/questions/2988017/… – Manoel Vilela Sep 1 '17 at 10:51

In python2.x there was a dirty hack that served this purpose (NEVER use it unless absolutely necessary):

None < any integer < any string

Thus the check i < '' holds True for any integer i.

It has been reasonably deprecated in python3. Now such comparisons end up with

TypeError: unorderable types: str() < int()
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  • 5
    If you really have yo use this, at least wrap it in some readable names like: MIN_INFINITY = None; INFINITY = "inf"; MIN_INFINITY < x < INFINITY – Ali Rasim Kocal Jan 8 '15 at 14:41
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    But you don't have to use this. – Joost Aug 18 '15 at 12:26

Also if you use SymPy you can use sympy.oo

>>> from sympy import oo
>>> oo + 1
>>> oo - oo


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