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.
12 Answers
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.
-
7Note 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.– quickbugMar 5, 2015 at 12:00
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1And you can do
-float("inf")
to get minus infinity which is smaller than any other number. Jan 6, 2021 at 11:16
No one seems to have mentioned about the negative infinity explicitly, so I think I should add it.
For negative infinity:
-math.inf
For positive infinity (just for the sake of completeness):
math.inf
I don't know exactly what you are doing, but float("inf")
gives you a float Infinity, which is greater than any other number.
There is an infinity in the NumPy library: from numpy import inf
. To get negative infinity one can simply write -inf
.
-
2How do
float("inf")
,math.inf
, andnp.inf
compare? Which one to use when?– CGFoXMar 30, 2022 at 7:01 -
1The first two are native i.e. require no dependency.
np.inf
requires the Numpy package.float('inf')
is a bit hacky as it involves parsing a string, but on the upside it does not even require an import and the parsing is typically computationally negligible. If you use one of the math packages anyway, though, then just use them. If you happen to use bothmath
andnp
, thennp.inf
is the shortest one. Mar 30, 2022 at 16:33
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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30why don't you add why it is less convenient and why anyone should use it?– NiccolòJul 25, 2014 at 11:59
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5Let's see:
Decimal('Infinity') == float('inf')
returnsTrue
, so it's pretty much the same. Nov 1, 2014 at 18:17 -
10
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6infinity is different even from itself, so your comment didn't make much sense to me, IMHO Jun 29, 2015 at 13:20
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9
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 pointedfloat('int') == float('int')
holds toTrue
. 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/… Sep 1, 2017 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()
-
6If you really have yo use this, at least wrap it in some readable names like:
MIN_INFINITY = None; INFINITY = "inf"; MIN_INFINITY < x < INFINITY
Jan 8, 2015 at 14:41 -
5
Also if you use SymPy you can use sympy.oo
>>> from sympy import oo
>>> oo + 1
oo
>>> oo - oo
nan
etc.
Infinity
1. Using float('inf')
and float('-inf)
positive_infinity = float('inf')
negative_infinity = float('-inf')
2. Using Python’s math module
import math
positive_infinity = math.inf
negative_infinity = -math.inf
3. Integer maxsize
import sys
maxSize = sys.maxsize # 9223372036854775807
minSize = -sys.maxsize # -9223372036854775807
4. Using Python’s decimal module
from decimal import Decimal
positive_infinity = Decimal('Infinity')
negative_infinity = Decimal('-Infinity')
For Positive Infinity
pos_inf_val = float("infinity")
For Negative Infinity
neg_inf_val = float("-infinity")
Representing ∞ in python
float("inf")
or float("INF")
or float("Inf")
or float("inF")
or float("infinity")
or float("Infinity")
creates a float
object holding ∞
You can also represent -∞ in python
float("-inf")
or float("-INF")
or float("-Inf")
or float("-infinity")
creates a float object holding -∞
You can perform arithmetic operations:
infinity = float("inf")
ninfinity = float("-inf")
nan = float("nan")
print(infinity*infinity)#inf
print(ninfinity+infinity)#not a number
print(1/-infinity)#is -0.0
print(nan*nan)# is not a number
print(1/infinity) # is 0.0 since 1/∞ is 0
Output:
$ python3 floating.py
inf
nan
-0.0
nan
0.0
In Summary, there is two kinds definition for Infinity.
For Positive Infinity
posVal1 = math.inf
posVal2 = float("inf")
For Negative Infinity
negVal1 = -math.inf
negVal2 = float("-inf")
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 tomath.inf
without needing to special caseNone
or assume an upper bound9999999
. Similarly, you can use-math.inf
as a starting value for maximisation problems.There should be one-- and preferably only one --obvious way to do it.