# Python weird addition bug [duplicate]

Possible Duplicate:
python - decimal place issues with floats
Python float equality weirdness

In the code below I have the variable `percentage` which is a float. I have it set up so that the if `number` reaches `10,000`, `percentage` is suppose to go up by `.01`.

``````# Tries to find a number that when squared and 5%'ed is still a square.

import math

print("Script has started:\n")

percentage = .1
number = 1
while number != -1:
number = number + 1
num_powered = number ** 2
num_5per = num_powered * percentage
num_5per_sqrt = math.sqrt(num_5per)
num_list = list(str(num_5per_sqrt))
dot_location = num_list.index(".")
not_zero = 0
for x in num_list[dot_location + 1:]:
if x != "0":
not_zero = 1
break
if not_zero == 0:
print("*********************************")
print("Map :",number)
print("Safe-Area :",num_5per_sqrt)
print("Percentage :",percentage)
print("*********************************")
input()

if number > 10000:
number = 0
percentage = percentage + .01
print(percentage)
``````

Output:

``````0.11
0.12
0.13
0.14
0.15000000000000002  # Here is where it goes crazy
0.16000000000000003
``````
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## marked as duplicate by Chinmay Kanchi, phihag, Steven Rumbalski, Pascal Cuoq, Donal FellowsAug 9 '12 at 12:54

This is incredibly common. Floating point numbers in the computer are base 2, and they can't precisely represent many numbers that are natural in base 10. – Mark Ransom Aug 8 '12 at 20:59
This is NOT a bug. It is a consequence of how floating point variables work. See docs.oracle.com/cd/E19957-01/806-3568/ncg_goldberg.html . Voting to close as duplicate. – Chinmay Kanchi Aug 8 '12 at 20:59
oh I see thanks then sorry googled but didn't see duplicate. – RandomPhobia Aug 8 '12 at 21:01
This misunderstanding is so common it is actually mentioned not only in the stackoverflow wiki on floating-point, but also Wikipedia. – phihag Aug 8 '12 at 21:02

From the Python docs

Note that this is in the very nature of binary floating-point: this is not a bug in Python, and it is not a bug in your code either (emphasis mine). You’ll see the same kind of thing in all languages that support your hardware’s floating-point arithmetic (although some languages may not display the difference by default, or in all output modes)

You should probably use the `decimal` module.

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That link is an incredibly nice explanation of the phenomenon, I'd never seen it before. I suggest anybody still confused should read it in its entirety. – Mark Ransom Aug 8 '12 at 21:05

You are using floating point numbers and have experienced a representation error. In particular, 0.01 has no exact representation as a binary floating point number. Instead a number very close to, but not exactly equal to 0.01 will be stored. This is not a bug. This is just the way floating point arithmetic works.

You can solve your problem in a few ways.

• Accept that the results are not completely accurate or
• Multiply everything by 100 and working with integers or
• Use the `Decimal` type.

Example:

``````from decimal import Decimal
percentage = Decimal('0.1')
step = Decimal('0.01')
percentage += step
``````
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+1 for the listing of common ways of addressing this issue. – Steven Rumbalski Aug 8 '12 at 21:20

Floats do not have infinite precision, and so you get weird behaviour like this.

A better solution would be to store your percentage as an integer, representing tenths of a percent and increment by one.

e.g.:

``````percent_as_integer += 1
``````

``````percent_as_float += 0.01
``````

When you want to display the percentage, simply do:

``````print "%d.%02d" % divmod(percent_as_integer, 100)
``````

EDIT: Actually, using the decimal module instead as was suggested in another answer is probably a better, more pythonic solution.

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As described in other answers, this is a limitation of native floating point numbers in all current microprocessors.

If you need exact representation of decimal numbers (ex. for accounting and business application) you should use decimal type, not floating point. You may also use cdecimal module, which is high performance implementation of the decimal type.

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