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I am writing a function to extract decimals from a number. Ignore the exception and its syntax, I am working on 2.5.2 (default Leopard version). My function does not yet handle 0's. My issue is, the function produces random errors with certain numbers, and I don't understand the reason. I will post an error readout after the code.


def extractDecimals(num):
	    if(num > int(num)):
	    	decimals = num - int(num)
	    	while(decimals > int(decimals)):
	    		print 'decimal: ' + str(decimals)
	    		print 'int: ' + str(int(decimals))
	    		decimals *= 10
	    	decimals = int(decimals)
	    	return decimals
	    	raise DecimalError(num)
    except DecimalError, e:

Exception Class:

class DecimalError(Exception):
    def __init__(self, value):
    	self.value = value

    def printErrorMessage(self):
    	print 'The number, ' + str(self.value) + ', is not a decimal.'

Here is error output when I input the number 1.988:
decimal: 0.988
int: 0
decimal: 9.88
int: 9
decimal: 98.8
int: 98
decimal: 988.0
int: 987
decimal: 9880.0
int: 9879
decimal: 98800.0
int: 98799
decimal: 988000.0
int: 987999
decimal: 9880000.0
int: 9879999
decimal: 98800000.0
int: 98799999
decimal: 988000000.0
int: 987999999
decimal: 9880000000.0
int: 9879999999
decimal: 98800000000.0
int: 98799999999
decimal: 988000000000.0
int: 987999999999
decimal: 9.88e+12
int: 9879999999999
decimal: 9.88e+13
int: 98799999999999
decimal: 9.88e+14
int: 987999999999999

I do not know why this error is popping up. Hopefully you guys can help me out.

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5 Answers 5

up vote 5 down vote accepted

The problem is that (binary) floating point numbers aren't precisely representable as decimals. See http://stackoverflow.com/questions/1089018/why-cant-decimal-numbers-be-represented-exactly-in-binary for more information.

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Thanks for all of the help, everyone. There are definitely better ways that I could have gone about doing this program, as you guys pointed out, but I am less interested in the result and more interested in what I learn along the way. That's part of the reason why I don't use all of the built in capabilities of Python. Thanks for the answers. –  dbmikus Oct 25 '09 at 16:25

As Ned Batchelder said, not all decimals are exactly representable as floats. A float is represented by a certain number of binary digits which are used to approximate the decimal as closely as possible. You can never assume a float is exactly equal to a decimal.

In [49]: num
Out[49]: 1.988

In [50]: decimals=num - int(num)

In [51]: decimals
Out[51]: 0.98799999999999999

In [52]: print decimals   # Notice that print rounds the result, masking the inaccuracy.

See http://en.wikipedia.org/wiki/Floating%5Fpoint for more info on the binary representation of floats.

There are other ways to achieve you goal. Here is one way, using string operations:

def extractDecimals(num):
        return int(numstr[numstr.find('.')+1:])
    except ValueError, e:
        print 'The number, %s is not a decimal.'%num
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As others have already pointed out, the issue you are seeing is due to the inexact representation of floating point numbers

Try your program with Python's Decimal

from decimal import Decimal
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As has already been said, floating point numbers are not exactly equal to decimals. You can see this by using the modulus operator like so:

>>> 0.988 % 1
>>> 9.88 % 1
>>> 98.8 % 1

This gives the remainder of division by 1, or the decimal.

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As others have said in their answers, arithmetic with floats doesn't always result in what you expect due to rounding errors. In this case, perhaps converting the float into a string and back is better?

In [1]: num = 1.988

In [2]: num_str = str(num)

In [3]: decimal = num_str.split('.')[1]

In [4]: decimal = int(decimal)

In [5]: decimal
Out[5]: 988
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