# Python get least significant digits from a float (without using string operations)

Assuming I have the float 12345.6789 and I want to get the six least significant digits (i.e. 45.6789) as an int (i.e. 456789) using bit operations in python (v. 2.6).

How do I do that?

Thanks

PS I do not want to use string operations even if it would be rather easy to: for any float f:

``````int(str(int(f * 1000))[-10:])
``````

EDIT: This original question is pointless, as shown by comments within. Many apologies... instead methods on getting the least significant digits without using strings are shown below (using ints and modulus)

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"""I do not want to use string operations""" - why not? is this homework or do you have enough time for finding solutions other than the most obvious solutions? –  Andreas Jung Apr 12 '11 at 11:56
bit operations? seriously? –  John La Rooy Apr 12 '11 at 11:59
What would be the 6 least significant digits of `1/11=0.09090909...`? –  Ishtar Apr 12 '11 at 12:00
In that case since `12345.6789` is represented as `12345.678900000001` shouldn't the answer be `1`? –  John La Rooy Apr 12 '11 at 12:04
@RestRisiko - I am 32 years old. No this is not "homework" - I am just looking for a more elegant solution then the 3 way conversion, truncation one I displayed above. –  MalteseUnderdog Apr 12 '11 at 12:05

``````>>> a = 12345.6789
>>> b = int(a*10000)
>>> b
123456789
>>> c = b % 1000000
>>> c
456789
``````

But - WHY??

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This is not using "bit operations", but they make even less sense in this context. –  Tim Pietzcker Apr 12 '11 at 12:02
Just a question: Is this more efficient in terms of speed then the string truncation solution? –  MalteseUnderdog Apr 12 '11 at 12:21
@MalteseUnderdog yes, by a factor of 50. But it's unlikely to matter unless you're doing millions of these conversions. –  Lauritz V. Thaulow Apr 12 '11 at 12:53

Relevant for your string solution is that the float display algorithm changed in python 2.7:

``````Python 2.6.6 (r266:84292, Sep 15 2010, 15:52:39)
>>> 12345.6789
12345.678900000001

Python 2.7.0+ (r27:82500, Sep 15 2010, 18:04:55)
>>> 12345.6789
12345.6789
``````

Whether you use one or the other, there's a problem knowing what, exactly, is the precision of a floating point number. Say your algorithm is given the float 1.23. What's the precision? Maybe it was stored as 1.230, but it just happened to end with a zero digit. So you must know how many digits after the period you wish to preserve.

Also, bit operations do not work on floats:

``````>>> 12345.6789 << 4
Traceback (most recent call last):
File "<stdin>", line 1, in <module>
TypeError: unsupported operand type(s) for <<: 'float' and 'int'
``````

So you must multiply the float by your known precision and use modulo (%), as suggested by other posters.

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``````>>> int(12345.6789*10000)%1000000
456789
``````

but that is not bit operations

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