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After looking at the various math, float, and decimal functions in Python, I haven't found what I'm looking for. In my program, there may be instances when it will return a float and I need the float information so that I can do another function. Let's say based on the user's input the quotient we're working with is 1.4, which I will represent as X.Y. How do I isolate Y so that I can use a FOR statement. (I need the program to do something 4 times in this case.) I've tried playing with the % function, but that returns the remainder, not the value I'm looking for. I've tried math.fmod and math.modf. Again not what I'm looking for. I looked at this example too.

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I your case, do you know the amount of digits after the decimal points? – BasicWolf Aug 4 '12 at 19:51
What input validations is the quotient subject to? If the user enters 8.675309 will the loop run 675309 times? – JosefAssad Aug 4 '12 at 20:05
@JosefAssad - +1 to your comment for your example value. – Graeme Perrow Aug 4 '12 at 20:24
I have the values rounded to the tenth. So, when a float is returned, I will instruct something to happen 4 times. – Steve Edwards Aug 4 '12 at 21:08
up vote 7 down vote accepted

Looks like int((x*10) % 10) will do it:

>>> x = 1.4
>>> int((x*10) % 10)
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Assuming x is always an exact tenth---i.e., a number of the form n / 10.0 for some integer n, it would be somewhat safer to do int(round(x * 10) % 10). Otherwise you risk getting the wrong answer when x * 10 is just a smidgen too small as a result of floating-point inaccuracies. [As it happens, it turns out that with IEEE 754 arithmetic and round-half-to-even, (n / 10.0) * 10.0 == n for any exactly representable integer n, but that's something of an accident. It doesn't remain true if you replace 10.0 with 100.0, for example.] – Mark Dickinson Aug 6 '12 at 20:14
"any exactly representable integer n". Bah. That should say "Any sufficiently small exactly representable integer n." :-) – Mark Dickinson Aug 6 '12 at 20:26
... which is to say, any n not larger than 5 * 2**50. Okay, I'll shut up now. – Mark Dickinson Aug 6 '12 at 20:36

How about

x = 1.4
y = 10 * (x - int(x))
>>> 4
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or you could do it as string manipulation

whole,fractional = map(int,str(x).split("."))

afterwards whole is equal to 1 and fractional is equal to 4... and it should work equally well with negative numbers

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