How do I get whole and fractional parts from double in JSP/Java ? If the value is 3.25 then I want to get fractional =.25
, whole = 3
How can we do this in Java?
Any pointers is highly appreciated.

Google would help you if you used the right terms to search "get fractional and whole part out from double java" http://www.java2s.com/Code/Java/DataType/Obtainingtheintegerandfractionalparts.htm
Outputs:






Since this 1year old question was kicked up by someone who corrected the question subject, and this question is been tagged with jsp, and nobody here was able to give a JSP targeted answer, here is my JSPtargeted contribution. Use JSTL (just drop jstl1.2.jar in Here's an SSCCE, just copy'n'paste'n'run it.
Output:
That's it. No need to massage it with help of raw Java code. 


As some have pointed out (and I probably should have realized given your example), what you wanted was the integer and fractional parts. To actually want the exponent and mantissa you can convert it into the IEEE 754 representation and extract the bits like this:



The mantissa and exponent of an IEEE double floating point number are the values such that
if the mantissa is of the form 0.101010101_base 2 (ie its most sigificant bit is shifted to be after the binary point) and the exponent is adjusted for bias. Since 1.6, java.lang.Math also provides a direct method to get the unbiased exponent (called getExponent(double)) However, the numbers you're asking for are the integral and fractional parts of the number, which can be obtained using integral = Math.floor(x) fractional = x  Math.floor(x) though you may you want to treat negative numbers differently (floor(3.5) == 4.0), depending why you want the two parts. I'd strongly suggest that you don't call these mantissa and exponent. 


[Edit: The question originally asked how to get the mantissa and exponent.] Where n is the number to get the real mantissa/exponent:
Or, to get the answer you were looking for:
These are not Java exactly but should be easy to convert. 


Main logic you have to first find how many digits are there after the decimal point.



Don't know if this is faster but I'm using



A lot of these answers have horrid rounding errors because they're casting numbers from one type to another. How about:



Since the





