Possible Duplicate:
Is JavaScript’s Math broken?
In Javascript, I cannot figure out why 230/100*100
returns 229.99999999999997
, while 240/100*100
returns 240.
This also applies to 460, 920
and so on...
Is there any solution?
In Javascript, I cannot figure out why This also applies to Is there any solution? 

marked as duplicate by interjay, Anirudh Ramanathan, S.L. Barth, Ocaso Protal, Will Vousden Nov 6 '12 at 13:48This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question. 


In JavaScript all numeric values are stored as IEEE 754 64bit floatingpoint values (also known as There is no fireandforget solution suitable for everyone. If you need an integer then simply round using 


The Issue:
2.3 in binary is the recurring decimal: This recurring decimal, cannot be accurately represented, due to limited precision, we get something like Interestingly, if you chose a division operation like such that it was accurately representable (not a recurring decimal and all digits lying within the maximum significant digits accommodated by the FP standard) in binary, you wouldn't see any such discrepancy. E.g.
Test Conversion: Binary to/from Decimal Dealing with it:Always be wary of precision when checking for equality between floating point values. Rounding up/down to a certain number of significant digits is good practice. 


This problem relates to floating point inaccuracy. See this question for more details: Is JavaScript's Math broken? 


For the same reason that if you were to be forced to stay to a certain precision, and to take every step, you'd give Say the precision you had to keep to was 10 digits. After Now, since we know that the 3s will go on forever, we know that the 9s will go on forever, and so we know that the answer is really 10. But that's not the deal here, the deal is you apply each step as best you can, and then go on to the next. As well as numbers that will result in recurring representations, there could be those that could be represented precisely, but not with the number of digits you are using. Just as 


The division in JavaScript is not integer division, but floating point. 2.3 or 2.4 can't be exactly represented in floating points. The difference is that the closest fp for 2.4 is 2.4000000953, while 2.3 is about 2.2999999523. One can use (x0) converts x to integer, as the '' operator forces the operands to integers. Even in this case 299.9943 is not rounded but truncated. 

