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Can any one explain to me why 9999999999999999 is converted to 10000000000000000?

alert(9999999999999999); //10000000000000000


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That number is too large to fit in an integer, so is possibly converted to a double. Floating point numbers are not exact. – John Saunders Nov 17 '12 at 9:51
as @Kos said all javascript numbers are double precision floating point numbers, that means you have only 16 digit of precision, and 9999999999999999 clearly passes that limit – Ravi Nov 17 '12 at 10:05
Related: The highest integer that can be used with 100% precision in javascript is +/- 9007199254740992 (or Math.pow(2,53)): stackoverflow.com/questions/307179/… – David Nov 17 '12 at 10:08
up vote 33 down vote accepted

Javascript doesn't have integers, only 64-bit floats - and you've ran out of floating-point precision.

See similar issue in Java: why is the Double.parseDouble making 9999999999999999 to 10000000000000000?

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  1. JavaScript only has floating point numbers, no integers.

  2. Read What Every Computer Scientist Should Know About Floating-Point Arithmetic.

    Summary: floating point numbers include only limited precision, more than 15 digits (or so) and you'll get rounding.

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9999999999999999 is treated internally in JavaScript as a floating-point number. It cannot be accurately represented in IEEE 754 double precision as it would require 54 bits of precision (the number of bits is log2(9999999999999999) = 53,150849512... and since fractional bits do not exist, the result must be rouned up) while IEEE 754 provides only 53 bits (1 implict bit + 52 explicitly stored bits of the mantissa) - one bit less. Hence the number simply gets rounded.

Since only one bit is lost in this case, even 54-bit numbers are exactly representable, since they nevertheless contain 0 in the bit, which gets lost. Odd 54-bit numbers are rounded to the nearest value that happens to be a doubled even 53-bit number given the default unbiased rounding mode of IEEE 754.

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Odd numbers are not always rounded up. Usual practice is to use banker's rounding, so they get rounded to the nearest multiple of four. A quick test in the Google Chrome console confirms this. – Dietrich Epp Nov 17 '12 at 12:43
I stand corrected. – Hristo Iliev Nov 17 '12 at 14:50
IEEE has several different rounding modes, but by default (which is what JS uses) it rounds halfway-cases towards the closest even binary number. In some circumstances this is a multiple of four, but not always. – Florian Loitsch May 10 '13 at 12:50

Question: Sometimes JavaScript computations seem to yield "inaccurate" results, e.g. 0.362*100 yields 36.199999999999996. How can I avoid this?

Answer: Internally JavaScript stores all numbers in double-precision floating-point format, with a 52-bit mantissa and an 11-bit exponent (the IEEE 754 Standard for storing numeric values). This internal representation of numbers may cause unexpected results like the above. Most integers greater than 253 = 9007199254740992 cannot be represented exactly in this format. Likewise, many decimals/fractions, such as 0.362, cannot be represented exactly, leading to the perceived "inaccuracy" in the above example. To avoid these "inaccurate" results, you might want to round the results to the precision of the data you used.


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