Javascript Math trigonomerial methos return wrong results. Try


it doesn't return 0.

Maybe problem is with javascript decimal number precision. Is there any workoround to get correct results?

  • Is it acceptable to your side to round off the result? 1.2246467991473532e-16 is quite small and rounding it off will convert it to 0. Well, JS's Math is not developed for high precision math :-( – OnesimusUnbound Jun 3 '11 at 6:17
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    possible duplicate of Floating point numbers and JavaScript modulus operator and probably a couple hundred others. – mu is too short Jun 3 '11 at 6:22
  • woes of finite precision... (even though 1-Math.pow(Math.cos(Math.PI),2) == 0) – CAFxX Jun 3 '11 at 6:49
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    Maybe you should read "What Every Computer Scientist Should Know About Floating Point Arithmetic": download.oracle.com/docs/cd/E19957-01/806-3568/… – duffymo Jun 3 '11 at 9:17
  • just noticed this. Just nuts. You would think they could have friggin optimized sin to give the right answer. – George Mauer Apr 30 '16 at 17:10

It's very, very close to zero, though. (~ 10^-16)

And alert(Math.sin(Math.PI/2)) does return 1.

It's just one of things you have to be careful of when dealing with floating point arithmetic. Rounding errors pop up all over the place.


you can use

Math.sin(Math.PI).toFixed(3) // "0.000"


const cos = (a) => Math.cos(Math.PI * a / 180); cos(90) // 6.123233995736766e-17

then you can use .toFixed()

cos(90).toFixed(3) // "0.000"


.toFixed() returns string, so you can parse it to float using parseFloat()

parseFloat(cos(90).toFixed(3)) // 0.000


Well, I suppose that's because Math.PI is not accurate it's 3.14 not 3.1415926. Try to


If that's still not enough you may try to use expansion in Taylor series

sin x = x - x^3 / 3! + x^5 / 5! - x^7 / 7! ......
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    I know this answer is almost 2 years old, but which JS implementation has (or had) Math.PI accurate to only two decimal places? Also, the Taylor series "solution" doesn't make any sense because if the problem is the accuracy of π (i.e. x) what would it help to use an approximation of the sin function? – JJJ Apr 6 '13 at 7:30

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