Javascript Math trigonomerial methos return wrong results. Try
alert(Math.sin(Math.PI));
it doesn't return 0.
Maybe problem is with javascript decimal number precision. Is there any workoround to get correct results?
Javascript Math trigonomerial methos return wrong results. Try
alert(Math.sin(Math.PI));
it doesn't return 0.
Maybe problem is with javascript decimal number precision. Is there any workoround to get correct results?
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
alert(Math.sin(3.1415926));
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! ......
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
1.2246467991473532e-16
is quite small and rounding it off will convert it to0
. Well, JS'sMath
is not developed for high precision math :-( – OnesimusUnbound Jun 3 '11 at 6:171-Math.pow(Math.cos(Math.PI),2) == 0
) – CAFxX Jun 3 '11 at 6:49sin
to give the right answer. – George Mauer Apr 30 '16 at 17:10