Why does tan 45
(0.7853981633974483 in radian) give me 0.9999
? What's wrong with the following code?
System.out.println(Math.tan(Math.toRadians(45.0)) );
I don't think there's any typo in here.
So what's the solution here?
Why does tan 45
(0.7853981633974483 in radian) give me 0.9999
? What's wrong with the following code?
System.out.println(Math.tan(Math.toRadians(45.0)) );
I don't think there's any typo in here.
So what's the solution here?
Floating point calculations will often lead to such inaccuracies. The problem is that numbers cannot be accurately represented within a fixed number of bits.
To give you another example (in decimal), we all agree that 3 * (1/3) = 1
. However, if your calculator only has 4 decimal places, 1/3
would be represented as 0.3333
. When that's multiplied with 3
, you would get 0.9999
not 1
.
As further information, floating points on most systems are usually represented using the IEEE754 standard. You could search for it, or refer the Wikipedia page for more details. IEEE floating point
The closest double
to pi/4
is exactly 0x1.921fb54442d18p-1
. The tangent of this double, to more bits than you need, is 0x1.fffffffffffff72cece67p-1
. Rounding to the nearest double
gives you exactly 0x1.fffffffffffffp-1
because 0x1.fffffffffffff72cece67p-1
is less than 0x1.fffffffffffff8p-1
.
Use this
double radians = Math.toRadians(45.0);
System.out.format("The tangent of 45.0 degrees is %.4f%n", Math.tan(radians));
That's probably because tan(45)
is 1, and the rest is a rounding error. Floating point calculations are highly unlikely to give you accurate results, due to how floating point calculations work.