# tan 45 gives me 0.9999

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?

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Round-off error probably. But it should be rounding to 1 anyways if it's only displaying 4 digits. – Mysticial Dec 8 '12 at 7:39
Python gives me `0.99999999999999989`, regardless of the number of digits I feed into it. It's probably floating point and approximation error. – Blender Dec 8 '12 at 7:42
Did you leave out any digits? – Thorbjørn Ravn Andersen Dec 8 '12 at 8:37
If this is an issue for you, more likely than not, you're probably solving the wrong problem. That, or your problem is bigger than you think. – andand Dec 8 '12 at 15:52

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

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what's the solution then? – siaooo Dec 8 '12 at 7:46
@siaooo Round to the relevant number of decimal places you need, for `tan(45)` it will round up to 1. – Scott Chamberlain Dec 8 '12 at 7:48
@ScottChamberlain ok thanks – siaooo Dec 8 '12 at 7:50
I agree, rounding off is the best you can do. If you are inclined to go to a little more technical detail, (cutting a long story short) conversion of analog data to digital will lead to information loss (due to a process called `quantization`). That loss cannot be recovered. – Masked Man Dec 8 '12 at 7:52
@ScottChamberlain: That's not a good idea if you do any calculations with the number afterward. Rounding introduces error. You don't want to introduce any more error than you have to. – tmyklebu Dec 8 '12 at 15:45

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`.

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Yes! A sound answer! Does Java specify correctly rounded transcendental functions? – Pascal Cuoq Dec 8 '12 at 21:54
@PascalCuoq: Java doesn't ask for correct rounding. It specifies (looking at the API documentation, which I think is canonical) that answers must be within 1 ulp of the correct result and that, unless a pole of tan is berween `x` and `y`, `Math.tan(x) - Math.tan(y)` does not have the opposite sign as tan(x)-tan(y). – tmyklebu Dec 8 '12 at 22:13
A quick Google search took me back to the classic cs.berkeley.edu/~wkahan/LOG10HAF.TXT . Worth a re-read. – Pascal Cuoq Dec 8 '12 at 22:21

Use this

``````double radians = Math.toRadians(45.0);

System.out.format("The tangent of 45.0 degrees is %.4f%n", Math.tan(radians));
``````
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-1 This answer fails to understand that floating point arithmetic is the issue. Converting radians to degrees is not. – user85109 Dec 8 '12 at 10:09
@woodchips I do not think this answer is claiming that converting radians to degrees is the issue. However, I do think that converting radians to degrees is the issue to some extent: if we had standardized on correctly rounded transcendental functions (we haven't), then if we had a tangent function that accepts degrees (we haven't), then the result of this function applied to 45 would be 1. However correctly rounded the radian tangent function we have, we are not applying it to π/4, but to the nearest `double`, and therefore we can hardly expect to get 1 in return. – Pascal Cuoq Dec 8 '12 at 21:48
@woodchips Besides, this answer is truncating decimals at the time of converting to decimal for output. That still puts it one head above the “truncate binary floating-point numbers to a fixed number of decimals” crowd that you can see some much of in questions, and answers, on StackOverflow. – Pascal Cuoq Dec 8 '12 at 21:51
@PascalCuoq - Anyway, the question HAS employed Math.toRadians(45), even though it also shows the explicit (truncated) value 0.7853981633974483, and it has done so since before your comments or mine. So your comment is not relevant, nor is this answer. – user85109 Dec 9 '12 at 11:50
@woodchips Well, this answer offers a relevant palliative (use the `%.4f` format) and avoids a common mistake (trying to round a `double` to 4 significant decimal digits and store the rounded result as a double). Overall quite relevant, I would say. I am not the right person to discuss the relevance of my comment, of course. – Pascal Cuoq Dec 9 '12 at 12:34

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.

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It's because you're taking the tangent of the closest double to pi/4. `tan` in the math library is correctly rounded. The point of floating-point calculations is that they go fast and they do give you accurate results if you pay attention to what you're doing. – tmyklebu Dec 8 '12 at 15:44