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I want to draw a circe with given curvature k.
I just need to know the y-coordinate for a given x-coordinate. So i.e. z = 1/k + sqrt(1/k^2 - x^2) is what I would normally use. The problem is that my k is allowed to become zero. Which means that my circle becomes a line. For a mathematican thats no problem. But for my computer it is. For example when k is minimum double value, y will be infinity, for k == 0 I receive nan for y.
Are there any ways to get this done?

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did you try checking if k = 0 before doing your computation? –  Pow-Ian Dec 13 '12 at 16:15

2 Answers 2

up vote 1 down vote accepted

You gave the formula

y1 = 1/k + sqrt(1/k^2 - x^2)    // (1)

which describes the upper half of the circle with radius 1/k and center (0, 1/k). Now for small k these values become very large and will eventually be outside of your drawing are.

The lower half of the circle is given by

y2 = 1/k - sqrt(1/k^2 - x^2)    // (2)

For k approaching zero, these values "approach" the line y = 0. But for small values of k, (2) computes the difference of two large numbers. This causes a loss of precision and possible overflow.

But you can rewrite the formula (2) into the equivalent form

y2 = k * x^2 / (1 + sqrt(1 - k^2 * x^2))    // (2a)

Now you can compute the lower half of the circle for small values of k and even for k = 0 without any overflow or precision loss.

For the upper half you always have y1 >= 1/k. So if 1/k is larger than the boundary of your drawing area, you can ignore the upper value. Otherwise you can compute y1 via

y1 = 2/k - y2
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Great, that's exactly what I wanted! I forgot a minus sign in my question (z = -1/k...) to have the line located on x-axis. Since I only need the upper half, I use your (2a) for it: y = -k * x^2 / (1 + sqrt(1 - k^2 * x^2)) // (2b) –  Hebi Dec 14 '12 at 10:08

Given such border cases, I would just test the input parameters to see if one of them applies and use separate logic to just draw a horizontal or vertical line as appropriate if a border case applies.

That is a fairly common approach and computationally quite efficient.

When testing for border cases, test k to ensure that: - k^2 will not overflow the data type in use - k is not so small that 1/k^2 will underflow the data type in use

In either case, use the appropriate border case logic. Thanks @Godeke for pointing that out.

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An important clarification is that your border case tests should not be of the form k == 0 but instead of the form k < minimum where minimum would be a value for which the computation doesn't underflow for the precision used. –  Godeke Dec 13 '12 at 16:39
@Godeke: That's an important point. I'll update the body of the answer to reflect that. –  Eric J. Dec 13 '12 at 16:45

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