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I'm curious about infinite numbers in computing, in particular pi.

For a computer to render a circle it would have to understand pi. But how can it if it is infinite?

Am I looking too much into this? Would it just use a rounded value?

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Actually, it wouldn't use the value of Pi to draw circles at all. The equation describing a circle is x^2 + y^2 = R^2 - no mention of Pi, as you can see. For more details on how this is efficiently implemented, see – Pavel Minaev Jul 27 '09 at 22:10
By the way, pi isn't infinite. The proper word is "non-terminating" (I think). – David Z Jul 27 '09 at 22:10
The word you want is transcendental. Meditate on that. – David Plumpton Jul 27 '09 at 22:16
So my set of compasses understand Pi? and my string with a pencil at one end and a nail at the other understand Pi? Pi is just the ratio of the circumference of a circle to its diameter. You don't need to know anything about Pi to draw a circle. – Frozenskys Jul 27 '09 at 22:20
Actually, I was wrong to say "continued fraction" above, as a continued fraction is something else altogether. I think that "continued decimal number" is the correct term. I am not sure what the correct term is when applied to binary though. – RBarryYoung Jul 28 '09 at 14:33

10 Answers 10

up vote 15 down vote accepted

Mathematically, computers are both finite and non-continuous and therefore can neither know PI completely, nor correctly render a circle.

However, in the digital realm neither of these exist anyway, so it is sufficient to approximate PI and then use that to approximately render the circle, resulting in exactly the same pixels that would have been calculated from an exact PI anyway.

Either way, the resulting pixels aren't really a circle either, because they are a finite collection of digital points and a circle is a curve made up of an infinite number of points, most with irrational values.

(It has been pointed out to me that PI is not normally used to plot a circle, which is true, however, the methods used to plot a circle are related to the formulas used to express and/or calculate the value of PI, which still have the same issues).

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I'd be curious to know why the random downvote is for? If there's something wrong with my answer, please tell me. But AFAIK, it is precisely correct, both mathematically and wrt computation theory. – RBarryYoung Jul 27 '09 at 22:27
+1 Logic works where math fails. – WolfmanDragon Jul 27 '09 at 22:40
Indeed, this is a perfectly good high-level explanation. What makes it so good is that it doesn't just apply to circles, but is effectively universal. – Pavel Minaev Jul 27 '09 at 23:12
Humans are both finite and non-continuous... – Will Bickford Sep 30 '09 at 17:32
@WolfmanDragon Math is logic – Seth Oct 1 '09 at 19:21

An approximation is generally sufficient. To "render" a circle, the computer only needs to understand pi well enough to render accurately at whatever resolution (finite) is required.

Edit: as others have pointed out, you don't even need pi to render a circle. Still, the gist of the question was "how do computers deal with numbers like pi?" They use approximations, and whoever is using those approximations must decide whether they are precise enough for the given purpose.

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To render a circle, you usually don't use pi at all. – Nosredna Jul 27 '09 at 22:42

You don't need PI at all to draw a circle. There are many ways to draw a circle. The naive way is with sine and cosine.

The algorithm I saw most often on 8-bit machines was Bresenham's circle. You don't even need floating point math for that.

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Sin() & Cos() are both typically calculated using PI, or with e or from tables of values that were themselves calculated using one or the other of these. Yes, there are ways around it, but the most straight-forward methods do typically use PI. – RBarryYoung Jul 27 '09 at 23:20
Sine and cosine are related to e, pi, and imaginary numbers, but I disagree that it's typical that they are calculated from any of those, or from tables representing those. I'd say it's typical for Sine and Cosine to be calculated by a series expansion that converges quickly. But the C language doesn't say how they should be calculated. You can find Taylor expansions that calculate the circular functions without any reference to pi or e. Although, as I said, all these entities are inter-related. – Nosredna Jul 28 '09 at 1:28
My apologies, you are correct Nosredna. In my dotage, I seem to have forgotten how Taylor series, et al, are constructed. – RBarryYoung Jul 28 '09 at 14:25
No apology needed! – Nosredna Jul 28 '09 at 14:57

Programming languages use a rounded constant for pi and similar "infinite" numbers.

In order to get higher precision you use iterative algorithms that are looped for as long as is required.

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And this - not the drawing of circles - was the essence of the question. – Stuart Grimshaw Aug 8 '14 at 20:57

Computers just use a good approximation of pi.

From MSDN's article on System.Math.PI

The value of this field is 3.14159265358979323846.

BTW: PI is NOT infinite. It is irrational, meaning that it has an infinite number of non-repeating decimal places. There are several expressions for PI that are very short. (see the Wikipedia page for more details)

Here is a wonderfully short expression for PI:

PI as Integral

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PI does NOT have repeating decimal patterns as it is transcendental, which means that not only is it irrational (cannot be expressed as a fraction of two integers) it is also not algebraic (it isn't the solution to any rational polynomial equation). – spatz Jul 27 '09 at 22:27
Not repeating. It has an infinite number of nonzero decimal digits, but they don't repeat. (See the comments to the question for the debate about what this is actually called) – David Z Jul 27 '09 at 22:28
doh! writing "repeating" was a total typo. Fixed now as "non-repeating". – abelenky Jul 27 '09 at 22:30

Somewhere I saw a proof that to draw a circle around the universe to millimetre accuracy, you'd need less than 100 digits of pi, in other words, far fewer digits than have been calculated by people with too much time on their hands (or too much computing power...). Now, if only I could find that proof... (edit) found it

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Yeah, but what if you wanted to antialias it? – Nosredna Jul 28 '09 at 1:29

I believe it rounds it to a very small number, and is most likely a constant. If you use PHP, this is how PI renders:

echo pi(); // 3.1415926535898
echo M_PI; // 3.1415926535898

Just like you only need 3.14159 in High School, computers only need so much to get it fairly accurate.

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17 decimal digits is about all you can represent. – S.Lott Jul 27 '09 at 22:15

An approximation is often "good enough", whether you get it using a method from this site or another one.

"Rendering" is another matter. When you have a finite screen resolution, a perfect value of π doesn't matter as much.

UPDATE: Calculation might be another matter, different from rendering. Some applications might require greater precision than the standard double gives. It depends on the problem.

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Computers just use rounded values of pi, unless of course there is a special case such as scientific computing. For example, in python pi is represented as:

>>> import math
>>> math.pi

You can test this out for yourself in IDLE, pythons interactive interpreter.

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Interesting: C# reports the value as 3.14159265358979323846. Note the digits: 97931 vs. 97932 That looks like something more than a rounding error to me. – abelenky Jul 27 '09 at 22:20
Only about 17 of the digits are meaningful. The last digit is little more than noise coming back from the platform's binary-to-decimal conversion algorithm. – S.Lott Jul 27 '09 at 22:32

Pi is not infinite it is irrational, what mean that you can not express it as quotient. It has infinite number of digits.π_is_irrational

About computing find some informations here.π

Nice page is also this

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