Question

Let's say we have 0.33, we need to output "1/3".
If we have "0.4", we need to output "2/5".

The idea is to make it human-readable to make the user understand "x parts out of y" as a better way of understanding data.

I know that percentages is a good substitute but I was wondering if there was a simple way to do this?

Answer 1

I have found David Eppstein's find rational approximation to given real number C code to be exactly what you are asking for. Its based on the theory of continued fractions and very fast and fairly compact.

I have used versions of this customized for specific numerator and denominator limits.

Answer 2

this is not an "algorithm", just a python solution: http://docs.python.org/library/fractions.html

from fractions import Fraction Fraction('3.1415926535897932').limit_denominator(1000) Fraction(355, 113)

Answer 3

Here are Perl and Javascript versions of the VB code suggested by devinmoore:

Perl:

sub dec2frac {
    my $d = shift;

    my $df  = 1;
    my $top = 1;
    my $bot = 1;

    while ($df != $d) {
      if ($df < $d) {
        $top += 1;
      }
      else {
         $bot += 1;
         $top = int($d * $bot);
      }
      $df = $top / $bot;
   }
   return "$top/$bot";
}

And the almost identical javascript:

function dec2frac(d) {

    var df = 1;
    var top = 1;
    var bot = 1;

    while (df != d) {
        if (df < d) {
            top += 1;
        }
        else {
            bot += 1;
            top = parseInt(d * bot);
        }
        df = top / bot;
    }
    return top + '/' + bot;
}

Answer 4

The Stern-Brocot Tree induces a fairly natural way to approximate real numbers by fractions with simple denominators.

Answer 5

One solution is to just store all numbers as rational numbers in the first place. There are libraries for rational number arithmetic (eg GMP). If using an OO language you may be able to just use a rational number class library to replace your number class.

Finance programs, among others, would use such a solution to be able to make exact calculations and preserve precision that may be lost using a plain float.

Of course it will be a lot slower so it may not be practical for you. Depends on how much calculations you need to do, and how important the precision is for you.

a = rational(1);
b = rational(3);
c = a / b;

print (c.asFraction)  --->  "1/3"
print (c.asFloat) ----> "0.333333"

Answer 6

If the the output is to give a human reader a fast impression of the order of the result, it makes no sense return something like "113/211", so the output should limit itself to using one-digit numbers (and maybe 1/10 and 9/10). If so, you can observe that there are only 27 different fractions.

Since the underlying math for generating the output will never change, a solution could be to simply hard-code a binary search tree, so that the function would perform at most log(27) ~= 4 3/4 comparisons. Here as haXe code:

static function toFrac( f : Float ) : String
{
    // TODO: Extract the sign and whole-number part first if f > 0.0 or f < 1.0.
    return
    if( f < 0.47 )
        if( f < 0.25 )
            if( f < 0.16 )
                if( f < 0.13 )
                    if( f < 0.11 )
                        "1/10";
                    else
                        "1/9";
                else
                    if( f < 0.14 )
                        "1/8";
                    else
                        "1/7";
            else
                if( f < 0.19 )
                    "1/6";
                else
                    if( f < 0.22 )
                        "1/5";
                    else
                        "2/9";
        else
            if( f < 0.38 )
                if( f < 0.29 )
                    "1/4";
                else
                    if( f < 0.31 )
                        "2/7";
                    else
                        "1/3";
            else
                if( f < 0.43 )
                    if( f < 0.40 )
                        "3/8";
                    else
                        "2/5";
                else
                    if( f < 0.44 )
                        "3/7";
                    else
                        "4/9";
    else
        if( f < 0.71 )
            if( f < 0.60 )
                if( f < 0.56 )
                    "1/2";
                else
                    if( f < 0.57 )
                        "5/9";
                    else
                        "4/7";
            else
                if( f < 0.63 )
                    "3/5";
                else
                    if( f < 0.66 )
                        "5/8";
                    else
                        "2/3";
        else
            if( f < 0.80 )
                if( f < 0.74 )
                    "5/7";
                else
                    if(f < 0.78 )
                        "3/4";
                    else
                        "7/9";
            else
                if( f < 0.86 )
                    if( f < 0.83 )
                        "4/5";
                    else
                        "5/6";
                else
                    if( f < 0.88 )
                        "6/7";
                    else
                        if( f < 0.89 )
                            "7/8";
                        else
                            if( f < 0.90 )
                                "8/9";
                            else
                                "9/10";
}

Answer 7

As many people have stated you really can't convert a floating point back to a fraction (unless its extremely exact like .25). Of course you could create some type of look up for a large array of fractions and use some sort of fuzzy logic to produce the result you are looking for. Again this wouldn't be exact though and you would need to define a lower bounds of how large your want the denominator to go.

.32 < x < .34 = 1/3 or something like that.

Answer 8

You can do this in any programming language using the following steps:

1. Multiply and Divide by 10^x where x is the power of 10 required to make sure that the number has no decimal places remaining. Example: Multiply 0.33 by 10^2 = 100 to make it 33 and divide it by the same to get 33/100
2. Reduce the numerator and the denominator of the resulting fraction by factorization, till you can no longer obtain integers from the result.
3. The resulting reduced fraction should be your answer.

Example: 0.2 =0.2 x 10^1/10^1 =2/10 =1/5

So, that can be read as '1 part out of 5'

Answer 9

"Let's say we have 0.33, we need to output "1/3". "

What precision do you expect the "solution" to have? 0.33 is not equal to 1/3. How do you recognize a "good" (easy to read) answer?

No matter what, a possible algorithm could be:

If you expect to find a nearest fraction in a form X/Y where Y is less then 10, then you can loop though all 9 possible Ys, for each Y compute X, and then select the most accurate one.

Answer 10

I have no idea of the actual algorithm, but this pointer http://edoshin.skeletonkey.com/2006/01/fraction_approx.html could be of some help.

Answer 11

You'll have to figure out what level of error you're willing to accept. Not all decimal fractions will reduce to a simple fraction. I'd probably pick an easily-divisible number, like 60, and figure out how many 60ths is closest to the value, then simplify the fraction.

Answer 12

Part of the problem is that so many fractions aren't actually easily construed as fractions. E.g. 0.33 isn't 1/3, it's 33/100. But if you remember your elementary school training, then there is a process of converting decimal values into fractions, however it's unlikely to give you what you want since most of the time decimal numbers aren't stored at 0.33, but 0.329999999999998 or some such.

Do yourself a favor and don't bother with this, but if you need to then you can do the following:

Multiply the original value by 10 until you remove the fractional part. Keep that number, and use it as the divisor. Then do a series of simplifications by looking for common denominators.

So 0.4 would be 4/10. You would then look for common divisors starting with low values, probably prime numbers. Starting with 2, you would see if 2 divides both the numerator and denominator evenly by checking if the floor of division is the same as the division itself.

floor(5/2) = 2
5/2 = 2.5

So 5 does not divide 2 evenly. So then you check the next number, say 3. You do this until you hit at or above the square root of the smaller number.

After you do that then you need

Answer 13

You are going to have two basic problems that will make this hard:

1) Floating point isn't an exact representation which means that if you have a fraction of "x/y" which results in a value of "z", your fraction algorithm may return a result other than "x/y".

2) There are infinity many more irrational numbers than rational. A rational number is one that can be represented as a fraction. Irrational being ones that can not.

However, in a cheap sort of way, since floating point has limit accuracy, then you can always represent it as some form of faction. (I think...)

Answer 14

Here's a link explaining the math behind converting a decimal to a fraction:

http://www.webmath.com/dec2fract.html

And here's an example function for how to actually do it using VB (from www.freevbcode.com/ShowCode.asp?ID=582):

Public Function Dec2Frac(ByVal f As Double) As String

   Dim df As Double
   Dim lUpperPart As Long
   Dim lLowerPart As Long

   lUpperPart = 1
   lLowerPart = 1

   df = lUpperPart / lLowerPart
   While (df <> f)
      If (df < f) Then
         lUpperPart = lUpperPart + 1
      Else
         lLowerPart = lLowerPart + 1
         lUpperPart = f * lLowerPart
      End If
      df = lUpperPart / lLowerPart
   Wend
Dec2Frac = CStr(lUpperPart) & "/" & CStr(lLowerPart)
End Function

(From google searches: convert decimal to fraction, convert decimal to fraction code)

Answer 15

You might want to read What Every Computer Scientist Should Know about Floating Point Arithmetic.

You'll have to specify some precision by multiplying by a large number:

3.141592 * 1000000 = 3141592

then you can make a fraction:

3 + (141592 / 1000000)

and reduce via GCD...

3 + (17699 / 125000)

but there is no way to get the intended fraction out. You might want to always use fractions throughout your code instead --just remember to reduce fractions when you can to avoid overflow!