# Converting float decimal to fraction

I am trying to convert calculations keyed in by users with decimal results into fractions. For e.g.; 66.6666666667 into 66 2/3. Any pointers? Thanx in advance

-
66 2/3 != 66.6666666667, so you will have to make guesses. –  NullUserException Jan 15 '13 at 3:32
But that's not 66 2/3! It's 666666666667/10000000000. How will you tell the difference? What's a "reasonable" rounding? –  minitech Jan 15 '13 at 3:32
The output is 66.66666667 when it should be endless of 6s. So how do i change the output to 2/3? Cannot do rounding else the finalised answer would not be 2/3... –  TeamStar Jan 15 '13 at 3:33
Obviously you cannot have "endless" 6s without endless memory. –  NullUserException Jan 15 '13 at 3:34
Here's my C++ implementation of a continued fractions approach to exacting a fraction from a float. Not sure how hard it would be to translate to PHP, but it might be worth taking a look at. –  Mysticial Jan 15 '13 at 3:52

Continued fractions can be used to find rational approximations to real numbers that are "best" in a strict sense. Here's a PHP function that finds a rational approximation to a given (positive) floating point number with a relative error less than `\$tolerance`:

``````<?php
function float2rat(\$n, \$tolerance = 1.e-6) {
\$h1=1; \$h2=0;
\$k1=0; \$k2=1;
\$b = 1/\$n;
do {
\$b = 1/\$b;
\$a = floor(\$b);
\$aux = \$h1; \$h1 = \$a*\$h1+\$h2; \$h2 = \$aux;
\$aux = \$k1; \$k1 = \$a*\$k1+\$k2; \$k2 = \$aux;
\$b = \$b-\$a;
} while (abs(\$n-\$h1/\$k1) > \$n*\$tolerance);

return "\$h1/\$k1";
}

printf("%s\n", float2rat(66.66667)); # 200/3
printf("%s\n", float2rat(sqrt(2)));  # 1393/985
printf("%s\n", float2rat(0.43212));  # 748/1731
``````

I have written more about this algorithm and why it works, and even a JavaScript demo here: http://jonisalonen.com/2012/converting-decimal-numbers-to-ratios/

-
There's an small bug in the function, in case `\$b == \$a` will throw a warning, "Division by 0." –  adrian7 Apr 11 '13 at 15:00
Well spotted @adrian7, I didn't know this aspect of PHP -- in other languages floating point division by 0 is well behaved. In case `\$b == \$a` the loop is in its last iteration, so moving the division from the end of the loop to the beginning fixes the problem. I've updated the code. –  Joni May 24 '13 at 9:35

Farey fractions can be quite useful in this case.

They can be used to convert any decimal into a fraction with the lowest possible denominator.

Sorry - I don't have a prototype in PHP, so here's one in Python:

``````def farey(v, lim):
"""No error checking on args.  lim = maximum denominator.
Results are (numerator, denominator); (1, 0) is 'infinity'."""
if v < 0:
n, d = farey(-v, lim)
return (-n, d)
z = lim - lim   # Get a "zero of the right type" for the denominator
lower, upper = (z, z+1), (z+1, z)
while True:
mediant = (lower[0] + upper[0]), (lower[1] + upper[1])
if v * mediant[1] > mediant[0]:
if lim < mediant[1]:
return upper
lower = mediant
elif v * mediant[1] == mediant[0]:
if lim >= mediant[1]:
return mediant
if lower[1] < upper[1]:
return lower
return upper
else:
if lim < mediant[1]:
return lower
upper = mediant
``````
-
Thanx for the kind gesture but am really lost trying to convert that to PHP... Thanx again tho... If anyone can assist this python structure into PHP? –  TeamStar Jan 15 '13 at 4:24
The Python code uses tuples as a way to shorten the code greatly. `lower` and `upper` in the code can be treated as just arrays with size 2, which both can be "unpacked" into 2 variables. Most of the code is comparing the items in `lower` and `upper` and setting them equal to one another, so that should be relatively easy to convert into PHP. –  APerson Jan 15 '13 at 14:46

Converted Python code in answer from @APerson241 to PHP

``````<?php
function farey(\$v, \$lim) {
// No error checking on args.  lim = maximum denominator.
// Results are array(numerator, denominator); array(1, 0) is 'infinity'.
if(\$v < 0) {
list(\$n, \$d) = farey(-\$v, \$lim);
return array(-\$n, \$d);
}
\$z = \$lim - \$lim;   // Get a "zero of the right type" for the denominator
list(\$lower, \$upper) = array(array(\$z, \$z+1), array(\$z+1, \$z));
while(true) {
\$mediant = array((\$lower[0] + \$upper[0]), (\$lower[1] + \$upper[1]));
if(\$v * \$mediant[1] > \$mediant[0]) {
if(\$lim < \$mediant[1])
return \$upper;
\$lower = \$mediant;
}
else if(\$v * \$mediant[1] == \$mediant[0]) {
if(\$lim >= \$mediant[1])
return \$mediant;
if(\$lower[1] < \$upper[1])
return \$lower;
return \$upper;
}
else {
if(\$lim < \$mediant[1])
return \$lower;
\$upper = \$mediant;
}
}
}

// Example use:
\$f = farey(66.66667, 10);
echo \$f[0], '/', \$f[1], "\n"; # 200/3
\$f = farey(sqrt(2), 1000);
echo \$f[0], '/', \$f[1], "\n";  # 1393/985
\$f = farey(0.43212, 2000);
echo \$f[0], '/', \$f[1], "\n";  # 748/1731
``````
-

Here is my approach to this problem, works fine with rationals numbers. http://www.carlosabundis.com/2014/03/25/converting-decimals-to-fractions-with-php-v2/

``````    function dec2fracso(\$dec){
//Negative number flag.
\$num=\$dec;
if(\$num<0){
\$neg=true;
}else{
\$neg=false;
}

//Extracts 2 strings from input number
\$decarr=explode('.',(string)\$dec);

//Checks for divided by zero input.
if(\$decarr[1]==0){
\$decarr[1]=1;
\$fraccion[0]=\$decarr[0];
\$fraccion[1]=\$decarr[1];
return \$fraccion;
}

//Calculates the divisor before simplification.
\$long=strlen(\$decarr[1]);
\$div="1";
for(\$x=0;\$x<\$long;\$x++){
\$div.="0";
}

//Gets the greatest common divisor.
\$x=(int)\$decarr[1];
\$y=(int)\$div;
\$gcd=gmp_strval(gmp_gcd(\$x,\$y));

//Calculates the result and fills the array with the correct sign.
if(\$neg){
\$fraccion[0]=((abs(\$decarr[0])*(\$y/\$gcd))+(\$x/\$gcd))*(-1);
}else{
\$fraccion[0]=(abs(\$decarr[0])*(\$y/\$gcd))+(\$x/\$gcd);
}
\$fraccion[1]=(\$y/\$gcd);
return \$fraccion;
}
``````
-

Based upon @Joni's answer, here is what I used to pull out the whole number.

``````function convert_decimal_to_fraction(\$decimal){

\$big_fraction = float2rat(\$decimal);
\$num_array = explode('/', \$big_fraction);
\$numerator = \$num_array[0];
\$denominator = \$num_array[1];
\$whole_number = floor( \$numerator / \$denominator );
\$numerator = \$numerator % \$denominator;

if(\$numerator == 0){
return \$whole_number;
}else if (\$whole_number == 0){
return \$numerator . '/' . \$denominator;
}else{
return \$whole_number . ' ' . \$numerator . '/' . \$denominator;
}
}

function float2rat(\$n, \$tolerance = 1.e-6) {
\$h1=1; \$h2=0;
\$k1=0; \$k2=1;
\$b = 1/\$n;
do {
\$b = 1/\$b;
\$a = floor(\$b);
\$aux = \$h1; \$h1 = \$a*\$h1+\$h2; \$h2 = \$aux;
\$aux = \$k1; \$k1 = \$a*\$k1+\$k2; \$k2 = \$aux;
\$b = \$b-\$a;
} while (abs(\$n-\$h1/\$k1) > \$n*\$tolerance);

return "\$h1/\$k1";
}
``````
-