I wrote this earlier today, hopefully someone finds this useful, seems to work great, and converts to a nice format. With this example output = 1'11"5/16

Function will find the nearest standard fraction to display, i.e. 1/16th, 1/32nd etc..

```
var number = 23.3125; // Input value (can be a float or an integer)
var accuracy = 16; // Base unit for standard fraction
function standard(number, accuracy) {
var feet = '';
var inches = '';
var fraction = '';
if (number < 0) { // Decide if a negative measurement is required
var negative = true;
}
else {
var negative = false;
}
// Check if the number is a float
if ((number.toString()).indexOf('.') > -1) {
// split before dot for whole
var whole = parseInt((number.toString()).split('.')[0]);
// Create decimal, round it to the nearest accuracy point
var decimal = Math.round(parseFloat('0.' +
(number.toString()).split('.')[1]) * accuracy) / accuracy;
}
else { // Not a float
var whole = number;
var decimal = 0;
}
if (whole > 0) { // Decide if feet and inches or just inches
if (whole > 12) {
feet = Math.floor(whole / 12) + '\''; // Has to be the floor value
if (whole % 12 > 0) { // Make sure 0 isn't returned
inches = whole % 12 + '"'; // Remainder of whole / 12 is the inches
}
}
else { // There is no feet
inches = whole + '"'; // Safe to make inches the whole value
}
}
if (decimal > 0) { // Create nearest standard fraction
var hcf = function(x, y) { // Highest common factor
if (y == 0) {
return x
}
return hcf(y, x % y)
};
// Split decimal at dot and convert to int
var numerator = parseInt(((decimal.toString()).split('.'))[1]);
// Denominator is 10 to the power of numerator string length
var denominator = Math.pow(10, (numerator.toString()).length);
// Now to get the factor
var factor = hcf(numerator, denominator);
numerator /= factor;
denominator /= factor;
// Final fraction value
fraction = numerator + '/' + denominator
}
if (negative) { // Return a negative measurement if needed
return '-' + feet + inches + fraction
}
else {
return feet + inches + fraction
}
}
```