**Objective-C uses pure C for basically all primitive mathematical operations.**

This being said you'll find all necessary information (along with C code) in the answers of this other question:

**How to convert floats to human-readable fractions?**

(Specifically **this answer** featuring actual **C code**.)

Here is a quick c function wrapper of said algorithm:

```
typedef struct {
long nominator;
long denominator;
double error;
} Fraction;
/*
* Find rational approximation to given real number
* David Eppstein / UC Irvine / 8 Aug 1993
*
* With corrections from Arno Formella, May 2008
* Function wrapper by Regexident, April 2011
*
* usage: fractionFromReal(double realNumber, long maxDenominator)
* realNumber: is real number to approx
* maxDenominator: is the maximum denominator allowed
*
* based on the theory of continued fractions
* if x = a1 + 1/(a2 + 1/(a3 + 1/(a4 + ...)))
* then best approximation is found by truncating this series
* (with some adjustments in the last term).
*
* Note the fraction can be recovered as the first column of the matrix
* ( a1 1 ) ( a2 1 ) ( a3 1 ) ...
* ( 1 0 ) ( 1 0 ) ( 1 0 )
* Instead of keeping the sequence of continued fraction terms,
* we just keep the last partial product of these matrices.
*/
Fraction fractionFromReal(double realNumber, long maxDenominator) {
double atof();
int atoi();
void exit();
long m[2][2];
double startx;
long ai;
startx = realNumber;
// initialize matrix:
m[0][0] = m[1][1] = 1;
m[0][1] = m[1][0] = 0;
// loop finding terms until denom gets too big:
while (m[1][0] * (ai = (long)realNumber) + m[1][1] <= maxDenominator) {
long t;
t = m[0][0] * ai + m[0][1];
m[0][1] = m[0][0];
m[0][0] = t;
t = m[1][0] * ai + m[1][1];
m[1][1] = m[1][0];
m[1][0] = t;
if (realNumber == (double)ai) {
// AF: division by zero
break;
}
realNumber = 1 / (realNumber - (double)ai);
if (realNumber > (double)0x7FFFFFFF) {
// AF: representation failure
break;
}
}
ai = (maxDenominator - m[1][1]) / m[1][0];
m[0][0] = m[0][0] * ai + m[0][1];
m[1][0] = m[1][0] * ai + m[1][1];
return (Fraction) { .nominator = m[0][0], .denominator = m[1][0], .error = startx - ((double)m[0][0] / (double)m[1][0]) };
}
```

Calling it like this:

```
double aReal = 123.45;
long maxDenominator = 42;
Fraction aFraction = fractionFromReal(aReal, maxDenominator);
printf("Real %.3f -> fraction => %ld/%ld, error: %.3f\n",
aReal,
aFraction.nominator,
aFraction.denominator,
aFraction.error);
```

Prints this:

```
Real 123.450 -> fraction => 3827/31, error: -0.002
```

Last but not least let's see how we get our newly crafted fraction into out text field:

```
double myVariable = 7.5;
long maxDenominator = 1000; //sample value
Fraction myFraction = fractionFromReal(abs(myVariable - (NSInteger)myVariable), maxDenominator);
[theTextField setText:[NSString stringWithFormat:@"%d %d/%d", (NSInteger)myVariable, myFraction.nominator, myFraction.denominator]];
```

Expected output: `"7 1/2"`

, actual output: `"7 499/999"`

For some info on why this can happen see this answer to a related question: How to convert floats to human-readable fractions?