Your problem is that you're designing your quicksort to depend upon `<`

for comparison.

You could solve it immediately by re-defining `<`

to have 1/2 as less than 2/4, but then that would mess up every other case where `<`

was used as a fraction.

You should define your sort the normal .NET way, where you have a form taking a `System.Comparison`

delegate, a form taking a `System.IComparer`

and overloads that don't use them, implemented by these.

```
internal class DelegateComparer<T> : IComparer<T>
{
private Comparison _del;
public DelegateComparer(Comparison del)
{
_del = del;
}
public int Compare(T x, T y)
{
return _del(x, y);
}
}
public static void Quicksort(Fraction[] f, int p, int r, IComparer<Fraction> cmp)
{
/* This is the only method with the real implementation */
}
public static void Quicksort(Fraction[] f, int p, int r)
{
QuickSort(f, p, r, Comparer<Fraction>.Default);
}
public static void Quicksort(Fraction[] f, int p, int r, Comparison<Fraction> cmp)
{
QuickSort(f, p, r, new DelegateComparer(cmp));
}
public static void QuickSort(Fraction[] f)
{
QuickSort(f, 0, f.Length, Comparer<Fraction>.Default);
}
```

This done, all you need to do for your strange case of putting 1/2 before 2/4 is a custom comparer that does this. Let's assume your `Fraction`

class is something like:

```
public class Fraction
{
public int Denominator{get;set;}
public int Numerator{get;set;}
public double Value
{
return (double) Numerator / (double) Denominator;
}
}
```

Then you can quickly write an `IComparer<Fraction>`

or a `Comparison<Fraction>`

that does the trick. Lets take the second option:

```
private static int CompareSepDenom(Fraction x, Fraction y)
{
int cmp = x.Value.CompareTo(y.Value);//normal comparison first
if(cmp == 0)//same value;
return x.Numerator.CompareTo(y.Numerator);//put lower numerator (also lower denum) first
return cmp;
}
```

If this is real code, rather than experimenting, then we also wouldn't bother implementing quick-sort, since `Array.Sort`

and `List<T>.Sort`

use quicksort anyway. So we can just do:

```
Array.Sort(arrayOfFractions, CompareSepDenom);
```

Or if you aren't going to re-use CompareSepDenom and would rather have an anonymous delegate from a lambda, you could use:

```
Array.Sort(arrayOfFractions, (x, y) =>
{
int cmp = x.Value.CompareTo(y.Value);//normal comparison first
if(cmp == 0)//same value;
return x.Numerator.CompareTo(y.Numerator);//put lower numerator (also lower denum) first
return cmp;
});
```

On the other hand, if you're writing the quicksort as an experiment or to learn from the code, note that the fact that you depend upon `ICmparer<Fraction>`

means that you are no longer restricted to coding your method to accept a particular type for which `<`

is defined.

This means you can write a method that is:

```
public static void QuickSort<T>(T[] arr, int p, int r, IComparer<T> cmp)
```

That works for all types.

Once you've done that, it's time to compare with the version built into the library.

Edit:

Incidentally, in case you aren't already doing it. Your `Fraction`

class should implement `IComparable<Fraction>`

and `IComparable`

(for backwards-compatibility with .NET1.0) so that people who don't want to create their own comparer delegate or class can just get the normal sorting for fractions (in which 1/2 and 2/4 are equivalent). Once you implement the first:

```
CompareTo(Fraction other)
{
if(other == null)//take out this of Fraction is a struct
return 1;
return Value.CompareTo(other.Value)
}
CompareTo(object obj)
{
if(other == null)
return 1;
Fraction fract = other as Fract;
if(fract == null)
throw new ArgumentException("Can only compare with other factions", "obj");
return CompareTo(fract);
}
```

Because `Comparer<Fraction>.Default`

will in turn use this, the version of the sort method that doesn't take a comparer will work, as will other code that depends upon ordering in other ways. Really, for any class for which "the normal way of ordering them" makes sense, or for which you define `<`

, `>`

, `<=`

etc, should have them. You can also route all of those operator overloads through the `CompareTo`

(it'll end up being inlined in practice, so no performance penalty`) which means the same code works for them for just about any such class.

`Fraction`

? – L.B Aug 12 '12 at 15:48TellerandNoemerisNumeratorandDenominator, respectively. – Jon Hanna Aug 12 '12 at 16:58