show/hide this revision's text 5 added 11 characters in body

EDIT: My bad for missing the java tag, sorry... The below is C# generic quickSort... I'll leave it here anyway for .net readers...

It looks ok at first glance, but how about this generic one?

public class QuickSort<T> where T : IComparable<T>
{
    #region private variable to sort inplace
    readonly private ListIList<T> itms;
    #endregion private variable to sort inplace

    #region ctor
    private QuickSort() { } // Hide parameterless constructor
    /// <summary>
    /// Constructor requires ListIList<T> T must implement CompareTo() method.../>
    /// </summary>
    /// <param name="Lst">List<T> of elements to sort</param>
    public QuickSort(ListQuickSort(IList<T> LstLst):this)() { itms = Lst; }
    #endregion ctor

    #region public sort method
    public void Sort() { Sort(0, itms.Count - 1); }
    /// <summary>
    /// Executes QuickSort algorithm
    /// </summary>
    /// <param name="L">Index of left-hand boundary of partition to sort</param>
    /// <param name="R">Index of right-hand boundary of partition to sort</param>
    private void Sort(long L, long R)
    {
        // Calls iSort (insertion-sort) for partitions smaller than 5 elements
        if (R - L < 4) iSort(L, R); 
        else
        {
            long i = (L + R) / 2, j = R - 1;
            // Next three lines to set upper and lower bounds
            if (itms[L].CompareTo(itms[i]) > 0) Swap(L, i);
            if (itms[L].CompareTo(itms[R]) > 0) Swap(L, R);
            if (itms[i].CompareTo(itms[R]) > 0) Swap(i, R);
            Swap(i, j);
            // --------------------------------
            T p = itms[j]; // p = itms[j] is pivot element
            i = L;
            while (true)
            {
                while (itms[++i].CompareTo(p) < 0) {}
                while (itms[--j].CompareTo(p) > 0) {}
                if (j < i) break;
                Swap(i, j);
            }
            Swap(i, R - 1);
            Sort(L, i);     // Sort  Left partition --  HERE WAS TYPO BUG
            Sort(i + 1, R); // Sort Right partition
        }
    }
    #endregion public sort method

    #region private Helper methods
    private void Swap(long L, long R)
    {
        T t = itms[L];
        itms[L] = itms[R];
        itms[R] = t;
    }
    private void iSort(long L, long R)
    {
        for (long i = L; i <= R; i++)
        {
            T t = itms[i];
            long j = i;
            while ((j > L) && (itms[j - 1].CompareTo(t) > 0))
            {
                itms[j] = itms[j - 1];
                j--;
            }
            itms[j] = t;
        }
    }
    #endregion private Helper methods
}
show/hide this revision's text 4 edited body

EDIT: My bad for missing the java tag, sorry... The below is C# generic quickSort... I'll leave it here anyway for .net readers...

It looks ok at first glance, but how about this generic one?

public class QuickSort<T> where T : IComparable<T>
{
    #region private variable to sort inplace
    readonly private List<T> itms;
    #endregion private variable to sort inplace

    #region ctor
    private QuickSort() { } // Hide parameterless constructor
    /// <summary>
    /// Constructor requires List<T> T must implement CompareTo() method.../>
    /// </summary>
    /// <param name="Lst">List<T> of elements to sort</param>
    public QuickSort(List<T> Lst) { itms = Lst; }
    #endregion ctor

    #region public sort method
    public void Sort() { Sort(0, itms.Count - 1); }
    /// <summary>
    /// Executes QuickSort algorithm
    /// </summary>
    /// <param name="L">Index of left-hand boundary of partition to sort</param>
    /// <param name="R">Index of right-hand boundary of partition to sort</param>
    public private void Sort(long L, long R)
    {
        if (R - L < 4) iSort(L, R); // Calls iSort (insertion-sort) for partitions smaller than 5 elements
        if (R - L < 4) iSort(L, R); 
        else
        {
            long i = (L + R) / 2, j = R - 1;
            // Next three lines to set upper and lower bounds
            if (itms[L].CompareTo(itms[i]) > 0) Swap(L, i);
            if (itms[L].CompareTo(itms[R]) > 0) Swap(L, R);
            if (itms[L].CompareTo(itms[R]) itms[i].CompareTo(itms[R]) > 0) Swap(i, R);
            Swap(i, j);
            // --------------------------------
            T p = itms[j]; // p = itms[j] is pivot element
            i = L;
            while (true)
            {
                while (itms[++i].CompareTo(p) < 0) {}
                while (itms[--j].CompareTo(p) > 0) {}
                if (j < i) break;
                Swap(i, j);
            }
            Swap(i, R - 1);
            Sort(L, i);     // Sort  Left partition --  HERE WAS TYPO BUG
            Sort(i + 1, R); // Sort Right partition
        }
    }
    #endregion public sort method

    #region private Helper methods
    private void Swap(long L, long R)
    {
        T t = itms[L];
        itms[L] = itms[R];
        itms[R] = t;
    }
    private void iSort(long L, long R)
    {
        for (long i = L; i <= R; i++)
        {
            T t = itms[i];
            long j = i;
            while ((j > L) && (itms[j - 1].CompareTo(t) > 0))
            {
                itms[j] = itms[j - 1];
                j--;
            }
            itms[j] = t;
        }
    }
    #endregion private Helper methods
}
show/hide this revision's text 3 added 22 characters in body

EDIT: My bad for missing the java tag, sorry... The below is C# generic quickSort... I'll leave it here anyway for .net readers...

It looks ok at first glance, but how about this generic one?

public class QuickSort<T> where T : IComparable<T>
{
    #region private variable to sort inplace
    readonly private List<T> itms;
    #endregion private variable to sort inplace

    #region ctor
    private QuickSort() { } // Hide parameterless constructor
    /// <summary>
    /// Constructor requires List<T> T must implement CompareTo() method.../>
    /// </summary>
    /// <param name="Lst">List<T> of elements to sort</param>
    public QuickSort(List<T> Lst) { itms = Lst; }
    #endregion ctor

    #region public sort method
    /// <summary>
    /// Executes QuickSort algorithm
    /// </summary>
    /// <param name="L">Index of left-hand boundary of partition to sort</param>
    /// <param name="R">Index of right-hand boundary of partition to sort</param>
    public void Sort(long L, long R)
    {
        if (R - L < 4) iSort(L, R); // Calls iSort (insertion-sort) for partitions smaller than 5 elements
        else
        {
            long i = (L + R) / 2, j = R - 1;
            // Next three lines to set upper and lower bounds
            if (itms[L].CompareTo(itms[i]) > 0) Swap(L, i);
            if (itms[L].CompareTo(itms[R]) > 0) Swap(L, R);
            if (itms[L].CompareTo(itms[R]) > 0) Swap(i, R);
            Swap(i, j);
            // --------------------------------
            T p = itms[j]; // p = itms[j] is pivot element
            i = L;
            while (true)
            {
                while (itms[++i].CompareTo(p) < 0) {}
                while (itms[--j].CompareTo(p) > 0) {}
                if (j < i) break;
                Swap(i, j);
            }
            Swap(i, R - 1);
            Sort(L, j)i);     // Sort  Left partition --  HERE WAS TYPO BUG
            Sort(i + 1, R); // Sort Right partition
        }
    }
    #endregion public sort method

    #region private Helper methods
    private void Swap(long L, long R)
    {
        T t = itms[L];
        itms[L] = itms[R];
        itms[R] = t;
    }
    private void iSort(long L, long R)
    {
        for (long i = L; i <= R; i++)
        {
            T t = itms[i];
            long j = i;
            while ((j > L) && (itms[j - 1].CompareTo(t) > 0))
            {
                itms[j] = itms[j - 1];
                j--;
            }
            itms[j] = t;
        }
    }
    #endregion private Helper methods
}
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