Is this a correct implementation of quicksort? [closed]

I would like to check if this is a correct implementation of QuickSort, It seems to be doing the job, but Am I missing out anything?

``````public class QuickSort implements Sorter {

public void sort(Comparable[] items) {
QuickSort(items, 0, items.length - 1);
}

static void QuickSort(Comparable[] items, int a, int b) {
int lo = a;
int hi = b;
if (lo >= hi) {
return;
}
Comparable mid = items[(lo + hi) / 2];
Comparable T;

while (lo < hi) {
while (items[lo].compareTo(mid)<0) {
lo++;
}
while (mid.compareTo(items[hi])<0) {
hi--;
}
if (lo < hi) {
T = items[lo];
items[lo] = items[hi];
items[hi] = T;
}
}

QuickSort(items, a, lo);
QuickSort(items, lo == a ? lo + 1 : lo, b);

}
``````

}

fixed:

``````private static void quickSort(Comparable[] items, int a, int b) {
int i = a;
int j = b;

Comparable x = items[(a+ b) / 2];
Comparable h;

do {
while (items[i].compareTo(x) < 0) {
i++;
}
while (items[j].compareTo(x) > 0) {
j--;
}
if (i <= j) {
h = items[i];
items[i] = items[j];
items[j] = h;
i++;
j--;
}
} while (i <= j);

if (a < j) {
quickSort(items, a, j);
}
if (i < b) {
quickSort(items, i, b);
}
}
``````
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closed as too localized by casperOne♦Sep 18 '12 at 13:19

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you should rename "T" as something more apparent such as "temp". You should check to see if (lo + hi) /2 is >= 0 and < items.length. If you want, you can have it use a different sorting algorithm when the sorting set is small (say 3 items). –  martinatime Mar 27 '09 at 18:59
IMO, don't use 'T' as a variable name because it is commonly used as a type parameter when using generics. –  zmf Mar 27 '09 at 19:05
what do you do if you have duplicates? it will compare to the same, and compareTo will return 0. thus, lo will never become >= hi and you get an endless loop –  Johannes Schaub - litb Mar 27 '09 at 19:05
Small rant. Methods and variables should start with lowercase in Java by convention. So QuickSort method should be quickSort ( or quicksort ) and T should be t ( or even better temp and defined within the if where it is used. –  OscarRyz Mar 27 '09 at 19:10
As for the impl looks fine from here.... :) –  OscarRyz Mar 27 '09 at 19:11

1 small point- there's a potential int overflow here:

(lo + hi) / 2

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Would ( lo / 2 + hi / 2 ) do the trick? –  OscarRyz Mar 28 '09 at 1:26
Actually, this is probably ok, but be aware that it is not the same... (3/2) + (11/2) = 6, whereas (3+11)/2 = 7. But this "one-off" median error probably doesn't matter for splitting up the array into 2 partitions. –  Charles Bretana Mar 30 '09 at 14:07
@Charles: Took me a while to get why you get 6. For those that don't Java is doing integer arithmatic so even though 3/2 = 1.5 Java rounds it to 1 so it will fit in an int variable. To get the correct answer you have to use (int)(((float)3/2)+((float)11/2)) which does equal 7. –  Martin Brown Jun 11 '09 at 10:36
The usual way to do the mid calculation to avoid int-overflow is: mid = lo + (hi - lo)/2 –  hughdbrown Oct 1 '09 at 17:08

Take this opportunity to learn how to write a unit-test. (Google on "junit", for example). Generate large arrays and make sure that they are sorted properly, for example: arrays filled with random numbers, arrays filled with 0, 1, Integer.MAX_INT. Try to provoke things like integer overflow and other weird cornercases.

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

``````public class QuickSort<T> where T : IComparable<T>
{
#region private variable to sort inplace
#endregion private variable to sort inplace

#region ctor
private QuickSort() { } // Hide parameterless constructor
/// <summary>
/// Constructor requires IList<T> T must implement CompareTo() method.../>
/// </summary>
/// <param name="Lst">List<T> of elements to sort</param>
public QuickSort(IList<T> Lst):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
}
``````
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Did you just post C# to answer a Java question? –  Michael Myers Mar 27 '09 at 18:56
I guess I did.. missed the java tag.. –  Charles Bretana Mar 27 '09 at 18:59
Fortunately, there's not much difference between the two in this example. I can make the changes if you'd like. (I don't know if you know Java or not.) –  Michael Myers Mar 27 '09 at 19:02
Offtopic. Do you have a link where I can read about those "#regions" tags? –  OscarRyz Mar 27 '09 at 19:14
Huh. I ported it to Java and it doesn't sort correctly. I'm not sure whether it's my fault or yours. (I gave it "[this, is, a, test, of, the, quicksort, class, it, has, a, duplicate]" and it came up with "[a, class, duplicate, a, is, it, of, has, quicksort, test, this, the]".) –  Michael Myers Mar 27 '09 at 19:24

And here's a javascript version... QuickSort(a, comp, desc)

• a is of course the array to be sorted.
• comp is the compare function that has to take two values and return -1, 0 or +1 depending on how the 2 arguments should sort.
• desc is boolean to reverse the sort order.

``````function QuickSort(a, comp, desc) {
function defComp(L, R)  {return((L>R)? 1: (L<R)? -1: 0);}
var cmp = (comp)? comp: defComp;
var siz = a.length;
qSort(0, siz-1);
if (desc) reverse();
// ------------------
function qSort(L, R) {
if (R - L < 4) {iSort(L, R);} // insertion-sort--
else {
var i = parseInt((L+R) /2),  j=R-1;
if (cmp(a[L], a[i]) > 0) swap(L,i);
if (cmp(a[L], a[R]) > 0) swap(L,R);
if (cmp(a[i], a[R]) > 0) swap(i,R);
swap(i,j);
// ------------------------------------------
var p=a[j]; // p=a[j] is pivot
i=L;
while (true) {
while(cmp(a[++i], p) < 0);
while(cmp(a[--j], p) > 0);
if (j < i) break;
swap(i,j);
}
swap(i,R-1);
qSort(L,i);   // Left  Partition
qSort(i+1,R); // Right Partition
}
}
function swap(L,R) {var t=a[L];  a[L]=a[R];  a[R]=t;}
function reverse()
{for(var i=0; i<parseInt(siz/2); i++) swap(i,(siz-i-1));}
// insertion-sort
function iSort(L,R) {
var j,t;
for(var i=L; i<=R; i++) {
t = a[i], j = i;
while ((j>L) && (cmp(a[j-1], t) > 0))
{a[j] = a[j-1]; j--;}
a[j] = t;
}
}
}
``````
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``````public static void quicksort( Comparable [ ] a ) {

quicksort( a, 0, a.length - 1 );
}
private static final int CUTOFF = 10;
private static void quicksort( Comparable [ ] a, int low, int high ) {
if( low + CUTOFF > high )
insertionSort( a, low, high );
else {
int middle = ( low + high ) / 2;
if( a[ middle ].compareTo( a[ low ] ) < 0 )
swapReferences( a, low, middle );
if( a[ high ].compareTo( a[ low ] ) < 0 )
swapReferences( a, low, high );
if( a[ high ].compareTo( a[ middle ] ) < 0 )
swapReferences( a, middle, high );
swapReferences( a, middle, high - 1 );
Comparable pivot = a[ high - 1 ];
int i, j;
for( i = low, j = high - 1; ; ) {
while( a[ ++i ].compareTo( pivot ) < 0 )
;
while( pivot.compareTo( a[ --j ] ) < 0 )
;
if( i >= j )
break;
swapReferences( a, i, j );
}
swapReferences( a, i, high - 1
quicksort( a, low, i - 1 ); // Sort small elements
quicksort( a, i + 1, high ); // Sort large elements
}
}
public static final void swapReferences( Object [ ] a, int index1, int index2 )
{
Object tmp = a[ index1 ];
a[ index1 ] = a[ index2 ];
a[ index2 ] = tmp;
}
private static void insertionSort( Comparable [ ] a, int low, int high ) {
for( int p = low + 1; p <= high; p++ ) {
Comparable tmp = a[ p ];
int j;
for( j = p; j > low && tmp.compareTo( a[ j - 1 ] ) < 0; j-- )
a[ j ] = a[ j - 1 ];
a[ j ] = tmp;
}
}
``````
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