# Merge sort not working properly

Within my merge sort method I also have a merge function which I believe to be working correctly as I tested it elsewhere. However when I try the merge sort as a whole the numbers do not sort properly. EDIT: added merge

Code:

``````void mergeSort( int A[], int p, int q )
// PRE: p >= 0; q >= 0; A[p..q] is initialized
// POST: A[p..q] is sorted in ascending order
{
int i;                                     //  counter used to initialize L and R
int j;
int m;                                     // midpoint of A
int L[100];                                // lower half of A
int R[100];                                // upper half of A

if ( p < q )                               // if list contains more than one value
{
m = ( p + q ) / 2;                     // find midpoint

j = 0;

for ( i = p; i <= m; i++ )             // initialize lower half of array
{
L[j] = A[i];
j++;
}

j = 0;

for ( i = m + 1; i <= q; i++ )         // initialize upper half of array
{
R[j] = A[i];
j++;
}

mergeSort( A, p, m );                  // call mergeSort for lower half of array

mergeSort( A, m + 1, q );              // call mergeSort for upper half of array

merge( L, R, m - p + 1, q - m, A );    // merge both sides
}
}

void merge( int L[], int R[], int l_size, int r_size, int A[] )
// PRE: l_size > 0; r_size > 0; L[0..l_size-1] is in ascending order;
//      R[0..r_size-1] is in ascending order; A is allocated to l_size + r_size
// POST: A[0..l_size+r_size-1] contains all elements of L[0..l_size-1] and
R[0..r_size-1]
{
int i;                                 // counter used to fill A at end of algorithm
int l_ctr;                             // counter used to traverse L
int r_ctr;                             // counter used to traverse R
int a_ctr;                             // counter used to traverse A

l_ctr = 0;
r_ctr = 0;                             // set all counters equal to zero
a_ctr = 0;

while ( l_ctr < l_size && r_ctr < r_size ) // loop runs until reaching end of a list
{
if ( L[l_ctr] < R[r_ctr] )            // if lowest remain ing value in L is
{                                     // lower than lowest remaining value in R;
A[a_ctr] = L[l_ctr];              // set next index of A to L[l_ctr]
l_ctr++;                          // increment l_ctr by one
}
else                                       // else do the same for r_ctr
{
A[a_ctr] = R[r_ctr];
r_ctr++;
}
a_ctr++;                                   // increment a_ctr by one
}

if ( l_ctr < l_size )                          // if all of L has not been seen yet
{
for ( i = l_ctr; i < l_size; i++ )         // loop sets remaining values in L
{                                          // to the last values of A
A[a_ctr] = L[i];
a_ctr++;
}
}
else                                           // else do the same for R
{
for ( i = r_ctr; i < r_size; i++ )
{
A[a_ctr] = R[i];
a_ctr++;
}
}
}
``````
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Would you be so kind as to fix your indentation please :) – Borgleader Aug 1 '13 at 2:09
What does `merge` look like? – greatwolf Aug 1 '13 at 2:10
c++ has a built in merge, and it's possible on of the built in sorts is even merge sort – aaronman Aug 1 '13 at 2:24

Your merge step always uses `A[0]` as the destination to merge the two ranges. You want the ranges described by indices `[p..m]` and `[m+1..q]` to go back into `A[p..q]`. There are at least two simple fixes.

• Pass `A+p` as the last parameter to `merge` (or use `&A[p]`, they're the same).
• Pass `p` as an additional parameter to `merge` and use it to initialize `a_ctr`.

Pick either one and test it.

Edit:

I tested your code locally and see the recursive calls to `mergeSort` should be moved up to just below the line where you compute `m`. The following lines where you copy to the temp arrays belong to the merge process and should be after the recursive calls.

Working example at ideone.com

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I tried all of those things and still received the same results – Neil Munroe Aug 1 '13 at 3:30
@NeilMunroe: Found and fixed the code. Please see my edit. – Blastfurnace Aug 1 '13 at 3:52