The row of cell `k`

can be calculated as:

```
row(k) = k < (S+1)*(S+1)/4 ? isqrt(k) : S - 1 - isqrt((S*S-1)/2 - k)
```

The indent of row `n`

in the diamond array is:

```
indent(n) = abs((S - 1)/2 - n)
```

The cell where row `n`

starts at is:

```
start(n) = n < S/2 ? n*n : (S*S+1)/2 - (S-n)*(S-n)
```

Combining these, you can calculate the index of cell `k`

:

```
index(k) = row(k)*S + indent(n) + (k - start(row(k)))
```

**Example:**

```
S = 5
. . # . .
. # # # .
# # # # #
. # # # .
. . # . .
cell row indent start index
0 0 2 0 2
1 1 1 1 6
2 1 1 1 7
3 1 1 1 8
4 2 0 4 10
5 2 0 4 11
6 2 0 4 12
7 2 0 4 13
8 2 0 4 14
9 3 1 9 16
10 3 1 9 17
11 3 1 9 18
12 4 2 12 22
```

Using this, you could easily implement Selection sort:

```
/// Calculates the index of cell k in a diamond array of size S.
int index(int k, int S)
{
int row = k < (S+1)*(S+1)/4 ? isqrt(k) : S - 1 - isqrt((S*S-1)/2 - k);
int indent = abs((S - 1)/2 - row);
int start = n < S/2 ? n*n : (S*S+1)/2 - (S-n)*(S-n);
return row*S + indent + (k - start);
}
/// Sorts the diamond array data, of size S.
void diamondSelectionSort(int[] data, int S)
{
int total = (S*S+1)/2;
for (int i = 0; i < total; i++)
{
int indexI = index(i,S);
int bestCell = i;
int bestIndex = indexI;
int bestValue = data[bestIndex];
for (int j = i+1; j < total; j++)
{
int indexJ = index(j,S);
if (data[indexJ] < bestValue)
{
bestCell = j;
bestIndex = indexJ;
bestValue = data[indexJ];
}
}
}
if (bestIndex > i)
{
data[bestIndex] = data[indexI];
data[indexI] = bestValue;
}
}
/// Integer square root. Adopted from
/// http://home.utah.edu/~nahaj/factoring/isqrt.c.html
int isqrt (int x)
{
if (x < 1) return 0;
int squaredbit = (int) ((((unsigned int) ~0) >> 1) &
~(((unsigned int) ~0) >> 2));
int remainder = x;
int root = 0;
while (squaredbit > 0) {
if (remainder >= (squaredbit | root)) {
remainder -= (squaredbit | root);
root = (root >> 1) | squaredbit;
} else {
root >>= 1;
}
squaredbit >>= 2;
}
return root;
}
```

`index()`

could be unrolled a little:

```
/// Calculates the index of cell k in a diamond array of size S.
int index(int k, int S)
{
int row, indent, start;
if (k < (S+1)*(S+1)/4)
{
row = isqrt(k);
indent = (S - 1)/2 - row;
start = n*n;
}
else
{
row = S - 1 - isqrt((S*S-1)/2 - k);
indent = row - (S - 1)/2;
start = (S*S+1)/2 - (S-n)*(S-n);
}
return row*S + indent + (k - start);
}
```

`[-,-,4,-,-,-,3,7,8,-,2,2,9,8,5,-,1,5,9,-,-,-,3,-,-]`

to become`[-,-,1,-,-,-,2,2,3,-,3,4,5,5,7,-,8,8,9,-,-,-,9,-,-]`

? – Walter Tross Jun 29 '13 at 15:30`clz`

instruction I've been able to do without a lookup table. I have not tested the pseudocode, so there might still be some typo. Let me know if something doesn't seem right, or if I should make something clearer. – Walter Tross Jun 29 '13 at 17:44