At very first, I'm not going to write the code for you. Instead, I will *explain* what you are supposed to do (still I agree with John, this is not efficient at all):

First, what does lines represent? Imagine you had the following two classes:

```
class Point3D
{
public int[] coordinates = new int[3];
}
class Line
{
public Point[] points = new Point[4];
}
```

Then you would have:

```
Line[] lines = new Line[76];
```

`int[][][] lines`

just leaves out the classes and collapses all the information into a single three-dimensional array (probably you got this already...).

Then there is an obvious relationship between `lines[i]`

(containing an int[][]!) and `sums[i]`

: You will be iterating over the lines and set the sum you calculated at the corresponding position in the sums array:

```
for(int i = 0; i < lines.length; ++i)
{
sums[i] = summate(lines[i]);
}
```

Actually, you really could write a method 'summate', if you wanted, which would have as signature `int summate(int[][] line)`

.

Then you iterate over the line positions;

`for(int j = 0; j < lines[i].length; ++j)`

where you add the appropriate value to the sum:

```
int x = lines[i][j][0];
int y = lines[i][j][1];
int z = lines[i][j][2];
int fieldValue = board[x][y][z];
int value = 0; //calculate yourself...
```

Of course, you can access the board directly:

```
int fieldValue = board[lines[i][j][0]] [lines[i][j][1]] [lines[i][j][2]];
```

Decide yourself, if it reads nicely with so many index operators combined...

OK, one important hint, yet:

If you decide to do it all in two loops directly, do not forget to set sums[i] to 0 first, as it will contain the value from the previous calculation(!):

```
for(...) // i
{
sums[i] = 0;
for(...) // j
{
sums[i] += ...;
}
}
```