# Most efficient way of implementing this?

I've got a 1km square, I'm dividing it up into 100meters both on the positive and negative sides of it..

``````         __________y__________
|         |         |
|         |         |
|         |         |
|---------|---------| x
|         |         |
|         |         |
|_________|_________|
``````

Basically I'm making a square just like the one above. I'm diving it up into 100 meter squares both on the positive side and negative side of the x axis. I'm then plotting each point in their respective co-ords , I'm planning on throwing an (x,y) value through a bunch of if/else statements (at least 50 , upto 100) but I'm concerned with how expensive this would be. Is there a more efficient way of doing what I want to do?

Here is an example of how I plan on doing it...

``````              if(tlat < lat && tlat > lat - 89930.7){
//point is within 100 meters on lat
//On the NEGATIVE SIDE.
if(tlng > lng && tlng < lng + 147999.8){
//point is within 100 meters on lat NEGATIVE &&
//withing 100 meters on lng POSITIVE
layers.addcube(highlng100p, lowlng100p, yhigh, ylow, highlat100p, lowlat100p);
highlng100p = highlng100p + 5;
lowlng100p = lowlng100p + 5;
highlat100p = highlat100p + 5;
lowlat100p = lowlat100p + 5;
}else if(tlng < lng && tlng > lng - 147999.8){
//point is within 100 meters on lat NEGATIVE &&
//withing 100 meters on lng NEGATIVE
layers.addcube(highlat100n, lowlat100n, yhigh, ylow, highlng100n, lowlng100n);
highlat100n = highlat100n + 5;
lowlat100n = lowlat100n + 5;
highlng100n = highlng100n + 5;
lowlat100n = lowlat100n + 5;
}else if(tlng > lng && tlng < lng + 295999.6){
//point is within 200 meters on lat NEGATIVE &&
//withing 200 meters on lng POSITIVE
layers.addcube(highlat200n, lowlat200n, yhigh, ylow, highlng200p, lowlng200n);
highlat200n = highlat200n + 5;
lowlat200n = lowlat200n + 5;
highlng200p = highlng200p + 5;
lowlng200p = lowlng200p + 5;
}else if(tlng < lng && tlng > lng - 295999.6){
//point is within 200 meters on lat NEGATIVE &&
//withing 200 meters on lng NEGATIVE
layers.addcube(highlat200n, lowlat200n, yhigh, ylow, highlng200n, lowlng200n);
highlat200n = highlat200n + 5;
lowlat200n = lowlat200n + 5;
highlng200n = highlng200n + 5;
lowlng200n = lowlng200n + 5;
}else if(tlng > lng && tlng < lng + 443999.4){
//point is within 300 meters on lat NEGATIVE &&
//withing 300 meters on lng POSITIVE
layers.addcube(highlat300n, lowlat300n, yhigh, ylow, highlng300p, lowlng300p);
highlat300n = highlat300n + 5;
lowlat300n = lowlat300n + 5;
highlng300p = highlng300p + 5;
lowlng300p = lowlng300p + 5;
}else if(tlng < lng && tlng > lng - 443999.4){
//point is within 300 meters on lat NEGATIVE &&
//withing 300 meters on lng NEGATIVE
layers.addcube(highlat300n, lowlat300n, yhigh, ylow, highlng300n, lowlng300n);
highlat300n = highlat300n + 5;
lowlat300n = lowlat300n + 5;
highlng300n = highlng300n + 5;
lowlng300n = lowlng300n + 5;
} else if(tlng > lng && tlng < lng + 591999.2){
//point is within 400 meters on lng
//on the POSITIVE SIDE
layers.addcube(highlat400n, lowlat400n, yhigh, ylow, highlng400p, lowlng400p);
highlat400n = highlat400n + 5;
lowlat400n = lowlat400n + 5;
highlng400p = highlng400p + 5;
lowlng400p = lowlng400p + 5;
}else if(tlng < lng && tlng > lng - 591999.2){
//point is within 400 meters on lng
//on the NEGATIVE SIDE
layers.addcube(highlat400n, lowlat400n, yhigh, ylow, highlng400n, lowlng400n);
highlat400n = highlat400n + 5;
lowlat400n = lowlat400n + 5;
highlng400n = highlng400n + 5;
lowlng400n = lowlng400n + 5;
}else if(tlng > lng && tlng < lng + 739999){
//point is within 500 meters on lng
//on the POSITIVE SIDE
layers.addcube(highlat500n, lowlat500n, yhigh, ylow, highlng500p, lowlng500p);
highlat500n = highlat500n + 5;
lowlat500n = lowlat500n + 5;
highlng500p = highlng500p + 5;
lowlng500p = lowlng500p + 5;
}else if(tlng < lng && tlng > lng - 739999){
//point is within 500 meters on lng
//on the NEGATIVE SIDE
layers.addcube(highlat500n, lowlat500n, yhigh, ylow, highlng500n, lowlng500n);
highlat500n = highlat500n + 5;
lowlat500n = lowlat500n + 5;
highlng500n = highlng500n + 5;
lowlng500n = lowlng500n + 5;
}
}
``````

If anyone could help me make what I want to do much more efficient I'd appreciate it! Thanks,

-
I suggest you stop worrying about efficiency and start worrying about "don't repeat yourself". –  Stephen Jul 10 '10 at 13:32
Could you clarify what you're trying to do? I don't understand what you mean by "I'm then plotting each point in their respective co-ords" –  SpoonMeiser Jul 10 '10 at 13:34
Can't you just do a direct calculation, scaling the x & y numbers to the grid and using `floor` to make them integral? Am I missing something? –  Mike Dunlavey Jul 10 '10 at 22:46
Read up on for loops, arrays and lists. –  starblue Jul 11 '10 at 7:39

One way is to make a grid of cells, and use the distance of the point from the origin and the size of the cell to work out which cell the point goes into. The formula for calculating the cell is O(1) - so its efficiency doesn't depend on the size of the grid. This is a rough stab at some code - uncompiled and untested so you might have to modify it to get it to work:

``````public class SquareGrid
{
/** Lower, left corner of the grid */
private Point2D m_origin;
private double  m_cellSize;
private List<List<List<Point2D>>> m_cells;

public SquareGrid(Point2D origin, int numberOfCellsPerSide, double cellSize)
{
m_origin = origin;
m_cellSize = cellSize;
m_cells = new ArrayList<List<List<Point2D>>>(numberOfCellsPerSide);

for (int i = 0; i < numberOfCellsPerSide; i++)
{
List<List<Point2D>> row = new ArrayList<List<Point2D>>(numberOfCellsPerSide);

for (int j = 0; j < numberOfCellsPerSide; j++)
{
}
}
}

{
int xCell = Math.floor((point.getX() - m_origin.getX()) / m_cellSize);
int yCell = Math.floor((point.getY() - m_origin.getY()) / m_cellSize);

What is this? `private List<List<List<Point2D>>> m_cells;` Any chance a dictionary can be used instead? –  Hamish Grubijan Jul 10 '10 at 22:46