# Creating a grid in c

I need to create a 375 x 375 grid in c, and I need to create a grid of 25 (5x5) poles that will be spaced 75 (375/5) grid points apart. I will then need to calculate for any given grid point how close it is to a pole. This is not a visual grid, but I'm still having trouble wrapping my head on how to create this grid set-up programmatically. So far, I'v created a "Point" struct that consist of two ints x and y:

``````typedef struct{
int x, y;
}Point;
``````

I then define my grid as a 375x375 Point array and set the x and y values as`i` and `j`respectfully, in a nested for loop. However I'm having a hard time figuring out how to create the pole position array. Should it be a 5x5 array with the x and y values set as `i*15` and`j*15`? If so then how would I use the two 2D arrays together.I couldn't do a calculation like this obviously:

``````        for(i = 0; i < 375; i ++){
for(j = 0; j<375; j++){
distance(polePos[i][j], grid[i][j]);
}
}
``````

but If I make it a 375x375 array, then how do I designate the pole position? Am I on the right track? Any help would be appreciated.

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"pole position" hehe –  Bernd Elkemann Feb 17 '12 at 7:07
I think you should temporarily forget about the grid and concentrate on a single point. Given a single point, how close is it to a pole? –  n.m. Feb 17 '12 at 8:07
Is this homework? Then please tag it as such. –  Mr Lister Feb 17 '12 at 8:14

You didn't specify at which column-/row-indices the poles should be placed so in the following i place them 75-apart starting at 0, so the poles are at column-/row-indices 0, 75, 150, 225, 300, 375 (so 6 poles). It might not be precisely what you had in mind but it will get you started.

``````#include "stdio.h"
#include "math.h"
double distance(double x, double y, double grid) {
x = fmod(x, grid);
y = fmod(y, grid); // <- these modulos makes us treat every interval like the interval 0...grid
double dx = grid/2 - fabs(x -grid/2);
double dy = grid/2 - fabs(y -grid/2);
//printf("%3u %3u %f %f \n", x, y, dx, dy);
return sqrt(dx*dx+dy*dy);
}
int main(void) {
int i; int j;
double grid[375][375];
for(i = 0; i < 375; i ++){
for(j = 0; j<375; j++){
grid[i][j] = distance(i, j, 75);
printf("%3u %3u %f\n", i, j, grid[i][j]);
}
}
}
``````
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You neglected to point out that if you want to have a pole at position 375, you'll need a 376x376 grid. –  Mr Lister Feb 17 '12 at 8:09
@MrLister Yes there is no pole. Just the distances getting down to 1.0 of it. –  Bernd Elkemann Feb 17 '12 at 8:35

If you have two grids `polePos[5][5]` and `grid[375][375]` of points you can compute the distances with the following algorithm:

``````double dist[375][375];

int pI = 0, pJ = 0;
for (int gI = 0; gI < 375; gI++) {
while (pI + 1 < 5 &&
abs(polePos[pI][pJ].x - grid[gI][0].x) >
abs(polePos[pI + 1][pJ].x - grid[gI][0].x) {
pI += 1;
}

for (int gJ = 0; gJ < 375; gJ++) {
while (pJ + 1 < 5 &&
abs(polePos[pI][pJ].y - grid[gI][gJ].y) >
abs(polePos[pI][pJ + 1].y - grid[gI][gJ].y) {
pJ += 1;
}

dist[gI][gJ] = distance(polePos[pI][pJ], grid[gI][gJ]);
}

pJ = 0;
}
``````

There `pI` and `pJ` contain the nearest pole to the current grid point.

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If your grid and your pole are related, maybe it should be better to put them in the same structure.

``````#include <stdbool.h>
typedef struct{
int x, y;
bool pole;
} Point;
``````

You can see it like a chess-board, which may have or have not a piece on each case.

You can after use naive or classical algorithms like Dijkstra, Bellman-Ford, A* in order to determine shortest path to one of your pole.

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