# Finding a polygon with maximum edges

Essentially my problem is this: given a number n that signifies the width and height of a square grid, I need to find the points of a convex, 90 degree rotationally symmetric polygon with a maximum number of sides that fits within the grid, where points are only able to be made on the grid's lattice points and sides must go straight from one point to another. My attempt at it resulted in a total of 2516 sides for n = 100000, however I've been led to believe that it should have 7592. The function I used is below, and the problem description itself is here.

``````static Point[] getPoints(final int n) {
// first, figure out the max number of sides
int sides = 0; boolean jump = false;
for(int inc = 2, max = 0; max < n; jump = !jump, sides += 4)
max += (jump) ? ++inc : inc;
// next, compute the point translations
Point[] pts = new Point[sides];
Point[] translations = new Point[sides];
translations[0] = new Point(0,1); jump = true;
// systematically generate translations used
for(int i = 1, j = 1; i < sides/4; i++, jump = !jump)
translations[i] = (jump) ? new Point(1, j++) : new Point(j, 1);
// sort the first 4th into correct translation order
Arrays.sort(translations, new Comparator<Point>() {
public int compare(Point a, Point b) {
if(a == null || b == null) return 0;
return a.x < b.x ? -1 : a.x == b.x ?
a.y > b.y ? -1 : a.y == b.y ? 0 : 1 : 1;
}
});
// use first 4th to generate the rest
for(int i = translations.length/4; i < translations.length; i++)
translations[i] = new Point(translations[i-(translations.length/4)].y,
-translations[i-(translations.length/4)].x);
// finally, find first point and use translations to generate the rest
int y = 0; jump = true;
for(int i = 0, j = 1; i < sides; i += 4, jump = !jump)
y += (jump) ? j++ : 1;
pts[0] = new Point(0, y);
for(int i = 1; i < pts.length; i++) {
pts[i] = new Point(pts[i-1]);
pts[i].translate(translations[i].x, translations[i].y);
}
// now reverse x's and y's
for(int i = 0; i < pts.length; i++)
pts[i] = new Point(pts[i].y, pts[i].x);
// and then put last point in front
Point first = pts[pts.length-1];
for(int i = pts.length-1; i > 0; i--)
pts[i] = pts[i-1];
pts[0] = first;
// and then adjust points to make the wheel symmetrical around the n-block
int w = 0, h = 0;
for(int i = 1; i < sides/4; i++) {
h += translations[i].x;
w += translations[i].y;
}
int adj = n - (w+h+1);
for(int i = 1; i <= sides/4; i++) pts[i].translate(adj, 0);