Pixel-Composer/scripts/polygon_points/polygon_points.gml

91 lines
2.7 KiB
Plaintext
Raw Normal View History

2023-07-31 11:47:18 +02:00
function generate_point_in_polygon(polygon, amount = 1) {
var minX, maxX, minY, maxY;
var pointsInside = [];
if(array_length(polygon) < 3) return pointsInside;
// Find the minimum and maximum X and Y coordinates of the polygon
for (var i = 0; i < array_length(polygon); i++) {
var point = polygon[i];
var _x = point[0];
var _y = point[1];
if (i == 0) {
minX = _x;
maxX = _x;
minY = _y;
maxY = _y;
} else {
if (_x < minX) minX = _x;
if (_x > maxX) maxX = _x;
if (_y < minY) minY = _y;
if (_y > maxY) maxY = _y;
}
}
// Generate random points inside the polygon
for (var j = 0; j < amount; j++) {
var pointInside = [ random_range(minX, maxX), random_range(minY, maxY) ];
var numIntersections = 0;
for (var k = 0; k < array_length(polygon); k++) {
var currentPoint = polygon[k];
var nextPoint = polygon[(k + 1) mod array_length(polygon)];
if ((currentPoint[1] > pointInside[1]) != (nextPoint[1] > pointInside[1])) {
var intersectX = (nextPoint[0] - currentPoint[0]) * (pointInside[1] - currentPoint[1]) /
(nextPoint[1] - currentPoint[1]) + currentPoint[0];
if (pointInside[0] < intersectX)
numIntersections++;
}
}
if (numIntersections % 2 == 1)
array_push(pointsInside, pointInside);
}
return pointsInside;
}
function point_in_polygon(px, py, polygon) {
var minX, maxX, minY, maxY;
if(array_length(polygon) < 3) return false;
// Find the minimum and maximum X and Y coordinates of the polygon
for (var i = 0; i < array_length(polygon); i++) {
var point = polygon[i];
var _x = point[0];
var _y = point[1];
if (i == 0) {
minX = _x;
maxX = _x;
minY = _y;
maxY = _y;
} else {
if (_x < minX) minX = _x;
if (_x > maxX) maxX = _x;
if (_y < minY) minY = _y;
if (_y > maxY) maxY = _y;
}
}
var numIntersections = 0;
for (var k = 0; k < array_length(polygon); k++) {
var currentPoint = polygon[k];
var nextPoint = polygon[(k + 1) mod array_length(polygon)];
if ((currentPoint[1] > py) != (nextPoint[1] > py)) {
var intersectX = (nextPoint[0] - currentPoint[0]) * (py - currentPoint[1]) /
(nextPoint[1] - currentPoint[1]) + currentPoint[0];
if (px < intersectX)
numIntersections++;
}
}
return numIntersections % 2 == 1;
}