enum AREA_DISTRIBUTION { area, border } enum AREA_SCATTER { uniform, random } function area_get_bbox(area) { return [ area[0] - area[2], area[1] - area[3], area[0] + area[2], area[1] + area[3] ]; } function area_get_random_point(area, distrib = AREA_DISTRIBUTION.area, scatter = AREA_SCATTER.random, index = 0, total = 1) { if(total == 0) return [0, 0]; var _area_x = array_safe_get_fast(area, 0); var _area_y = array_safe_get_fast(area, 1); var _area_w = array_safe_get_fast(area, 2); var _area_h = array_safe_get_fast(area, 3); var _area_t = array_safe_get_fast(area, 4); var xx = 0, yy = 0; index = safe_mod(index, total); switch(distrib) { case AREA_DISTRIBUTION.area : if(scatter == AREA_SCATTER.uniform) { if(_area_t == AREA_SHAPE.rectangle) { var _col = ceil(sqrt(total)); var _row = ceil(total / _col); var _iwid = _area_w * 2 / _col; var _ihig = _area_h * 2 / _row; var _irow = floor(index / _col); var _icol = safe_mod(index, _col); xx = _area_x - _area_w + (_icol + 0.5) * _iwid; yy = _area_y - _area_h + (_irow + 0.5) * _ihig; //print($"{yy} = {_area_y} - {_area_h} + ({_irow} + 0.5) * {_ihig}") } else { if(index == 0) { xx = _area_x; yy = _area_y; break; } var _r = _area_w; var _a = _area_w / _area_h; var _tm = floor(total / (2 * pi)); var _tn = ceil(sqrt(2 * _tm + 1 / 2) - 1 / 2); var _s = _r / _tn; var _m = floor(index / (2 * pi)); var _n = floor(sqrt(2 * _m + 1 / 2) - 1 / 2); var _sr = (_n + 1) * _s; var _tt = floor((_n * (_n + 1)) / 2 * pi * 2); var _sa = (index - _tt) / (min(total - _tt, floor((_n + 1) * 2 * pi)) - 1) * 360; xx = _area_x + lengthdir_x(_sr, _sa); yy = _area_y + lengthdir_y(_sr, _sa) / _a; } } else if(scatter == AREA_SCATTER.random) { if(_area_t == AREA_SHAPE.rectangle) { xx = _area_x + random_range(-_area_w, _area_w); yy = _area_y + random_range(-_area_h, _area_h); } else if(_area_t == AREA_SHAPE.elipse) { var rr = random(360); xx = _area_x + lengthdir_x(1, rr) * random(_area_w); yy = _area_y + lengthdir_y(1, rr) * random(_area_h); } } break; case AREA_DISTRIBUTION.border : if(scatter == AREA_SCATTER.uniform) { if(_area_t == AREA_SHAPE.rectangle) { var perimeter = _area_w * 4 + _area_h * 4; var d = perimeter / total; var l = perimeter * index / total; if(l <= _area_w * 2) { xx = _area_x - _area_w + l; yy = _area_y - _area_h; break; } l -= _area_w * 2; if(l <= _area_h * 2) { xx = _area_x + _area_w; yy = _area_y - _area_h + l; break; } l -= _area_h * 2; if(l <= _area_w * 2) { xx = _area_x + _area_w - l; yy = _area_y + _area_h; break; } l -= _area_w * 2; if(l <= _area_h * 2) { xx = _area_x - _area_w; yy = _area_y + _area_h - l; break; } l -= _area_h * 2; } else if(_area_t == AREA_SHAPE.elipse) { var rr = 360 * index / total; xx = _area_x + lengthdir_x(_area_w, rr); yy = _area_y + lengthdir_y(_area_h, rr); } } else if(scatter == AREA_SCATTER.random) { if(_area_t == AREA_SHAPE.rectangle) { var perimeter = _area_w * 2 + _area_h * 2; var i = random(perimeter); if(i < _area_w) { xx = _area_x + random_range(-_area_w, _area_w); yy = _area_y - _area_h; } else if(i < _area_w + _area_h) { xx = _area_x - _area_w; yy = _area_y + random_range(-_area_h, _area_h); } else if(i < _area_w * 2 + _area_h) { xx = _area_x + random_range(-_area_w, _area_w); yy = _area_y + _area_h; } else { xx = _area_x + _area_w; yy = _area_y + random_range(-_area_h, _area_h); } } else if(_area_t == AREA_SHAPE.elipse) { var rr = random(360); xx = _area_x + lengthdir_x(_area_w, rr); yy = _area_y + lengthdir_y(_area_h, rr); } } break; } return [xx, yy]; }