Problem
Users can provide up to four latitude and longitude coordinates, in any order. They do so with Google Maps. Using Google's Polygon
API (v3), the coordinates they select should highlight the selected area between the four coordinates.
Question
How do you sort an array of latitude and longitude coordinates in (counter-)clockwise order?
Solutions and Searches
StackOverflow Questions
- Drawing resizable (not intersecting) polygons
- How to sort points in a Google maps polygon so that lines do not cross?
- Sort Four Points in Clockwise Order
Related Sites
- http://www.daftlogic.com/projects-google-maps-area-calculator-tool.htm
- http://en.literateprograms.org/Quickhull_%28Javascript%29
- http://www.geocodezip.com/map-markers_ConvexHull_Polygon.asp
- http://softsurfer.com/Archive/algorithm_0103/algorithm_0103.htm
Known Algorithms
- Graham's scan (too complicated)
- Jarvis March algorithm (handles N points)
- Recursive Convex Hull (removes a point)
Code
Here is what I have so far:
// Ensures the markers are sorted: NW, NE, SE, SW
function sortMarkers() {
var ns = markers.slice( 0 );
var ew = markers.slice( 0 );
ew.sort( function( a, b ) {
if( a.position.lat() < b.position.lat() ) {
return -1;
}
else if( a.position.lat() > b.position.lat() ) {
return 1;
}
return 0;
});
ns.sort( function( a, b ) {
if( a.position.lng() < b.position.lng() ) {
return -1;
}
else if( a.position.lng() > b.position.lng() ) {
return 1;
}
return 0;
});
var nw;
var ne;
var se;
var sw;
if( ew.indexOf( ns[0] ) > 1 ) {
nw = ns[0];
}
else {
ne = ns[0];
}
if( ew.inde开发者_运维技巧xOf( ns[1] ) > 1 ) {
nw = ns[1];
}
else {
ne = ns[1];
}
if( ew.indexOf( ns[2] ) > 1 ) {
sw = ns[2];
}
else {
se = ns[2];
}
if( ew.indexOf( ns[3] ) > 1 ) {
sw = ns[3];
}
else {
se = ns[3];
}
markers[0] = nw;
markers[1] = ne;
markers[2] = se;
markers[3] = sw;
}
Thank you.
Given the points:
4 + [d] [g]
|
3 [a] [e]
|
2 + [f] [h]
|
1 + [b]
|
0 +----+---[c]---+----+----+----+
0 1 2 3 4 5 6
you want to find the following bound walk:
4 + ___[d]------------[g]
| __/ \
3 [a]/ [e]__ \
| \ \_ ```--- \
2 + \ `[f] \___[h]
| \ __/
1 + [b] __/
| \ /
0 +----+--`[c]---+----+----+----+
0 1 2 3 4 5 6
?
If this is correct, here's a way:
- find the upper most point, Ptop, in the set of points. In case of a tie, pick the point with the smallest x coordinate
- sort all points by comparing the slopes mi and mj of the lines each pair of points (excluding Ptop!) Pi and Pj make when passing through Ptop
- if mi and mj are equal, let the point Pi or Pj closest to Ptop come first
- if mi is positive and mj is negative (or zero), Pj comes first
- if both mi and mj are either positive or negative, let the point belonging to the line with the largest slope come first
Here's a quick demo for the map:
(I know little JavaScript, so I might, or probably have, violated some JavaScript code conventions...):
var points = [
new Point("Stuttgard", 48.7771056, 9.1807688),
new Point("Rotterdam", 51.9226899, 4.4707867),
new Point("Paris", 48.8566667, 2.3509871),
new Point("Hamburg", 53.5538148, 9.9915752),
new Point("Praha", 50.0878114, 14.4204598),
new Point("Amsterdam", 52.3738007, 4.8909347),
new Point("Bremen", 53.074981, 8.807081),
new Point("Calais", 50.9580293, 1.8524129),
];
var upper = upperLeft(points);
print("points :: " + points);
print("upper :: " + upper);
points.sort(pointSort);
print("sorted :: " + points);
// A representation of a 2D Point.
function Point(label, lat, lon) {
this.label = label;
this.x = (lon + 180) * 360;
this.y = (lat + 90) * 180;
this.distance=function(that) {
var dX = that.x - this.x;
var dY = that.y - this.y;
return Math.sqrt((dX*dX) + (dY*dY));
}
this.slope=function(that) {
var dX = that.x - this.x;
var dY = that.y - this.y;
return dY / dX;
}
this.toString=function() {
return this.label;
}
}
// A custom sort function that sorts p1 and p2 based on their slope
// that is formed from the upper most point from the array of points.
function pointSort(p1, p2) {
// Exclude the 'upper' point from the sort (which should come first).
if(p1 == upper) return -1;
if(p2 == upper) return 1;
// Find the slopes of 'p1' and 'p2' when a line is
// drawn from those points through the 'upper' point.
var m1 = upper.slope(p1);
var m2 = upper.slope(p2);
// 'p1' and 'p2' are on the same line towards 'upper'.
if(m1 == m2) {
// The point closest to 'upper' will come first.
return p1.distance(upper) < p2.distance(upper) ? -1 : 1;
}
// If 'p1' is to the right of 'upper' and 'p2' is the the left.
if(m1 <= 0 && m2 > 0) return -1;
// If 'p1' is to the left of 'upper' and 'p2' is the the right.
if(m1 > 0 && m2 <= 0) return 1;
// It seems that both slopes are either positive, or negative.
return m1 > m2 ? -1 : 1;
}
// Find the upper most point. In case of a tie, get the left most point.
function upperLeft(points) {
var top = points[0];
for(var i = 1; i < points.length; i++) {
var temp = points[i];
if(temp.y > top.y || (temp.y == top.y && temp.x < top.x)) {
top = temp;
}
}
return top;
}
Note: your should double, or triple check the conversions from lat,lon
to x,y
as I am a novice if it comes to GIS!!! But perhaps you don't even need to convert anything. If you don't, the upperLeft
function might just return the lowest point instead of the highest, depending on the locations of the points in question. Again: triple check these assumptions!
When executing the snippet above, the following gets printed:
points :: Stuttgard,Rotterdam,Paris,Hamburg,Praha,Amsterdam,Bremen,Calais
upper :: Hamburg
sorted :: Hamburg,Praha,Stuttgard,Paris,Bremen,Calais,Rotterdam,Amsterdam
Alternate Distance Function
function distance(lat1, lng1, lat2, lng2) {
var R = 6371; // km
var dLat = (lat2-lat1).toRad();
var dLon = (lng2-lng1).toRad();
var a = Math.sin(dLat/2) * Math.sin(dLat/2) +
Math.cos(lat1.toRad()) * Math.cos(lat2.toRad()) *
Math.sin(dLon/2) * Math.sin(dLon/2);
var c = 2 * Math.atan2(Math.sqrt(a), Math.sqrt(1-a));
return R * c;
}
Algorithm idea: average the four points to get a point inside the polygon. Then calculate the angle of the ray between that center point and each point, using inverse trigonometric functions, like explained here. Then sort by the angles. That should give you a (counter-)clockwise ordering, depending on the sort order and what you consider "zero degrees".
UPDATE: here's some code. Mostly untested, but it's the idea.
function sorted_points(points) {
points = points.slice(0); // copy the array, since sort() modifies it
var stringify_point = function(p) { return p.x + ',' + p.y; };
// finds a point in the interior of `pts`
var avg_points = function(pts) {
var x = 0;
y = 0;
for(i = 0; i < pts.length; i++) {
x += pts[i].x;
y += pts[i].y;
}
return {x: x/pts.length, y:y/pts.length};
}
var center = avg_points(points);
// calculate the angle between each point and the centerpoint, and sort by those angles
var angles = {};
for(i = 0; i < points.length; i++) {
angles[stringify_point(points[i])] = Math.atan(points[i].x - center.x, points[i].y - center.y);
}
points.sort(function(p1, p2) {
return angles[stringify_point(p1)] - angles[stringify_point(p2)];
});
return points;
}
It sorts points (an array of objects like {x: 1, y: 1}
) counter-clockwise.
For those arriving here having a similar problem a year later:
I do not agree with the chosen answer's bound walk. There is no singular solution to the order even with a given clock direction. The convex hull of the given coordinates eliminates points e and f. These can then be attached anywhere along the path. Objectively, h,e,f,c can be improved to h,f,e,c keeping the direction of the x component consistent - in this case, negative.
The significance of this makes it impossible to guarantee the inclusion of any map location in the resulted area bounded by the chosen walk.
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