/* $Id: poly.js,v 1.2 2008/07/15 16:30:30 bdragon Exp $ */

/**
 * GPolyLine / GPolygon manager
 */

Drupal.gmap.map.prototype.poly = {};

/**
 * Distance in pixels between 2 points.
 */
Drupal.gmap.map.prototype.poly.distance = function(point1,point2) {
  return Math.sqrt(Math.pow(point2.x - point1.x,2)+Math.pow(point2.y - point1.y,2));
};

/**
 * Circle -- Following projection.
 */
Drupal.gmap.map.prototype.poly.computeCircle = function(obj,center,point2) {
  var numSides = 36;
  var sideInc = 10; // 360 / 20 = 18 degrees
  var convFactor = Math.PI/180;
  var points = [];
  var radius = obj.poly.distance(center,point2);
  // 36 sided poly ~= circle
  for (var i = 0; i <= numSides; i++) {
    var rad = i*sideInc*convFactor;
    var x = center.x + radius * Math.cos(rad);
    var y = center.y + radius * Math.sin(rad);
    //points.push(obj.map.getCurrentMapType().getProjection().fromPixelToLatLng(new GPoint(x,y),obj.map.getZoom()));
    points.push(new GPoint(x,y));
  }
  return points;
};

Drupal.gmap.map.prototype.poly.calcPolyPoints = function(center, radM, numPoints, sAngle) {
  if(!numPoints) {numPoints = 32;}
  if(!sAngle) {sAngle = 0;}

  var d2r = Math.PI / 180.0;
  var r2d = 180.0 / Math.PI;
  var angleRad = sAngle * d2r;
  // earth semi major axis is about 6378137 m
  var latScale = radM / 6378137 * r2d;
  var lngScale = latScale / Math.cos(center.latRadians());

  var angInc = 2 * Math.PI / numPoints;
  var points = [];
  for (var i = 0; i < numPoints; i++) {
    var lat = parseFloat(center.lat()) + latScale * Math.sin(angleRad);
    var lng = parseFloat(center.lng()) + lngScale * Math.cos(angleRad);
    points.push(new GLatLng(lat, lng));
    angleRad += angInc;
  }

  // close the shape and return it
  points.push(points[0]);
  return points;
};