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wicket-gmap3.js
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wicket-gmap3.js
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/** @license
*
* Copyright (C) 2012 K. Arthur Endsley (kaendsle@mtu.edu)
* Michigan Tech Research Institute (MTRI)
* 3600 Green Court, Suite 100, Ann Arbor, MI, 48105
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*
*/
(function ( root, factory ) {
if ( typeof exports === 'object' ) {
// CommonJS
factory( require('./wicket') );
} else if ( typeof define === 'function' && define.amd ) {
// AMD. Register as an anonymous module.
define( ['wicket'], factory);
} else {
// Browser globals
factory(root.Wkt );
}
}
(this, function(Wkt) {
/**
* @augments Wkt.Wkt
* A framework-dependent flag, set for each Wkt.Wkt() instance, that indicates
* whether or not a closed polygon geometry should be interpreted as a rectangle.
*/
Wkt.Wkt.prototype.isRectangle = false;
/**
* @augments Wkt.Wkt
* An object of framework-dependent construction methods used to generate
* objects belonging to the various geometry classes of the framework.
*/
Wkt.Wkt.prototype.construct = {
/**
* Creates the framework's equivalent point geometry object.
* @param config {Object} An optional properties hash the object should use
* @param component {Object} An optional component to build from
* @return {google.maps.Marker}
*/
point: function (config, component) {
var c = component || this.components;
config = config || {};
config.position = new google.maps.LatLng(c[0].y, c[0].x);
return new google.maps.Marker(config);
},
/**
* Creates the framework's equivalent multipoint geometry object.
* @param config {Object} An optional properties hash the object should use
* @return {Array} Array containing multiple google.maps.Marker
*/
multipoint: function (config) {
var i, c, arr;
c = this.components;
config = config || {};
arr = [];
for (i = 0; i < c.length; i += 1) {
arr.push(this.construct.point(config, c[i]));
}
return arr;
},
/**
* Creates the framework's equivalent linestring geometry object.
* @param config {Object} An optional properties hash the object should use
* @param component {Object} An optional component to build from
* @return {google.maps.Polyline}
*/
linestring: function (config, component) {
var i, c;
c = component || this.components;
config = config || {
editable: false
};
config.path = [];
for (i = 0; i < c.length; i += 1) {
config.path.push(new google.maps.LatLng(c[i].y, c[i].x));
}
return new google.maps.Polyline(config);
},
/**
* Creates the framework's equivalent multilinestring geometry object.
* @param config {Object} An optional properties hash the object should use
* @return {Array} Array containing multiple google.maps.Polyline instances
*/
multilinestring: function (config) {
var i, c, arr;
c = this.components;
config = config || {
editable: false
};
config.path = [];
arr = [];
for (i = 0; i < c.length; i += 1) {
arr.push(this.construct.linestring(config, c[i]));
}
return arr;
},
/**
* Creates the framework's equivalent Box or Rectangle geometry object.
* @param config {Object} An optional properties hash the object should use
* @param component {Object} An optional component to build from
* @return {google.maps.Rectangle}
*/
box: function (config, component) {
var c = component || this.components;
config = config || {};
config.bounds = new google.maps.LatLngBounds(
new google.maps.LatLng(c[0].y, c[0].x),
new google.maps.LatLng(c[1].y, c[1].x));
return new google.maps.Rectangle(config);
},
/**
* Creates the framework's equivalent polygon geometry object.
* @param config {Object} An optional properties hash the object should use
* @param component {Object} An optional component to build from
* @return {google.maps.Polygon}
*/
polygon: function (config, component) {
var j, k, c, rings, verts, outerClockwise;
var polygonIsClockwise = function (coords) {
var area = 0,
j = null,
i = 0;
for (i = 0; i < coords.length; i++) {
j = (i + 1) % coords.length;
area += (coords[j].x - coords[i].x) * (coords[j].y + coords[i].y);
}
return area > 0;
};
c = component || this.components;
config = config || {
editable: false // Editable geometry off by default
};
config.paths = [];
rings = [];
for (j = 0; j < c.length; j += 1) { // For each ring...
verts = [];
for (k = 0; k < c[j].length; k += 1) { // For each vertex...
verts.push(new google.maps.LatLng(c[j][k].y, c[j][k].x));
} // eo for each vertex
if (j === 0) {
outerClockwise = polygonIsClockwise(c[j]);
} else {
// Note that the points forming the inner path are wound in the
// opposite direction to those in the outer path, to form the hole
if (polygonIsClockwise(c[j]) === outerClockwise && this.type === 'polygon') {
verts.reverse();
}
}
rings.push(verts);
} // eo for each ring
config.paths = config.paths.concat(rings);
if (this.isRectangle) {
return (function () {
var bounds, v;
bounds = new google.maps.LatLngBounds();
for (v in rings[0]) { // Ought to be only 1 ring in a Rectangle
if (rings[0].hasOwnProperty(v)) {
bounds.extend(rings[0][v]);
}
}
return new google.maps.Rectangle({
bounds: bounds
});
}());
} else {
return new google.maps.Polygon(config);
}
},
/**
* Creates the framework's equivalent multipolygon geometry object.
* @param config {Object} An optional properties hash the object should use
* @return {Array} Array containing multiple google.maps.Polygon
*/
multipolygon: function (config) {
var i, c, arr;
c = this.components;
config = config || {
editable: false
};
config.path = [];
arr = [];
for (i = 0; i < c.length; i += 1) {
arr.push(this.construct.polygon(config, c[i]));
}
return arr;
}
};
/**
* @augments Wkt.Wkt
* A framework-dependent deconstruction method used to generate internal
* geometric representations from instances of framework geometry. This method
* uses object detection to attempt to classify members of framework geometry
* classes into the standard WKT types.
* @param obj {Object} An instance of one of the framework's geometry classes
* @param multiFlag {Boolean} If true, then the deconstructor will be forced to return a MultiGeometry (multipoint, multilinestring or multipolygon)
* @return {Object} A hash of the 'type' and 'components' thus derived, plus the WKT string of the feature.
*/
Wkt.Wkt.prototype.deconstruct = function (obj, multiFlag) {
var features, i, j, multiFlag, verts, rings, sign, tmp, response, lat, lng, vertex, ring, linestrings, k;
// Shortcut to signed area function (determines clockwise vs counter-clock)
if (google.maps.geometry) {
sign = google.maps.geometry.spherical.computeSignedArea;
};
// google.maps.LatLng //////////////////////////////////////////////////////
if (obj.constructor === google.maps.LatLng) {
response = {
type: 'point',
components: [{
x: obj.lng(),
y: obj.lat()
}]
};
return response;
}
// google.maps.Point //////////////////////////////////////////////////////
if (obj.constructor === google.maps.Point) {
response = {
type: 'point',
components: [{
x: obj.x,
y: obj.y
}]
};
return response;
}
// google.maps.Marker //////////////////////////////////////////////////////
if (obj.constructor === google.maps.Marker) {
response = {
type: 'point',
components: [{
x: obj.getPosition().lng(),
y: obj.getPosition().lat()
}]
};
return response;
}
// google.maps.Polyline ////////////////////////////////////////////////////
if (obj.constructor === google.maps.Polyline) {
verts = [];
for (i = 0; i < obj.getPath().length; i += 1) {
tmp = obj.getPath().getAt(i);
verts.push({
x: tmp.lng(),
y: tmp.lat()
});
}
response = {
type: 'linestring',
components: verts
};
return response;
}
// google.maps.Polygon /////////////////////////////////////////////////////
if (obj.constructor === google.maps.Polygon) {
rings = [];
if (multiFlag === undefined) {
multiFlag = (function () {
var areas, i, l;
l = obj.getPaths().length;
if (l <= 1) { // Trivial; this is a single polygon
return false;
}
areas = obj.getPaths().getArray().map(function (k) {
return sign(k) > 0 ? 1 : -1; // Unit normalization (outputs 1 or -1)
});
// If two clockwise or two counter-clockwise rings are found
// (at different indices)...
if (areas.indexOf(areas[0]) !== areas.lastIndexOf(areas[0])) {
return true;
}
return false;
}());
}
for (i = 0; i < obj.getPaths().length; i += 1) { // For each polygon (ring)...
tmp = obj.getPaths().getAt(i);
verts = [];
for (j = 0; j < tmp.length; j += 1) { // For each vertex...
verts.push({
x: tmp.getAt(j).lng(),
y: tmp.getAt(j).lat()
});
}
if (!tmp.getAt(tmp.length - 1).equals(tmp.getAt(0))) {
verts.push({ // Add the first coordinate again for closure
x: tmp.getAt(0).lng(),
y: tmp.getAt(0).lat()
});
}
if (multiFlag) {
if (i === 0) {
k = sign(tmp);
} else if (k * sign(tmp) > 0) {
// If current ring has same orientation with the outer ring,
// Wrap multipolygons once more (collection)
verts = [verts];
}
}
rings.push(verts);
}
response = {
type: (multiFlag) ? 'multipolygon' : 'polygon',
components: rings
};
return response;
}
// google.maps.Circle //////////////////////////////////////////////////////
if (obj.constructor === google.maps.Circle) {
var point = obj.getCenter();
var radius = obj.getRadius();
verts = [];
var d2r = Math.PI / 180; // degrees to radians
var r2d = 180 / Math.PI; // radians to degrees
radius = radius / 1609; // meters to miles
var earthsradius = 3963; // 3963 is the radius of the earth in miles
var num_seg = 32; // number of segments used to approximate a circle
var rlat = (radius / earthsradius) * r2d;
var rlng = rlat / Math.cos(point.lat() * d2r);
for (var n = 0; n <= num_seg; n++) {
var theta = Math.PI * (n / (num_seg / 2));
lng = point.lng() + (rlng * Math.cos(theta)); // center a + radius x * cos(theta)
lat = point.lat() + (rlat * Math.sin(theta)); // center b + radius y * sin(theta)
verts.push({
x: lng,
y: lat
});
}
response = {
type: 'polygon',
components: [verts]
};
return response;
}
// google.maps.LatLngBounds ///////////////////////////////////////////////////
if (obj.constructor === google.maps.LatLngBounds) {
tmp = obj;
verts = [];
verts.push({ // NW corner
x: tmp.getSouthWest().lng(),
y: tmp.getNorthEast().lat()
});
verts.push({ // NE corner
x: tmp.getNorthEast().lng(),
y: tmp.getNorthEast().lat()
});
verts.push({ // SE corner
x: tmp.getNorthEast().lng(),
y: tmp.getSouthWest().lat()
});
verts.push({ // SW corner
x: tmp.getSouthWest().lng(),
y: tmp.getSouthWest().lat()
});
verts.push({ // NW corner (again, for closure)
x: tmp.getSouthWest().lng(),
y: tmp.getNorthEast().lat()
});
response = {
type: 'polygon',
isRectangle: true,
components: [verts]
};
return response;
}
// google.maps.Rectangle ///////////////////////////////////////////////////
if (obj.constructor === google.maps.Rectangle) {
tmp = obj.getBounds();
verts = [];
verts.push({ // NW corner
x: tmp.getSouthWest().lng(),
y: tmp.getNorthEast().lat()
});
verts.push({ // NE corner
x: tmp.getNorthEast().lng(),
y: tmp.getNorthEast().lat()
});
verts.push({ // SE corner
x: tmp.getNorthEast().lng(),
y: tmp.getSouthWest().lat()
});
verts.push({ // SW corner
x: tmp.getSouthWest().lng(),
y: tmp.getSouthWest().lat()
});
verts.push({ // NW corner (again, for closure)
x: tmp.getSouthWest().lng(),
y: tmp.getNorthEast().lat()
});
response = {
type: 'polygon',
isRectangle: true,
components: [verts]
};
return response;
}
// google.maps.Data Geometry Types /////////////////////////////////////////////////////
// google.maps.Data.Feature /////////////////////////////////////////////////////
if (obj.constructor === google.maps.Data.Feature) {
return this.deconstruct.call(this, obj.getGeometry());
}
// google.maps.Data.Point /////////////////////////////////////////////////////
if (obj.constructor === google.maps.Data.Point) {
//console.log('It is a google.maps.Data.Point');
response = {
type: 'point',
components: [{
x: obj.get().lng(),
y: obj.get().lat()
}]
};
return response;
}
// google.maps.Data.LineString /////////////////////////////////////////////////////
if (obj.constructor === google.maps.Data.LineString) {
verts = [];
//console.log('It is a google.maps.Data.LineString');
for (i = 0; i < obj.getLength(); i += 1) {
vertex = obj.getAt(i);
verts.push({
x: vertex.lng(),
y: vertex.lat()
});
}
response = {
type: 'linestring',
components: verts
};
return response;
}
// google.maps.Data.Polygon /////////////////////////////////////////////////////
if (obj.constructor === google.maps.Data.Polygon) {
var rings = [];
//console.log('It is a google.maps.Data.Polygon');
for (i = 0; i < obj.getLength(); i += 1) { // For each ring...
ring = obj.getAt(i);
var verts = [];
for (j = 0; j < ring.getLength(); j += 1) { // For each vertex...
vertex = ring.getAt(j);
verts.push({
x: vertex.lng(),
y: vertex.lat()
});
}
verts.push({
x: ring.getAt(0).lng(),
y: ring.getAt(0).lat()
});
rings.push(verts);
}
response = {
type: 'polygon',
components: rings
};
return response;
}
// google.maps.Data.MultiPoint /////////////////////////////////////////////////////
if (obj.constructor === google.maps.Data.MultiPoint) {
verts = [];
for (i = 0; i < obj.getLength(); i += 1) {
vertex = obj.getAt(i);
verts.push([{
x: vertex.lng(),
y: vertex.lat()
}]);
}
response = {
type: 'multipoint',
components: verts
};
return response;
}
// google.maps.Data.MultiLineString /////////////////////////////////////////////////////
if (obj.constructor === google.maps.Data.MultiLineString) {
linestrings = []
for (i = 0; i < obj.getLength(); i += 1) {
verts = [];
var linestring = obj.getAt(i);
for (j = 0; j < linestring.getLength(); j += 1) {
vertex = linestring.getAt(j);
verts.push({
x: vertex.lng(),
y: vertex.lat()
});
}
linestrings.push(verts);
}
response = {
type: 'multilinestring',
components: linestrings
};
return response;
}
// google.maps.Data.MultiPolygon /////////////////////////////////////////////////////
if (obj.constructor === google.maps.Data.MultiPolygon) {
var polygons = [];
//console.log('It is a google.maps.Data.MultiPolygon');
for (k = 0; k < obj.getLength(); k += 1) { // For each multipolygon
var polygon = obj.getAt(k);
var rings = [];
for (i = 0; i < polygon.getLength(); i += 1) { // For each ring...
ring = polygon.getAt(i);
var verts = [];
for (j = 0; j < ring.getLength(); j += 1) { // For each vertex...
vertex = ring.getAt(j);
verts.push({
x: vertex.lng(),
y: vertex.lat()
});
}
verts.push({
x: ring.getAt(0).lng(),
y: ring.getAt(0).lat()
});
rings.push(verts);
}
polygons.push(rings);
}
response = {
type: 'multipolygon',
components: polygons
};
return response;
}
// google.maps.Data.GeometryCollection /////////////////////////////////////////////////////
if (obj.constructor === google.maps.Data.GeometryCollection) {
var objects = [];
for (k = 0; k < obj.getLength(); k += 1) { // For each multipolygon
var object = obj.getAt(k);
objects.push(this.deconstruct.call(this, object));
}
//console.log('It is a google.maps.Data.GeometryCollection', objects);
response = {
type: 'geometrycollection',
components: objects
};
return response;
}
// Array ///////////////////////////////////////////////////////////////////
if (Wkt.isArray(obj)) {
features = [];
for (i = 0; i < obj.length; i += 1) {
features.push(this.deconstruct.call(this, obj[i], true));
}
response = {
type: (function () {
var k, type = obj[0].constructor;
for (k = 0; k < obj.length; k += 1) {
// Check that all items have the same constructor as the first item
if (obj[k].constructor !== type) {
// If they don't, type is heterogeneous geometry collection
return 'geometrycollection';
}
}
switch (type) {
case google.maps.Marker:
return 'multipoint';
case google.maps.Polyline:
return 'multilinestring';
case google.maps.Polygon:
return 'multipolygon';
default:
return 'geometrycollection';
}
}()),
components: (function () {
// Pluck the components from each Wkt
var i, comps;
comps = [];
for (i = 0; i < features.length; i += 1) {
if (features[i].components) {
comps.push(features[i].components);
}
}
return {
comps: comps
};
}())
};
response.components = response.components.comps;
return response;
}
console.log('The passed object does not have any recognizable properties.');
};
return Wkt;
}));