// Generated by CoffeeScript 1.6.2 /** @preserve OverlappingMarkerSpiderfier https://github.com/jawj/OverlappingMarkerSpiderfier Copyright (c) 2011 - 2012 George MacKerron Released under the MIT licence: http://opensource.org/licenses/mit-license Note: The Google Maps API v3 must be included *before* this code */ (function() { var _ref, __hasProp = {}.hasOwnProperty, __slice = [].slice; if (((_ref = this['google']) != null ? _ref['maps'] : void 0) == null) { return; } this['OverlappingMarkerSpiderfier'] = (function() { var ge, gm, lcH, lcU, mt, p, twoPi, x, _i, _len, _ref1; p = _Class.prototype; _ref1 = [_Class, p]; for (_i = 0, _len = _ref1.length; _i < _len; _i++) { x = _ref1[_i]; x['VERSION'] = '0.3.3'; } gm = google.maps; ge = gm.event; mt = gm.MapTypeId; twoPi = Math.PI * 2; p['keepSpiderfied'] = false; p['markersWontHide'] = false; p['markersWontMove'] = false; p['nearbyDistance'] = 20; p['circleSpiralSwitchover'] = 20; p['circleFootSeparation'] = 43; p['circleStartAngle'] = twoPi / 12; p['spiralFootSeparation'] = 26; p['spiralLengthStart'] = 11; p['spiralLengthFactor'] = 4; p['spiderfiedZIndex'] = 1000; p['usualLegZIndex'] = 10; p['highlightedLegZIndex'] = 20; p['legWeight'] = 1.5; p['legColors'] = { 'usual': {}, 'highlighted': {} }; lcU = p['legColors']['usual']; lcH = p['legColors']['highlighted']; lcU[mt.HYBRID] = lcU[mt.SATELLITE] = '#fff'; lcH[mt.HYBRID] = lcH[mt.SATELLITE] = '#f00'; lcU[mt.TERRAIN] = lcU[mt.ROADMAP] = '#444'; lcH[mt.TERRAIN] = lcH[mt.ROADMAP] = '#f00'; function _Class(map, opts) { var e, k, v, _j, _len1, _ref2, _this = this; this.map = map; if (opts == null) { opts = {}; } for (k in opts) { if (!__hasProp.call(opts, k)) continue; v = opts[k]; this[k] = v; } this.projHelper = new this.constructor.ProjHelper(this.map); this.initMarkerArrays(); this.listeners = {}; _ref2 = ['click', 'zoom_changed', 'maptypeid_changed']; for (_j = 0, _len1 = _ref2.length; _j < _len1; _j++) { e = _ref2[_j]; ge.addListener(this.map, e, function() { return _this['unspiderfy'](); }); } } p.initMarkerArrays = function() { this.markers = []; return this.markerListenerRefs = []; }; p['addMarker'] = function(marker) { var listenerRefs, _this = this; if (marker['_oms'] != null) { return this; } marker['_oms'] = true; listenerRefs = [ ge.addListener(marker, 'click', function(event) { return _this.spiderListener(marker, event); }) ]; if (!this['markersWontHide']) { listenerRefs.push(ge.addListener(marker, 'visible_changed', function() { return _this.markerChangeListener(marker, false); })); } if (!this['markersWontMove']) { listenerRefs.push(ge.addListener(marker, 'position_changed', function() { return _this.markerChangeListener(marker, true); })); } this.markerListenerRefs.push(listenerRefs); this.markers.push(marker); return this; }; p.markerChangeListener = function(marker, positionChanged) { if ((marker['_omsData'] != null) && (positionChanged || !marker.getVisible()) && !((this.spiderfying != null) || (this.unspiderfying != null))) { return this['unspiderfy'](positionChanged ? marker : null); } }; p['getMarkers'] = function() { return this.markers.slice(0); }; p['removeMarker'] = function(marker) { var i, listenerRef, listenerRefs, _j, _len1; if (marker['_omsData'] != null) { this['unspiderfy'](); } i = this.arrIndexOf(this.markers, marker); if (i < 0) { return this; } listenerRefs = this.markerListenerRefs.splice(i, 1)[0]; for (_j = 0, _len1 = listenerRefs.length; _j < _len1; _j++) { listenerRef = listenerRefs[_j]; ge.removeListener(listenerRef); } delete marker['_oms']; this.markers.splice(i, 1); return this; }; p['clearMarkers'] = function() { var i, listenerRef, listenerRefs, marker, _j, _k, _len1, _len2, _ref2; this['unspiderfy'](); _ref2 = this.markers; for (i = _j = 0, _len1 = _ref2.length; _j < _len1; i = ++_j) { marker = _ref2[i]; listenerRefs = this.markerListenerRefs[i]; for (_k = 0, _len2 = listenerRefs.length; _k < _len2; _k++) { listenerRef = listenerRefs[_k]; ge.removeListener(listenerRef); } delete marker['_oms']; } this.initMarkerArrays(); return this; }; p['addListener'] = function(event, func) { var _base, _ref2; ((_ref2 = (_base = this.listeners)[event]) != null ? _ref2 : _base[event] = []).push(func); return this; }; p['removeListener'] = function(event, func) { var i; i = this.arrIndexOf(this.listeners[event], func); if (!(i < 0)) { this.listeners[event].splice(i, 1); } return this; }; p['clearListeners'] = function(event) { this.listeners[event] = []; return this; }; p.trigger = function() { var args, event, func, _j, _len1, _ref2, _ref3, _results; event = arguments[0], args = 2 <= arguments.length ? __slice.call(arguments, 1) : []; _ref3 = (_ref2 = this.listeners[event]) != null ? _ref2 : []; _results = []; for (_j = 0, _len1 = _ref3.length; _j < _len1; _j++) { func = _ref3[_j]; _results.push(func.apply(null, args)); } return _results; }; p.generatePtsCircle = function(count, centerPt) { var angle, angleStep, circumference, i, legLength, _j, _results; circumference = this['circleFootSeparation'] * (2 + count); legLength = circumference / twoPi; angleStep = twoPi / count; _results = []; for (i = _j = 0; 0 <= count ? _j < count : _j > count; i = 0 <= count ? ++_j : --_j) { angle = this['circleStartAngle'] + i * angleStep; _results.push(new gm.Point(centerPt.x + legLength * Math.cos(angle), centerPt.y + legLength * Math.sin(angle))); } return _results; }; p.generatePtsSpiral = function(count, centerPt) { var angle, i, legLength, pt, _j, _results; legLength = this['spiralLengthStart']; angle = 0; _results = []; for (i = _j = 0; 0 <= count ? _j < count : _j > count; i = 0 <= count ? ++_j : --_j) { angle += this['spiralFootSeparation'] / legLength + i * 0.0005; pt = new gm.Point(centerPt.x + legLength * Math.cos(angle), centerPt.y + legLength * Math.sin(angle)); legLength += twoPi * this['spiralLengthFactor'] / angle; _results.push(pt); } return _results; }; p.spiderListener = function(marker, event) { var m, mPt, markerPt, markerSpiderfied, nDist, nearbyMarkerData, nonNearbyMarkers, pxSq, _j, _len1, _ref2; markerSpiderfied = marker['_omsData'] != null; if (!(markerSpiderfied && this['keepSpiderfied'])) { this['unspiderfy'](); } if (markerSpiderfied || this.map.getStreetView().getVisible() || this.map.getMapTypeId() === 'GoogleEarthAPI') { return this.trigger('click', marker, event); } else { nearbyMarkerData = []; nonNearbyMarkers = []; nDist = this['nearbyDistance']; pxSq = nDist * nDist; markerPt = this.llToPt(marker.position); _ref2 = this.markers; for (_j = 0, _len1 = _ref2.length; _j < _len1; _j++) { m = _ref2[_j]; if (!((m.map != null) && m.getVisible())) { continue; } mPt = this.llToPt(m.position); if (this.ptDistanceSq(mPt, markerPt) < pxSq) { nearbyMarkerData.push({ marker: m, markerPt: mPt }); } else { nonNearbyMarkers.push(m); } } if (nearbyMarkerData.length === 1) { return this.trigger('click', marker, event); } else { return this.spiderfy(nearbyMarkerData, nonNearbyMarkers); } } }; p['markersNearMarker'] = function(marker, firstOnly) { var m, mPt, markerPt, markers, nDist, pxSq, _j, _len1, _ref2, _ref3, _ref4; if (firstOnly == null) { firstOnly = false; } if (this.projHelper.getProjection() == null) { throw "Must wait for 'idle' event on map before calling markersNearMarker"; } nDist = this['nearbyDistance']; pxSq = nDist * nDist; markerPt = this.llToPt(marker.position); markers = []; _ref2 = this.markers; for (_j = 0, _len1 = _ref2.length; _j < _len1; _j++) { m = _ref2[_j]; if (m === marker || (m.map == null) || !m.getVisible()) { continue; } mPt = this.llToPt((_ref3 = (_ref4 = m['_omsData']) != null ? _ref4.usualPosition : void 0) != null ? _ref3 : m.position); if (this.ptDistanceSq(mPt, markerPt) < pxSq) { markers.push(m); if (firstOnly) { break; } } } return markers; }; p['markersNearAnyOtherMarker'] = function() { var i, i1, i2, m, m1, m1Data, m2, m2Data, mData, nDist, pxSq, _j, _k, _l, _len1, _len2, _len3, _ref2, _ref3, _ref4, _results; if (this.projHelper.getProjection() == null) { throw "Must wait for 'idle' event on map before calling markersNearAnyOtherMarker"; } nDist = this['nearbyDistance']; pxSq = nDist * nDist; mData = (function() { var _j, _len1, _ref2, _ref3, _ref4, _results; _ref2 = this.markers; _results = []; for (_j = 0, _len1 = _ref2.length; _j < _len1; _j++) { m = _ref2[_j]; _results.push({ pt: this.llToPt((_ref3 = (_ref4 = m['_omsData']) != null ? _ref4.usualPosition : void 0) != null ? _ref3 : m.position), willSpiderfy: false }); } return _results; }).call(this); _ref2 = this.markers; for (i1 = _j = 0, _len1 = _ref2.length; _j < _len1; i1 = ++_j) { m1 = _ref2[i1]; if (!((m1.map != null) && m1.getVisible())) { continue; } m1Data = mData[i1]; if (m1Data.willSpiderfy) { continue; } _ref3 = this.markers; for (i2 = _k = 0, _len2 = _ref3.length; _k < _len2; i2 = ++_k) { m2 = _ref3[i2]; if (i2 === i1) { continue; } if (!((m2.map != null) && m2.getVisible())) { continue; } m2Data = mData[i2]; if (i2 < i1 && !m2Data.willSpiderfy) { continue; } if (this.ptDistanceSq(m1Data.pt, m2Data.pt) < pxSq) { m1Data.willSpiderfy = m2Data.willSpiderfy = true; break; } } } _ref4 = this.markers; _results = []; for (i = _l = 0, _len3 = _ref4.length; _l < _len3; i = ++_l) { m = _ref4[i]; if (mData[i].willSpiderfy) { _results.push(m); } } return _results; }; p.makeHighlightListenerFuncs = function(marker) { var _this = this; return { highlight: function() { return marker['_omsData'].leg.setOptions({ strokeColor: _this['legColors']['highlighted'][_this.map.mapTypeId], zIndex: _this['highlightedLegZIndex'] }); }, unhighlight: function() { return marker['_omsData'].leg.setOptions({ strokeColor: _this['legColors']['usual'][_this.map.mapTypeId], zIndex: _this['usualLegZIndex'] }); } }; }; p.spiderfy = function(markerData, nonNearbyMarkers) { var bodyPt, footLl, footPt, footPts, highlightListenerFuncs, leg, marker, md, nearestMarkerDatum, numFeet, spiderfiedMarkers; this.spiderfying = true; numFeet = markerData.length; bodyPt = this.ptAverage((function() { var _j, _len1, _results; _results = []; for (_j = 0, _len1 = markerData.length; _j < _len1; _j++) { md = markerData[_j]; _results.push(md.markerPt); } return _results; })()); footPts = numFeet >= this['circleSpiralSwitchover'] ? this.generatePtsSpiral(numFeet, bodyPt).reverse() : this.generatePtsCircle(numFeet, bodyPt); spiderfiedMarkers = (function() { var _j, _len1, _results, _this = this; _results = []; for (_j = 0, _len1 = footPts.length; _j < _len1; _j++) { footPt = footPts[_j]; footLl = this.ptToLl(footPt); nearestMarkerDatum = this.minExtract(markerData, function(md) { return _this.ptDistanceSq(md.markerPt, footPt); }); marker = nearestMarkerDatum.marker; leg = new gm.Polyline({ map: this.map, path: [marker.position, footLl], strokeColor: this['legColors']['usual'][this.map.mapTypeId], strokeWeight: this['legWeight'], zIndex: this['usualLegZIndex'] }); marker['_omsData'] = { usualPosition: marker.position, leg: leg }; if (this['legColors']['highlighted'][this.map.mapTypeId] !== this['legColors']['usual'][this.map.mapTypeId]) { highlightListenerFuncs = this.makeHighlightListenerFuncs(marker); marker['_omsData'].hightlightListeners = { highlight: ge.addListener(marker, 'mouseover', highlightListenerFuncs.highlight), unhighlight: ge.addListener(marker, 'mouseout', highlightListenerFuncs.unhighlight) }; } marker.setPosition(footLl); marker.setZIndex(Math.round(this['spiderfiedZIndex'] + footPt.y)); _results.push(marker); } return _results; }).call(this); delete this.spiderfying; this.spiderfied = true; return this.trigger('spiderfy', spiderfiedMarkers, nonNearbyMarkers); }; p['unspiderfy'] = function(markerNotToMove) { var listeners, marker, nonNearbyMarkers, unspiderfiedMarkers, _j, _len1, _ref2; if (markerNotToMove == null) { markerNotToMove = null; } if (this.spiderfied == null) { return this; } this.unspiderfying = true; unspiderfiedMarkers = []; nonNearbyMarkers = []; _ref2 = this.markers; for (_j = 0, _len1 = _ref2.length; _j < _len1; _j++) { marker = _ref2[_j]; if (marker['_omsData'] != null) { marker['_omsData'].leg.setMap(null); if (marker !== markerNotToMove) { marker.setPosition(marker['_omsData'].usualPosition); } marker.setZIndex(null); listeners = marker['_omsData'].hightlightListeners; if (listeners != null) { ge.removeListener(listeners.highlight); ge.removeListener(listeners.unhighlight); } delete marker['_omsData']; unspiderfiedMarkers.push(marker); } else { nonNearbyMarkers.push(marker); } } delete this.unspiderfying; delete this.spiderfied; this.trigger('unspiderfy', unspiderfiedMarkers, nonNearbyMarkers); return this; }; p.ptDistanceSq = function(pt1, pt2) { var dx, dy; dx = pt1.x - pt2.x; dy = pt1.y - pt2.y; return dx * dx + dy * dy; }; p.ptAverage = function(pts) { var numPts, pt, sumX, sumY, _j, _len1; sumX = sumY = 0; for (_j = 0, _len1 = pts.length; _j < _len1; _j++) { pt = pts[_j]; sumX += pt.x; sumY += pt.y; } numPts = pts.length; return new gm.Point(sumX / numPts, sumY / numPts); }; p.llToPt = function(ll) { return this.projHelper.getProjection().fromLatLngToDivPixel(ll); }; p.ptToLl = function(pt) { return this.projHelper.getProjection().fromDivPixelToLatLng(pt); }; p.minExtract = function(set, func) { var bestIndex, bestVal, index, item, val, _j, _len1; for (index = _j = 0, _len1 = set.length; _j < _len1; index = ++_j) { item = set[index]; val = func(item); if ((typeof bestIndex === "undefined" || bestIndex === null) || val < bestVal) { bestVal = val; bestIndex = index; } } return set.splice(bestIndex, 1)[0]; }; p.arrIndexOf = function(arr, obj) { var i, o, _j, _len1; if (arr.indexOf != null) { return arr.indexOf(obj); } for (i = _j = 0, _len1 = arr.length; _j < _len1; i = ++_j) { o = arr[i]; if (o === obj) { return i; } } return -1; }; _Class.ProjHelper = function(map) { return this.setMap(map); }; _Class.ProjHelper.prototype = new gm.OverlayView(); _Class.ProjHelper.prototype['draw'] = function() {}; return _Class; })(); }).call(this);