var setup = { tileUrl: 'http://www.yourdomain.com/minecraft/tiles/', updateUrl: 'http://www.yourdomain.com/minecraft/up/', // Or if using ASP.NET: http://www.yourdomain.com/minecraft/up/default.aspx?lasttimestamp= updateRate: 2000 //Seconds the map should poll for updates. (Seconds) * 1000. The default is 2000 (every 2 seconds). }; /* THERE SHOULD BE NO NEED FOR MANUAL CONFIGURATION BEYOND THIS POINT */ /** * This constructor creates a label and associates it with a marker. * It is for the private use of the MarkerWithLabel class. * @constructor * @param {Marker} marker The marker with which the label is to be associated. * @private */ function MarkerLabel_(marker) { this.marker_ = marker; this.labelDiv_ = document.createElement("div"); this.labelDiv_.style.cssText = "position: absolute; overflow: hidden;"; // Set up the DIV for handling mouse events in the label. This DIV forms a transparent veil // in the "overlayMouseTarget" pane, a veil that covers just the label. This is done so that // events can be captured even if the label is in the shadow of a google.maps.InfoWindow. // Code is included here to ensure the veil is always exactly the same size as the label. this.eventDiv_ = document.createElement("div"); this.eventDiv_.style.cssText = this.labelDiv_.style.cssText; } // MarkerLabel_ inherits from OverlayView: MarkerLabel_.prototype = new google.maps.OverlayView(); /** * Adds the DIV representing the label to the DOM. This method is called * automatically when the marker's setMap method is called. * @private */ MarkerLabel_.prototype.onAdd = function () { var me = this; var cMouseIsDown = false; var cDraggingInProgress = false; var cSavedPosition; var cSavedZIndex; var cLatOffset, cLngOffset; var cIgnoreClick; // Stops all processing of an event. // var cAbortEvent = function (e) { if (e.preventDefault) { e.preventDefault(); } e.cancelBubble = true; if (e.stopPropagation) { e.stopPropagation(); } }; this.getPanes().overlayImage.appendChild(this.labelDiv_); this.getPanes().overlayMouseTarget.appendChild(this.eventDiv_); this.listeners_ = [ google.maps.event.addDomListener(document, "mouseup", function (mEvent) { if (cDraggingInProgress) { mEvent.latLng = cSavedPosition; cIgnoreClick = true; // Set flag to ignore the click event reported after a label drag google.maps.event.trigger(me.marker_, "dragend", mEvent); } cMouseIsDown = false; google.maps.event.trigger(me.marker_, "mouseup", mEvent); }), google.maps.event.addListener(me.marker_.getMap(), "mousemove", function (mEvent) { if (cMouseIsDown && me.marker_.getDraggable()) { // Change the reported location from the mouse position to the marker position: mEvent.latLng = new google.maps.LatLng(mEvent.latLng.lat() - cLatOffset, mEvent.latLng.lng() - cLngOffset); cSavedPosition = mEvent.latLng; if (cDraggingInProgress) { google.maps.event.trigger(me.marker_, "drag", mEvent); } else { // Calculate offsets from the click point to the marker position: cLatOffset = mEvent.latLng.lat() - me.marker_.getPosition().lat(); cLngOffset = mEvent.latLng.lng() - me.marker_.getPosition().lng(); google.maps.event.trigger(me.marker_, "dragstart", mEvent); } } }), google.maps.event.addDomListener(this.eventDiv_, "mouseover", function (e) { //me.eventDiv_.style.cursor = "pointer"; google.maps.event.trigger(me.marker_, "mouseover", e); }), google.maps.event.addDomListener(this.eventDiv_, "mouseout", function (e) { //me.eventDiv_.style.cursor = me.marker_.getCursor(); google.maps.event.trigger(me.marker_, "mouseout", e); }), google.maps.event.addDomListener(this.eventDiv_, "click", function (e) { if (cIgnoreClick) { // Ignore the click reported when a label drag ends cIgnoreClick = false; } else { cAbortEvent(e); // Prevent click from being passed on to map google.maps.event.trigger(me.marker_, "click", e); } }), google.maps.event.addDomListener(this.eventDiv_, "dblclick", function (e) { cAbortEvent(e); // Prevent map zoom when double-clicking on a label google.maps.event.trigger(me.marker_, "dblclick", e); }), google.maps.event.addDomListener(this.eventDiv_, "mousedown", function (e) { cMouseIsDown = true; cDraggingInProgress = false; cLatOffset = 0; cLngOffset = 0; cAbortEvent(e); // Prevent map pan when starting a drag on a label google.maps.event.trigger(me.marker_, "mousedown", e); }), google.maps.event.addListener(this.marker_, "dragstart", function (mEvent) { cDraggingInProgress = true; cSavedZIndex = me.marker_.getZIndex(); }), google.maps.event.addListener(this.marker_, "drag", function (mEvent) { me.marker_.setPosition(mEvent.latLng); me.marker_.setZIndex(1000000); // Moves the marker to the foreground during a drag }), google.maps.event.addListener(this.marker_, "dragend", function (mEvent) { cDraggingInProgress = false; me.marker_.setZIndex(cSavedZIndex); }), google.maps.event.addListener(this.marker_, "position_changed", function () { me.setPosition(); }), google.maps.event.addListener(this.marker_, "zindex_changed", function () { me.setZIndex(); }), google.maps.event.addListener(this.marker_, "visible_changed", function () { me.setVisible(); }), google.maps.event.addListener(this.marker_, "labelvisible_changed", function () { me.setVisible(); }), google.maps.event.addListener(this.marker_, "title_changed", function () { me.setTitle(); }), google.maps.event.addListener(this.marker_, "labelcontent_changed", function () { me.setContent(); }), google.maps.event.addListener(this.marker_, "labelanchor_changed", function () { me.setAnchor(); }), google.maps.event.addListener(this.marker_, "labelclass_changed", function () { me.setStyles(); }), google.maps.event.addListener(this.marker_, "labelstyle_changed", function () { me.setStyles(); }) ]; }; /** * Removes the DIV for the label from the DOM. It also removes all event handlers. * This method is called automatically when the marker's setMap(null) * method is called. * @private */ MarkerLabel_.prototype.onRemove = function () { var i; this.labelDiv_.parentNode.removeChild(this.labelDiv_); this.eventDiv_.parentNode.removeChild(this.eventDiv_); // Remove event listeners: for (i = 0; i < this.listeners_.length; i++) { google.maps.event.removeListener(this.listeners_[i]); } }; /** * Draws the label on the map. * @private */ MarkerLabel_.prototype.draw = function () { this.setContent(); this.setTitle(); this.setStyles(); }; /** * Sets the content of the label. * The content can be plain text or an HTML DOM node. * @private */ MarkerLabel_.prototype.setContent = function () { var content = this.marker_.get("labelContent"); if (typeof content.nodeType === "undefined") { this.labelDiv_.innerHTML = content; this.eventDiv_.innerHTML = this.labelDiv_.innerHTML; } else { this.labelDiv_.appendChild(content); content = content.cloneNode(true); this.eventDiv_.appendChild(content); } }; /** * Sets the content of the tool tip for the label. It is * always set to be the same as for the marker itself. * @private */ MarkerLabel_.prototype.setTitle = function () { this.eventDiv_.title = this.marker_.getTitle() || ""; }; /** * Sets the style of the label by setting the style sheet and applying * other specific styles requested. * @private */ MarkerLabel_.prototype.setStyles = function () { var i, labelStyle; // Apply style values from the style sheet defined in the labelClass parameter: this.labelDiv_.className = this.marker_.get("labelClass"); this.eventDiv_.className = this.labelDiv_.className; // Clear existing inline style values: this.labelDiv_.style.cssText = ""; this.eventDiv_.style.cssText = ""; // Apply style values defined in the labelStyle parameter: labelStyle = this.marker_.get("labelStyle"); for (i in labelStyle) { if (labelStyle.hasOwnProperty(i)) { this.labelDiv_.style[i] = labelStyle[i]; this.eventDiv_.style[i] = labelStyle[i]; } } this.setMandatoryStyles(); }; /** * Sets the mandatory styles to the DIV representing the label as well as to the * associated event DIV. This includes setting the DIV position, zIndex, and visibility. * @private */ MarkerLabel_.prototype.setMandatoryStyles = function () { this.labelDiv_.style.position = "absolute"; this.labelDiv_.style.overflow = "hidden"; // Make sure the opacity setting causes the desired effect on MSIE: if (typeof this.labelDiv_.style.opacity !== "undefined") { this.labelDiv_.style.filter = "alpha(opacity=" + (this.labelDiv_.style.opacity * 100) + ")"; } this.eventDiv_.style.position = this.labelDiv_.style.position; this.eventDiv_.style.overflow = this.labelDiv_.style.overflow; this.eventDiv_.style.opacity = 0.01; // Don't use 0; DIV won't be clickable on MSIE this.eventDiv_.style.filter = "alpha(opacity=1)"; // For MSIE this.setAnchor(); this.setPosition(); // This also updates zIndex, if necessary. this.setVisible(); }; /** * Sets the anchor point of the label. * @private */ MarkerLabel_.prototype.setAnchor = function () { var anchor = this.marker_.get("labelAnchor"); this.labelDiv_.style.marginLeft = -anchor.x + "px"; this.labelDiv_.style.marginTop = -anchor.y + "px"; this.eventDiv_.style.marginLeft = -anchor.x + "px"; this.eventDiv_.style.marginTop = -anchor.y + "px"; }; /** * Sets the position of the label. The zIndex is also updated, if necessary. * @private */ MarkerLabel_.prototype.setPosition = function () { var position = this.getProjection().fromLatLngToDivPixel(this.marker_.getPosition()); this.labelDiv_.style.left = position.x + "px"; this.labelDiv_.style.top = position.y + "px"; this.eventDiv_.style.left = this.labelDiv_.style.left; this.eventDiv_.style.top = this.labelDiv_.style.top; this.setZIndex(); }; /** * Sets the zIndex of the label. If the marker's zIndex property has not been defined, the zIndex * of the label is set to the vertical coordinate of the label. This is in keeping with the default * stacking order for Google Maps: markers to the south are in front of markers to the north. * @private */ MarkerLabel_.prototype.setZIndex = function () { var zAdjust = (this.marker_.get("labelInBackground") ? -1 : +1); if (typeof this.marker_.getZIndex() === "undefined") { this.labelDiv_.style.zIndex = parseInt(this.labelDiv_.style.top, 10) + zAdjust; this.eventDiv_.style.zIndex = this.labelDiv_.style.zIndex; } else { this.labelDiv_.style.zIndex = this.marker_.getZIndex() + zAdjust; this.eventDiv_.style.zIndex = this.labelDiv_.style.zIndex; } }; /** * Sets the visibility of the label. The label is visible only if the marker itself is * visible (i.e., its visible property is true) and the labelVisible property is true. * @private */ MarkerLabel_.prototype.setVisible = function () { if (this.marker_.get("labelVisible")) { this.labelDiv_.style.display = this.marker_.getVisible() ? "block" : "none"; } else { this.labelDiv_.style.display = "none"; } this.eventDiv_.style.display = this.labelDiv_.style.display; }; /** * @name MarkerWithLabelOptions * @class This class represents the optional parameter passed to the {@link MarkerWithLabel} constructor. * The properties available are the same as for google.maps.Marker with the addition * of the properties listed below. To change any of these additional properties after the labeled * marker has been created, call google.maps.Marker.set(propertyName, propertyValue). *

* When any of these properties changes, a property changed event is fired. The names of these * events are derived from the name of the property and are of the form propertyname_changed. * For example, if the content of the label changes, a labelcontent_changed event * is fired. *

* @property {string|Node} [labelContent] The content of the label (plain text or an HTML DOM node). * @property {Point} [labelAnchor] By default, a label is drawn with its anchor point at (0,0) so * that its top left corner is positioned at the anchor point of the associated marker. Use this * property to change the anchor point of the label. For example, to center a 50px-wide label * beneath a marker, specify a labelAnchor of google.maps.Point(25, 0). * (Note: x-values increase to the right and y-values increase to the bottom.) * @property {string} [labelClass] The name of the CSS class defining the styles for the label. * Note that style values for position, overflow, top, * left, zIndex, display, marginLeft, and * marginTop are ignored; these styles are for internal use only. * @property {Object} [labelStyle] An object literal whose properties define specific CSS * style values to be applied to the label. Style values defined here override those that may * be defined in the labelClass style sheet. If this property is changed after the * label has been created, all previously set styles (except those defined in the style sheet) * are removed from the label before the new style values are applied. * Note that style values for position, overflow, top, * left, zIndex, display, marginLeft, and * marginTop are ignored; these styles are for internal use only. * @property {boolean} [labelInBackground] A flag indicating whether a label that overlaps its * associated marker should appear in the background (i.e., in a plane below the marker). * The default is false, which causes the label to appear in the foreground. * @property {boolean} [labelVisible] A flag indicating whether the label is to be visible. * The default is true. Note that even if labelVisible is * true, the label will not be visible unless the associated marker is also * visible (i.e., unless the marker's visible property is true). */ /** * Creates a MarkerWithLabel with the options specified in {@link MarkerWithLabelOptions}. * @constructor * @param {MarkerWithLabelOptions} [opt_options] The optional parameters. */ function MarkerWithLabel(opt_options) { opt_options = opt_options || {}; opt_options.labelContent = opt_options.labelContent || ""; opt_options.labelAnchor = opt_options.labelAnchor || new google.maps.Point(0, 0); opt_options.labelClass = opt_options.labelClass || "markerLabels"; opt_options.labelStyle = opt_options.labelStyle || {}; opt_options.labelInBackground = opt_options.labelInBackground || false; if (typeof opt_options.labelVisible === "undefined") { opt_options.labelVisible = true; } this.label = new MarkerLabel_(this); // Bind the label to the marker // Call the parent constructor. It calls Marker.setValues to initialize, so all // the new parameters are conveniently saved and can be accessed with get/set. // Marker.set triggers a property changed event (called "propertyname_changed") // that the marker label listens for in order to react to state changes. google.maps.Marker.apply(this, arguments); } // MarkerWithLabel inherits from Marker: MarkerWithLabel.prototype = new google.maps.Marker(); MarkerWithLabel.prototype.setMap = function (theMap) { // Call the inherited function... google.maps.Marker.prototype.setMap.apply(this, arguments); // ... then deal with the label: this.label.setMap(theMap); }; /* generic function for making an XMLHttpRequest * url: request URL * func: callback function for success * type: 'text' by default (callback is called with response text) * otherwise, callback is called with a parsed XML dom * fail: callback function for failure * post: if given, make a POST request instead of GET; post data given * * contenttype: if given for a POST, set request content-type header */ function makeRequest(url, func, type, fail, post, contenttype) { var http_request = false; type = typeof(type) != 'undefined' ? type : 'text'; fail = typeof(fail) != 'undefined' ? fail : function() { }; if(window.XMLHttpRequest) { http_request = new XMLHttpRequest(); } else if(window.ActiveXObject) { http_request = new ActiveXObject("Microsoft.XMLHTTP"); } if(type == 'text') { http_request.onreadystatechange = function() { if(http_request.readyState == 4) { if(http_request.status == 200) { func(http_request.responseText); } else { fail(http_request); } } } } else { http_request.onreadystatechange = function() { if(http_request.readyState == 4) { if(http_request.status == 200) { func(http_request.responseXML); } else { fail(http_request); } } } } if(typeof(post) != 'undefined') { http_request.open('POST', url, true); if(typeof(contenttype) != 'undefined') http_request.setRequestHeader("Content-Type", contenttype); http_request.send(post); } else { http_request.open('GET', url, true); http_request.send(null); } } var config = { tileUrl: setup.tileUrl, updateUrl: setup.updateUrl, tileWidth: 128, tileHeight: 128, updateRate: setup.updateRate, zoomSize: [ 128, 128, 256 ] }; function MCMapProjection() { } MCMapProjection.prototype.fromLatLngToPoint = function(latLng) { var x = (latLng.lng() * config.tileWidth)|0; var y = (latLng.lat() * config.tileHeight)|0; if(map.zoom == 0) { x += config.tileWidth / 2; } return new google.maps.Point(x, y); }; MCMapProjection.prototype.fromPointToLatLng = function(point) { var x = point.x; if(map.zoom == 0) x -= config.tileWidth / 2; var lng = x / config.tileWidth; var lat = point.y / config.tileHeight; return new google.maps.LatLng(lat, lng); }; function fromWorldToLatLng(x, y, z) { var dx = +x; var dy = +y - 127; var dz = +z; var px = dx + dz; var py = dx - dz - dy; var lng = -px / config.tileWidth / 2 + 0.5; var lat = py / config.tileHeight / 2; return new google.maps.LatLng(lat, lng); } function mcMapType() { } var tileDict = new Array(); var lastSeen = new Array(); function tileUrl(tile, always) { if(always) { var now = new Date(); return config.tileUrl + tile + '.png?' + now.getTime(); } else if(tile in lastSeen) { return config.tileUrl + tile + '.png?' + lastSeen[tile]; } else { return config.tileUrl + tile + '.png?0'; } } function imgSubst(tile) { if(!(tile in tileDict)) return; var src = tileUrl(tile); var t = tileDict[tile]; t.src = src; t.style.display = ''; t.onerror = function() { setTimeout(function() { t.src = tileUrl(tile, 1); }, 1000); t.onerror = ''; } } mcMapType.prototype.tileSize = new google.maps.Size(config.tileWidth, config.tileHeight); mcMapType.prototype.minZoom = 0; mcMapType.prototype.maxZoom = 2; mcMapType.prototype.getTile = function(coord, zoom, doc) { var img = doc.createElement('IMG'); img.onerror = function() { img.style.display = 'none'; } img.style.width = config.zoomSize[zoom] + 'px'; img.style.height = config.zoomSize[zoom] + 'px'; img.style.borderStyle = 'none'; if(zoom > 0) { var tilename = "t_" + (- coord.x * config.tileWidth) + '_' + coord.y * config.tileHeight; } else { var tilename = "zt_" + (- coord.x * config.tileWidth * 2) + '_' + coord.y * config.tileHeight * 2; } tileDict[tilename] = img; var url = tileUrl(tilename); img.src = url; //img.style.background = 'url(' + url + ')'; //img.innerHTML = '' + tilename + ''; return img; } var markers = new Array(); var lasttimestamp = 0; var followPlayer = ''; var lst; var plistbtn; var lstopen = true; var oldplayerlst = '[Connecting]'; function mapUpdate() { makeRequest(config.updateUrl + lasttimestamp, function(res) { var rows = res.split('\n'); var loggedin = new Array(); var showWarps = document.getElementById('showWarps').checked; var showSigns = document.getElementById('showSigns').checked; var showHomes = document.getElementById('showHomes').checked; var showSpawn = document.getElementById('showSpawn').checked; lasttimestamp = rows[0]; delete rows[0]; var playerlst = '' var numwarps = 0; var numsigns = 0; var numhomes = 0; var numspawns = 0; var numplayers = 0; for(var line in rows) { var p = rows[line].split(' '); if(p[0] == '') continue; // Hack to keep duplicate markers from conflicting with eachother if (p[1] != 'player' && p.length == 5) { p[0] = p[0] + '' + p[1] + ''; } loggedin[p[0]] = 1; if (p[1] == 'player') { if(playerlst != '') playerlst += '
'; playerlst += ' ' + p[0] + ''; } if(p.length == 5) { var image = p[1] + '.png'; if (p[1] == 'warp') numwarps++; if (p[1] == 'sign') numsigns++; if (p[1] == 'home') numhomes++; if (p[1] == 'spawn') numspawns++; if (p[1] == 'player') numplayers++; var hideMarker = ( (p[1] == 'warp' && showWarps == false) || (p[1] == 'sign' && showSigns == false) || (p[1] == 'home' && showHomes == false) || (p[1] == 'spawn' && showSpawn == false) ); if(p[0] == followPlayer) { map.panTo(fromWorldToLatLng(p[2], p[3], p[4])); } if(p[0] in markers) { var m = markers[p[0]]; if (hideMarker) { m.setMap(null); continue; } else if (m.map == null) { m.setMap(map); } var converted = fromWorldToLatLng(p[2], p[3], p[4]); m.setPosition(converted); } else { if (hideMarker) { continue; } var converted = fromWorldToLatLng(p[2], p[3], p[4]); var marker = new MarkerWithLabel({ position: converted, map: map, labelContent: p[0], labelAnchor: new google.maps.Point(-14, 10), labelClass: "labels", clickable: false, flat: true, icon: new google.maps.MarkerImage(image, new google.maps.Size(28, 28), new google.maps.Point(0, 0), new google.maps.Point(14, 14)) }); markers[p[0]] = marker; } } else if(p.length == 2) { lastSeen['t_' + p[0]] = lasttimestamp; lastSeen['zt_' + p[1]] = lasttimestamp; imgSubst('t_' + p[0]); imgSubst('zt_' + p[1]); } } if(playerlst != oldplayerlst) { oldplayerlst = playerlst; lst.innerHTML = playerlst; } for(var m in markers) { if(!(m in loggedin)) { markers[m].setMap(null); delete markers[m]; } } document.getElementById('warpsDiv').style.display = (numwarps == 0)?'none':''; document.getElementById('signsDiv').style.display = (numsigns == 0)?'none':''; document.getElementById('homesDiv').style.display = (numhomes == 0)?'none':''; document.getElementById('spawnsDiv').style.display = (numspawns == 0)?'none':''; document.getElementById('plist').style.display = (numplayers == 0)?'none':''; document.getElementById('controls').style.display = ((numwarps + numsigns + numhomes + numspawns) == 0)?'none':''; setTimeout(mapUpdate, config.updateRate); }, 'text', function() { alert('failed to get update data'); } ); } window.onload = function initialize() { lst = document.getElementById('lst'); plistbtn = document.getElementById('plistbtn'); var mapOptions = { zoom: 1, center: new google.maps.LatLng(0, 1), navigationControl: true, navigationControlOptions: { style: google.maps.NavigationControlStyle.SMALL }, scaleControl: false, mapTypeControl: false, streetViewControl: false, mapTypeId: 'mcmap', backgroundColor: '#000' }; map = new google.maps.Map(document.getElementById("mcmap"), mapOptions); mapType = new mcMapType(); mapType.projection = new MCMapProjection(); map.zoom_changed = function() { mapType.tileSize = new google.maps.Size(config.zoomSize[map.zoom], config.zoomSize[map.zoom]); }; google.maps.event.addListener(map, 'dragstart', function(mEvent) { plfollow(''); }); map.dragstart = plfollow(''); map.mapTypes.set('mcmap', mapType); map.setMapTypeId('mcmap'); mapUpdate(); } function plistopen() { if(lstopen) { lstopen = false; lst.style.display = 'none'; lst.style.visibility = 'hidden'; plistbtn.src = 'list_off.png'; } else { lstopen = true; lst.style.display = ''; lst.style.visibility = ''; plistbtn.src = 'list_on.png'; } } function plclick(name) { if(name in markers) { if(name != followPlayer) plfollow(''); map.setCenter(markers[name].getPosition()); } } function plfollow(name) { var icon; if(followPlayer == name) { icon = document.getElementById('icon_' + followPlayer); if(icon) icon.src = 'follow_off.png'; followPlayer = ''; return; } if(followPlayer) { icon = document.getElementById('icon_' + followPlayer); if(icon) icon.src = 'follow_off.png'; followPlayer = ''; } if(!name) return; icon = document.getElementById('icon_' + name); if(icon) icon.src = 'follow_on.png'; followPlayer = name; if(name in markers) { map.setCenter(markers[name].getPosition()); } } //remove item (string or number) from an array function removeItem(originalArray, itemToRemove) { var j = 0; while (j < originalArray.length) { // alert(originalArray[j]); if (originalArray[j] == itemToRemove) { originalArray.splice(j, 1); } else { j++; } } // assert('hi'); return originalArray; }