/* Copyright (c) 2006-2013 by OpenLayers Contributors (see authors.txt for * full list of contributors). Published under the 2-clause BSD license. * See license.txt in the OpenLayers distribution or repository for the * full text of the license. */ /** * @requires OpenLayers/Layer/Grid.js * @requires OpenLayers/Format/ArcXML.js * @requires OpenLayers/Request.js */ /** * Class: OpenLayers.Layer.ArcIMS * Instances of OpenLayers.Layer.ArcIMS are used to display data from ESRI ArcIMS * Mapping Services. Create a new ArcIMS layer with the * constructor. * * Inherits from: * - */ OpenLayers.Layer.ArcIMS = OpenLayers.Class(OpenLayers.Layer.Grid, { /** * Constant: DEFAULT_PARAMS * {Object} Default query string parameters. */ DEFAULT_PARAMS: { ClientVersion: "9.2", ServiceName: '' }, /** * APIProperty: featureCoordSys * {String} Code for feature coordinate system. Default is "4326". */ featureCoordSys: "4326", /** * APIProperty: filterCoordSys * {String} Code for filter coordinate system. Default is "4326". */ filterCoordSys: "4326", /** * APIProperty: layers * {Array} An array of objects with layer properties. */ layers: null, /** * APIProperty: async * {Boolean} Request images asynchronously. Default is true. */ async: true, /** * APIProperty: name * {String} Layer name. Default is "ArcIMS". */ name: "ArcIMS", /** * APIProperty: isBaseLayer * {Boolean} The layer is a base layer. Default is true. */ isBaseLayer: true, /** * Constant: DEFAULT_OPTIONS * {Object} Default layers properties. */ DEFAULT_OPTIONS: { tileSize: new OpenLayers.Size(512, 512), featureCoordSys: "4326", filterCoordSys: "4326", layers: null, isBaseLayer: true, async: true, name: "ArcIMS" }, /** * Constructor: OpenLayers.Layer.ArcIMS * Create a new ArcIMS layer object. * * Example: * (code) * var arcims = new OpenLayers.Layer.ArcIMS( * "Global Sample", * "http://sample.avencia.com/servlet/com.esri.esrimap.Esrimap", * { * service: "OpenLayers_Sample", * layers: [ * // layers to manipulate * {id: "1", visible: true} * ] * } * ); * (end) * * Parameters: * name - {String} A name for the layer * url - {String} Base url for the ArcIMS server * options - {Object} Optional object with properties to be set on the * layer. */ initialize: function(name, url, options) { this.tileSize = new OpenLayers.Size(512, 512); // parameters this.params = OpenLayers.Util.applyDefaults( {ServiceName: options.serviceName}, this.DEFAULT_PARAMS ); this.options = OpenLayers.Util.applyDefaults( options, this.DEFAULT_OPTIONS ); OpenLayers.Layer.Grid.prototype.initialize.apply( this, [name, url, this.params, options] ); //layer is transparent if (this.transparent) { // unless explicitly set in options, make layer an overlay if (!this.isBaseLayer) { this.isBaseLayer = false; } // jpegs can never be transparent, so intelligently switch the // format, depending on the browser's capabilities if (this.format == "image/jpeg") { this.format = OpenLayers.Util.alphaHack() ? "image/gif" : "image/png"; } } // create an empty layer list if no layers specified in the options if (this.options.layers === null) { this.options.layers = []; } }, /** * Method: getURL * Return an image url this layer. * * Parameters: * bounds - {} A bounds representing the bbox for the * request. * * Returns: * {String} A string with the map image's url. */ getURL: function(bounds) { var url = ""; bounds = this.adjustBounds(bounds); // create an arcxml request to generate the image var axlReq = new OpenLayers.Format.ArcXML( OpenLayers.Util.extend(this.options, { requesttype: "image", envelope: bounds.toArray(), tileSize: this.tileSize }) ); // create a synchronous ajax request to get an arcims image var req = new OpenLayers.Request.POST({ url: this.getFullRequestString(), data: axlReq.write(), async: false }); // if the response exists if (req != null) { var doc = req.responseXML; if (!doc || !doc.documentElement) { doc = req.responseText; } // create a new arcxml format to read the response var axlResp = new OpenLayers.Format.ArcXML(); var arcxml = axlResp.read(doc); url = this.getUrlOrImage(arcxml.image.output); } return url; }, /** * Method: getURLasync * Get an image url this layer asynchronously, and execute a callback * when the image url is generated. * * Parameters: * bounds - {} A bounds representing the bbox for the * request. * callback - {Function} Function to call when image url is retrieved. * scope - {Object} The scope of the callback method. */ getURLasync: function(bounds, callback, scope) { bounds = this.adjustBounds(bounds); // create an arcxml request to generate the image var axlReq = new OpenLayers.Format.ArcXML( OpenLayers.Util.extend(this.options, { requesttype: "image", envelope: bounds.toArray(), tileSize: this.tileSize }) ); // create an asynchronous ajax request to get an arcims image OpenLayers.Request.POST({ url: this.getFullRequestString(), async: true, data: axlReq.write(), callback: function(req) { // process the response from ArcIMS, and call the callback function // to set the image URL var doc = req.responseXML; if (!doc || !doc.documentElement) { doc = req.responseText; } // create a new arcxml format to read the response var axlResp = new OpenLayers.Format.ArcXML(); var arcxml = axlResp.read(doc); callback.call(scope, this.getUrlOrImage(arcxml.image.output)); }, scope: this }); }, /** * Method: getUrlOrImage * Extract a url or image from the ArcXML image output. * * Parameters: * output - {Object} The image.output property of the object returned from * the ArcXML format read method. * * Returns: * {String} A URL for an image (potentially with the data protocol). */ getUrlOrImage: function(output) { var ret = ""; if(output.url) { // If the image response output url is a string, then the image // data is not inline. ret = output.url; } else if(output.data) { // The image data is inline and base64 encoded, create a data // url for the image. This will only work for small images, // due to browser url length limits. ret = "data:image/" + output.type + ";base64," + output.data; } return ret; }, /** * Method: setLayerQuery * Set the query definition on this layer. Query definitions are used to * render parts of the spatial data in an image, and can be used to * filter features or layers in the ArcIMS service. * * Parameters: * id - {String} The ArcIMS layer ID. * querydef - {Object} The query definition to apply to this layer. */ setLayerQuery: function(id, querydef) { // find the matching layer, if it exists for (var lyr = 0; lyr < this.options.layers.length; lyr++) { if (id == this.options.layers[lyr].id) { // replace this layer definition this.options.layers[lyr].query = querydef; return; } } // no layer found, create a new definition this.options.layers.push({id: id, visible: true, query: querydef}); }, /** * Method: getFeatureInfo * Get feature information from ArcIMS. Using the applied geometry, apply * the options to the query (buffer, area/envelope intersection), and * query the ArcIMS service. * * A note about accuracy: * ArcIMS interprets the accuracy attribute in feature requests to be * something like the 'modulus' operator on feature coordinates, * applied to the database geometry of the feature. It doesn't round, * so your feature coordinates may be up to (1 x accuracy) offset from * the actual feature coordinates. If the accuracy of the layer is not * specified, the accuracy will be computed to be approximately 1 * feature coordinate per screen pixel. * * Parameters: * geometry - {} or {} The * geometry to use when making the query. This should be a closed * polygon for behavior approximating a free selection. * layer - {Object} The ArcIMS layer definition. This is an anonymous object * that looks like: * (code) * { * id: "ArcXML layer ID", // the ArcXML layer ID * query: { * where: "STATE = 'PA'", // the where clause of the query * accuracy: 100 // the accuracy of the returned feature * } * } * (end) * options - {Object} Object with non-default properties to set on the layer. * Supported properties are buffer, callback, scope, and any other * properties applicable to the ArcXML format. Set the 'callback' and * 'scope' for an object and function to recieve the parsed features * from ArcIMS. */ getFeatureInfo: function(geometry, layer, options) { // set the buffer to 1 unit (dd/m/ft?) by default var buffer = options.buffer || 1; // empty callback by default var callback = options.callback || function() {}; // default scope is window (global) var scope = options.scope || window; // apply these option to the request options var requestOptions = {}; OpenLayers.Util.extend(requestOptions, this.options); // this is a feature request requestOptions.requesttype = "feature"; if (geometry instanceof OpenLayers.LonLat) { // create an envelope if the geometry is really a lon/lat requestOptions.polygon = null; requestOptions.envelope = [ geometry.lon - buffer, geometry.lat - buffer, geometry.lon + buffer, geometry.lat + buffer ]; } else if (geometry instanceof OpenLayers.Geometry.Polygon) { // use the polygon assigned, and empty the envelope requestOptions.envelope = null; requestOptions.polygon = geometry; } // create an arcxml request to get feature requests var arcxml = new OpenLayers.Format.ArcXML(requestOptions); // apply any get feature options to the arcxml request OpenLayers.Util.extend(arcxml.request.get_feature, options); arcxml.request.get_feature.layer = layer.id; if (typeof layer.query.accuracy == "number") { // set the accuracy if it was specified arcxml.request.get_feature.query.accuracy = layer.query.accuracy; } else { // guess that the accuracy is 1 per screen pixel var mapCenter = this.map.getCenter(); var viewPx = this.map.getViewPortPxFromLonLat(mapCenter); viewPx.x++; var mapOffCenter = this.map.getLonLatFromPixel(viewPx); arcxml.request.get_feature.query.accuracy = mapOffCenter.lon - mapCenter.lon; } // set the get_feature query to be the same as the layer passed in arcxml.request.get_feature.query.where = layer.query.where; // use area_intersection arcxml.request.get_feature.query.spatialfilter.relation = "area_intersection"; // create a new asynchronous request to get the feature info OpenLayers.Request.POST({ url: this.getFullRequestString({'CustomService': 'Query'}), data: arcxml.write(), callback: function(request) { // parse the arcxml response var response = arcxml.parseResponse(request.responseText); if (!arcxml.iserror()) { // if the arcxml is not an error, call the callback with the features parsed callback.call(scope, response.features); } else { // if the arcxml is an error, return null features selected callback.call(scope, null); } } }); }, /** * Method: clone * Create a clone of this layer * * Returns: * {} An exact clone of this layer */ clone: function (obj) { if (obj == null) { obj = new OpenLayers.Layer.ArcIMS(this.name, this.url, this.getOptions()); } //get all additions from superclasses obj = OpenLayers.Layer.Grid.prototype.clone.apply(this, [obj]); // copy/set any non-init, non-simple values here return obj; }, CLASS_NAME: "OpenLayers.Layer.ArcIMS" });