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/* 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/Format/XML.js
*/
/**
* Class: OpenLayers.Format.WMSGetFeatureInfo
* Class to read GetFeatureInfo responses from Web Mapping Services
*
* Inherits from:
* - <OpenLayers.Format.XML>
*/
OpenLayers.Format.WMSGetFeatureInfo = OpenLayers.Class(OpenLayers.Format.XML, {
/**
* APIProperty: layerIdentifier
* {String} All xml nodes containing this search criteria will populate an
* internal array of layer nodes.
*/
layerIdentifier: '_layer',
/**
* APIProperty: featureIdentifier
* {String} All xml nodes containing this search criteria will populate an
* internal array of feature nodes for each layer node found.
*/
featureIdentifier: '_feature',
/**
* Property: regExes
* Compiled regular expressions for manipulating strings.
*/
regExes: {
trimSpace: (/^\s*|\s*$/g),
removeSpace: (/\s*/g),
splitSpace: (/\s+/),
trimComma: (/\s*,\s*/g)
},
/**
* Property: gmlFormat
* {<OpenLayers.Format.GML>} internal GML format for parsing geometries
* in msGMLOutput
*/
gmlFormat: null,
/**
* Constructor: OpenLayers.Format.WMSGetFeatureInfo
* Create a new parser for WMS GetFeatureInfo responses
*
* Parameters:
* options - {Object} An optional object whose properties will be set on
* this instance.
*/
/**
* APIMethod: read
* Read WMS GetFeatureInfo data from a string, and return an array of features
*
* Parameters:
* data - {String} or {DOMElement} data to read/parse.
*
* Returns:
* {Array(<OpenLayers.Feature.Vector>)} An array of features.
*/
read: function(data) {
var result;
if(typeof data == "string") {
data = OpenLayers.Format.XML.prototype.read.apply(this, [data]);
}
var root = data.documentElement;
if(root) {
var scope = this;
var read = this["read_" + root.nodeName];
if(read) {
result = read.call(this, root);
} else {
// fall-back to GML since this is a common output format for WMS
// GetFeatureInfo responses
result = new OpenLayers.Format.GML((this.options ? this.options : {})).read(data);
}
} else {
result = data;
}
return result;
},
/**
* Method: read_msGMLOutput
* Parse msGMLOutput nodes.
*
* Parameters:
* data - {DOMElement}
*
* Returns:
* {Array}
*/
read_msGMLOutput: function(data) {
var response = [];
var layerNodes = this.getSiblingNodesByTagCriteria(data,
this.layerIdentifier);
if (layerNodes) {
for (var i=0, len=layerNodes.length; i<len; ++i) {
var node = layerNodes[i];
var layerName = node.nodeName;
if (node.prefix) {
layerName = layerName.split(':')[1];
}
var layerName = layerName.replace(this.layerIdentifier, '');
var featureNodes = this.getSiblingNodesByTagCriteria(node,
this.featureIdentifier);
if (featureNodes) {
for (var j = 0; j < featureNodes.length; j++) {
var featureNode = featureNodes[j];
var geomInfo = this.parseGeometry(featureNode);
var attributes = this.parseAttributes(featureNode);
var feature = new OpenLayers.Feature.Vector(geomInfo.geometry,
attributes, null);
feature.bounds = geomInfo.bounds;
feature.type = layerName;
response.push(feature);
}
}
}
}
return response;
},
/**
* Method: read_FeatureInfoResponse
* Parse FeatureInfoResponse nodes.
*
* Parameters:
* data - {DOMElement}
*
* Returns:
* {Array}
*/
read_FeatureInfoResponse: function(data) {
var response = [];
var featureNodes = this.getElementsByTagNameNS(data, '*',
'FIELDS');
for(var i=0, len=featureNodes.length;i<len;i++) {
var featureNode = featureNodes[i];
var geom = null;
// attributes can be actual attributes on the FIELDS tag,
// or FIELD children
var attributes = {};
var j;
var jlen = featureNode.attributes.length;
if (jlen > 0) {
for(j=0; j<jlen; j++) {
var attribute = featureNode.attributes[j];
attributes[attribute.nodeName] = attribute.nodeValue;
}
} else {
var nodes = featureNode.childNodes;
for (j=0, jlen=nodes.length; j<jlen; ++j) {
var node = nodes[j];
if (node.nodeType != 3) {
attributes[node.getAttribute("name")] =
node.getAttribute("value");
}
}
}
response.push(
new OpenLayers.Feature.Vector(geom, attributes, null)
);
}
return response;
},
/**
* Method: getSiblingNodesByTagCriteria
* Recursively searches passed xml node and all it's descendant levels for
* nodes whose tagName contains the passed search string. This returns an
* array of all sibling nodes which match the criteria from the highest
* hierarchial level from which a match is found.
*
* Parameters:
* node - {DOMElement} An xml node
* criteria - {String} Search string which will match some part of a tagName
*
* Returns:
* Array({DOMElement}) An array of sibling xml nodes
*/
getSiblingNodesByTagCriteria: function(node, criteria){
var nodes = [];
var children, tagName, n, matchNodes, child;
if (node && node.hasChildNodes()) {
children = node.childNodes;
n = children.length;
for(var k=0; k<n; k++){
child = children[k];
while (child && child.nodeType != 1) {
child = child.nextSibling;
k++;
}
tagName = (child ? child.nodeName : '');
if (tagName.length > 0 && tagName.indexOf(criteria) > -1) {
nodes.push(child);
} else {
matchNodes = this.getSiblingNodesByTagCriteria(
child, criteria);
if(matchNodes.length > 0){
(nodes.length == 0) ?
nodes = matchNodes : nodes.push(matchNodes);
}
}
}
}
return nodes;
},
/**
* Method: parseAttributes
*
* Parameters:
* node - {<DOMElement>}
*
* Returns:
* {Object} An attributes object.
*
* Notes:
* Assumes that attributes are direct child xml nodes of the passed node
* and contain only a single text node.
*/
parseAttributes: function(node){
var attributes = {};
if (node.nodeType == 1) {
var children = node.childNodes;
var n = children.length;
for (var i = 0; i < n; ++i) {
var child = children[i];
if (child.nodeType == 1) {
var grandchildren = child.childNodes;
var name = (child.prefix) ?
child.nodeName.split(":")[1] : child.nodeName;
if (grandchildren.length == 0) {
attributes[name] = null;
} else if (grandchildren.length == 1) {
var grandchild = grandchildren[0];
if (grandchild.nodeType == 3 ||
grandchild.nodeType == 4) {
var value = grandchild.nodeValue.replace(
this.regExes.trimSpace, "");
attributes[name] = value;
}
}
}
}
}
return attributes;
},
/**
* Method: parseGeometry
* Parse the geometry and the feature bounds out of the node using
* Format.GML
*
* Parameters:
* node - {<DOMElement>}
*
* Returns:
* {Object} An object containing the geometry and the feature bounds
*/
parseGeometry: function(node) {
// we need to use the old Format.GML parser since we do not know the
// geometry name
if (!this.gmlFormat) {
this.gmlFormat = new OpenLayers.Format.GML();
}
var feature = this.gmlFormat.parseFeature(node);
var geometry, bounds = null;
if (feature) {
geometry = feature.geometry && feature.geometry.clone();
bounds = feature.bounds && feature.bounds.clone();
feature.destroy();
}
return {geometry: geometry, bounds: bounds};
},
CLASS_NAME: "OpenLayers.Format.WMSGetFeatureInfo"
});
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