/* Copyright (c) 2006-2010 by OpenLayers Contributors (see authors.txt for
* full list of contributors). Published under the Clear BSD license.
* See http://svn.openlayers.org/trunk/openlayers/license.txt for the
* full text of the license. */
/**
* @requires OpenLayers/Format/XML.js
* @requires OpenLayers/Geometry/Polygon.js
* @requires OpenLayers/Geometry/Point.js
* @requires OpenLayers/Geometry/MultiPolygon.js
* @requires OpenLayers/Geometry/LinearRing.js
*/
/**
* Class: OpenLayers.Format.ArcXML
* Read/Wite ArcXML. Create a new instance with the <OpenLayers.Format.ArcXML>
* constructor.
*
* Inherits from:
* - <OpenLayers.Format>
*/
OpenLayers.Format.ArcXML = OpenLayers.Class(OpenLayers.Format.XML, {
/**
* Property: fontStyleKeys
* {Array} List of keys used in font styling.
*/
fontStyleKeys: [
'antialiasing', 'blockout', 'font', 'fontcolor','fontsize', 'fontstyle',
'glowing', 'interval', 'outline', 'printmode', 'shadow', 'transparency'
],
/**
* Property: request
* A get_image request destined for an ArcIMS server.
*/
request: null,
/**
* Property: response
* A parsed response from an ArcIMS server.
*/
response: null,
/**
* Constructor: OpenLayers.Format.ArcXML
* Create a new parser/writer for ArcXML. Create an instance of this class
* to begin authoring a request to an ArcIMS service. This is used
* primarily by the ArcIMS layer, but could be used to do other wild
* stuff, like geocoding.
*
* Parameters:
* options - {Object} An optional object whose properties will be set on
* this instance.
*/
initialize: function(options) {
this.request = new OpenLayers.Format.ArcXML.Request();
this.response = new OpenLayers.Format.ArcXML.Response();
if (options) {
if (options.requesttype == "feature") {
this.request.get_image = null;
var qry = this.request.get_feature.query;
this.addCoordSys(qry.featurecoordsys, options.featureCoordSys);
this.addCoordSys(qry.filtercoordsys, options.filterCoordSys);
if (options.polygon) {
qry.isspatial = true;
qry.spatialfilter.polygon = options.polygon;
} else if (options.envelope) {
qry.isspatial = true;
qry.spatialfilter.envelope = {minx:0, miny:0, maxx:0, maxy:0};
this.parseEnvelope(qry.spatialfilter.envelope, options.envelope);
}
} else if (options.requesttype == "image") {
this.request.get_feature = null;
var props = this.request.get_image.properties;
this.parseEnvelope(props.envelope, options.envelope);
this.addLayers(props.layerlist, options.layers);
this.addImageSize(props.imagesize, options.tileSize);
this.addCoordSys(props.featurecoordsys, options.featureCoordSys);
this.addCoordSys(props.filtercoordsys, options.filterCoordSys);
} else {
// if an arcxml object is being created with no request type, it is
// probably going to consume a response, so do not throw an error if
// the requesttype is not defined
this.request = null;
}
}
OpenLayers.Format.XML.prototype.initialize.apply(this, [options]);
},
/**
* Method: parseEnvelope
* Parse an array of coordinates into an ArcXML envelope structure.
*
* Parameters:
* env - {Object} An envelope object that will contain the parsed coordinates.
* arr - {Array(double)} An array of coordinates in the order: [ minx, miny, maxx, maxy ]
*/
parseEnvelope: function(env, arr) {
if (arr && arr.length == 4) {
env.minx = arr[0];
env.miny = arr[1];
env.maxx = arr[2];
env.maxy = arr[3];
}
},
/**
* Method: addLayers
* Add a collection of layers to another collection of layers. Each layer in the list is tuple of
* { id, visible }. These layer collections represent the
* /ARCXML/REQUEST/get_image/PROPERTIES/LAYERLIST/LAYERDEF items in ArcXML
*
* TODO: Add support for dynamic layer rendering.
*
* Parameters:
* ll - {Array({id,visible})} A list of layer definitions.
* lyrs - {Array({id,visible})} A list of layer definitions.
*/
addLayers: function(ll, lyrs) {
for(var lind = 0, len=lyrs.length; lind < len; lind++) {
ll.push(lyrs[lind]);
}
},
/**
* Method: addImageSize
* Set the size of the requested image.
*
* Parameters:
* imsize - {Object} An ArcXML imagesize object.
* olsize - {OpenLayers.Size} The image size to set.
*/
addImageSize: function(imsize, olsize) {
if (olsize !== null) {
imsize.width = olsize.w;
imsize.height = olsize.h;
imsize.printwidth = olsize.w;
imsize.printheight = olsize.h;
}
},
/**
* Method: addCoordSys
* Add the coordinate system information to an object. The object may be
*
* Parameters:
* featOrFilt - {Object} A featurecoordsys or filtercoordsys ArcXML structure.
* fsys - {String} or {OpenLayers.Projection} or {filtercoordsys} or
* {featurecoordsys} A projection representation. If it's a {String},
* the value is assumed to be the SRID. If it's a {OpenLayers.Projection}
* AND Proj4js is available, the projection number and name are extracted
* from there. If it's a filter or feature ArcXML structure, it is copied.
*/
addCoordSys: function(featOrFilt, fsys) {
if (typeof fsys == "string") {
featOrFilt.id = parseInt(fsys);
featOrFilt.string = fsys;
}
// is this a proj4js instance?
else if (typeof fsys == "object" && fsys.proj !== null){
featOrFilt.id = fsys.proj.srsProjNumber;
featOrFilt.string = fsys.proj.srsCode;
} else {
featOrFilt = fsys;
}
},
/**
* APIMethod: iserror
* Check to see if the response from the server was an error.
*
* Parameters:
* data - {String} or {DOMElement} data to read/parse. If nothing is supplied,
* the current response is examined.
*
* Returns:
* {Boolean} true if the response was an error.
*/
iserror: function(data) {
var ret = null;
if (!data) {
ret = (this.response.error !== '');
} else {
data = OpenLayers.Format.XML.prototype.read.apply(this, [data]);
var errorNodes = data.documentElement.getElementsByTagName("ERROR");
ret = (errorNodes !== null && errorNodes.length > 0);
}
return ret;
},
/**
* APIMethod: read
* Read data from a string, and return an response.
*
* Parameters:
* data - {String} or {DOMElement} data to read/parse.
*
* Returns:
* {OpenLayers.Format.ArcXML.Response} An ArcXML response. Note that this response
* data may change in the future.
*/
read: function(data) {
if(typeof data == "string") {
data = OpenLayers.Format.XML.prototype.read.apply(this, [data]);
}
var arcNode = null;
if (data && data.documentElement) {
if(data.documentElement.nodeName == "ARCXML") {
arcNode = data.documentElement;
} else {
arcNode = data.documentElement.getElementsByTagName("ARCXML")[0];
}
}
// in Safari, arcNode will be there but will have a child named
// parsererror
if (!arcNode || arcNode.firstChild.nodeName === 'parsererror') {
var error, source;
try {
error = data.firstChild.nodeValue;
source = data.firstChild.childNodes[1].firstChild.nodeValue;
} catch (err) {
// pass
}
throw {
message: "Error parsing the ArcXML request",
error: error,
source: source
};
}
var response = this.parseResponse(arcNode);
return response;
},
/**
* APIMethod: write
* Generate an ArcXml document string for sending to an ArcIMS server.
*
* Returns:
* {String} A string representing the ArcXML document request.
*/
write: function(request) {
if (!request) {
request = this.request;
}
var root = this.createElementNS("", "ARCXML");
root.setAttribute("version","1.1");
var reqElem = this.createElementNS("", "REQUEST");
if (request.get_image != null) {
var getElem = this.createElementNS("", "GET_IMAGE");
reqElem.appendChild(getElem);
var propElem = this.createElementNS("", "PROPERTIES");
getElem.appendChild(propElem);
var props = request.get_image.properties;
if (props.featurecoordsys != null) {
var feat = this.createElementNS("", "FEATURECOORDSYS");
propElem.appendChild(feat);
if (props.featurecoordsys.id === 0) {
feat.setAttribute("string", props.featurecoordsys['string']);
}
else {
feat.setAttribute("id", props.featurecoordsys.id);
}
}
if (props.filtercoordsys != null) {
var filt = this.createElementNS("", "FILTERCOORDSYS");
propElem.appendChild(filt);
if (props.filtercoordsys.id === 0) {
filt.setAttribute("string", props.filtercoordsys.string);
}
else {
filt.setAttribute("id", props.filtercoordsys.id);
}
}
if (props.envelope != null) {
var env = this.createElementNS("", "ENVELOPE");
propElem.appendChild(env);
env.setAttribute("minx", props.envelope.minx);
env.setAttribute("miny", props.envelope.miny);
env.setAttribute("maxx", props.envelope.maxx);
env.setAttribute("maxy", props.envelope.maxy);
}
var imagesz = this.createElementNS("", "IMAGESIZE");
propElem.appendChild(imagesz);
imagesz.setAttribute("height", props.imagesize.height);
imagesz.setAttribute("width", props.imagesize.width);
if (props.imagesize.height != props.imagesize.printheight ||
props.imagesize.width != props.imagesize.printwidth) {
imagesz.setAttribute("printheight", props.imagesize.printheight);
imagesz.setArrtibute("printwidth", props.imagesize.printwidth);
}
if (props.background != null) {
var backgrnd = this.createElementNS("", "BACKGROUND");
propElem.appendChild(backgrnd);
backgrnd.setAttribute("color",
props.background.color.r + "," +
props.background.color.g + "," +
props.background.color.b);
if (props.background.transcolor !== null) {
backgrnd.setAttribute("transcolor",
props.background.transcolor.r + "," +
props.background.transcolor.g + "," +
props.background.transcolor.b);
}
}
if (props.layerlist != null && props.layerlist.length > 0) {
var layerlst = this.createElementNS("", "LAYERLIST");
propElem.appendChild(layerlst);
for (var ld = 0; ld < props.layerlist.length; ld++) {
var ldef = this.createElementNS("", "LAYERDEF");
layerlst.appendChild(ldef);
ldef.setAttribute("id", props.layerlist[ld].id);
ldef.setAttribute("visible", props.layerlist[ld].visible);
if (typeof props.layerlist[ld].query == "object") {
var query = props.layerlist[ld].query;
if (query.where.length < 0) {
continue;
}
var queryElem = null;
if (typeof query.spatialfilter == "boolean" && query.spatialfilter) {
// handle spatial filter madness
queryElem = this.createElementNS("", "SPATIALQUERY");
}
else {
queryElem = this.createElementNS("", "QUERY");
}
queryElem.setAttribute("where", query.where);
if (typeof query.accuracy == "number" && query.accuracy > 0) {
queryElem.setAttribute("accuracy", query.accuracy);
}
if (typeof query.featurelimit == "number" && query.featurelimit < 2000) {
queryElem.setAttribute("featurelimit", query.featurelimit);
}
if (typeof query.subfields == "string" && query.subfields != "#ALL#") {
queryElem.setAttribute("subfields", query.subfields);
}
if (typeof query.joinexpression == "string" && query.joinexpression.length > 0) {
queryElem.setAttribute("joinexpression", query.joinexpression);
}
if (typeof query.jointables == "string" && query.jointables.length > 0) {
queryElem.setAttribute("jointables", query.jointables);
}
ldef.appendChild(queryElem);
}
if (typeof props.layerlist[ld].renderer == "object") {
this.addRenderer(ldef, props.layerlist[ld].renderer);
}
}
}
} else if (request.get_feature != null) {
var getElem = this.createElementNS("", "GET_FEATURES");
getElem.setAttribute("outputmode", "newxml");
getElem.setAttribute("checkesc", "true");
if (request.get_feature.geometry) {
getElem.setAttribute("geometry", request.get_feature.geometry);
}
else {
getElem.setAttribute("geometry", "false");
}
if (request.get_feature.compact) {
getElem.setAttribute("compact", request.get_feature.compact);
}
if (request.get_feature.featurelimit == "number") {
getElem.setAttribute("featurelimit", request.get_feature.featurelimit);
}
getElem.setAttribute("globalenvelope", "true");
reqElem.appendChild(getElem);
if (request.get_feature.layer != null && request.get_feature.layer.length > 0) {
var lyrElem = this.createElementNS("", "LAYER");
lyrElem.setAttribute("id", request.get_feature.layer);
getElem.appendChild(lyrElem);
}
var fquery = request.get_feature.query;
if (fquery != null) {
var qElem = null;
if (fquery.isspatial) {
qElem = this.createElementNS("", "SPATIALQUERY");
} else {
qElem = this.createElementNS("", "QUERY");
}
getElem.appendChild(qElem);
if (typeof fquery.accuracy == "number") {
qElem.setAttribute("accuracy", fquery.accuracy);
}
//qElem.setAttribute("featurelimit", "5");
if (fquery.featurecoordsys != null) {
var fcsElem1 = this.createElementNS("", "FEATURECOORDSYS");
if (fquery.featurecoordsys.id == 0) {
fcsElem1.setAttribute("string", fquery.featurecoordsys.string);
} else {
fcsElem1.setAttribute("id", fquery.featurecoordsys.id);
}
qElem.appendChild(fcsElem1);
}
if (fquery.filtercoordsys != null) {
var fcsElem2 = this.createElementNS("", "FILTERCOORDSYS");
if (fquery.filtercoordsys.id === 0) {
fcsElem2.setAttribute("string", fquery.filtercoordsys.string);
} else {
fcsElem2.setAttribute("id", fquery.filtercoordsys.id);
}
qElem.appendChild(fcsElem2);
}
if (fquery.buffer > 0) {
var bufElem = this.createElementNS("", "BUFFER");
bufElem.setAttribute("distance", fquery.buffer);
qElem.appendChild(bufElem);
}
if (fquery.isspatial) {
var spfElem = this.createElementNS("", "SPATIALFILTER");
spfElem.setAttribute("relation", fquery.spatialfilter.relation);
qElem.appendChild(spfElem);
if (fquery.spatialfilter.envelope) {
var envElem = this.createElementNS("", "ENVELOPE");
envElem.setAttribute("minx", fquery.spatialfilter.envelope.minx);
envElem.setAttribute("miny", fquery.spatialfilter.envelope.miny);
envElem.setAttribute("maxx", fquery.spatialfilter.envelope.maxx);
envElem.setAttribute("maxy", fquery.spatialfilter.envelope.maxy);
spfElem.appendChild(envElem);
} else if(typeof fquery.spatialfilter.polygon == "object") {
spfElem.appendChild(this.writePolygonGeometry(fquery.spatialfilter.polygon));
}
}
if (fquery.where != null && fquery.where.length > 0) {
qElem.setAttribute("where", fquery.where);
}
}
}
root.appendChild(reqElem);
return OpenLayers.Format.XML.prototype.write.apply(this, [root]);
},
addGroupRenderer: function(ldef, toprenderer) {
var topRelem = this.createElementNS("", "GROUPRENDERER");
ldef.appendChild(topRelem);
for (var rind = 0; rind < toprenderer.length; rind++) {
var renderer = toprenderer[rind];
this.addRenderer(topRelem, renderer);
}
},
addRenderer: function(topRelem, renderer) {
if (renderer instanceof Array) {
this.addGroupRenderer(topRelem, renderer);
} else {
var renderElem = this.createElementNS("", renderer.type.toUpperCase() + "RENDERER");
topRelem.appendChild(renderElem);
if (renderElem.tagName == "VALUEMAPRENDERER") {
this.addValueMapRenderer(renderElem, renderer);
} else if (renderElem.tagName == "VALUEMAPLABELRENDERER") {
this.addValueMapLabelRenderer(renderElem, renderer);
} else if (renderElem.tagName == "SIMPLELABELRENDERER") {
this.addSimpleLabelRenderer(renderElem, renderer);
} else if (renderElem.tagName == "SCALEDEPENDENTRENDERER") {
this.addScaleDependentRenderer(renderElem, renderer);
}
}
},
addScaleDependentRenderer: function(renderElem, renderer) {
if (typeof renderer.lower == "string" || typeof renderer.lower == "number") {
renderElem.setAttribute("lower", renderer.lower);
}
if (typeof renderer.upper == "string" || typeof renderer.upper == "number") {
renderElem.setAttribute("upper", renderer.upper);
}
this.addRenderer(renderElem, renderer.renderer);
},
addValueMapLabelRenderer: function(renderElem, renderer) {
renderElem.setAttribute("lookupfield", renderer.lookupfield);
renderElem.setAttribute("labelfield", renderer.labelfield);
if (typeof renderer.exacts == "object") {
for (var ext=0, extlen=renderer.exacts.length; ext<extlen; ext++) {
var exact = renderer.exacts[ext];
var eelem = this.createElementNS("", "EXACT");
if (typeof exact.value == "string") {
eelem.setAttribute("value", exact.value);
}
if (typeof exact.label == "string") {
eelem.setAttribute("label", exact.label);
}
if (typeof exact.method == "string") {
eelem.setAttribute("method", exact.method);
}
renderElem.appendChild(eelem);
if (typeof exact.symbol == "object") {
var selem = null;
if (exact.symbol.type == "text") {
selem = this.createElementNS("", "TEXTSYMBOL");
}
if (selem != null) {
var keys = this.fontStyleKeys;
for (var i = 0, len = keys.length; i < len; i++) {
var key = keys[i];
if (exact.symbol[key]) {
selem.setAttribute(key, exact.symbol[key]);
}
}
eelem.appendChild(selem);
}
}
} // for each exact
}
},
addValueMapRenderer: function(renderElem, renderer) {
renderElem.setAttribute("lookupfield", renderer.lookupfield);
if (typeof renderer.ranges == "object") {
for(var rng=0, rnglen=renderer.ranges.length; rng<rnglen; rng++) {
var range = renderer.ranges[rng];
var relem = this.createElementNS("", "RANGE");
relem.setAttribute("lower", range.lower);
relem.setAttribute("upper", range.upper);
renderElem.appendChild(relem);
if (typeof range.symbol == "object") {
var selem = null;
if (range.symbol.type == "simplepolygon") {
selem = this.createElementNS("", "SIMPLEPOLYGONSYMBOL");
}
if (selem != null) {
if (typeof range.symbol.boundarycolor == "string") {
selem.setAttribute("boundarycolor", range.symbol.boundarycolor);
}
if (typeof range.symbol.fillcolor == "string") {
selem.setAttribute("fillcolor", range.symbol.fillcolor);
}
if (typeof range.symbol.filltransparency == "number") {
selem.setAttribute("filltransparency", range.symbol.filltransparency);
}
relem.appendChild(selem);
}
}
} // for each range
} else if (typeof renderer.exacts == "object") {
for (var ext=0, extlen=renderer.exacts.length; ext<extlen; ext++) {
var exact = renderer.exacts[ext];
var eelem = this.createElementNS("", "EXACT");
if (typeof exact.value == "string") {
eelem.setAttribute("value", exact.value);
}
if (typeof exact.label == "string") {
eelem.setAttribute("label", exact.label);
}
if (typeof exact.method == "string") {
eelem.setAttribute("method", exact.method);
}
renderElem.appendChild(eelem);
if (typeof exact.symbol == "object") {
var selem = null;
if (exact.symbol.type == "simplemarker") {
selem = this.createElementNS("", "SIMPLEMARKERSYMBOL");
}
if (selem != null) {
if (typeof exact.symbol.antialiasing == "string") {
selem.setAttribute("antialiasing", exact.symbol.antialiasing);
}
if (typeof exact.symbol.color == "string") {
selem.setAttribute("color", exact.symbol.color);
}
if (typeof exact.symbol.outline == "string") {
selem.setAttribute("outline", exact.symbol.outline);
}
if (typeof exact.symbol.overlap == "string") {
selem.setAttribute("overlap", exact.symbol.overlap);
}
if (typeof exact.symbol.shadow == "string") {
selem.setAttribute("shadow", exact.symbol.shadow);
}
if (typeof exact.symbol.transparency == "number") {
selem.setAttribute("transparency", exact.symbol.transparency);
}
//if (typeof exact.symbol.type == "string")
// selem.setAttribute("type", exact.symbol.type);
if (typeof exact.symbol.usecentroid == "string") {
selem.setAttribute("usecentroid", exact.symbol.usecentroid);
}
if (typeof exact.symbol.width == "number") {
selem.setAttribute("width", exact.symbol.width);
}
eelem.appendChild(selem);
}
}
} // for each exact
}
},
addSimpleLabelRenderer: function(renderElem, renderer) {
renderElem.setAttribute("field", renderer.field);
var keys = ['featureweight', 'howmanylabels', 'labelbufferratio',
'labelpriorities', 'labelweight', 'linelabelposition',
'rotationalangles'];
for (var i=0, len=keys.length; i<len; i++) {
var key = keys[i];
if (renderer[key]) {
renderElem.setAttribute(key, renderer[key]);
}
}
if (renderer.symbol.type == "text") {
var symbol = renderer.symbol;
var selem = this.createElementNS("", "TEXTSYMBOL");
renderElem.appendChild(selem);
var keys = this.fontStyleKeys;
for (var i=0, len=keys.length; i<len; i++) {
var key = keys[i];
if (symbol[key]) {
selem.setAttribute(key, renderer[key]);
}
}
}
},
writePolygonGeometry: function(polygon) {
if (!(polygon instanceof OpenLayers.Geometry.Polygon)) {
throw {
message:'Cannot write polygon geometry to ArcXML with an ' +
polygon.CLASS_NAME + ' object.',
geometry: polygon
};
}
var polyElem = this.createElementNS("", "POLYGON");
for (var ln=0, lnlen=polygon.components.length; ln<lnlen; ln++) {
var ring = polygon.components[ln];
var ringElem = this.createElementNS("", "RING");
for (var rn=0, rnlen=ring.components.length; rn<rnlen; rn++) {
var point = ring.components[rn];
var pointElem = this.createElementNS("", "POINT");
pointElem.setAttribute("x", point.x);
pointElem.setAttribute("y", point.y);
ringElem.appendChild(pointElem);
}
polyElem.appendChild(ringElem);
}
return polyElem;
},
/**
* Method: parseResponse
* Take an ArcXML response, and parse in into this object's internal properties.
*
* Parameters:
* data - {String} or {DOMElement} The ArcXML response, as either a string or the
* top level DOMElement of the response.
*/
parseResponse: function(data) {
if(typeof data == "string") {
var newData = new OpenLayers.Format.XML();
data = newData.read(data);
}
var response = new OpenLayers.Format.ArcXML.Response();
var errorNode = data.getElementsByTagName("ERROR");
if (errorNode != null && errorNode.length > 0) {
response.error = this.getChildValue(errorNode, "Unknown error.");
} else {
var responseNode = data.getElementsByTagName("RESPONSE");
if (responseNode == null || responseNode.length == 0) {
response.error = "No RESPONSE tag found in ArcXML response.";
return response;
}
var rtype = responseNode[0].firstChild.nodeName;
if (rtype == "#text") {
rtype = responseNode[0].firstChild.nextSibling.nodeName;
}
if (rtype == "IMAGE") {
var envelopeNode = data.getElementsByTagName("ENVELOPE");
var outputNode = data.getElementsByTagName("OUTPUT");
if (envelopeNode == null || envelopeNode.length == 0) {
response.error = "No ENVELOPE tag found in ArcXML response.";
} else if (outputNode == null || outputNode.length == 0) {
response.error = "No OUTPUT tag found in ArcXML response.";
} else {
var envAttr = this.parseAttributes(envelopeNode[0]);
var outputAttr = this.parseAttributes(outputNode[0]);
if (typeof outputAttr.type == "string") {
response.image = {
envelope: envAttr,
output: {
type: outputAttr.type,
data: this.getChildValue(outputNode[0])
}
};
} else {
response.image = { envelope: envAttr, output: outputAttr };
}
}
} else if (rtype == "FEATURES") {
var features = responseNode[0].getElementsByTagName("FEATURES");
// get the feature count
var featureCount = features[0].getElementsByTagName("FEATURECOUNT");
response.features.featurecount = featureCount[0].getAttribute("count");
if (response.features.featurecount > 0) {
// get the feature envelope
var envelope = features[0].getElementsByTagName("ENVELOPE");
response.features.envelope = this.parseAttributes(envelope[0], typeof(0));
// get the field values per feature
var featureList = features[0].getElementsByTagName("FEATURE");
for (var fn = 0; fn < featureList.length; fn++) {
var feature = new OpenLayers.Feature.Vector();
var fields = featureList[fn].getElementsByTagName("FIELD");
for (var fdn = 0; fdn < fields.length; fdn++) {
var fieldName = fields[fdn].getAttribute("name");
var fieldValue = fields[fdn].getAttribute("value");
feature.attributes[ fieldName ] = fieldValue;
}
var geom = featureList[fn].getElementsByTagName("POLYGON");
if (geom.length > 0) {
// if there is a polygon, create an openlayers polygon, and assign
// it to the .geometry property of the feature
var ring = geom[0].getElementsByTagName("RING");
var polys = [];
for (var rn = 0; rn < ring.length; rn++) {
var linearRings = [];
linearRings.push(this.parsePointGeometry(ring[rn]));
var holes = ring[rn].getElementsByTagName("HOLE");
for (var hn = 0; hn < holes.length; hn++) {
linearRings.push(this.parsePointGeometry(holes[hn]));
}
holes = null;
polys.push(new OpenLayers.Geometry.Polygon(linearRings));
linearRings = null;
}
ring = null;
if (polys.length == 1) {
feature.geometry = polys[0];
} else
{
feature.geometry = new OpenLayers.Geometry.MultiPolygon(polys);
}
}
response.features.feature.push(feature);
}
}
} else {
response.error = "Unidentified response type.";
}
}
return response;
},
/**
* Method: parseAttributes
*
* Parameters:
* node - {<DOMElement>} An element to parse attributes from.
*
* Returns:
* {Object} An attributes object, with properties set to attribute values.
*/
parseAttributes: function(node,type) {
var attributes = {};
for(var attr = 0; attr < node.attributes.length; attr++) {
if (type == "number") {
attributes[node.attributes[attr].nodeName] = parseFloat(node.attributes[attr].nodeValue);
} else {
attributes[node.attributes[attr].nodeName] = node.attributes[attr].nodeValue;
}
}
return attributes;
},
/**
* Method: parsePointGeometry
*
* Parameters:
* node - {<DOMElement>} An element to parse <COORDS> or <POINT> arcxml data from.
*
* Returns:
* {OpenLayers.Geometry.LinearRing} A linear ring represented by the node's points.
*/
parsePointGeometry: function(node) {
var ringPoints = [];
var coords = node.getElementsByTagName("COORDS");
if (coords.length > 0) {
// if coords is present, it's the only coords item
var coordArr = this.getChildValue(coords[0]);
coordArr = coordArr.split(/;/);
for (var cn = 0; cn < coordArr.length; cn++) {
var coordItems = coordArr[cn].split(/ /);
ringPoints.push(new OpenLayers.Geometry.Point(parseFloat(coordItems[0]), parseFloat(coordItems[1])));
}
coords = null;
} else {
var point = node.getElementsByTagName("POINT");
if (point.length > 0) {
for (var pn = 0; pn < point.length; pn++) {
ringPoints.push(
new OpenLayers.Geometry.Point(
parseFloat(point[pn].getAttribute("x")),
parseFloat(point[pn].getAttribute("y"))
)
);
}
}
point = null;
}
return new OpenLayers.Geometry.LinearRing(ringPoints);
},
CLASS_NAME: "OpenLayers.Format.ArcXML"
});
OpenLayers.Format.ArcXML.Request = OpenLayers.Class({
initialize: function(params) {
var defaults = {
get_image: {
properties: {
background: null,
/*{
color: { r:255, g:255, b:255 },
transcolor: null
},*/
draw: true,
envelope: {
minx: 0,
miny: 0,
maxx: 0,
maxy: 0
},
featurecoordsys: {
id:0,
string:"",
datumtransformid:0,
datumtransformstring:""
},
filtercoordsys:{
id:0,
string:"",
datumtransformid:0,
datumtransformstring:""
},
imagesize:{
height:0,
width:0,
dpi:96,
printheight:0,
printwidth:0,
scalesymbols:false
},
layerlist:[],
/* no support for legends */
output:{
baseurl:"",
legendbaseurl:"",
legendname:"",
legendpath:"",
legendurl:"",
name:"",
path:"",
type:"jpg",
url:""
}
}
},
get_feature: {
layer: "",
query: {
isspatial: false,
featurecoordsys: {
id:0,
string:"",
datumtransformid:0,
datumtransformstring:""
},
filtercoordsys: {
id:0,
string:"",
datumtransformid:0,
datumtransformstring:""
},
buffer:0,
where:"",
spatialfilter: {
relation: "envelope_intersection",
envelope: null
}
}
},
environment: {
separators: {
cs:" ",
ts:";"
}
},
layer: [],
workspaces: []
};
return OpenLayers.Util.extend(this, defaults);
},
CLASS_NAME: "OpenLayers.Format.ArcXML.Request"
});
OpenLayers.Format.ArcXML.Response = OpenLayers.Class({
initialize: function(params) {
var defaults = {
image: {
envelope:null,
output:''
},
features: {
featurecount: 0,
envelope: null,
feature: []
},
error:''
};
return OpenLayers.Util.extend(this, defaults);
},
CLASS_NAME: "OpenLayers.Format.ArcXML.Response"
});