v1.js
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/* Copyright (c) 2006-2011 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/Format/WFST.js
*/
/**
* Class: OpenLayers.Format.WFST.v1
* Superclass for WFST parsers.
*
* Inherits from:
* - <OpenLayers.Format.XML>
*/
OpenLayers.Format.WFST.v1 = OpenLayers.Class(OpenLayers.Format.XML, {
/**
* Property: namespaces
* {Object} Mapping of namespace aliases to namespace URIs.
*/
namespaces: {
xlink: "http://www.w3.org/1999/xlink",
xsi: "http://www.w3.org/2001/XMLSchema-instance",
wfs: "http://www.opengis.net/wfs",
gml: "http://www.opengis.net/gml",
ogc: "http://www.opengis.net/ogc",
ows: "http://www.opengis.net/ows"
},
/**
* Property: defaultPrefix
*/
defaultPrefix: "wfs",
/**
* Property: version
* {String} WFS version number.
*/
version: null,
/**
* Property: schemaLocation
* {String} Schema location for a particular minor version.
*/
schemaLocations: null,
/**
* APIProperty: srsName
* {String} URI for spatial reference system.
*/
srsName: null,
/**
* APIProperty: extractAttributes
* {Boolean} Extract attributes from GML. Default is true.
*/
extractAttributes: true,
/**
* APIProperty: xy
* {Boolean} Order of the GML coordinate true:(x,y) or false:(y,x)
* Changing is not recommended, a new Format should be instantiated.
*/
xy: true,
/**
* Property: stateName
* {Object} Maps feature states to node names.
*/
stateName: null,
/**
* Constructor: OpenLayers.Format.WFST.v1
* Instances of this class are not created directly. Use the
* <OpenLayers.Format.WFST.v1_0_0> or <OpenLayers.Format.WFST.v1_1_0>
* constructor instead.
*
* Parameters:
* options - {Object} An optional object whose properties will be set on
* this instance.
*/
initialize: function(options) {
// set state name mapping
this.stateName = {};
this.stateName[OpenLayers.State.INSERT] = "wfs:Insert";
this.stateName[OpenLayers.State.UPDATE] = "wfs:Update";
this.stateName[OpenLayers.State.DELETE] = "wfs:Delete";
OpenLayers.Format.XML.prototype.initialize.apply(this, [options]);
},
/**
* Method: getSrsName
*/
getSrsName: function(feature, options) {
var srsName = options && options.srsName;
if(!srsName) {
if(feature && feature.layer) {
srsName = feature.layer.projection.getCode();
} else {
srsName = this.srsName;
}
}
return srsName;
},
/**
* APIMethod: read
* Parse the response from a transaction. Because WFS is split into
* Transaction requests (create, update, and delete) and GetFeature
* requests (read), this method handles parsing of both types of
* responses.
*
* Parameters:
* data - {String | Document} The WFST document to read
* options - {Object} Options for the reader
*
* Valid options properties:
* output - {String} either "features" or "object". The default is
* "features", which means that the method will return an array of
* features. If set to "object", an object with a "features" property
* and other properties read by the parser will be returned.
*
* Returns:
* {Array | Object} Output depending on the output option.
*/
read: function(data, options) {
options = options || {};
OpenLayers.Util.applyDefaults(options, {
output: "features"
});
if(typeof data == "string") {
data = OpenLayers.Format.XML.prototype.read.apply(this, [data]);
}
if(data && data.nodeType == 9) {
data = data.documentElement;
}
var obj = {};
if(data) {
this.readNode(data, obj, true);
}
if(obj.features && options.output === "features") {
obj = obj.features;
}
return obj;
},
/**
* Property: readers
* Contains public functions, grouped by namespace prefix, that will
* be applied when a namespaced node is found matching the function
* name. The function will be applied in the scope of this parser
* with two arguments: the node being read and a context object passed
* from the parent.
*/
readers: {
"wfs": {
"FeatureCollection": function(node, obj) {
obj.features = [];
this.readChildNodes(node, obj);
}
}
},
/**
* Method: write
* Given an array of features, write a WFS transaction. This assumes
* the features have a state property that determines the operation
* type - insert, update, or delete.
*
* Parameters:
* features - {Array(<OpenLayers.Feature.Vector>)} A list of features. See
* below for a more detailed description of the influence of the
* feature's *modified* property.
* options - {Object}
*
* feature.modified rules:
* If a feature has a modified property set, the following checks will be
* made before a feature's geometry or attribute is included in an Update
* transaction:
* - *modified* is not set at all: The geometry and all attributes will be
* included.
* - *modified.geometry* is set (null or a geometry): The geometry will be
* included. If *modified.attributes* is not set, all attributes will
* be included.
* - *modified.attributes* is set: Only the attributes set (i.e. to null or
* a value) in *modified.attributes* will be included.
* If *modified.geometry* is not set, the geometry will not be included.
*
* Valid options include:
* - *multi* {Boolean} If set to true, geometries will be casted to
* Multi geometries before writing.
*
* Returns:
* {String} A serialized WFS transaction.
*/
write: function(features, options) {
var node = this.writeNode("wfs:Transaction", {
features:features,
options: options
});
var value = this.schemaLocationAttr();
if(value) {
this.setAttributeNS(
node, this.namespaces["xsi"], "xsi:schemaLocation", value
);
}
return OpenLayers.Format.XML.prototype.write.apply(this, [node]);
},
/**
* Property: writers
* As a compliment to the readers property, this structure contains public
* writing functions grouped by namespace alias and named like the
* node names they produce.
*/
writers: {
"wfs": {
"GetFeature": function(options) {
var node = this.createElementNSPlus("wfs:GetFeature", {
attributes: {
service: "WFS",
version: this.version,
handle: options && options.handle,
outputFormat: options && options.outputFormat,
maxFeatures: options && options.maxFeatures,
"xsi:schemaLocation": this.schemaLocationAttr(options)
}
});
if (typeof this.featureType == "string") {
this.writeNode("Query", options, node);
} else {
for (var i=0,len = this.featureType.length; i<len; i++) {
options.featureType = this.featureType[i];
this.writeNode("Query", options, node);
}
}
return node;
},
"Transaction": function(obj) {
obj = obj || {};
var options = obj.options || {};
var node = this.createElementNSPlus("wfs:Transaction", {
attributes: {
service: "WFS",
version: this.version,
handle: options.handle
}
});
var i, len;
var features = obj.features;
if(features) {
// temporarily re-assigning geometry types
if (options.multi === true) {
OpenLayers.Util.extend(this.geometryTypes, {
"OpenLayers.Geometry.Point": "MultiPoint",
"OpenLayers.Geometry.LineString": (this.multiCurve === true) ? "MultiCurve": "MultiLineString",
"OpenLayers.Geometry.Polygon": (this.multiSurface === true) ? "MultiSurface" : "MultiPolygon"
});
}
var name, feature;
for(i=0, len=features.length; i<len; ++i) {
feature = features[i];
name = this.stateName[feature.state];
if(name) {
this.writeNode(name, {
feature: feature,
options: options
}, node);
}
}
// switch back to original geometry types assignment
if (options.multi === true) {
this.setGeometryTypes();
}
}
if (options.nativeElements) {
for (i=0, len=options.nativeElements.length; i<len; ++i) {
this.writeNode("wfs:Native",
options.nativeElements[i], node);
}
}
return node;
},
"Native": function(nativeElement) {
var node = this.createElementNSPlus("wfs:Native", {
attributes: {
vendorId: nativeElement.vendorId,
safeToIgnore: nativeElement.safeToIgnore
},
value: nativeElement.value
});
return node;
},
"Insert": function(obj) {
var feature = obj.feature;
var options = obj.options;
var node = this.createElementNSPlus("wfs:Insert", {
attributes: {
handle: options && options.handle
}
});
this.srsName = this.getSrsName(feature);
this.writeNode("feature:_typeName", feature, node);
return node;
},
"Update": function(obj) {
var feature = obj.feature;
var options = obj.options;
var node = this.createElementNSPlus("wfs:Update", {
attributes: {
handle: options && options.handle,
typeName: (this.featureNS ? this.featurePrefix + ":" : "") +
this.featureType
}
});
if(this.featureNS) {
node.setAttribute("xmlns:" + this.featurePrefix, this.featureNS);
}
// add in geometry
var modified = feature.modified;
if (this.geometryName !== null && (!modified || modified.geometry !== undefined)) {
this.srsName = this.getSrsName(feature);
this.writeNode(
"Property", {name: this.geometryName, value: feature.geometry}, node
);
}
// add in attributes
for(var key in feature.attributes) {
if(feature.attributes[key] !== undefined &&
(!modified || !modified.attributes ||
(modified.attributes && modified.attributes[key] !== undefined))) {
this.writeNode(
"Property", {name: key, value: feature.attributes[key]}, node
);
}
}
// add feature id filter
this.writeNode("ogc:Filter", new OpenLayers.Filter.FeatureId({
fids: [feature.fid]
}), node);
return node;
},
"Property": function(obj) {
var node = this.createElementNSPlus("wfs:Property");
this.writeNode("Name", obj.name, node);
if(obj.value !== null) {
this.writeNode("Value", obj.value, node);
}
return node;
},
"Name": function(name) {
return this.createElementNSPlus("wfs:Name", {value: name});
},
"Value": function(obj) {
var node;
if(obj instanceof OpenLayers.Geometry) {
node = this.createElementNSPlus("wfs:Value");
var geom = this.writeNode("feature:_geometry", obj).firstChild;
node.appendChild(geom);
} else {
node = this.createElementNSPlus("wfs:Value", {value: obj});
}
return node;
},
"Delete": function(obj) {
var feature = obj.feature;
var options = obj.options;
var node = this.createElementNSPlus("wfs:Delete", {
attributes: {
handle: options && options.handle,
typeName: (this.featureNS ? this.featurePrefix + ":" : "") +
this.featureType
}
});
if(this.featureNS) {
node.setAttribute("xmlns:" + this.featurePrefix, this.featureNS);
}
this.writeNode("ogc:Filter", new OpenLayers.Filter.FeatureId({
fids: [feature.fid]
}), node);
return node;
}
}
},
/**
* Method: schemaLocationAttr
* Generate the xsi:schemaLocation attribute value.
*
* Returns:
* {String} The xsi:schemaLocation attribute or undefined if none.
*/
schemaLocationAttr: function(options) {
options = OpenLayers.Util.extend({
featurePrefix: this.featurePrefix,
schema: this.schema
}, options);
var schemaLocations = OpenLayers.Util.extend({}, this.schemaLocations);
if(options.schema) {
schemaLocations[options.featurePrefix] = options.schema;
}
var parts = [];
var uri;
for(var key in schemaLocations) {
uri = this.namespaces[key];
if(uri) {
parts.push(uri + " " + schemaLocations[key]);
}
}
var value = parts.join(" ") || undefined;
return value;
},
/**
* Method: setFilterProperty
* Set the property of each spatial filter.
*
* Parameters:
* filter - {<OpenLayers.Filter>}
*/
setFilterProperty: function(filter) {
if(filter.filters) {
for(var i=0, len=filter.filters.length; i<len; ++i) {
this.setFilterProperty(filter.filters[i]);
}
} else {
if(filter instanceof OpenLayers.Filter.Spatial) {
// got a spatial filter, set its property
filter.property = this.geometryName;
}
}
},
CLASS_NAME: "OpenLayers.Format.WFST.v1"
});