Software: Apache. PHP/5.5.15 uname -a: Windows NT SVR-DMZ 6.1 build 7600 (Windows Server 2008 R2 Enterprise Edition) i586 SYSTEM Safe-mode: OFF (not secure) E:\nuevo\phpMyAdmin2\js\openlayers\src\openlayers\lib\OpenLayers\Format\GML\ drwxrwxrwx |
Viewing file: v3.js (18.36 KB) -rw-rw-rw- Select action/file-type: (+) | (+) | (+) | Code (+) | Session (+) | (+) | SDB (+) | (+) | (+) | (+) | (+) | (+) | /* 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/GML/Base.js */ /** * Class: OpenLayers.Format.GML.v3 * Parses GML version 3. * * Inherits from: * - <OpenLayers.Format.GML.Base> */ OpenLayers.Format.GML.v3 = OpenLayers.Class(OpenLayers.Format.GML.Base, { /** * Property: schemaLocation * {String} Schema location for a particular minor version. The writers * conform with the Simple Features Profile for GML. */ schemaLocation: "http://www.opengis.net/gml http://schemas.opengis.net/gml/3.1.1/profiles/gmlsfProfile/1.0.0/gmlsf.xsd", /** * Property: curve * {Boolean} Write gml:Curve instead of gml:LineString elements. This also * affects the elements in multi-part geometries. Default is false. * To write gml:Curve elements instead of gml:LineString, set curve * to true in the options to the contstructor (cannot be changed after * instantiation). */ curve: false, /** * Property: multiCurve * {Boolean} Write gml:MultiCurve instead of gml:MultiLineString. Since * the latter is deprecated in GML 3, the default is true. To write * gml:MultiLineString instead of gml:MultiCurve, set multiCurve to * false in the options to the constructor (cannot be changed after * instantiation). */ multiCurve: true, /** * Property: surface * {Boolean} Write gml:Surface instead of gml:Polygon elements. This also * affects the elements in multi-part geometries. Default is false. * To write gml:Surface elements instead of gml:Polygon, set surface * to true in the options to the contstructor (cannot be changed after * instantiation). */ surface: false, /** * Property: multiSurface * {Boolean} Write gml:multiSurface instead of gml:MultiPolygon. Since * the latter is deprecated in GML 3, the default is true. To write * gml:MultiPolygon instead of gml:multiSurface, set multiSurface to * false in the options to the constructor (cannot be changed after * instantiation). */ multiSurface: true, /** * Constructor: OpenLayers.Format.GML.v3 * Create a parser for GML v3. * * Parameters: * options - {Object} An optional object whose properties will be set on * this instance. * * Valid options properties: * featureType - {String} Local (without prefix) feature typeName (required). * featureNS - {String} Feature namespace (required). * geometryName - {String} Geometry element name. */ initialize: function(options) { OpenLayers.Format.GML.Base.prototype.initialize.apply(this, [options]); }, /** * 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: { "gml": OpenLayers.Util.applyDefaults({ "featureMembers": function(node, obj) { this.readChildNodes(node, obj); }, "Curve": function(node, container) { var obj = {points: []}; this.readChildNodes(node, obj); if(!container.components) { container.components = []; } container.components.push( new OpenLayers.Geometry.LineString(obj.points) ); }, "segments": function(node, obj) { this.readChildNodes(node, obj); }, "LineStringSegment": function(node, container) { var obj = {}; this.readChildNodes(node, obj); if(obj.points) { Array.prototype.push.apply(container.points, obj.points); } }, "pos": function(node, obj) { var str = this.getChildValue(node).replace( this.regExes.trimSpace, "" ); var coords = str.split(this.regExes.splitSpace); var point; if(this.xy) { point = new OpenLayers.Geometry.Point( coords[0], coords[1], coords[2] ); } else { point = new OpenLayers.Geometry.Point( coords[1], coords[0], coords[2] ); } obj.points = [point]; }, "posList": function(node, obj) { var str = this.getChildValue(node).replace( this.regExes.trimSpace, "" ); var coords = str.split(this.regExes.splitSpace); var dim = parseInt(node.getAttribute("dimension")) || 2; var j, x, y, z; var numPoints = coords.length / dim; var points = new Array(numPoints); for(var i=0, len=coords.length; i<len; i += dim) { x = coords[i]; y = coords[i+1]; z = (dim == 2) ? undefined : coords[i+2]; if (this.xy) { points[i/dim] = new OpenLayers.Geometry.Point(x, y, z); } else { points[i/dim] = new OpenLayers.Geometry.Point(y, x, z); } } obj.points = points; }, "Surface": function(node, obj) { this.readChildNodes(node, obj); }, "patches": function(node, obj) { this.readChildNodes(node, obj); }, "PolygonPatch": function(node, obj) { this.readers.gml.Polygon.apply(this, [node, obj]); }, "exterior": function(node, container) { var obj = {}; this.readChildNodes(node, obj); container.outer = obj.components[0]; }, "interior": function(node, container) { var obj = {}; this.readChildNodes(node, obj); container.inner.push(obj.components[0]); }, "MultiCurve": function(node, container) { var obj = {components: []}; this.readChildNodes(node, obj); if(obj.components.length > 0) { container.components = [ new OpenLayers.Geometry.MultiLineString(obj.components) ]; } }, "curveMember": function(node, obj) { this.readChildNodes(node, obj); }, "MultiSurface": function(node, container) { var obj = {components: []}; this.readChildNodes(node, obj); if(obj.components.length > 0) { container.components = [ new OpenLayers.Geometry.MultiPolygon(obj.components) ]; } }, "surfaceMember": function(node, obj) { this.readChildNodes(node, obj); }, "surfaceMembers": function(node, obj) { this.readChildNodes(node, obj); }, "pointMembers": function(node, obj) { this.readChildNodes(node, obj); }, "lineStringMembers": function(node, obj) { this.readChildNodes(node, obj); }, "polygonMembers": function(node, obj) { this.readChildNodes(node, obj); }, "geometryMembers": function(node, obj) { this.readChildNodes(node, obj); }, "Envelope": function(node, container) { var obj = {points: new Array(2)}; this.readChildNodes(node, obj); if(!container.components) { container.components = []; } var min = obj.points[0]; var max = obj.points[1]; container.components.push( new OpenLayers.Bounds(min.x, min.y, max.x, max.y) ); }, "lowerCorner": function(node, container) { var obj = {}; this.readers.gml.pos.apply(this, [node, obj]); container.points[0] = obj.points[0]; }, "upperCorner": function(node, container) { var obj = {}; this.readers.gml.pos.apply(this, [node, obj]); container.points[1] = obj.points[0]; } }, OpenLayers.Format.GML.Base.prototype.readers["gml"]), "feature": OpenLayers.Format.GML.Base.prototype.readers["feature"], "wfs": OpenLayers.Format.GML.Base.prototype.readers["wfs"] }, /** * Method: write * * Parameters: * features - {Array(<OpenLayers.Feature.Vector>) | OpenLayers.Feature.Vector} * An array of features or a single feature. * * Returns: * {String} Given an array of features, a doc with a gml:featureMembers * element will be returned. Given a single feature, a doc with a * gml:featureMember element will be returned. */ write: function(features) { var name; if(features instanceof Array) { name = "featureMembers"; } else { name = "featureMember"; } var root = this.writeNode("gml:" + name, features); this.setAttributeNS( root, this.namespaces["xsi"], "xsi:schemaLocation", this.schemaLocation ); return OpenLayers.Format.XML.prototype.write.apply(this, [root]); }, /** * 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: { "gml": OpenLayers.Util.applyDefaults({ "featureMembers": function(features) { var node = this.createElementNSPlus("gml:featureMembers"); for(var i=0, len=features.length; i<len; ++i) { this.writeNode("feature:_typeName", features[i], node); } return node; }, "Point": function(geometry) { var node = this.createElementNSPlus("gml:Point"); this.writeNode("pos", geometry, node); return node; }, "pos": function(point) { // only 2d for simple features profile var pos = (this.xy) ? (point.x + " " + point.y) : (point.y + " " + point.x); return this.createElementNSPlus("gml:pos", { value: pos }); }, "LineString": function(geometry) { var node = this.createElementNSPlus("gml:LineString"); this.writeNode("posList", geometry.components, node); return node; }, "Curve": function(geometry) { var node = this.createElementNSPlus("gml:Curve"); this.writeNode("segments", geometry, node); return node; }, "segments": function(geometry) { var node = this.createElementNSPlus("gml:segments"); this.writeNode("LineStringSegment", geometry, node); return node; }, "LineStringSegment": function(geometry) { var node = this.createElementNSPlus("gml:LineStringSegment"); this.writeNode("posList", geometry.components, node); return node; }, "posList": function(points) { // only 2d for simple features profile var len = points.length; var parts = new Array(len); var point; for(var i=0; i<len; ++i) { point = points[i]; if(this.xy) { parts[i] = point.x + " " + point.y; } else { parts[i] = point.y + " " + point.x; } } return this.createElementNSPlus("gml:posList", { value: parts.join(" ") }); }, "Surface": function(geometry) { var node = this.createElementNSPlus("gml:Surface"); this.writeNode("patches", geometry, node); return node; }, "patches": function(geometry) { var node = this.createElementNSPlus("gml:patches"); this.writeNode("PolygonPatch", geometry, node); return node; }, "PolygonPatch": function(geometry) { var node = this.createElementNSPlus("gml:PolygonPatch", { attributes: {interpolation: "planar"} }); this.writeNode("exterior", geometry.components[0], node); for(var i=1, len=geometry.components.length; i<len; ++i) { this.writeNode( "interior", geometry.components[i], node ); } return node; }, "Polygon": function(geometry) { var node = this.createElementNSPlus("gml:Polygon"); this.writeNode("exterior", geometry.components[0], node); for(var i=1, len=geometry.components.length; i<len; ++i) { this.writeNode( "interior", geometry.components[i], node ); } return node; }, "exterior": function(ring) { var node = this.createElementNSPlus("gml:exterior"); this.writeNode("LinearRing", ring, node); return node; }, "interior": function(ring) { var node = this.createElementNSPlus("gml:interior"); this.writeNode("LinearRing", ring, node); return node; }, "LinearRing": function(ring) { var node = this.createElementNSPlus("gml:LinearRing"); this.writeNode("posList", ring.components, node); return node; }, "MultiCurve": function(geometry) { var node = this.createElementNSPlus("gml:MultiCurve"); for(var i=0, len=geometry.components.length; i<len; ++i) { this.writeNode("curveMember", geometry.components[i], node); } return node; }, "curveMember": function(geometry) { var node = this.createElementNSPlus("gml:curveMember"); if(this.curve) { this.writeNode("Curve", geometry, node); } else { this.writeNode("LineString", geometry, node); } return node; }, "MultiSurface": function(geometry) { var node = this.createElementNSPlus("gml:MultiSurface"); for(var i=0, len=geometry.components.length; i<len; ++i) { this.writeNode("surfaceMember", geometry.components[i], node); } return node; }, "surfaceMember": function(polygon) { var node = this.createElementNSPlus("gml:surfaceMember"); if(this.surface) { this.writeNode("Surface", polygon, node); } else { this.writeNode("Polygon", polygon, node); } return node; }, "Envelope": function(bounds) { var node = this.createElementNSPlus("gml:Envelope"); this.writeNode("lowerCorner", bounds, node); this.writeNode("upperCorner", bounds, node); // srsName attribute is required for gml:Envelope if(this.srsName) { node.setAttribute("srsName", this.srsName); } return node; }, "lowerCorner": function(bounds) { // only 2d for simple features profile var pos = (this.xy) ? (bounds.left + " " + bounds.bottom) : (bounds.bottom + " " + bounds.left); return this.createElementNSPlus("gml:lowerCorner", { value: pos }); }, "upperCorner": function(bounds) { // only 2d for simple features profile var pos = (this.xy) ? (bounds.right + " " + bounds.top) : (bounds.top + " " + bounds.right); return this.createElementNSPlus("gml:upperCorner", { value: pos }); } }, OpenLayers.Format.GML.Base.prototype.writers["gml"]), "feature": OpenLayers.Format.GML.Base.prototype.writers["feature"], "wfs": OpenLayers.Format.GML.Base.prototype.writers["wfs"] }, /** * Function: setGeometryTypes * Sets the <geometryTypes> mapping. */ setGeometryTypes: function() { this.geometryTypes = { "OpenLayers.Geometry.Point": "Point", "OpenLayers.Geometry.MultiPoint": "MultiPoint", "OpenLayers.Geometry.LineString": (this.curve === true) ? "Curve": "LineString", "OpenLayers.Geometry.MultiLineString": (this.multiCurve === false) ? "MultiLineString" : "MultiCurve", "OpenLayers.Geometry.Polygon": (this.surface === true) ? "Surface" : "Polygon", "OpenLayers.Geometry.MultiPolygon": (this.multiSurface === false) ? "MultiPolygon" : "MultiSurface", "OpenLayers.Geometry.Collection": "GeometryCollection" }; }, CLASS_NAME: "OpenLayers.Format.GML.v3" }); |
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