(function(window,undefined){ if(window.document && window.Worker){ var worker = null; var Shapefile = function(o, callback){ var t = this, o = typeof o == "string" ? {shp: o} : o if (!worker) { var path = (o.jsRoot || "") + "shapefile.js" var w = worker = this.worker = new Worker(path) } else { var w = worker } w.onmessage = function(e){ t.data = e.date if(callback) callback(e.data) } w.postMessage(["Load", o]) if(o.dbf) this.dbf = new DBF(o.dbf,function(data){ w.postMessage(["Add DBF Attributes", data]) }) } window["Shapefile"] = Shapefile return } var IN_WORKER = !window.document if (IN_WORKER) { importScripts('stream.js') onmessage = function(e){ switch (e.data[0]) { case "Load": window.shapefile = new Shapefile(e.data[1]) break case "Add DBF Attributes": window.shapefile.addDBFDataToGeoJSON(e.data[1]) window.shapefile._postMessage() break default: } }; } var SHAPE_TYPES = { "0": "Null Shape", "1": "Point", // standard shapes "3": "PolyLine", "5": "Polygon", "8": "MultiPoint", "11": "PointZ", // 3d shapes "13": "PolyLineZ", "15": "PolygonZ", "18": "MultiPointZ", "21": "PointM", // user-defined measurement shapes "23": "PolyLineM", "25": "PolygonM", "28": "MultiPointM", "31": "MultiPatch" } var Shapefile = function(o,callback){ var o = typeof o == "string" ? {shp: o} : o this.callback = callback if (!!(o.shp.lastModifiedDate || o.shp.lastModified)) this.handleFile(o); else this.handleUri(o); } Shapefile.prototype = { constructor: Shapefile, handleUri: function(o) { var xhr = new XMLHttpRequest(), that = this xhr.open("GET", o.shp, false) xhr.overrideMimeType("text/plain; charset=x-user-defined") xhr.send() if(200 != xhr.status) throw "Unable to load " + o.shp + " status: " + xhr.status this.url = o.shp this.stream = new Gordon.Stream(xhr.responseText) this.readFileHeader() this.readRecords() this.formatIntoGeoJson() if(o.dbf) this.dbf = IN_WORKER ? null : new DBF(o.dbf,function(data){ that.addDBFDataToGeoJSON(data) that._postMessage() }) else this._postMessage() }, handleFile: function(o) { this.options = o if (!!window.FileReader) { var reader = new FileReader(); } else { var reader = new FileReaderSync(); } reader.onload = (function(that){ return function(e){ that.onFileLoad(e.target.result) } })(this); if (!!window.FileReader) { reader.readAsBinaryString(o.shp); } else { this.onFileLoad(reader.readAsBinaryString(o.shp)); } }, onFileLoad: function(data) { this.stream = new Gordon.Stream(data) this.readFileHeader() this.readRecords() this.formatIntoGeoJson() if(this.options.dbf) this.dbf = IN_WORKER ? null : new DBF(this.options.dbf,function(data){ that.addDBFDataToGeoJSON(data) that._postMessage() }) else this._postMessage() }, _postMessage: function() { var data = { header: this.header, records: this.records, dbf: this.dbf, geojson: this.geojson } if (IN_WORKER) postMessage(data) else if (this.callback) this.callback(data) }, readFileHeader: function(){ var s = this.stream, header = this.header = {} // The main file header is fixed at 100 bytes in length if(s < 100) throw "Invalid Header Length" // File code (always hex value 0x0000270a) header.fileCode = s.readSI32(true) if(header.fileCode != parseInt(0x0000270a)) throw "Invalid File Code" // Unused; five uint32 s.offset += 4 * 5 // File length (in 16-bit words, including the header) header.fileLength = s.readSI32(true) * 2 header.version = s.readSI32() header.shapeType = SHAPE_TYPES[s.readSI32()] // Minimum bounding rectangle (MBR) of all shapes contained within the shapefile; four doubles in the following order: min X, min Y, max X, max Y this._readBounds(header) // Z axis range header.rangeZ = { min: s.readDouble(), max: s.readDouble() } // User defined measurement range header.rangeM = { min: s.readDouble(), max: s.readDouble() } }, readRecords: function(){ var s = this.stream, records = this.records = [], record do { record = {} // Record number (1-based) record.id = s.readSI32(true) if(record.id == 0) break //no more records // Record length (in 16-bit words) record.length = s.readSI32(true) * 2 record.shapeType = SHAPE_TYPES[s.readSI32()] // Read specific shape this["_read" + record.shapeType](record); records.push(record); } while(true); }, _readBounds: function(object){ var s = this.stream object.bounds = { left: s.readDouble(), bottom: s.readDouble(), right: s.readDouble(), top: s.readDouble() } return object }, _readParts: function(record){ var s = this.stream, nparts, parts = [] nparts = record.numParts = s.readSI32() // since number of points always proceeds number of parts, capture it now record.numPoints = s.readSI32() // parts array indicates at which index the next part starts at while(nparts--) parts.push(s.readSI32()) record.parts = parts return record }, _readPoint: function(record){ var s = this.stream record.x = s.readDouble() record.y = s.readDouble() return record }, _readPoints: function(record){ var s = this.stream, points = [], npoints = record.numPoints || (record.numPoints = s.readSI32()) while(npoints--) points.push({ x: s.readDouble(), y: s.readDouble() }) record.points = points return record }, _readMultiPoint: function(record){ var s = this.stream this._readBounds(record) this._readPoints(record) return record }, _readPolygon: function(record){ var s = this.stream this._readBounds(record) this._readParts(record) this._readPoints(record) return record }, _readPolyLine: function(record){ return this._readPolygon(record); }, formatIntoGeoJson: function(){ var bounds = this.header.bounds, records = this.records, features = [], feature, geometry, points, fbounds, gcoords, parts, point, geojson = {} geojson.type = "FeatureCollection" geojson.bbox = [ bounds.left, bounds.bottom, bounds.right, bounds.top ] geojson.features = features for (var r = 0, record; record = records[r]; r++){ feature = {}, fbounds = record.bounds, points = record.points, parts = record.parts feature.type = "Feature" if (record.shapeType !== 'Point') { feature.bbox = [ fbounds.left, fbounds.bottom, fbounds.right, fbounds.top ] } geometry = feature.geometry = {} switch (record.shapeType) { case "Point": geometry.type = "Point" geometry.coordinates = [ record.x, record.y ] break case "MultiPoint": case "PolyLine": geometry.type = (record.shapeType == "PolyLine" ? "LineString" : "MultiPoint") gcoords = geometry.coordinates = [] for (var p = 0; p < points.length; p++){ var point = points[p] gcoords.push([point.x,point.y]) } break case "Polygon": geometry.type = "Polygon" gcoords = geometry.coordinates = [] for (var pt = 0; pt < parts.length; pt++){ var partIndex = parts[pt], part = [], point // partIndex 0 == main poly, partIndex > 0 == holes in poly for (var p = partIndex; p < (parts[pt+1] || points.length); p++){ point = points[p] part.push([point.x,point.y]) } gcoords.push(part) } break default: } features.push(feature) } this.geojson = geojson if(this._addDataAfterLoad) this.addDBFDataToGeoJSON(this._addDataAfterLoad); }, addDBFDataToGeoJSON: function(dbfData){ if(!this.geojson) return (this._addDataAfterLoad = dbfData) this.dbf = dbfData var features = this.geojson.features, len = features.length, records = dbfData.records while(len--) features[len].properties = records[len] } } window["Shapefile"] = Shapefile; })(self);