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mirror of https://github.com/wavded/js-shapefile-to-geojson synced 2024-11-23 14:34:54 +00:00

*-initial commit

This commit is contained in:
Marc Harter 2010-07-30 17:25:21 -05:00
parent 4e899077df
commit e0aa06ff45
15 changed files with 1053 additions and 0 deletions

213
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(function(window,undefined){
if(window.document && window.Worker){
var worker = new Worker("dbf.js")
var DBF = function(url, callback){
var
w = this._worker = worker,
t = this
w.onmessage = function(e){
t.data = e.data
if (callback) callback(e.data);
};
w.postMessage(url)
}
window["DBF"] = DBF
return
}
var IN_WORKER = !window.document
if (IN_WORKER) {
importScripts('stream.js')
onmessage = function(e){
new DBF(e.data);
};
}
var
DBASE_LEVEL = {
"3": "dBASE Level 5",
"4": "dBase Level 7"
},
DBASE_FIELD_TYPE = {
"N": "Number",
"C": "Character", // binary
"L": "Logical",
"D": "Date",
"M": "Memo", // binary
"F": "Floating point",
"B": "Binary",
"G": "General",
"P": "Picture",
"Y": "Currency",
"T": "DateTime",
"I": "Integer",
"V": "VariField",
"X": "Variant",
"@": "Timestamp",
"O": "Double",
"+": "Autoincrement", // (dBase Level 7)
"O": "Double", // (dBase Level 7)
"@": "Timestamp" // (dBase Level 7)
}
var DBF = function(url, callback){
var xhr = new XMLHttpRequest();
xhr.open("GET", url, false)
xhr.overrideMimeType("text/plain; charset=x-user-defined")
xhr.send()
if(200 != xhr.status)
throw "Unable to load " + url + " status: " + xhr.status
this.stream = new Gordon.Stream(xhr.responseText)
this.callback = callback
this.readFileHeader()
this.readFieldDescriptions()
this.readRecords()
this._postMessage()
}
DBF.prototype = {
constructor: DBF,
_postMessage: function() {
var data = {
header: this.header,
fields: this.fields,
records: this.records
}
if (IN_WORKER) postMessage(data)
else if (this.callback) this.callback(data)
},
readFileHeader: function(){
var s = this.stream,
header = this.header = {},
date = new Date;
header.version = DBASE_LEVEL[s.readSI8()]
// Date of last update; in YYMMDD format. Each byte contains the number as a binary. YY is added to a base of 1900 decimal to determine the actual year. Therefore, YY has possible values from 0x00-0xFF, which allows for a range from 1900-2155.
date.setUTCFullYear(1900 + s.readSI8())
date.setUTCMonth(s.readSI8())
date.setUTCDate(s.readSI8())
header.lastUpdated = date
// Number of records in file
header.numRecords = s.readSI32()
// Position of first data record
header.firstRecordPosition = s.readSI16()
// Length of one data record, including delete flag
header.recordLength = s.readSI16()
// Reserved; filled with zeros
s.offset += 16
/*
Table flags:
0x01 file has a structural .cdx
0x02 file has a Memo field
0x04 file is a database (.dbc)
This byte can contain the sum of any of the above values. For example, the value 0x03 indicates the table has a structural .cdx and a Memo field.
*/
header.flags = s.readSI8()
// Code page mark
header.codePageMark = s.readSI8()
// Reserved; filled with zeros.
s.offset += 2
},
readFieldDescriptions: function(){
var s = this.stream,
fields = [],
field
while (s.readSI8() != 0x0D) {
s.offset--
field = {}
// Field name with a maximum of 10 characters. If less than 10, it is padded with null characters (0x00).
field.name = s.readString(11).replace(/\u0000/g,"")
field.type = DBASE_FIELD_TYPE[s.readString(1)]
// Displacement of field in record
field.fieldDisplacement = s.readSI32()
// Length of field (in bytes)
field.fieldLength = s.readUI8()
// Number of decimal places
field.decimals = s.readSI8()
/*
Field flags:
0x01 System Column (not visible to user)
0x02 Column can store null values
0x04 Binary column (for CHAR and MEMO only)
0x06 (0x02+0x04) When a field is NULL and binary (Integer, Currency, and Character/Memo fields)
0x0C Column is autoincrementing
*/
field.flags = s.readSI8()
// Value of autoincrement Next value
field.autoincrementNextValue = s.readSI32()
// Value of autoincrement Step value
field.autoincrementStepValue = s.readSI8()
// Reserved
s.offset += 8
fields.push(field)
}
this.fields = fields
},
readRecords: function(){
var s = this.stream,
numRecords = this.header.numRecords,
recordsOffset = this.header.firstRecordPosition,
recordSize = this.header.recordLength,
fields = this.fields,
numFields = fields.length,
records = [],
field, record
for (var index = 0; index < numRecords; index++) {
s.offset = recordsOffset + index * recordSize
record = {}
// Data records begin with a delete flag byte. If this byte is an ASCII space (0x20), the record is not deleted. If the first byte is an asterisk (0x2A), the record is deleted
record._isDeleted = s.readSI8() == 42
for(var i = 0; i < numFields; i++){
field = fields[i]
record[field.name] = s.readString(field.fieldLength).trim();
}
records.push(record);
}
this.records = records
}
}
window["DBF"] = DBF;
})(self)

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<!doctype html>
<html>
<head>
<title>Binary Test</title>
<style>
html, body, #map {
height: 100%;
width: 100%;
}
</style>
</head>
<body>
<div id="map"></div>
<script src="stream.js"></script>
<script src="shapefile.js"></script>
<script src="dbf.js"></script>
<script type="text/javascript">
var starttime = +new Date,
shapefile = new Shapefile({
shp: "testdata/TM_WORLD_BORDERS_SIMPL-0.3.shp",
dbf: "testdata/TM_WORLD_BORDERS_SIMPL-0.3.dbf"
}, function(data){
console.log("took",new Date - starttime,"milliseconds")
console.log(data);
})
</script>
</body>
</html>

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shapefile.js Normal file
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(function(window,undefined){
if(window.document && window.Worker){
var worker = new Worker("shapefile.js")
var Shapefile = function(o, callback){
var
w = this.worker = worker,
t = this,
o = typeof o == "string" ? {shp: o} : o
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 xhr = new XMLHttpRequest(),
that = this,
o = typeof o == "string" ? {shp: o} : o
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.callback = callback
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
}
Shapefile.prototype = {
constructor: Shapefile,
_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"
feature.bbox = [
fbounds.left,
fbounds.bottom,
fbounds.right,
fbounds.top
]
geometry = feature.geometry = {}
switch (record.shapeType) {
case "Point":
geometry.type = "Point"
geometry.coordinates = [
record.points.x,
record.points,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
for (var p = partIndex; p < (partIndex[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)

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/*
Stream Reader from Gordon.JS
Copyright (c) 2010 Tobias Schneider
Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal
in the Software without restriction, including without limitation the rights
to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
copies of the Software, and to permit persons to whom the Software is
furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in
all copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
THE SOFTWARE.
*/
var win = self,
doc = win.document,
fromCharCode = String.fromCharCode,
push = Array.prototype.push,
min = Math.min,
max = Math.max;
(function(window,undefined){
window.Gordon = {};
var DEFLATE_CODE_LENGTH_ORDER = [16, 17, 18, 0, 8, 7, 9, 6, 10, 5, 11, 4, 12, 3, 13, 2, 14, 1, 15],
DEFLATE_CODE_LENGHT_MAP = [
[0, 3], [0, 4], [0, 5], [0, 6], [0, 7], [0, 8], [0, 9], [0, 10], [1, 11], [1, 13], [1, 15], [1, 17],
[2, 19], [2, 23], [2, 27], [2, 31], [3, 35], [3, 43], [3, 51], [3, 59], [4, 67], [4, 83], [4, 99],
[4, 115], [5, 131], [5, 163], [5, 195], [5, 227], [0, 258]
],
DEFLATE_DISTANCE_MAP = [
[0, 1], [0, 2], [0, 3], [0, 4], [1, 5], [1, 7], [2, 9], [2, 13], [3, 17], [3, 25], [4, 33], [4, 49],
[5, 65], [5, 97], [6, 129], [6, 193], [7, 257], [7, 385], [8, 513], [8, 769], [9, 1025], [9, 1537],
[10, 2049], [10, 3073], [11, 4097], [11, 6145], [12, 8193], [12, 12289], [13, 16385], [13, 24577]
];
Gordon.Stream = function(data){
var buff = [],
t = this,
i = t.length = data.length;
t.offset = 0;
for(var i = 0; data[i]; i++){ buff.push(fromCharCode(data.charCodeAt(i) & 0xff)); }
t._buffer = buff.join('');
t._bitBuffer = null;
t._bitOffset = 8;
};
Gordon.Stream.prototype = {
readByteAt: function(pos){
return this._buffer.charCodeAt(pos);
},
readNumber: function(numBytes, bigEnd){
var t = this,
val = 0;
if(bigEnd){
while(numBytes--){ val = (val << 8) | t.readByteAt(t.offset++); }
}else{
var o = t.offset,
i = o + numBytes;
while(i > o){ val = (val << 8) | t.readByteAt(--i); }
t.offset += numBytes;
}
t.align();
return val;
},
readSNumber: function(numBytes, bigEnd){
var val = this.readNumber(numBytes, bigEnd),
numBits = numBytes * 8;
if(val >> (numBits - 1)){ val -= Math.pow(2, numBits); }
return val;
},
readSI8: function(){
return this.readSNumber(1);
},
readSI16: function(bigEnd){
return this.readSNumber(2, bigEnd);
},
readSI32: function(bigEnd){
return this.readSNumber(4, bigEnd);
},
readUI8: function(){
return this.readNumber(1);
},
readUI16: function(bigEnd){
return this.readNumber(2, bigEnd);
},
readUI24: function(bigEnd){
return this.readNumber(3, bigEnd);
},
readUI32: function(bigEnd){
return this.readNumber(4, bigEnd);
},
readFixed: function(){
return this._readFixedPoint(32, 16);
},
_readFixedPoint: function(numBits, precision){
return this.readSB(numBits) * Math.pow(2, -precision);
},
readFixed8: function(){
return this._readFixedPoint(16, 8);
},
readFloat: function(){
return this._readFloatingPoint(8, 23);
},
_readFloatingPoint: function(numEBits, numSBits){
var numBits = 1 + numEBits + numSBits,
numBytes = numBits / 8,
t = this,
val = 0.0;
if(numBytes > 4){
var i = Math.ceil(numBytes / 4);
while(i--){
var buff = [],
o = t.offset,
j = o + (numBytes >= 4 ? 4 : numBytes % 4);
while(j > o){
buff.push(t.readByteAt(--j));
numBytes--;
t.offset++;
}
}
var s = new Gordon.Stream(fromCharCode.apply(String, buff)),
sign = s.readUB(1),
expo = s.readUB(numEBits),
mantis = 0,
i = numSBits;
while(i--){
if(s.readBool()){ mantis += Math.pow(2, i); }
}
}else{
var sign = t.readUB(1),
expo = t.readUB(numEBits),
mantis = t.readUB(numSBits);
}
if(sign || expo || mantis){
var maxExpo = Math.pow(2, numEBits),
bias = ~~((maxExpo - 1) / 2),
scale = Math.pow(2, numSBits),
fract = mantis / scale;
if(bias){
if(bias < maxExpo){ val = Math.pow(2, expo - bias) * (1 + fract); }
else if(fract){ val = NaN; }
else{ val = Infinity; }
}else if(fract){ val = Math.pow(2, 1 - bias) * fract; }
if(NaN != val && sign){ val *= -1; }
}
return val;
},
readFloat16: function(){
return this._readFloatingPoint(5, 10);
},
readDouble: function(){
return this._readFloatingPoint(11, 52);
},
readEncodedU32: function(){
var val = 0;
for(var i = 0; i < 5; i++){
var num = this.readByteAt(this._offset++);
val = val | ((num & 0x7f) << (7 * i));
if(!(num & 0x80)){ break; }
}
return val;
},
readSB: function(numBits){
var val = this.readUB(numBits);
if(val >> (numBits - 1)){ val -= Math.pow(2, numBits); }
return val;
},
readUB: function(numBits, lsb){
var t = this,
val = 0;
for(var i = 0; i < numBits; i++){
if(8 == t._bitOffset){
t._bitBuffer = t.readUI8();
t._bitOffset = 0;
}
if(lsb){ val |= (t._bitBuffer & (0x01 << t._bitOffset++) ? 1 : 0) << i; }
else{ val = (val << 1) | (t._bitBuffer & (0x80 >> t._bitOffset++) ? 1 : 0); }
}
return val;
},
readFB: function(numBits){
return this._readFixedPoint(numBits, 16);
},
readString: function(numChars){
var t = this,
b = t._buffer;
if(undefined != numChars){
var str = b.substr(t.offset, numChars);
t.offset += numChars;
}else{
var chars = [],
i = t.length - t.offset;
while(i--){
var code = t.readByteAt(t.offset++);
if(code){ chars.push(fromCharCode(code)); }
else{ break; }
}
var str = chars.join('');
}
return str;
},
readBool: function(numBits){
return !!this.readUB(numBits || 1);
},
seek: function(offset, absolute){
var t = this;
t.offset = (absolute ? 0 : t.offset) + offset;
t.align();
return t;
},
align: function(){
this._bitBuffer = null;
this._bitOffset = 8;
return this;
},
readLanguageCode: function(){
return this.readUI8();
},
readRGB: function(){
return {
red: this.readUI8(),
green: this.readUI8(),
blue: this.readUI8()
}
},
readRGBA: function(){
var rgba = this.readRGB();
rgba.alpha = this.readUI8() / 255;
return rgba;
},
readARGB: function(){
var alpha = this.readUI8() / 255,
rgba = this.readRGB();
rgba.alpha = alpha;
return rgba;
},
readRect: function(){
var t = this;
numBits = t.readUB(5),
rect = {
left: t.readSB(numBits),
right: t.readSB(numBits),
top: t.readSB(numBits),
bottom: t.readSB(numBits)
};
t.align();
return rect;
},
readMatrix: function(){
var t = this,
hasScale = t.readBool();
if(hasScale){
var numBits = t.readUB(5),
scaleX = t.readFB(numBits),
scaleY = t.readFB(numBits);
}else{ var scaleX = scaleY = 1.0; }
var hasRotation = t.readBool();
if(hasRotation){
var numBits = t.readUB(5),
skewX = t.readFB(numBits),
skewY = t.readFB(numBits);
}else{ var skewX = skewY = 0.0; }
var numBits = t.readUB(5);
matrix = {
scaleX: scaleX, scaleY: scaleY,
skewX: skewX, skewY: skewY,
moveX: t.readSB(numBits), moveY: t.readSB(numBits)
};
t.align();
return matrix;
},
readCxform: function(){
return this._readCxf();
},
readCxformA: function(){
return this._readCxf(true);
},
_readCxf: function(withAlpha){
var t = this;
hasAddTerms = t.readBool(),
hasMultTerms = t.readBool(),
numBits = t.readUB(4);
if(hasMultTerms){
var multR = t.readSB(numBits) / 256,
multG = t.readSB(numBits) / 256,
multB = t.readSB(numBits) / 256,
multA = withAlpha ? t.readSB(numBits) / 256 : 1;
}else{ var multR = multG = multB = multA = 1; }
if(hasAddTerms){
var addR = t.readSB(numBits),
addG = t.readSB(numBits),
addB = t.readSB(numBits),
addA = withAlpha ? t.readSB(numBits) / 256 : 0;
}else{ var addR = addG = addB = addA = 0; }
var cxform = {
multR: multR, multG: multG, multB: multB, multA: multA,
addR: addR, addG: addG, addB: addB, addA: addA
}
t.align();
return cxform;
},
decompress: function(){
var t = this,
b = t._buffer,
o = t.offset,
data = b.substr(0, o) + t.unzip();
t.length = data.length;
t.offset = o;
t._buffer = data;
return t;
},
unzip: function uz(raw){
var t = this,
buff = [],
o = DEFLATE_CODE_LENGTH_ORDER,
m = DEFLATE_CODE_LENGHT_MAP,
d = DEFLATE_DISTANCE_MAP;
t.seek(2);
do{
var isFinal = t.readUB(1, true),
type = t.readUB(2, true);
if(type){
if(1 == type){
var distTable = uz.fixedDistTable,
litTable = uz.fixedLitTable;
if(!distTable){
var bitLengths = [];
for(var i = 0; i < 32; i++){ bitLengths.push(5); }
distTable = uz.fixedDistTable = buildHuffTable(bitLengths);
}
if(!litTable){
var bitLengths = [];
for(var i = 0; i <= 143; i++){ bitLengths.push(8); }
for(; i <= 255; i++){ bitLengths.push(9); }
for(; i <= 279; i++){ bitLengths.push(7); }
for(; i <= 287; i++){ bitLengths.push(8); }
litTable = uz.fixedLitTable = buildHuffTable(bitLengths);
}
}else{
var numLitLengths = t.readUB(5, true) + 257,
numDistLengths = t.readUB(5, true) + 1,
numCodeLenghts = t.readUB(4, true) + 4,
codeLengths = [0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0];
for(var i = 0; i < numCodeLenghts; i++){ codeLengths[o[i]] = t.readUB(3, true); }
var codeTable = buildHuffTable(codeLengths),
litLengths = [],
prevCodeLen = 0,
maxLengths = numLitLengths + numDistLengths;
while(litLengths.length < maxLengths){
var sym = decodeSymbol(t, codeTable);
switch(sym){
case 16:
var i = t.readUB(2, true) + 3;
while(i--){ litLengths.push(prevCodeLen); }
break;
case 17:
var i = t.readUB(3, true) + 3;
while(i--){ litLengths.push(0); }
break;
case 18:
var i = t.readUB(7, true) + 11;
while(i--){ litLengths.push(0); }
break;
default:
if(sym <= 15){
litLengths.push(sym);
prevCodeLen = sym;
}
}
}
var distTable = buildHuffTable(litLengths.splice(numLitLengths, numDistLengths)),
litTable = buildHuffTable(litLengths);
}
do{
var sym = decodeSymbol(t, litTable);
if(sym < 256){ buff.push(raw ? sym : fromCharCode(sym)); }
else if(sym > 256){
var lengthMap = m[sym - 257],
len = lengthMap[1] + t.readUB(lengthMap[0], true),
distMap = d[decodeSymbol(t, distTable)],
dist = distMap[1] + t.readUB(distMap[0], true),
i = buff.length - dist;
while(len--){ buff.push(buff[i++]); }
}
}while(256 != sym);
}else{
t.align();
var len = t.readUI16(),
nlen = t.readUI16();
if(raw){ while(len--){ buff.push(t.readUI8()); } }
else{ buff.push(t.readString(len)); }
}
}while(!isFinal);
t.seek(4);
return raw ? buff : buff.join('');
}
};
function buildHuffTable(bitLengths){
var numLengths = bitLengths.length,
blCount = [],
maxBits = max.apply(Math, bitLengths),
nextCode = [],
code = 0,
table = {},
i = numLengths;
while(i--){
var len = bitLengths[i];
blCount[len] = (blCount[len] || 0) + (len > 0);
}
for(var i = 1; i <= maxBits; i++){
var len = i - 1;
if(undefined == blCount[len]){ blCount[len] = 0; }
code = (code + blCount[i - 1]) << 1;
nextCode[i] = code;
}
for(var i = 0; i < numLengths; i++){
var len = bitLengths[i];
if(len){
table[nextCode[len]] = {
length: len,
symbol: i
};
nextCode[len]++;
}
}
return table;
}
function decodeSymbol(s, table) {
var code = 0,
len = 0;
while(true){
code = (code << 1) | s.readUB(1, true);
len++;
var entry = table[code];
if(undefined != entry && entry.length == len){ return entry.symbol }
}
}
})(this);

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GEOGCS["GCS_WGS_1984",DATUM["D_WGS_1984",SPHEROID["WGS_1984",6378137.0,298.257223563]],PRIMEM["Greenwich",0.0],UNIT["Degree",0.0174532925199433]]

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GEOGCS["GCS_WGS_1984",DATUM["D_WGS_1984",SPHEROID["WGS_1984",6378137.0,298.257223563]],PRIMEM["Greenwich",0.0],UNIT["Degree",0.0174532925199433]]

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