/*!
	Papa Parse
	v4.1.0
	https://github.com/mholt/PapaParse
*/
(function(global)
{
	"use strict";

	var IS_WORKER = (!global.document && !!global.postMessage), LOADED_SYNC = false, AUTO_SCRIPT_PATH;
	var workers = {}, workerIdCounter = 0;

	var Papa = {};

	Papa.parse = CsvToJson;
	Papa.unparse = JsonToCsv;

	Papa.RECORD_SEP = String.fromCharCode(30);
	Papa.UNIT_SEP = String.fromCharCode(31);
	Papa.BYTE_ORDER_MARK = "\ufeff";
	Papa.BAD_DELIMITERS = ["\r", "\n", "\"", Papa.BYTE_ORDER_MARK];
	Papa.WORKERS_SUPPORTED = !!global.Worker;
	Papa.SCRIPT_PATH = null;	// Must be set by your code if you use workers and this lib is loaded asynchronously

	// Configurable chunk sizes for local and remote files, respectively
	Papa.LocalChunkSize = 1024 * 1024 * 10;	// 10 MB
	Papa.RemoteChunkSize = 1024 * 1024 * 5;	// 5 MB
	Papa.DefaultDelimiter = ",";				// Used if not specified and detection fails

	// Exposed for testing and development only
	Papa.Parser = Parser;
	Papa.ParserHandle = ParserHandle;
	Papa.NetworkStreamer = NetworkStreamer;
	Papa.FileStreamer = FileStreamer;
	Papa.StringStreamer = StringStreamer;

	// export to Node...
	if (typeof module !== 'undefined' && module.exports) {
		module.exports = Papa;
	}

	// Wireup with RequireJS
	else if (isFunction(global.define) && global.define.amd)
	{
		global.define(function() { return Papa; });
	}

	// ...or as browser global
	else
	{
		global.Papa = Papa;
	}

	if (global.jQuery)
	{
		var $ = global.jQuery;
		$.fn.parse = function(options)
		{
			var config = options.config || {};
			var queue = [];

			this.each(function(idx)
			{
				var supported = $(this).prop('tagName').toUpperCase() == "INPUT"
								&& $(this).attr('type').toLowerCase() == "file"
								&& global.FileReader;

				if (!supported || !this.files || this.files.length == 0)
					return true;	// continue to next input element

				for (var i = 0; i < this.files.length; i++)
				{
					queue.push({
						file: this.files[i],
						inputElem: this,
						instanceConfig: $.extend({}, config)
					});
				}
			});

			parseNextFile();	// begin parsing
			return this;		// maintains chainability


			function parseNextFile()
			{
				if (queue.length == 0)
				{
					if (isFunction(options.complete))
						options.complete();
					return;
				}

				var f = queue[0];

				if (isFunction(options.before))
				{
					var returned = options.before(f.file, f.inputElem);

					if (typeof returned === 'object')
					{
						if (returned.action == "abort")
						{
							error("AbortError", f.file, f.inputElem, returned.reason);
							return;	// Aborts all queued files immediately
						}
						else if (returned.action == "skip")
						{
							fileComplete();	// parse the next file in the queue, if any
							return;
						}
						else if (typeof returned.config === 'object')
							f.instanceConfig = $.extend(f.instanceConfig, returned.config);
					}
					else if (returned == "skip")
					{
						fileComplete();	// parse the next file in the queue, if any
						return;
					}
				}

				// Wrap up the user's complete callback, if any, so that ours also gets executed
				var userCompleteFunc = f.instanceConfig.complete;
				f.instanceConfig.complete = function(results)
				{
					if (isFunction(userCompleteFunc))
						userCompleteFunc(results, f.file, f.inputElem);
					fileComplete();
				};

				Papa.parse(f.file, f.instanceConfig);
			}

			function error(name, file, elem, reason)
			{
				if (isFunction(options.error))
					options.error({name: name}, file, elem, reason);
			}

			function fileComplete()
			{
				queue.splice(0, 1);
				parseNextFile();
			}
		}
	}


	if (IS_WORKER)
	{
		global.onmessage = workerThreadReceivedMessage;
	}
	else if (Papa.WORKERS_SUPPORTED)
	{
		AUTO_SCRIPT_PATH = getScriptPath();

		// Check if the script was loaded synchronously
		if (!document.body)
		{
			// Body doesn't exist yet, must be synchronous
			LOADED_SYNC = true;
		}
		else
		{
			document.addEventListener('DOMContentLoaded', function () {
				LOADED_SYNC = true;
			}, true);
		}
	}




	function CsvToJson(_input, _config)
	{
		_config = _config || {};

		if (_config.worker && Papa.WORKERS_SUPPORTED)
		{
			var w = newWorker();

			w.userStep = _config.step;
			w.userChunk = _config.chunk;
			w.userComplete = _config.complete;
			w.userError = _config.error;

			_config.step = isFunction(_config.step);
			_config.chunk = isFunction(_config.chunk);
			_config.complete = isFunction(_config.complete);
			_config.error = isFunction(_config.error);
			delete _config.worker;	// prevent infinite loop

			w.postMessage({
				input: _input,
				config: _config,
				workerId: w.id
			});

			return;
		}

		var streamer = null;
		if (typeof _input === 'string')
		{
			if (_config.download)
				streamer = new NetworkStreamer(_config);
			else
				streamer = new StringStreamer(_config);
		}
		else if ((global.File && _input instanceof File) || _input instanceof Object)	// ...Safari. (see issue #106)
			streamer = new FileStreamer(_config);

		return streamer.stream(_input);
	}






	function JsonToCsv(_input, _config)
	{
		var _output = "";
		var _fields = [];

		// Default configuration
		var _quotes = false;	// whether to surround every datum with quotes
		var _delimiter = ",";	// delimiting character
		var _newline = "\r\n";	// newline character(s)

		unpackConfig();

		if (typeof _input === 'string')
			_input = JSON.parse(_input);

		if (_input instanceof Array)
		{
			if (!_input.length || _input[0] instanceof Array)
				return serialize(null, _input);
			else if (typeof _input[0] === 'object')
				return serialize(objectKeys(_input[0]), _input);
		}
		else if (typeof _input === 'object')
		{
			if (typeof _input.data === 'string')
				_input.data = JSON.parse(_input.data);

			if (_input.data instanceof Array)
			{
				if (!_input.fields)
					_input.fields = _input.data[0] instanceof Array
									? _input.fields
									: objectKeys(_input.data[0]);

				if (!(_input.data[0] instanceof Array) && typeof _input.data[0] !== 'object')
					_input.data = [_input.data];	// handles input like [1,2,3] or ["asdf"]
			}

			return serialize(_input.fields || [], _input.data || []);
		}

		// Default (any valid paths should return before this)
		throw "exception: Unable to serialize unrecognized input";


		function unpackConfig()
		{
			if (typeof _config !== 'object')
				return;

			if (typeof _config.delimiter === 'string'
				&& _config.delimiter.length == 1
				&& Papa.BAD_DELIMITERS.indexOf(_config.delimiter) == -1)
			{
				_delimiter = _config.delimiter;
			}

			if (typeof _config.quotes === 'boolean'
				|| _config.quotes instanceof Array)
				_quotes = _config.quotes;

			if (typeof _config.newline === 'string')
				_newline = _config.newline;
		}


		// Turns an object's keys into an array
		function objectKeys(obj)
		{
			if (typeof obj !== 'object')
				return [];
			var keys = [];
			for (var key in obj)
				keys.push(key);
			return keys;
		}

		// The double for loop that iterates the data and writes out a CSV string including header row
		function serialize(fields, data)
		{
			var csv = "";

			if (typeof fields === 'string')
				fields = JSON.parse(fields);
			if (typeof data === 'string')
				data = JSON.parse(data);

			var hasHeader = fields instanceof Array && fields.length > 0;
			var dataKeyedByField = !(data[0] instanceof Array);

			// If there a header row, write it first
			if (hasHeader)
			{
				for (var i = 0; i < fields.length; i++)
				{
					if (i > 0)
						csv += _delimiter;
					csv += safe(fields[i], i);
				}
				if (data.length > 0)
					csv += _newline;
			}

			// Then write out the data
			for (var row = 0; row < data.length; row++)
			{
				var maxCol = hasHeader ? fields.length : data[row].length;

				for (var col = 0; col < maxCol; col++)
				{
					if (col > 0)
						csv += _delimiter;
					var colIdx = hasHeader && dataKeyedByField ? fields[col] : col;
					csv += safe(data[row][colIdx], col);
				}

				if (row < data.length - 1)
					csv += _newline;
			}

			return csv;
		}

		// Encloses a value around quotes if needed (makes a value safe for CSV insertion)
		function safe(str, col)
		{
			if (typeof str === "undefined" || str === null)
				return "";

			str = str.toString().replace(/"/g, '""');

			var needsQuotes = (typeof _quotes === 'boolean' && _quotes)
							|| (_quotes instanceof Array && _quotes[col])
							|| hasAny(str, Papa.BAD_DELIMITERS)
							|| str.indexOf(_delimiter) > -1
							|| str.charAt(0) == ' '
							|| str.charAt(str.length - 1) == ' ';

			return needsQuotes ? '"' + str + '"' : str;
		}

		function hasAny(str, substrings)
		{
			for (var i = 0; i < substrings.length; i++)
				if (str.indexOf(substrings[i]) > -1)
					return true;
			return false;
		}
	}

	// ChunkStreamer is the base prototype for various streamer implementations.
	function ChunkStreamer(config)
	{
		this._handle = null;
		this._paused = false;
		this._finished = false;
		this._input = null;
		this._baseIndex = 0;
		this._partialLine = "";
		this._rowCount = 0;
		this._start = 0;
		this._nextChunk = null;
		this._chunkIndex = 0;
		this._completeResults = {
			data: [],
			errors: [],
			meta: {}
		};
		replaceConfig.call(this, config);

		this.parseChunk = function(chunk)
		{
			if (this._chunkIndex == 0 && isFunction(this._config.beforeFirstChunk)) {
				var result = this._config.beforeFirstChunk(chunk);
				if (result !== undefined)
					chunk = result;
			}

			this._chunkIndex++;

			// Rejoin the line we likely just split in two by chunking the file
			var aggregate = this._partialLine + chunk;
			this._partialLine = "";

			var results = this._handle.parse(aggregate, this._baseIndex, !this._finished);
			
			if (this._handle.paused() || this._handle.aborted())
				return;
			
			var lastIndex = results.meta.cursor;
			
			if (!this._finished)
			{
				this._partialLine = aggregate.substring(lastIndex - this._baseIndex);
				this._baseIndex = lastIndex;
			}

			if (results && results.data)
				this._rowCount += results.data.length;

			var finishedIncludingPreview = this._finished || (this._config.preview && this._rowCount >= this._config.preview);

			if (IS_WORKER)
			{
				global.postMessage({
					results: results,
					workerId: Papa.WORKER_ID,
					finished: finishedIncludingPreview
				});
			}
			else if (isFunction(this._config.chunk))
			{
				this._config.chunk(results, this._handle);
				if (this._paused)
					return;
				results = undefined;
				this._completeResults = undefined;
			}

			if (!this._config.step && !this._config.chunk) {
				this._completeResults.data = this._completeResults.data.concat(results.data);
				this._completeResults.errors = this._completeResults.errors.concat(results.errors);
				this._completeResults.meta = results.meta;
			}

			if (finishedIncludingPreview && isFunction(this._config.complete) && (!results || !results.meta.aborted))
				this._config.complete(this._completeResults);

			if (!finishedIncludingPreview && (!results || !results.meta.paused))
				this._nextChunk();

			return results;
		};

		this._sendError = function(error)
		{
			if (isFunction(this._config.error))
				this._config.error(error);
			else if (IS_WORKER && this._config.error)
			{
				global.postMessage({
					workerId: Papa.WORKER_ID,
					error: error,
					finished: false
				});
			}
		};

		function replaceConfig(config)
		{
			// Deep-copy the config so we can edit it
			var configCopy = copy(config);
			configCopy.chunkSize = parseInt(configCopy.chunkSize);	// VERY important so we don't concatenate strings!
			this._handle = new ParserHandle(configCopy);
			this._handle.streamer = this;
			this._config = configCopy;	// persist the copy to the caller
		}
	}


	function NetworkStreamer(config)
	{
		config = config || {};
		if (!config.chunkSize)
			config.chunkSize = Papa.RemoteChunkSize;
		ChunkStreamer.call(this, config);

		var xhr;

		if (IS_WORKER)
		{
			this._nextChunk = function()
			{
				this._readChunk();
				this._chunkLoaded();
			};
		}
		else
		{
			this._nextChunk = function()
			{
				this._readChunk();
			};
		}

		this.stream = function(url)
		{
			this._input = url;
			this._nextChunk();	// Starts streaming
		};

		this._readChunk = function()
		{
			if (this._finished)
			{
				this._chunkLoaded();
				return;
			}

			xhr = new XMLHttpRequest();
			
			if (!IS_WORKER)
			{
				xhr.onload = bindFunction(this._chunkLoaded, this);
				xhr.onerror = bindFunction(this._chunkError, this);
			}

			xhr.open("GET", this._input, !IS_WORKER);
			
			if (this._config.chunkSize)
			{
				var end = this._start + this._config.chunkSize - 1;	// minus one because byte range is inclusive
				xhr.setRequestHeader("Range", "bytes="+this._start+"-"+end);
				xhr.setRequestHeader("If-None-Match", "webkit-no-cache"); // https://bugs.webkit.org/show_bug.cgi?id=82672
			}

			try {
				xhr.send();
			}
			catch (err) {
				this._chunkError(err.message);
			}

			if (IS_WORKER && xhr.status == 0)
				this._chunkError();
			else
				this._start += this._config.chunkSize;
		}

		this._chunkLoaded = function()
		{
			if (xhr.readyState != 4)
				return;

			if (xhr.status < 200 || xhr.status >= 400)
			{
				this._chunkError();
				return;
			}

			this._finished = !this._config.chunkSize || this._start > getFileSize(xhr);
			this.parseChunk(xhr.responseText);
		}

		this._chunkError = function(errorMessage)
		{
			var errorText = xhr.statusText || errorMessage;
			this._sendError(errorText);
		}

		function getFileSize(xhr)
		{
			var contentRange = xhr.getResponseHeader("Content-Range");
			return parseInt(contentRange.substr(contentRange.lastIndexOf("/") + 1));
		}
	}
	NetworkStreamer.prototype = Object.create(ChunkStreamer.prototype);
	NetworkStreamer.prototype.constructor = NetworkStreamer;


	function FileStreamer(config)
	{
		config = config || {};
		if (!config.chunkSize)
			config.chunkSize = Papa.LocalChunkSize;
		ChunkStreamer.call(this, config);

		var reader, slice;

		// FileReader is better than FileReaderSync (even in worker) - see http://stackoverflow.com/q/24708649/1048862
		// But Firefox is a pill, too - see issue #76: https://github.com/mholt/PapaParse/issues/76
		var usingAsyncReader = typeof FileReader !== 'undefined';	// Safari doesn't consider it a function - see issue #105

		this.stream = function(file)
		{
			this._input = file;
			slice = file.slice || file.webkitSlice || file.mozSlice;

			if (usingAsyncReader)
			{
				reader = new FileReader();		// Preferred method of reading files, even in workers
				reader.onload = bindFunction(this._chunkLoaded, this);
				reader.onerror = bindFunction(this._chunkError, this);
			}
			else
				reader = new FileReaderSync();	// Hack for running in a web worker in Firefox

			this._nextChunk();	// Starts streaming
		};

		this._nextChunk = function()
		{
			if (!this._finished && (!this._config.preview || this._rowCount < this._config.preview))
				this._readChunk();
		}

		this._readChunk = function()
		{
			var input = this._input;
			if (this._config.chunkSize)
			{
				var end = Math.min(this._start + this._config.chunkSize, this._input.size);
				input = slice.call(input, this._start, end);
			}
			var txt = reader.readAsText(input, this._config.encoding);
			if (!usingAsyncReader)
				this._chunkLoaded({ target: { result: txt } });	// mimic the async signature
		}

		this._chunkLoaded = function(event)
		{
			// Very important to increment start each time before handling results
			this._start += this._config.chunkSize;
			this._finished = !this._config.chunkSize || this._start >= this._input.size;
			this.parseChunk(event.target.result);
		}

		this._chunkError = function()
		{
			this._sendError(reader.error);
		}

	}
	FileStreamer.prototype = Object.create(ChunkStreamer.prototype);
	FileStreamer.prototype.constructor = FileStreamer;


	function StringStreamer(config)
	{
		config = config || {};
		ChunkStreamer.call(this, config);

		var string;
		var remaining;
		this.stream = function(s)
		{
			string = s;
			remaining = s;
			return this._nextChunk();
		}
		this._nextChunk = function()
		{
			if (this._finished) return;
			var size = this._config.chunkSize;
			var chunk = size ? remaining.substr(0, size) : remaining;
			remaining = size ? remaining.substr(size) : '';
			this._finished = !remaining;
			return this.parseChunk(chunk);
		}
	}
	StringStreamer.prototype = Object.create(StringStreamer.prototype);
	StringStreamer.prototype.constructor = StringStreamer;



	// Use one ParserHandle per entire CSV file or string
	function ParserHandle(_config)
	{
		// One goal is to minimize the use of regular expressions...
		var FLOAT = /^\s*-?(\d*\.?\d+|\d+\.?\d*)(e[-+]?\d+)?\s*$/i;

		var self = this;
		var _stepCounter = 0;	// Number of times step was called (number of rows parsed)
		var _input;				// The input being parsed
		var _parser;			// The core parser being used
		var _paused = false;	// Whether we are paused or not
		var _aborted = false;   // Whether the parser has aborted or not
		var _delimiterError;	// Temporary state between delimiter detection and processing results
		var _fields = [];		// Fields are from the header row of the input, if there is one
		var _results = {		// The last results returned from the parser
			data: [],
			errors: [],
			meta: {}
		};

		if (isFunction(_config.step))
		{
			var userStep = _config.step;
			_config.step = function(results)
			{
				_results = results;

				if (needsHeaderRow())
					processResults();
				else	// only call user's step function after header row
				{
					processResults();

					// It's possbile that this line was empty and there's no row here after all
					if (_results.data.length == 0)
						return;

					_stepCounter += results.data.length;
					if (_config.preview && _stepCounter > _config.preview)
						_parser.abort();
					else
						userStep(_results, self);
				}
			};
		}

		// Parses input. Most users won't need, and shouldn't mess with, the baseIndex
		// and ignoreLastRow parameters. They are used by streamers (wrapper functions)
		// when an input comes in multiple chunks, like from a file.
		this.parse = function(input, baseIndex, ignoreLastRow)
		{
			if (!_config.newline)
				_config.newline = guessLineEndings(input);

			_delimiterError = false;
			if (!_config.delimiter)
			{
				var delimGuess = guessDelimiter(input);
				if (delimGuess.successful)
					_config.delimiter = delimGuess.bestDelimiter;
				else
				{
					_delimiterError = true;	// add error after parsing (otherwise it would be overwritten)
					_config.delimiter = Papa.DefaultDelimiter;
				}
				_results.meta.delimiter = _config.delimiter;
			}

			var parserConfig = copy(_config);
			if (_config.preview && _config.header)
				parserConfig.preview++;	// to compensate for header row

			_input = input;
			_parser = new Parser(parserConfig);
			_results = _parser.parse(_input, baseIndex, ignoreLastRow);
			processResults();
			return _paused ? { meta: { paused: true } } : (_results || { meta: { paused: false } });
		};

		this.paused = function()
		{
			return _paused;
		};

		this.pause = function()
		{
			_paused = true;
			_parser.abort();
			_input = _input.substr(_parser.getCharIndex());
		};

		this.resume = function()
		{
			_paused = false;
			self.streamer.parseChunk(_input);
		};

		this.aborted = function () {
			return _aborted;
		}

		this.abort = function()
		{
			_aborted = true;
			_parser.abort();
			_results.meta.aborted = true;
			if (isFunction(_config.complete))
				_config.complete(_results);
			_input = "";
		};

		function processResults()
		{
			if (_results && _delimiterError)
			{
				addError("Delimiter", "UndetectableDelimiter", "Unable to auto-detect delimiting character; defaulted to '"+Papa.DefaultDelimiter+"'");
				_delimiterError = false;
			}

			if (_config.skipEmptyLines)
			{
				for (var i = 0; i < _results.data.length; i++)
					if (_results.data[i].length == 1 && _results.data[i][0] == "")
						_results.data.splice(i--, 1);
			}

			if (needsHeaderRow())
				fillHeaderFields();

			return applyHeaderAndDynamicTyping();
		}

		function needsHeaderRow()
		{
			return _config.header && _fields.length == 0;
		}

		function fillHeaderFields()
		{
			if (!_results)
				return;
			for (var i = 0; needsHeaderRow() && i < _results.data.length; i++)
				for (var j = 0; j < _results.data[i].length; j++)
					_fields.push(_results.data[i][j]);
			_results.data.splice(0, 1);
		}

		function applyHeaderAndDynamicTyping()
		{
			if (!_results || (!_config.header && !_config.dynamicTyping))
				return _results;

			for (var i = 0; i < _results.data.length; i++)
			{
				var row = {};

				for (var j = 0; j < _results.data[i].length; j++)
				{
					if (_config.dynamicTyping)
					{
						var value = _results.data[i][j];
						if (value == "true" || value == "TRUE")
							_results.data[i][j] = true;
						else if (value == "false" || value == "FALSE")
							_results.data[i][j] = false;
						else
							_results.data[i][j] = tryParseFloat(value);
					}

					if (_config.header)
					{
						if (j >= _fields.length)
						{
							if (!row["__parsed_extra"])
								row["__parsed_extra"] = [];
							row["__parsed_extra"].push(_results.data[i][j]);
						}
						else
							row[_fields[j]] = _results.data[i][j];
					}
				}

				if (_config.header)
				{
					_results.data[i] = row;
					if (j > _fields.length)
						addError("FieldMismatch", "TooManyFields", "Too many fields: expected " + _fields.length + " fields but parsed " + j, i);
					else if (j < _fields.length)
						addError("FieldMismatch", "TooFewFields", "Too few fields: expected " + _fields.length + " fields but parsed " + j, i);
				}
			}

			if (_config.header && _results.meta)
				_results.meta.fields = _fields;
			return _results;
		}

		function guessDelimiter(input)
		{
			var delimChoices = [",", "\t", "|", ";", Papa.RECORD_SEP, Papa.UNIT_SEP];
			var bestDelim, bestDelta, fieldCountPrevRow;

			for (var i = 0; i < delimChoices.length; i++)
			{
				var delim = delimChoices[i];
				var delta = 0, avgFieldCount = 0;
				fieldCountPrevRow = undefined;

				var preview = new Parser({
					delimiter: delim,
					preview: 10
				}).parse(input);

				for (var j = 0; j < preview.data.length; j++)
				{
					var fieldCount = preview.data[j].length;
					avgFieldCount += fieldCount;

					if (typeof fieldCountPrevRow === 'undefined')
					{
						fieldCountPrevRow = fieldCount;
						continue;
					}
					else if (fieldCount > 1)
					{
						delta += Math.abs(fieldCount - fieldCountPrevRow);
						fieldCountPrevRow = fieldCount;
					}
				}

				avgFieldCount /= preview.data.length;

				if ((typeof bestDelta === 'undefined' || delta < bestDelta)
					&& avgFieldCount > 1.99)
				{
					bestDelta = delta;
					bestDelim = delim;
				}
			}

			_config.delimiter = bestDelim;

			return {
				successful: !!bestDelim,
				bestDelimiter: bestDelim
			}
		}

		function guessLineEndings(input)
		{
			input = input.substr(0, 1024*1024);	// max length 1 MB

			var r = input.split('\r');

			if (r.length == 1)
				return '\n';

			var numWithN = 0;
			for (var i = 0; i < r.length; i++)
			{
				if (r[i][0] == '\n')
					numWithN++;
			}

			return numWithN >= r.length / 2 ? '\r\n' : '\r';
		}

		function tryParseFloat(val)
		{
			var isNumber = FLOAT.test(val);
			return isNumber ? parseFloat(val) : val;
		}

		function addError(type, code, msg, row)
		{
			_results.errors.push({
				type: type,
				code: code,
				message: msg,
				row: row
			});
		}
	}





	// The core parser implements speedy and correct CSV parsing
	function Parser(config)
	{
		// Unpack the config object
		config = config || {};
		var delim = config.delimiter;
		var newline = config.newline;
		var comments = config.comments;
		var step = config.step;
		var preview = config.preview;
		var fastMode = config.fastMode;

		// Delimiter must be valid
		if (typeof delim !== 'string'
			|| Papa.BAD_DELIMITERS.indexOf(delim) > -1)
			delim = ",";

		// Comment character must be valid
		if (comments === delim)
			throw "Comment character same as delimiter";
		else if (comments === true)
			comments = "#";
		else if (typeof comments !== 'string'
			|| Papa.BAD_DELIMITERS.indexOf(comments) > -1)
			comments = false;

		// Newline must be valid: \r, \n, or \r\n
		if (newline != '\n' && newline != '\r' && newline != '\r\n')
			newline = '\n';

		// We're gonna need these at the Parser scope
		var cursor = 0;
		var aborted = false;

		this.parse = function(input, baseIndex, ignoreLastRow)
		{
			// For some reason, in Chrome, this speeds things up (!?)
			if (typeof input !== 'string')
				throw "Input must be a string";

			// We don't need to compute some of these every time parse() is called,
			// but having them in a more local scope seems to perform better
			var inputLen = input.length,
				delimLen = delim.length,
				newlineLen = newline.length,
				commentsLen = comments.length;
			var stepIsFunction = typeof step === 'function';

			// Establish starting state
			cursor = 0;
			var data = [], errors = [], row = [], lastCursor = 0;

			if (!input)
				return returnable();

			if (fastMode || (fastMode !== false && input.indexOf('"') === -1))
			{
				var rows = input.split(newline);
				for (var i = 0; i < rows.length; i++)
				{
					var row = rows[i];
					cursor += row.length;
					if (i !== rows.length - 1)
						cursor += newline.length;
					else if (ignoreLastRow)
						return returnable();
					if (comments && row.substr(0, commentsLen) == comments)
						continue;
					if (stepIsFunction)
					{
						data = [];
						pushRow(row.split(delim));
						doStep();
						if (aborted)
							return returnable();
					}
					else
						pushRow(row.split(delim));
					if (preview && i >= preview)
					{
						data = data.slice(0, preview);
						return returnable(true);
					}
				}
				return returnable();
			}

			var nextDelim = input.indexOf(delim, cursor);
			var nextNewline = input.indexOf(newline, cursor);

			// Parser loop
			for (;;)
			{
				// Field has opening quote
				if (input[cursor] == '"')
				{
					// Start our search for the closing quote where the cursor is
					var quoteSearch = cursor;

					// Skip the opening quote
					cursor++;

					for (;;)
					{
						// Find closing quote
						var quoteSearch = input.indexOf('"', quoteSearch+1);

						if (quoteSearch === -1)
						{
							if (!ignoreLastRow) {
								// No closing quote... what a pity
								errors.push({
									type: "Quotes",
									code: "MissingQuotes",
									message: "Quoted field unterminated",
									row: data.length,	// row has yet to be inserted
									index: cursor
								});
							}
							return finish();
						}

						if (quoteSearch === inputLen-1)
						{
							// Closing quote at EOF
							var value = input.substring(cursor, quoteSearch).replace(/""/g, '"');
							return finish(value);
						}

						// If this quote is escaped, it's part of the data; skip it
						if (input[quoteSearch+1] == '"')
						{
							quoteSearch++;
							continue;
						}

						if (input[quoteSearch+1] == delim)
						{
							// Closing quote followed by delimiter
							row.push(input.substring(cursor, quoteSearch).replace(/""/g, '"'));
							cursor = quoteSearch + 1 + delimLen;
							nextDelim = input.indexOf(delim, cursor);
							nextNewline = input.indexOf(newline, cursor);
							break;
						}

						if (input.substr(quoteSearch+1, newlineLen) === newline)
						{
							// Closing quote followed by newline
							row.push(input.substring(cursor, quoteSearch).replace(/""/g, '"'));
							saveRow(quoteSearch + 1 + newlineLen);
							nextDelim = input.indexOf(delim, cursor);	// because we may have skipped the nextDelim in the quoted field

							if (stepIsFunction)
							{
								doStep();
								if (aborted)
									return returnable();
							}
							
							if (preview && data.length >= preview)
								return returnable(true);

							break;
						}
					}

					continue;
				}

				// Comment found at start of new line
				if (comments && row.length === 0 && input.substr(cursor, commentsLen) === comments)
				{
					if (nextNewline == -1)	// Comment ends at EOF
						return returnable();
					cursor = nextNewline + newlineLen;
					nextNewline = input.indexOf(newline, cursor);
					nextDelim = input.indexOf(delim, cursor);
					continue;
				}

				// Next delimiter comes before next newline, so we've reached end of field
				if (nextDelim !== -1 && (nextDelim < nextNewline || nextNewline === -1))
				{
					row.push(input.substring(cursor, nextDelim));
					cursor = nextDelim + delimLen;
					nextDelim = input.indexOf(delim, cursor);
					continue;
				}

				// End of row
				if (nextNewline !== -1)
				{
					row.push(input.substring(cursor, nextNewline));
					saveRow(nextNewline + newlineLen);

					if (stepIsFunction)
					{
						doStep();
						if (aborted)
							return returnable();
					}

					if (preview && data.length >= preview)
						return returnable(true);

					continue;
				}

				break;
			}


			return finish();


			function pushRow(row)
			{
				data.push(row);
				lastCursor = cursor;
			}

			// Appends the remaining input from cursor to the end into
			// row, saves the row, calls step, and returns the results.
			function finish(value)
			{
				if (ignoreLastRow)
					return returnable();
				if (!value)
					value = input.substr(cursor);
				row.push(value);
				cursor = inputLen;	// important in case parsing is paused
				pushRow(row);
				if (stepIsFunction)
					doStep();
				return returnable();
			}

			// Appends the current row to the results. It sets the cursor
			// to newCursor and finds the nextNewline. The caller should
			// take care to execute user's step function and check for
			// preview and end parsing if necessary.
			function saveRow(newCursor)
			{
				cursor = newCursor;
				pushRow(row);
				row = [];
				nextNewline = input.indexOf(newline, cursor);
			}

			// Returns an object with the results, errors, and meta.
			function returnable(stopped)
			{
				return {
					data: data,
					errors: errors,
					meta: {
						delimiter: delim,
						linebreak: newline,
						aborted: aborted,
						truncated: !!stopped,
						cursor: lastCursor + (baseIndex || 0)
					}
				};
			}

			// Executes the user's step function and resets data & errors.
			function doStep()
			{
				step(returnable());
				data = [], errors = [];
			}
		};

		// Sets the abort flag
		this.abort = function()
		{
			aborted = true;
		};

		// Gets the cursor position
		this.getCharIndex = function()
		{
			return cursor;
		};
	}


	// If you need to load Papa Parse asynchronously and you also need worker threads, hard-code
	// the script path here. See: https://github.com/mholt/PapaParse/issues/87#issuecomment-57885358
	function getScriptPath()
	{
		var scripts = document.getElementsByTagName('script');
		return scripts.length ? scripts[scripts.length - 1].src : '';
	}

	function newWorker()
	{
		if (!Papa.WORKERS_SUPPORTED)
			return false;
		if (!LOADED_SYNC && Papa.SCRIPT_PATH === null)
			throw new Error(
				'Script path cannot be determined automatically when Papa Parse is loaded asynchronously. ' +
				'You need to set Papa.SCRIPT_PATH manually.'
			);
		var w = new global.Worker(Papa.SCRIPT_PATH || AUTO_SCRIPT_PATH);
		w.onmessage = mainThreadReceivedMessage;
		w.id = workerIdCounter++;
		workers[w.id] = w;
		return w;
	}

	// Callback when main thread receives a message
	function mainThreadReceivedMessage(e)
	{
		var msg = e.data;
		var worker = workers[msg.workerId];
		var aborted = false;

		if (msg.error)
			worker.userError(msg.error, msg.file);
		else if (msg.results && msg.results.data)
		{
			var abort = function() {
				aborted = true;
				completeWorker(msg.workerId, { data: [], errors: [], meta: { aborted: true } });
			};

			var handle = {
				abort: abort,
				pause: notImplemented,
				resume: notImplemented
			};

			if (isFunction(worker.userStep))
			{
				for (var i = 0; i < msg.results.data.length; i++)
				{
					worker.userStep({
						data: [msg.results.data[i]],
						errors: msg.results.errors,
						meta: msg.results.meta
					}, handle);
					if (aborted)
						break;
				}
				delete msg.results;	// free memory ASAP
			}
			else if (isFunction(worker.userChunk))
			{
				worker.userChunk(msg.results, handle, msg.file);
				delete msg.results;
			}
		}

		if (msg.finished && !aborted)
			completeWorker(msg.workerId, msg.results);
	}

	function completeWorker(workerId, results) {
		var worker = workers[workerId];
		if (isFunction(worker.userComplete))
			worker.userComplete(results);
		worker.terminate();
		delete workers[workerId];
	}

	function notImplemented() {
		throw "Not implemented.";
	}

	// Callback when worker thread receives a message
	function workerThreadReceivedMessage(e)
	{
		var msg = e.data;

		if (typeof Papa.WORKER_ID === 'undefined' && msg)
			Papa.WORKER_ID = msg.workerId;

		if (typeof msg.input === 'string')
		{
			global.postMessage({
				workerId: Papa.WORKER_ID,
				results: Papa.parse(msg.input, msg.config),
				finished: true
			});
		}
		else if ((global.File && msg.input instanceof File) || msg.input instanceof Object)	// thank you, Safari (see issue #106)
		{
			var results = Papa.parse(msg.input, msg.config);
			if (results)
				global.postMessage({
					workerId: Papa.WORKER_ID,
					results: results,
					finished: true
				});
		}
	}

	// Makes a deep copy of an array or object (mostly)
	function copy(obj)
	{
		if (typeof obj !== 'object')
			return obj;
		var cpy = obj instanceof Array ? [] : {};
		for (var key in obj)
			cpy[key] = copy(obj[key]);
		return cpy;
	}

	function bindFunction(f, self)
	{
		return function() { f.apply(self, arguments); };
	}

	function isFunction(func)
	{
		return typeof func === 'function';
	}
})(typeof window !== 'undefined' ? window : this);