csrc/node-v0.10.24/lib/punycode.js - third_party - Git at Google

 /*! http://mths.be/punycode v1.2.0 by @mathias */
 ;(function(root) {

 	/**
 	 * The `punycode` object.
 	 * @name punycode
 	 * @type Object
 	 */
 	var punycode,

 	/** Detect free variables `define`, `exports`, `module` and `require` */
 	freeDefine = typeof define == 'function' && typeof define.amd == 'object' &&
 		define.amd && define,
 	freeExports = typeof exports == 'object' && exports,
 	freeModule = typeof module == 'object' && module,
 	freeRequire = typeof require == 'function' && require,

 	/** Highest positive signed 32-bit float value */
 	maxInt = 2147483647, // aka. 0x7FFFFFFF or 2^31-1

 	/** Bootstring parameters */
 	base = 36,
 	tMin = 1,
 	tMax = 26,
 	skew = 38,
 	damp = 700,
 	initialBias = 72,
 	initialN = 128, // 0x80
 	delimiter = '-', // '\x2D'

 	/** Regular expressions */
 	regexPunycode = /^xn--/,
 	regexNonASCII = /[^ -~]/, // unprintable ASCII chars + non-ASCII chars
 	regexSeparators = /\x2E|\u3002|\uFF0E|\uFF61/g, // RFC 3490 separators

 	/** Error messages */
 	errors = {
 		'overflow': 'Overflow: input needs wider integers to process',
 		'not-basic': 'Illegal input >= 0x80 (not a basic code point)',
 		'invalid-input': 'Invalid input'
 	},

 	/** Convenience shortcuts */
 	baseMinusTMin = base - tMin,
 	floor = Math.floor,
 	stringFromCharCode = String.fromCharCode,

 	/** Temporary variable */
 	key;

 	/*--------------------------------------------------------------------------*/

 	/**
 	 * A generic error utility function.
 	 * @private
 	 * @param {String} type The error type.
 	 * @returns {Error} Throws a `RangeError` with the applicable error message.
 	 */
 	function error(type) {
 		throw RangeError(errors[type]);
 	}

 	/**
 	 * A generic `Array#map` utility function.
 	 * @private
 	 * @param {Array} array The array to iterate over.
 	 * @param {Function} callback The function that gets called for every array
 	 * item.
 	 * @returns {Array} A new array of values returned by the callback function.
 	 */
 	function map(array, fn) {
 		var length = array.length;
 		while (length--) {
 			array[length] = fn(array[length]);
 		}
 		return array;
 	}

 	/**
 	 * A simple `Array#map`-like wrapper to work with domain name strings.
 	 * @private
 	 * @param {String} domain The domain name.
 	 * @param {Function} callback The function that gets called for every
 	 * character.
 	 * @returns {Array} A new string of characters returned by the callback
 	 * function.
 	 */
 	function mapDomain(string, fn) {
 		return map(string.split(regexSeparators), fn).join('.');
 	}

 	/**
 	 * Creates an array containing the decimal code points of each Unicode
 	 * character in the string. While JavaScript uses UCS-2 internally,
 	 * this function will convert a pair of surrogate halves (each of which
 	 * UCS-2 exposes as separate characters) into a single code point,
 	 * matching UTF-16.
 	 * @see `punycode.ucs2.encode`
 	 * @see <http://mathiasbynens.be/notes/javascript-encoding>
 	 * @memberOf punycode.ucs2
 	 * @name decode
 	 * @param {String} string The Unicode input string (UCS-2).
 	 * @returns {Array} The new array of code points.
 	 */
 	function ucs2decode(string) {
 		var output = [],
 		    counter = 0,
 		    length = string.length,
 		    value,
 		    extra;
 		while (counter < length) {
 			value = string.charCodeAt(counter++);
 			if ((value & 0xF800) == 0xD800 && counter < length) {
 				// high surrogate, and there is a next character
 				extra = string.charCodeAt(counter++);
 				if ((extra & 0xFC00) == 0xDC00) { // low surrogate
 					output.push(((value & 0x3FF) << 10) + (extra & 0x3FF) + 0x10000);
 				} else {
 					output.push(value, extra);
 				}
 			} else {
 				output.push(value);
 			}
 		}
 		return output;
 	}

 	/**
 	 * Creates a string based on an array of decimal code points.
 	 * @see `punycode.ucs2.decode`
 	 * @memberOf punycode.ucs2
 	 * @name encode
 	 * @param {Array} codePoints The array of decimal code points.
 	 * @returns {String} The new Unicode string (UCS-2).
 	 */
 	function ucs2encode(array) {
 		return map(array, function(value) {
 			var output = '';
 			if (value > 0xFFFF) {
 				value -= 0x10000;
 				output += stringFromCharCode(value >>> 10 & 0x3FF | 0xD800);
 				value = 0xDC00 | value & 0x3FF;
 			}
 			output += stringFromCharCode(value);
 			return output;
 		}).join('');
 	}

 	/**
 	 * Converts a basic code point into a digit/integer.
 	 * @see `digitToBasic()`
 	 * @private
 	 * @param {Number} codePoint The basic (decimal) code point.
 	 * @returns {Number} The numeric value of a basic code point (for use in
 	 * representing integers) in the range `0` to `base - 1`, or `base` if
 	 * the code point does not represent a value.
 	 */
 	function basicToDigit(codePoint) {
 		return codePoint - 48 < 10
 			? codePoint - 22
 			: codePoint - 65 < 26
 				? codePoint - 65
 				: codePoint - 97 < 26
 					? codePoint - 97
 					: base;
 	}

 	/**
 	 * Converts a digit/integer into a basic code point.
 	 * @see `basicToDigit()`
 	 * @private
 	 * @param {Number} digit The numeric value of a basic code point.
 	 * @returns {Number} The basic code point whose value (when used for
 	 * representing integers) is `digit`, which needs to be in the range
 	 * `0` to `base - 1`. If `flag` is non-zero, the uppercase form is
 	 * used; else, the lowercase form is used. The behavior is undefined
 	 * if flag is non-zero and `digit` has no uppercase form.
 	 */
 	function digitToBasic(digit, flag) {
 		//  0..25 map to ASCII a..z or A..Z
 		// 26..35 map to ASCII 0..9
 		return digit + 22 + 75 * (digit < 26) - ((flag != 0) << 5);
 	}

 	/**
 	 * Bias adaptation function as per section 3.4 of RFC 3492.
 	 * http://tools.ietf.org/html/rfc3492#section-3.4
 	 * @private
 	 */
 	function adapt(delta, numPoints, firstTime) {
 		var k = 0;
 		delta = firstTime ? floor(delta / damp) : delta >> 1;
 		delta += floor(delta / numPoints);
 		for (/* no initialization */; delta > baseMinusTMin * tMax >> 1; k += base) {
 			delta = floor(delta / baseMinusTMin);
 		}
 		return floor(k + (baseMinusTMin + 1) * delta / (delta + skew));
 	}

 	/**
 	 * Converts a basic code point to lowercase if `flag` is falsy, or to
 	 * uppercase if `flag` is truthy. The code point is unchanged if it's
 	 * caseless. The behavior is undefined if `codePoint` is not a basic code
 	 * point.
 	 * @private
 	 * @param {Number} codePoint The numeric value of a basic code point.
 	 * @returns {Number} The resulting basic code point.
 	 */
 	function encodeBasic(codePoint, flag) {
 		codePoint -= (codePoint - 97 < 26) << 5;
 		return codePoint + (!flag && codePoint - 65 < 26) << 5;
 	}

 	/**
 	 * Converts a Punycode string of ASCII code points to a string of Unicode
 	 * code points.
 	 * @memberOf punycode
 	 * @param {String} input The Punycode string of ASCII code points.
 	 * @returns {String} The resulting string of Unicode code points.
 	 */
 	function decode(input) {
 		// Don't use UCS-2
 		var output = [],
 		    inputLength = input.length,
 		    out,
 		    i = 0,
 		    n = initialN,
 		    bias = initialBias,
 		    basic,
 		    j,
 		    index,
 		    oldi,
 		    w,
 		    k,
 		    digit,
 		    t,
 		    length,
 		    /** Cached calculation results */
 		    baseMinusT;

 		// Handle the basic code points: let `basic` be the number of input code
 		// points before the last delimiter, or `0` if there is none, then copy
 		// the first basic code points to the output.

 		basic = input.lastIndexOf(delimiter);
 		if (basic < 0) {
 			basic = 0;
 		}

 		for (j = 0; j < basic; ++j) {
 			// if it's not a basic code point
 			if (input.charCodeAt(j) >= 0x80) {
 				error('not-basic');
 			}
 			output.push(input.charCodeAt(j));
 		}

 		// Main decoding loop: start just after the last delimiter if any basic code
 		// points were copied; start at the beginning otherwise.

 		for (index = basic > 0 ? basic + 1 : 0; index < inputLength; /* no final expression */) {

 			// `index` is the index of the next character to be consumed.
 			// Decode a generalized variable-length integer into `delta`,
 			// which gets added to `i`. The overflow checking is easier
 			// if we increase `i` as we go, then subtract off its starting
 			// value at the end to obtain `delta`.
 			for (oldi = i, w = 1, k = base; /* no condition */; k += base) {

 				if (index >= inputLength) {
 					error('invalid-input');
 				}

 				digit = basicToDigit(input.charCodeAt(index++));

 				if (digit >= base || digit > floor((maxInt - i) / w)) {
 					error('overflow');
 				}

 				i += digit * w;
 				t = k <= bias ? tMin : (k >= bias + tMax ? tMax : k - bias);

 				if (digit < t) {
 					break;
 				}

 				baseMinusT = base - t;
 				if (w > floor(maxInt / baseMinusT)) {
 					error('overflow');
 				}

 				w *= baseMinusT;

 			}

 			out = output.length + 1;
 			bias = adapt(i - oldi, out, oldi == 0);

 			// `i` was supposed to wrap around from `out` to `0`,
 			// incrementing `n` each time, so we'll fix that now:
 			if (floor(i / out) > maxInt - n) {
 				error('overflow');
 			}

 			n += floor(i / out);
 			i %= out;

 			// Insert `n` at position `i` of the output
 			output.splice(i++, 0, n);

 		}

 		return ucs2encode(output);
 	}

 	/**
 	 * Converts a string of Unicode code points to a Punycode string of ASCII
 	 * code points.
 	 * @memberOf punycode
 	 * @param {String} input The string of Unicode code points.
 	 * @returns {String} The resulting Punycode string of ASCII code points.
 	 */
 	function encode(input) {
 		var n,
 		    delta,
 		    handledCPCount,
 		    basicLength,
 		    bias,
 		    j,
 		    m,
 		    q,
 		    k,
 		    t,
 		    currentValue,
 		    output = [],
 		    /** `inputLength` will hold the number of code points in `input`. */
 		    inputLength,
 		    /** Cached calculation results */
 		    handledCPCountPlusOne,
 		    baseMinusT,
 		    qMinusT;

 		// Convert the input in UCS-2 to Unicode
 		input = ucs2decode(input);

 		// Cache the length
 		inputLength = input.length;

 		// Initialize the state
 		n = initialN;
 		delta = 0;
 		bias = initialBias;

 		// Handle the basic code points
 		for (j = 0; j < inputLength; ++j) {
 			currentValue = input[j];
 			if (currentValue < 0x80) {
 				output.push(stringFromCharCode(currentValue));
 			}
 		}

 		handledCPCount = basicLength = output.length;

 		// `handledCPCount` is the number of code points that have been handled;
 		// `basicLength` is the number of basic code points.

 		// Finish the basic string - if it is not empty - with a delimiter
 		if (basicLength) {
 			output.push(delimiter);
 		}

 		// Main encoding loop:
 		while (handledCPCount < inputLength) {

 			// All non-basic code points < n have been handled already. Find the next
 			// larger one:
 			for (m = maxInt, j = 0; j < inputLength; ++j) {
 				currentValue = input[j];
 				if (currentValue >= n && currentValue < m) {
 					m = currentValue;
 				}
 			}

 			// Increase `delta` enough to advance the decoder's <n,i> state to <m,0>,
 			// but guard against overflow
 			handledCPCountPlusOne = handledCPCount + 1;
 			if (m - n > floor((maxInt - delta) / handledCPCountPlusOne)) {
 				error('overflow');
 			}

 			delta += (m - n) * handledCPCountPlusOne;
 			n = m;

 			for (j = 0; j < inputLength; ++j) {
 				currentValue = input[j];

 				if (currentValue < n && ++delta > maxInt) {
 					error('overflow');
 				}

 				if (currentValue == n) {
 					// Represent delta as a generalized variable-length integer
 					for (q = delta, k = base; /* no condition */; k += base) {
 						t = k <= bias ? tMin : (k >= bias + tMax ? tMax : k - bias);
 						if (q < t) {
 							break;
 						}
 						qMinusT = q - t;
 						baseMinusT = base - t;
 						output.push(
 							stringFromCharCode(digitToBasic(t + qMinusT % baseMinusT, 0))
 						);
 						q = floor(qMinusT / baseMinusT);
 					}

 					output.push(stringFromCharCode(digitToBasic(q, 0)));
 					bias = adapt(delta, handledCPCountPlusOne, handledCPCount == basicLength);
 					delta = 0;
 					++handledCPCount;
 				}
 			}

 			++delta;
 			++n;

 		}
 		return output.join('');
 	}

 	/**
 	 * Converts a Punycode string representing a domain name to Unicode. Only the
 	 * Punycoded parts of the domain name will be converted, i.e. it doesn't
 	 * matter if you call it on a string that has already been converted to
 	 * Unicode.
 	 * @memberOf punycode
 	 * @param {String} domain The Punycode domain name to convert to Unicode.
 	 * @returns {String} The Unicode representation of the given Punycode
 	 * string.
 	 */
 	function toUnicode(domain) {
 		return mapDomain(domain, function(string) {
 			return regexPunycode.test(string)
 				? decode(string.slice(4).toLowerCase())
 				: string;
 		});
 	}

 	/**
 	 * Converts a Unicode string representing a domain name to Punycode. Only the
 	 * non-ASCII parts of the domain name will be converted, i.e. it doesn't
 	 * matter if you call it with a domain that's already in ASCII.
 	 * @memberOf punycode
 	 * @param {String} domain The domain name to convert, as a Unicode string.
 	 * @returns {String} The Punycode representation of the given domain name.
 	 */
 	function toASCII(domain) {
 		return mapDomain(domain, function(string) {
 			return regexNonASCII.test(string)
 				? 'xn--' + encode(string)
 				: string;
 		});
 	}

 	/*--------------------------------------------------------------------------*/

 	/** Define the public API */
 	punycode = {
 		/**
 		 * A string representing the current Punycode.js version number.
 		 * @memberOf punycode
 		 * @type String
 		 */
 		'version': '1.2.0',
 		/**
 		 * An object of methods to convert from JavaScript's internal character
 		 * representation (UCS-2) to decimal Unicode code points, and back.
 		 * @see <http://mathiasbynens.be/notes/javascript-encoding>
 		 * @memberOf punycode
 		 * @type Object
 		 */
 		'ucs2': {
 			'decode': ucs2decode,
 			'encode': ucs2encode
 		},
 		'decode': decode,
 		'encode': encode,
 		'toASCII': toASCII,
 		'toUnicode': toUnicode
 	};

 	/** Expose `punycode` */
 	if (freeExports) {
 		if (freeModule && freeModule.exports == freeExports) {
 			// in Node.js or Ringo 0.8+
 			freeModule.exports = punycode;
 		} else {
 			// in Narwhal or Ringo 0.7-
 			for (key in punycode) {
 				punycode.hasOwnProperty(key) && (freeExports[key] = punycode[key]);
 			}
 		}
 	} else if (freeDefine) {
 		// via curl.js or RequireJS
 		define('punycode', punycode);
 	} else {
 		// in a browser or Rhino
 		root.punycode = punycode;
 	}

 }(this));
	/! http://mths.be/punycode v1.2.0 by @mathias /
	;(function(root) {

	/**
	* The `punycode` object.
	* @name punycode
	* @type Object
	*/
	var punycode,

	/** Detect free variables `define`, `exports`, `module` and `require` */
	freeDefine = typeof define == 'function' && typeof define.amd == 'object' &&
	define.amd && define,
	freeExports = typeof exports == 'object' && exports,
	freeModule = typeof module == 'object' && module,
	freeRequire = typeof require == 'function' && require,

	/** Highest positive signed 32-bit float value */
	maxInt = 2147483647, // aka. 0x7FFFFFFF or 2^31-1

	/** Bootstring parameters */
	base = 36,
	tMin = 1,
	tMax = 26,
	skew = 38,
	damp = 700,
	initialBias = 72,
	initialN = 128, // 0x80
	delimiter = '-', // '\x2D'

	/** Regular expressions */
	regexPunycode = /^xn--/,
	regexNonASCII = /[^ -~]/, // unprintable ASCII chars + non-ASCII chars
	regexSeparators = /\x2E\|\u3002\|\uFF0E\|\uFF61/g, // RFC 3490 separators

	/** Error messages */
	errors = {
	'overflow': 'Overflow: input needs wider integers to process',
	'not-basic': 'Illegal input >= 0x80 (not a basic code point)',
	'invalid-input': 'Invalid input'
	},

	/** Convenience shortcuts */
	baseMinusTMin = base - tMin,
	floor = Math.floor,
	stringFromCharCode = String.fromCharCode,

	/** Temporary variable */
	key;

	/--------------------------------------------------------------------------/

	/**
	* A generic error utility function.
	* @private
	* @param {String} type The error type.
	* @returns {Error} Throws a `RangeError` with the applicable error message.
	*/
	function error(type) {
	throw RangeError(errors[type]);
	}

	/**
	* A generic `Array#map` utility function.
	* @private
	* @param {Array} array The array to iterate over.
	* @param {Function} callback The function that gets called for every array
	* item.
	* @returns {Array} A new array of values returned by the callback function.
	*/
	function map(array, fn) {
	var length = array.length;
	while (length--) {
	array[length] = fn(array[length]);
	}
	return array;
	}

	/**
	* A simple `Array#map`-like wrapper to work with domain name strings.
	* @private
	* @param {String} domain The domain name.
	* @param {Function} callback The function that gets called for every
	* character.
	* @returns {Array} A new string of characters returned by the callback
	* function.
	*/
	function mapDomain(string, fn) {
	return map(string.split(regexSeparators), fn).join('.');
	}

	/**
	* Creates an array containing the decimal code points of each Unicode
	* character in the string. While JavaScript uses UCS-2 internally,
	* this function will convert a pair of surrogate halves (each of which
	* UCS-2 exposes as separate characters) into a single code point,
	* matching UTF-16.
	* @see `punycode.ucs2.encode`
	* @see <http://mathiasbynens.be/notes/javascript-encoding>
	* @memberOf punycode.ucs2
	* @name decode
	* @param {String} string The Unicode input string (UCS-2).
	* @returns {Array} The new array of code points.
	*/
	function ucs2decode(string) {
	var output = [],
	counter = 0,
	length = string.length,
	value,
	extra;
	while (counter < length) {
	value = string.charCodeAt(counter++);
	if ((value & 0xF800) == 0xD800 && counter < length) {
	// high surrogate, and there is a next character
	extra = string.charCodeAt(counter++);
	if ((extra & 0xFC00) == 0xDC00) { // low surrogate
	output.push(((value & 0x3FF) << 10) + (extra & 0x3FF) + 0x10000);
	} else {
	output.push(value, extra);
	}
	} else {
	output.push(value);
	}
	}
	return output;
	}

	/**
	* Creates a string based on an array of decimal code points.
	* @see `punycode.ucs2.decode`
	* @memberOf punycode.ucs2
	* @name encode
	* @param {Array} codePoints The array of decimal code points.
	* @returns {String} The new Unicode string (UCS-2).
	*/
	function ucs2encode(array) {
	return map(array, function(value) {
	var output = '';
	if (value > 0xFFFF) {
	value -= 0x10000;
	output += stringFromCharCode(value >>> 10 & 0x3FF \| 0xD800);
	value = 0xDC00 \| value & 0x3FF;
	}
	output += stringFromCharCode(value);
	return output;
	}).join('');
	}

	/**
	* Converts a basic code point into a digit/integer.
	* @see `digitToBasic()`
	* @private
	* @param {Number} codePoint The basic (decimal) code point.
	* @returns {Number} The numeric value of a basic code point (for use in
	* representing integers) in the range `0` to `base - 1`, or `base` if
	* the code point does not represent a value.
	*/
	function basicToDigit(codePoint) {
	return codePoint - 48 < 10
	? codePoint - 22
	: codePoint - 65 < 26
	? codePoint - 65
	: codePoint - 97 < 26
	? codePoint - 97
	: base;
	}

	/**
	* Converts a digit/integer into a basic code point.
	* @see `basicToDigit()`
	* @private
	* @param {Number} digit The numeric value of a basic code point.
	* @returns {Number} The basic code point whose value (when used for
	* representing integers) is `digit`, which needs to be in the range
	* `0` to `base - 1`. If `flag` is non-zero, the uppercase form is
	* used; else, the lowercase form is used. The behavior is undefined
	* if flag is non-zero and `digit` has no uppercase form.
	*/
	function digitToBasic(digit, flag) {
	// 0..25 map to ASCII a..z or A..Z
	// 26..35 map to ASCII 0..9
	return digit + 22 + 75 * (digit < 26) - ((flag != 0) << 5);
	}

	/**
	* Bias adaptation function as per section 3.4 of RFC 3492.
	* http://tools.ietf.org/html/rfc3492#section-3.4
	* @private
	*/
	function adapt(delta, numPoints, firstTime) {
	var k = 0;
	delta = firstTime ? floor(delta / damp) : delta >> 1;
	delta += floor(delta / numPoints);
	for (/* no initialization /; delta > baseMinusTMin tMax >> 1; k += base) {
	delta = floor(delta / baseMinusTMin);
	}
	return floor(k + (baseMinusTMin + 1) * delta / (delta + skew));
	}

	/**
	* Converts a basic code point to lowercase if `flag` is falsy, or to
	* uppercase if `flag` is truthy. The code point is unchanged if it's
	* caseless. The behavior is undefined if `codePoint` is not a basic code
	* point.
	* @private
	* @param {Number} codePoint The numeric value of a basic code point.
	* @returns {Number} The resulting basic code point.
	*/
	function encodeBasic(codePoint, flag) {
	codePoint -= (codePoint - 97 < 26) << 5;
	return codePoint + (!flag && codePoint - 65 < 26) << 5;
	}

	/**
	* Converts a Punycode string of ASCII code points to a string of Unicode
	* code points.
	* @memberOf punycode
	* @param {String} input The Punycode string of ASCII code points.
	* @returns {String} The resulting string of Unicode code points.
	*/
	function decode(input) {
	// Don't use UCS-2
	var output = [],
	inputLength = input.length,
	out,
	i = 0,
	n = initialN,
	bias = initialBias,
	basic,
	j,
	index,
	oldi,
	w,
	k,
	digit,
	t,
	length,
	/** Cached calculation results */
	baseMinusT;

	// Handle the basic code points: let `basic` be the number of input code
	// points before the last delimiter, or `0` if there is none, then copy
	// the first basic code points to the output.

	basic = input.lastIndexOf(delimiter);
	if (basic < 0) {
	basic = 0;
	}

	for (j = 0; j < basic; ++j) {
	// if it's not a basic code point
	if (input.charCodeAt(j) >= 0x80) {
	error('not-basic');
	}
	output.push(input.charCodeAt(j));
	}

	// Main decoding loop: start just after the last delimiter if any basic code
	// points were copied; start at the beginning otherwise.

	for (index = basic > 0 ? basic + 1 : 0; index < inputLength; /* no final expression */) {

	// `index` is the index of the next character to be consumed.
	// Decode a generalized variable-length integer into `delta`,
	// which gets added to `i`. The overflow checking is easier
	// if we increase `i` as we go, then subtract off its starting
	// value at the end to obtain `delta`.
	for (oldi = i, w = 1, k = base; /* no condition */; k += base) {

	if (index >= inputLength) {
	error('invalid-input');
	}

	digit = basicToDigit(input.charCodeAt(index++));

	if (digit >= base \|\| digit > floor((maxInt - i) / w)) {
	error('overflow');
	}

	i += digit * w;
	t = k <= bias ? tMin : (k >= bias + tMax ? tMax : k - bias);

	if (digit < t) {
	break;
	}

	baseMinusT = base - t;
	if (w > floor(maxInt / baseMinusT)) {
	error('overflow');
	}

	w *= baseMinusT;

	}

	out = output.length + 1;
	bias = adapt(i - oldi, out, oldi == 0);

	// `i` was supposed to wrap around from `out` to `0`,
	// incrementing `n` each time, so we'll fix that now:
	if (floor(i / out) > maxInt - n) {
	error('overflow');
	}

	n += floor(i / out);
	i %= out;

	// Insert `n` at position `i` of the output
	output.splice(i++, 0, n);

	}

	return ucs2encode(output);
	}

	/**
	* Converts a string of Unicode code points to a Punycode string of ASCII
	* code points.
	* @memberOf punycode
	* @param {String} input The string of Unicode code points.
	* @returns {String} The resulting Punycode string of ASCII code points.
	*/
	function encode(input) {
	var n,
	delta,
	handledCPCount,
	basicLength,
	bias,
	j,
	m,
	q,
	k,
	t,
	currentValue,
	output = [],
	/** `inputLength` will hold the number of code points in `input`. */
	inputLength,
	/** Cached calculation results */
	handledCPCountPlusOne,
	baseMinusT,
	qMinusT;

	// Convert the input in UCS-2 to Unicode
	input = ucs2decode(input);

	// Cache the length
	inputLength = input.length;

	// Initialize the state
	n = initialN;
	delta = 0;
	bias = initialBias;

	// Handle the basic code points
	for (j = 0; j < inputLength; ++j) {
	currentValue = input[j];
	if (currentValue < 0x80) {
	output.push(stringFromCharCode(currentValue));
	}
	}

	handledCPCount = basicLength = output.length;

	// `handledCPCount` is the number of code points that have been handled;
	// `basicLength` is the number of basic code points.

	// Finish the basic string - if it is not empty - with a delimiter
	if (basicLength) {
	output.push(delimiter);
	}

	// Main encoding loop:
	while (handledCPCount < inputLength) {

	// All non-basic code points < n have been handled already. Find the next
	// larger one:
	for (m = maxInt, j = 0; j < inputLength; ++j) {
	currentValue = input[j];
	if (currentValue >= n && currentValue < m) {
	m = currentValue;
	}
	}

	// Increase `delta` enough to advance the decoder's <n,i> state to <m,0>,
	// but guard against overflow
	handledCPCountPlusOne = handledCPCount + 1;
	if (m - n > floor((maxInt - delta) / handledCPCountPlusOne)) {
	error('overflow');
	}

	delta += (m - n) * handledCPCountPlusOne;
	n = m;

	for (j = 0; j < inputLength; ++j) {
	currentValue = input[j];

	if (currentValue < n && ++delta > maxInt) {
	error('overflow');
	}

	if (currentValue == n) {
	// Represent delta as a generalized variable-length integer
	for (q = delta, k = base; /* no condition */; k += base) {
	t = k <= bias ? tMin : (k >= bias + tMax ? tMax : k - bias);
	if (q < t) {
	break;
	}
	qMinusT = q - t;
	baseMinusT = base - t;
	output.push(
	stringFromCharCode(digitToBasic(t + qMinusT % baseMinusT, 0))
	);
	q = floor(qMinusT / baseMinusT);
	}

	output.push(stringFromCharCode(digitToBasic(q, 0)));
	bias = adapt(delta, handledCPCountPlusOne, handledCPCount == basicLength);
	delta = 0;
	++handledCPCount;
	}
	}

	++delta;
	++n;

	}
	return output.join('');
	}

	/**
	* Converts a Punycode string representing a domain name to Unicode. Only the
	* Punycoded parts of the domain name will be converted, i.e. it doesn't
	* matter if you call it on a string that has already been converted to
	* Unicode.
	* @memberOf punycode
	* @param {String} domain The Punycode domain name to convert to Unicode.
	* @returns {String} The Unicode representation of the given Punycode
	* string.
	*/
	function toUnicode(domain) {
	return mapDomain(domain, function(string) {
	return regexPunycode.test(string)
	? decode(string.slice(4).toLowerCase())
	: string;
	});
	}

	/**
	* Converts a Unicode string representing a domain name to Punycode. Only the
	* non-ASCII parts of the domain name will be converted, i.e. it doesn't
	* matter if you call it with a domain that's already in ASCII.
	* @memberOf punycode
	* @param {String} domain The domain name to convert, as a Unicode string.
	* @returns {String} The Punycode representation of the given domain name.
	*/
	function toASCII(domain) {
	return mapDomain(domain, function(string) {
	return regexNonASCII.test(string)
	? 'xn--' + encode(string)
	: string;
	});
	}

	/--------------------------------------------------------------------------/

	/** Define the public API */
	punycode = {
	/**
	* A string representing the current Punycode.js version number.
	* @memberOf punycode
	* @type String
	*/
	'version': '1.2.0',
	/**
	* An object of methods to convert from JavaScript's internal character
	* representation (UCS-2) to decimal Unicode code points, and back.
	* @see <http://mathiasbynens.be/notes/javascript-encoding>
	* @memberOf punycode
	* @type Object
	*/
	'ucs2': {
	'decode': ucs2decode,
	'encode': ucs2encode
	},
	'decode': decode,
	'encode': encode,
	'toASCII': toASCII,
	'toUnicode': toUnicode
	};

	/** Expose `punycode` */
	if (freeExports) {
	if (freeModule && freeModule.exports == freeExports) {
	// in Node.js or Ringo 0.8+
	freeModule.exports = punycode;
	} else {
	// in Narwhal or Ringo 0.7-
	for (key in punycode) {
	punycode.hasOwnProperty(key) && (freeExports[key] = punycode[key]);
	}
	}
	} else if (freeDefine) {
	// via curl.js or RequireJS
	define('punycode', punycode);
	} else {
	// in a browser or Rhino
	root.punycode = punycode;
	}

	}(this));