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turtle-web-editor
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turtle-web-editor/js/ttl.js

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(function(){function r(e,n,t){function o(i,f){if(!n[i]){if(!e[i]){var c="function"==typeof require&&require;if(!f&&c)return c(i,!0);if(u)return u(i,!0);var a=new Error("Cannot find module '"+i+"'");throw a.code="MODULE_NOT_FOUND",a}var p=n[i]={exports:{}};e[i][0].call(p.exports,function(r){var n=e[i][1][r];return o(n||r)},p,p.exports,r,e,n,t)}return n[i].exports}for(var u="function"==typeof require&&require,i=0;i<t.length;i++)o(t[i]);return o}return r})()({1:[function(require,module,exports){
var N3 = require('n3');
var validate = function (turtleStream, callback) {
var parser = N3.Parser({ format: 'text/turtle' });
var errorCount = 0, warningCount = 0;
var regexp = {
'dateTime' : /^(-?(?:[1-9][0-9]*)?[0-9]{4})-(1[0-2]|0[1-9])-(3[0-1]|0[1-9]|[1-2][0-9])?T(2[0-3]|[0-1][0-9]):([0-5][0-9]):([0-5][0-9])(\.[0-9]+)??(Z|[+-](?:2[0-3]|[0-1][0-9]):[0-5][0-9])?$/,
'double' : /[-+]?\d*([.]\d+)?/,
'float' : /[-+]?\d*[.]\d+/,
'int' : /^[-+]?(0|[1-9]\d*)$/
};
var feedback = { warnings : [], errors : []};
parser.parse(turtleStream, function(error, triple, prefixes) {
if (error) {
feedback.errors.push(error.message);
}
if (triple) {
if (triple.object.termType === 'literal') {
var value = triple.object.value;
var type = triple.object.datatype;
type = type.replace('http://www.w3.org/2001/XMLSchema#', '');
if (regexp[type] && !regexp[type].test(value)) {
feedback.warnings.push('xsd:', type, 'does not validate for literal. {', triple.subject.value, triple.predicate.value, triple.object.value, '}');
}
}
} else {
callback(feedback);
}
});
};
if (typeof window !== 'undefined') {
window.validate = validate;
}
module.exports = validate;
},{"n3":2}],2:[function(require,module,exports){
module.exports = {
DataFactory: require('./lib/N3DataFactory'),
Lexer: require('./lib/N3Lexer'),
Parser: require('./lib/N3Parser'),
Writer: require('./lib/N3Writer'),
Store: require('./lib/N3Store'),
StreamParser: require('./lib/N3StreamParser'),
StreamWriter: require('./lib/N3StreamWriter'),
Util: require('./lib/N3Util'),
};
},{"./lib/N3DataFactory":4,"./lib/N3Lexer":5,"./lib/N3Parser":6,"./lib/N3Store":7,"./lib/N3StreamParser":8,"./lib/N3StreamWriter":9,"./lib/N3Util":10,"./lib/N3Writer":11}],3:[function(require,module,exports){
var RDF = 'http://www.w3.org/1999/02/22-rdf-syntax-ns#',
XSD = 'http://www.w3.org/2001/XMLSchema#',
SWAP = 'http://www.w3.org/2000/10/swap/';
module.exports = {
xsd: {
decimal: XSD + 'decimal',
boolean: XSD + 'boolean',
double: XSD + 'double',
integer: XSD + 'integer',
string: XSD + 'string',
},
rdf: {
type: RDF + 'type',
nil: RDF + 'nil',
first: RDF + 'first',
rest: RDF + 'rest',
langString: RDF + 'langString',
},
owl: {
sameAs: 'http://www.w3.org/2002/07/owl#sameAs',
},
r: {
forSome: SWAP + 'reify#forSome',
forAll: SWAP + 'reify#forAll',
},
log: {
implies: SWAP + 'log#implies',
},
};
},{}],4:[function(require,module,exports){
// N3.js implementations of the RDF/JS core data types
// See https://github.com/rdfjs/representation-task-force/blob/master/interface-spec.md
var namespaces = require('./IRIs');
var rdf = namespaces.rdf,
xsd = namespaces.xsd;
var DataFactory, DEFAULTGRAPH;
var _blankNodeCounter = 0;
// ## Term constructor
function Term(id) {
if (!(this instanceof Term))
return new Term(id);
this.id = id;
}
// ### Makes this class a subclass of the given type
Term.subclass = function subclass(Type, name) {
Type.prototype = Object.create(this.prototype, {
constructor: { value: Type },
termType: { value: name || Type.name },
});
Type.subclass = subclass;
};
// ### Returns whether this object represents the same term as the other
Term.prototype.equals = function (other) {
// If both terms were created by this library,
// equality can be computed through ids
if (other instanceof Term)
return this.id === other.id;
// Otherwise, compare term type and value
return !!other && this.termType === other.termType &&
this.value === other.value;
};
// ### Returns a plain object representation of this term
Term.prototype.toJSON = function () {
return {
termType: this.termType,
value: this.value,
};
};
// ### Constructs a term from the given internal string ID
function fromId(id, factory) {
factory = factory || DataFactory;
// Falsy value or empty string indicate the default graph
if (!id)
return factory.defaultGraph();
// Identify the term type based on the first character
switch (id[0]) {
case '_': return factory.blankNode(id.substr(2));
case '?': return factory.variable(id.substr(1));
case '"':
// Shortcut for internal literals
if (factory === DataFactory)
return new Literal(id);
// Literal without datatype or language
if (id[id.length - 1] === '"')
return factory.literal(id.substr(1, id.length - 2));
// Literal with datatype or language
var endPos = id.lastIndexOf('"', id.length - 1);
return factory.literal(id.substr(1, endPos - 1),
id[endPos + 1] === '@' ? id.substr(endPos + 2)
: factory.namedNode(id.substr(endPos + 3)));
default: return factory.namedNode(id);
}
}
// ### Constructs an internal string ID from the given term or ID string
function toId(term) {
if (typeof term === 'string')
return term;
if (term instanceof Term)
return term.id;
if (!term)
return DEFAULTGRAPH.value;
// Term instantiated with another library
switch (term.termType) {
case 'NamedNode': return term.value;
case 'BlankNode': return '_:' + term.value;
case 'Variable': return '?' + term.value;
case 'DefaultGraph': return '';
case 'Literal': return '"' + term.value + '"' +
(term.language ? '@' + term.language :
(term.datatype && term.datatype.value !== xsd.string ? '^^' + term.datatype.value : ''));
default: throw new Error('Unexpected termType: ' + term.termType);
}
}
// ## NamedNode constructor
function NamedNode(iri) {
if (!(this instanceof NamedNode))
return new NamedNode(iri);
this.id = iri;
}
Term.subclass(NamedNode, 'NamedNode');
// ### The IRI of this named node
Object.defineProperty(NamedNode.prototype, 'value', {
get: function () { return this.id; },
});
// ## BlankNode constructor
function BlankNode(name) {
if (!(this instanceof BlankNode))
return new BlankNode(name);
this.id = '_:' + name;
}
Term.subclass(BlankNode, 'BlankNode');
// ### The name of this blank node
Object.defineProperty(BlankNode.prototype, 'value', {
get: function () { return this.id.substr(2); },
});
// ## Variable constructor
function Variable(name) {
if (!(this instanceof Variable))
return new Variable(name);
this.id = '?' + name;
}
Term.subclass(Variable, 'Variable');
// ### The name of this variable
Object.defineProperty(Variable.prototype, 'value', {
get: function () { return this.id.substr(1); },
});
// ## Literal constructor
function Literal(id) {
if (!(this instanceof Literal))
return new Literal(id);
this.id = id;
}
Term.subclass(Literal, 'Literal');
// ### The text value of this literal
Object.defineProperty(Literal.prototype, 'value', {
get: function () {
return this.id.substring(1, this.id.lastIndexOf('"'));
},
});
// ### The language of this literal
Object.defineProperty(Literal.prototype, 'language', {
get: function () {
// Find the last quotation mark (e.g., '"abc"@en-us')
var id = this.id, atPos = id.lastIndexOf('"') + 1;
// If "@" it follows, return the remaining substring; empty otherwise
return atPos < id.length && id[atPos++] === '@' ? id.substr(atPos).toLowerCase() : '';
},
});
// ### The datatype IRI of this literal
Object.defineProperty(Literal.prototype, 'datatype', {
get: function () {
return new NamedNode(this.datatypeString);
},
});
// ### The datatype string of this literal
Object.defineProperty(Literal.prototype, 'datatypeString', {
get: function () {
// Find the last quotation mark (e.g., '"abc"^^http://ex.org/types#t')
var id = this.id, dtPos = id.lastIndexOf('"') + 1, ch;
// If "^" it follows, return the remaining substring
return dtPos < id.length && (ch = id[dtPos]) === '^' ? id.substr(dtPos + 2) :
// If "@" follows, return rdf:langString; xsd:string otherwise
(ch !== '@' ? xsd.string : rdf.langString);
},
});
// ### Returns whether this object represents the same term as the other
Literal.prototype.equals = function (other) {
// If both literals were created by this library,
// equality can be computed through ids
if (other instanceof Literal)
return this.id === other.id;
// Otherwise, compare term type, value, language, and datatype
return !!other && !!other.datatype &&
this.termType === other.termType &&
this.value === other.value &&
this.language === other.language &&
this.datatype.value === other.datatype.value;
};
// ### Returns a plain object representation of this term
Literal.prototype.toJSON = function () {
return {
termType: this.termType,
value: this.value,
language: this.language,
datatype: { termType: 'NamedNode', value: this.datatypeString },
};
};
// ## DefaultGraph singleton
function DefaultGraph() {
return DEFAULTGRAPH || this;
}
Term.subclass(DefaultGraph, 'DefaultGraph');
// Initialize singleton
DEFAULTGRAPH = new DefaultGraph();
DEFAULTGRAPH.id = '';
// ### The empty string
Object.defineProperty(DefaultGraph.prototype, 'value', { value: '' });
// ### Returns whether this object represents the same term as the other
DefaultGraph.prototype.equals = function (other) {
// If both terms were created by this library,
// equality can be computed through strict equality;
// otherwise, compare term types.
return (this === other) || (!!other && (this.termType === other.termType));
};
// ## Quad constructor
function Quad(subject, predicate, object, graph) {
if (!(this instanceof Quad))
return new Quad();
this.subject = subject;
this.predicate = predicate;
this.object = object;
this.graph = graph || DEFAULTGRAPH;
}
// ### Returns a plain object representation of this quad
Quad.prototype.toJSON = function () {
return {
subject: this.subject.toJSON(),
predicate: this.predicate.toJSON(),
object: this.object.toJSON(),
graph: this.graph.toJSON(),
};
};
// ### Returns whether this object represents the same quad as the other
Quad.prototype.equals = function (other) {
return !!other && this.subject.equals(other.subject) &&
this.predicate.equals(other.predicate) &&
this.object.equals(other.object) &&
this.graph.equals(other.graph);
};
// ## DataFactory functions
// ### Creates an IRI
function namedNode(iri) {
return new NamedNode(iri);
}
// ### Creates a blank node
function blankNode(name) {
if (!name)
name = 'n3-' + _blankNodeCounter++;
return new BlankNode(name);
}
// ### Creates a literal
function literal(value, languageOrDataType) {
// Create a language-tagged string
if (typeof languageOrDataType === 'string')
return new Literal('"' + value + '"@' + languageOrDataType.toLowerCase());
// Create a datatyped literal
var datatype = languageOrDataType && languageOrDataType.value || '';
if (!datatype) {
switch (typeof value) {
// Convert a boolean
case 'boolean':
datatype = xsd.boolean;
break;
// Convert an integer or double
case 'number':
if (Number.isFinite(value))
datatype = Number.isInteger(value) ? xsd.integer : xsd.double;
else {
datatype = xsd.double;
if (!Number.isNaN(value))
value = value > 0 ? 'INF' : '-INF';
}
break;
// No datatype, so convert a plain string
default:
return new Literal('"' + value + '"');
}
}
return new Literal('"' + value + '"^^' + datatype);
}
// ### Creates a variable
function variable(name) {
return new Variable(name);
}
// ### Returns the default graph
function defaultGraph() {
return DEFAULTGRAPH;
}
// ### Creates a quad
function quad(subject, predicate, object, graph) {
return new Quad(subject, predicate, object, graph);
}
// ## Module exports
module.exports = DataFactory = {
// ### Public factory functions
namedNode: namedNode,
blankNode: blankNode,
variable: variable,
literal: literal,
defaultGraph: defaultGraph,
quad: quad,
triple: quad,
// ### Internal datatype constructors
internal: {
Term: Term,
NamedNode: NamedNode,
BlankNode: BlankNode,
Variable: Variable,
Literal: Literal,
DefaultGraph: DefaultGraph,
Quad: Quad,
Triple: Quad,
fromId: fromId,
toId: toId,
},
};
},{"./IRIs":3}],5:[function(require,module,exports){
(function (setImmediate){
// **N3Lexer** tokenizes N3 documents.
var xsd = require('./IRIs').xsd;
var fromCharCode = String.fromCharCode;
var immediately = typeof setImmediate === 'function' ? setImmediate :
function setImmediate(func) { setTimeout(func, 0); };
// Regular expression and replacement string to escape N3 strings.
// Note how we catch invalid unicode sequences separately (they will trigger an error).
var escapeSequence = /\\u([a-fA-F0-9]{4})|\\U([a-fA-F0-9]{8})|\\[uU]|\\(.)/g;
var escapeReplacements = {
'\\': '\\', "'": "'", '"': '"',
'n': '\n', 'r': '\r', 't': '\t', 'f': '\f', 'b': '\b',
'_': '_', '~': '~', '.': '.', '-': '-', '!': '!', '$': '$', '&': '&',
'(': '(', ')': ')', '*': '*', '+': '+', ',': ',', ';': ';', '=': '=',
'/': '/', '?': '?', '#': '#', '@': '@', '%': '%',
};
var illegalIriChars = /[\x00-\x20<>\\"\{\}\|\^\`]/;
// ## Constructor
function N3Lexer(options) {
if (!(this instanceof N3Lexer))
return new N3Lexer(options);
options = options || {};
// In line mode (N-Triples or N-Quads), only simple features may be parsed
if (options.lineMode) {
// Don't tokenize special literals
this._tripleQuotedString = this._number = this._boolean = /$0^/;
// Swap the tokenize method for a restricted version
var self = this;
this._tokenize = this.tokenize;
this.tokenize = function (input, callback) {
this._tokenize(input, function (error, token) {
if (!error && /^(?:IRI|blank|literal|langcode|typeIRI|\.|eof)$/.test(token.type))
callback && callback(error, token);
else
callback && callback(error || self._syntaxError(token.type, callback = null));
});
};
}
// Enable N3 functionality by default
this._n3Mode = options.n3 !== false;
// Disable comment tokens by default
this._comments = !!options.comments;
}
N3Lexer.prototype = {
// ## Regular expressions
// It's slightly faster to have these as properties than as in-scope variables
_iri: /^<((?:[^ <>{}\\]|\\[uU])+)>[ \t]*/, // IRI with escape sequences; needs sanity check after unescaping
_unescapedIri: /^<([^\x00-\x20<>\\"\{\}\|\^\`]*)>[ \t]*/, // IRI without escape sequences; no unescaping
_unescapedString: /^"([^"\\\r\n]+)"/, // non-empty string without escape sequences
_singleQuotedString: /^"((?:[^"\\\r\n]|\\.)*)"(?=[^"])|^'((?:[^'\\\r\n]|\\.)*)'(?=[^'])/,
_tripleQuotedString: /^"""([^"\\]*(?:(?:\\.|"(?!""))[^"\\]*)*)"""|^'''([^'\\]*(?:(?:\\.|'(?!''))[^'\\]*)*)'''/,
_langcode: /^@([a-z]+(?:-[a-z0-9]+)*)(?=[^a-z0-9\-])/i,
_prefix: /^((?:[A-Za-z\xc0-\xd6\xd8-\xf6\xf8-\u02ff\u0370-\u037d\u037f-\u1fff\u200c\u200d\u2070-\u218f\u2c00-\u2fef\u3001-\ud7ff\uf900-\ufdcf\ufdf0-\ufffd]|[\ud800-\udb7f][\udc00-\udfff])(?:\.?[\-0-9A-Z_a-z\xb7\xc0-\xd6\xd8-\xf6\xf8-\u037d\u037f-\u1fff\u200c\u200d\u203f\u2040\u2070-\u218f\u2c00-\u2fef\u3001-\ud7ff\uf900-\ufdcf\ufdf0-\ufffd]|[\ud800-\udb7f][\udc00-\udfff])*)?:(?=[#\s<])/,
_prefixed: /^((?:[A-Za-z\xc0-\xd6\xd8-\xf6\xf8-\u02ff\u0370-\u037d\u037f-\u1fff\u200c\u200d\u2070-\u218f\u2c00-\u2fef\u3001-\ud7ff\uf900-\ufdcf\ufdf0-\ufffd]|[\ud800-\udb7f][\udc00-\udfff])(?:\.?[\-0-9A-Z_a-z\xb7\xc0-\xd6\xd8-\xf6\xf8-\u037d\u037f-\u1fff\u200c\u200d\u203f\u2040\u2070-\u218f\u2c00-\u2fef\u3001-\ud7ff\uf900-\ufdcf\ufdf0-\ufffd]|[\ud800-\udb7f][\udc00-\udfff])*)?:((?:(?:[0-:A-Z_a-z\xc0-\xd6\xd8-\xf6\xf8-\u02ff\u0370-\u037d\u037f-\u1fff\u200c\u200d\u2070-\u218f\u2c00-\u2fef\u3001-\ud7ff\uf900-\ufdcf\ufdf0-\ufffd]|[\ud800-\udb7f][\udc00-\udfff]|%[0-9a-fA-F]{2}|\\[!#-\/;=?\-@_~])(?:(?:[\.\-0-:A-Z_a-z\xb7\xc0-\xd6\xd8-\xf6\xf8-\u037d\u037f-\u1fff\u200c\u200d\u203f\u2040\u2070-\u218f\u2c00-\u2fef\u3001-\ud7ff\uf900-\ufdcf\ufdf0-\ufffd]|[\ud800-\udb7f][\udc00-\udfff]|%[0-9a-fA-F]{2}|\\[!#-\/;=?\-@_~])*(?:[\-0-:A-Z_a-z\xb7\xc0-\xd6\xd8-\xf6\xf8-\u037d\u037f-\u1fff\u200c\u200d\u203f\u2040\u2070-\u218f\u2c00-\u2fef\u3001-\ud7ff\uf900-\ufdcf\ufdf0-\ufffd]|[\ud800-\udb7f][\udc00-\udfff]|%[0-9a-fA-F]{2}|\\[!#-\/;=?\-@_~]))?)?)(?:[ \t]+|(?=\.?[,;!\^\s#()\[\]\{\}"'<]))/,
_variable: /^\?(?:(?:[A-Z_a-z\xc0-\xd6\xd8-\xf6\xf8-\u02ff\u0370-\u037d\u037f-\u1fff\u200c\u200d\u2070-\u218f\u2c00-\u2fef\u3001-\ud7ff\uf900-\ufdcf\ufdf0-\ufffd]|[\ud800-\udb7f][\udc00-\udfff])(?:[\-0-:A-Z_a-z\xb7\xc0-\xd6\xd8-\xf6\xf8-\u037d\u037f-\u1fff\u200c\u200d\u203f\u2040\u2070-\u218f\u2c00-\u2fef\u3001-\ud7ff\uf900-\ufdcf\ufdf0-\ufffd]|[\ud800-\udb7f][\udc00-\udfff])*)(?=[.,;!\^\s#()\[\]\{\}"'<])/,
_blank: /^_:((?:[0-9A-Z_a-z\xc0-\xd6\xd8-\xf6\xf8-\u02ff\u0370-\u037d\u037f-\u1fff\u200c\u200d\u2070-\u218f\u2c00-\u2fef\u3001-\ud7ff\uf900-\ufdcf\ufdf0-\ufffd]|[\ud800-\udb7f][\udc00-\udfff])(?:\.?[\-0-9A-Z_a-z\xb7\xc0-\xd6\xd8-\xf6\xf8-\u037d\u037f-\u1fff\u200c\u200d\u203f\u2040\u2070-\u218f\u2c00-\u2fef\u3001-\ud7ff\uf900-\ufdcf\ufdf0-\ufffd]|[\ud800-\udb7f][\udc00-\udfff])*)(?:[ \t]+|(?=\.?[,;:\s#()\[\]\{\}"'<]))/,
_number: /^[\-+]?(?:\d+\.?\d*([eE](?:[\-\+])?\d+)|\d*\.?\d+)(?=\.?[,;:\s#()\[\]\{\}"'<])/,
_boolean: /^(?:true|false)(?=[.,;\s#()\[\]\{\}"'<])/,
_keyword: /^@[a-z]+(?=[\s#<:])/i,
_sparqlKeyword: /^(?:PREFIX|BASE|GRAPH)(?=[\s#<])/i,
_shortPredicates: /^a(?=\s+|<)/,
_newline: /^[ \t]*(?:#[^\n\r]*)?(?:\r\n|\n|\r)[ \t]*/,
_comment: /#([^\n\r]*)/,
_whitespace: /^[ \t]+/,
_endOfFile: /^(?:#[^\n\r]*)?$/,
// ## Private methods
// ### `_tokenizeToEnd` tokenizes as for as possible, emitting tokens through the callback
_tokenizeToEnd: function (callback, inputFinished) {
// Continue parsing as far as possible; the loop will return eventually
var input = this._input, outputComments = this._comments;
while (true) {
// Count and skip whitespace lines
var whiteSpaceMatch, comment;
while (whiteSpaceMatch = this._newline.exec(input)) {
// Try to find a comment
if (outputComments && (comment = this._comment.exec(whiteSpaceMatch[0])))
callback(null, { line: this._line, type: 'comment', value: comment[1], prefix: '' });
// Advance the input
input = input.substr(whiteSpaceMatch[0].length, input.length);
this._line++;
}
// Skip whitespace on current line
if (whiteSpaceMatch = this._whitespace.exec(input))
input = input.substr(whiteSpaceMatch[0].length, input.length);
// Stop for now if we're at the end
if (this._endOfFile.test(input)) {
// If the input is finished, emit EOF
if (inputFinished) {
// Try to find a final comment
if (outputComments && (comment = this._comment.exec(input)))
callback(null, { line: this._line, type: 'comment', value: comment[1], prefix: '' });
callback(input = null, { line: this._line, type: 'eof', value: '', prefix: '' });
}
return this._input = input;
}
// Look for specific token types based on the first character
var line = this._line, type = '', value = '', prefix = '',
firstChar = input[0], match = null, matchLength = 0, inconclusive = false;
switch (firstChar) {
case '^':
// We need at least 3 tokens lookahead to distinguish ^^<IRI> and ^^pre:fixed
if (input.length < 3)
break;
// Try to match a type
else if (input[1] === '^') {
this._previousMarker = '^^';
// Move to type IRI or prefixed name
input = input.substr(2);
if (input[0] !== '<') {
inconclusive = true;
break;
}
}
// If no type, it must be a path expression
else {
if (this._n3Mode) {
matchLength = 1;
type = '^';
}
break;
}
// Fall through in case the type is an IRI
case '<':
// Try to find a full IRI without escape sequences
if (match = this._unescapedIri.exec(input))
type = 'IRI', value = match[1];
// Try to find a full IRI with escape sequences
else if (match = this._iri.exec(input)) {
value = this._unescape(match[1]);
if (value === null || illegalIriChars.test(value))
return reportSyntaxError(this);
type = 'IRI';
}
// Try to find a backwards implication arrow
else if (this._n3Mode && input.length > 1 && input[1] === '=')
type = 'inverse', matchLength = 2, value = '>';
break;
case '_':
// Try to find a blank node. Since it can contain (but not end with) a dot,
// we always need a non-dot character before deciding it is a blank node.
// Therefore, try inserting a space if we're at the end of the input.
if ((match = this._blank.exec(input)) ||
inputFinished && (match = this._blank.exec(input + ' ')))
type = 'blank', prefix = '_', value = match[1];
break;
case '"':
case "'":
// Try to find a non-empty double-quoted literal without escape sequences
if (match = this._unescapedString.exec(input))
value = match[1];
// Try to find any other literal wrapped in a pair of single or double quotes
else if (match = this._singleQuotedString.exec(input))
value = this._unescape(typeof match[1] === 'string' ? match[1] : match[2]);
// Try to find a literal wrapped in three pairs of single or double quotes
else if (match = this._tripleQuotedString.exec(input)) {
value = typeof match[1] === 'string' ? match[1] : match[2];
// Advance line counter
this._line += value.split(/\r\n|\r|\n/).length - 1;
value = this._unescape(value);
}
if (value === null)
return reportSyntaxError(this);
if (match !== null)
type = 'literal';
break;
case '?':
// Try to find a variable
if (this._n3Mode && (match = this._variable.exec(input)))
type = 'var', value = match[0];
break;
case '@':
// Try to find a language code
if (this._previousMarker === 'literal' && (match = this._langcode.exec(input)))
type = 'langcode', value = match[1];
// Try to find a keyword
else if (match = this._keyword.exec(input))
type = match[0];
break;
case '.':
// Try to find a dot as punctuation
if (input.length === 1 ? inputFinished : (input[1] < '0' || input[1] > '9')) {
type = '.';
matchLength = 1;
break;
}
// Fall through to numerical case (could be a decimal dot)
case '0':
case '1':
case '2':
case '3':
case '4':
case '5':
case '6':
case '7':
case '8':
case '9':
case '+':
case '-':
// Try to find a number. Since it can contain (but not end with) a dot,
// we always need a non-dot character before deciding it is a number.
// Therefore, try inserting a space if we're at the end of the input.
if (match = this._number.exec(input) ||
inputFinished && (match = this._number.exec(input + ' '))) {
type = 'literal', value = match[0];
prefix = (match[1] ? xsd.double :
(/^[+\-]?\d+$/.test(match[0]) ? xsd.integer : xsd.decimal));
}
break;
case 'B':
case 'b':
case 'p':
case 'P':
case 'G':
case 'g':
// Try to find a SPARQL-style keyword
if (match = this._sparqlKeyword.exec(input))
type = match[0].toUpperCase();
else
inconclusive = true;
break;
case 'f':
case 't':
// Try to match a boolean
if (match = this._boolean.exec(input))
type = 'literal', value = match[0], prefix = xsd.boolean;
else
inconclusive = true;
break;
case 'a':
// Try to find an abbreviated predicate
if (match = this._shortPredicates.exec(input))
type = 'abbreviation', value = 'a';
else
inconclusive = true;
break;
case '=':
// Try to find an implication arrow or equals sign
if (this._n3Mode && input.length > 1) {
type = 'abbreviation';
if (input[1] !== '>')
matchLength = 1, value = '=';
else
matchLength = 2, value = '>';
}
break;
case '!':
if (!this._n3Mode)
break;
case ',':
case ';':
case '[':
case ']':
case '(':
case ')':
case '{':
case '}':
// The next token is punctuation
matchLength = 1;
type = firstChar;
break;
default:
inconclusive = true;
}
// Some first characters do not allow an immediate decision, so inspect more
if (inconclusive) {
// Try to find a prefix
if ((this._previousMarker === '@prefix' || this._previousMarker === 'PREFIX') &&
(match = this._prefix.exec(input)))
type = 'prefix', value = match[1] || '';
// Try to find a prefixed name. Since it can contain (but not end with) a dot,
// we always need a non-dot character before deciding it is a prefixed name.
// Therefore, try inserting a space if we're at the end of the input.
else if ((match = this._prefixed.exec(input)) ||
inputFinished && (match = this._prefixed.exec(input + ' ')))
type = 'prefixed', prefix = match[1] || '', value = this._unescape(match[2]);
}
// A type token is special: it can only be emitted after an IRI or prefixed name is read
if (this._previousMarker === '^^') {
switch (type) {
case 'prefixed': type = 'type'; break;
case 'IRI': type = 'typeIRI'; break;
default: type = '';
}
}
// What if nothing of the above was found?
if (!type) {
// We could be in streaming mode, and then we just wait for more input to arrive.
// Otherwise, a syntax error has occurred in the input.
// One exception: error on an unaccounted linebreak (= not inside a triple-quoted literal).
if (inputFinished || (!/^'''|^"""/.test(input) && /\n|\r/.test(input)))
return reportSyntaxError(this);
else
return this._input = input;
}
// Emit the parsed token
var token = { line: line, type: type, value: value, prefix: prefix };
callback(null, token);
this.previousToken = token;
this._previousMarker = type;
// Advance to next part to tokenize
input = input.substr(matchLength || match[0].length, input.length);
}
// Signals the syntax error through the callback
function reportSyntaxError(self) { callback(self._syntaxError(/^\S*/.exec(input)[0])); }
},
// ### `_unescape` replaces N3 escape codes by their corresponding characters
_unescape: function (item) {
try {
return item.replace(escapeSequence, function (sequence, unicode4, unicode8, escapedChar) {
var charCode;
if (unicode4) {
charCode = parseInt(unicode4, 16);
if (isNaN(charCode)) throw new Error(); // can never happen (regex), but helps performance
return fromCharCode(charCode);
}
else if (unicode8) {
charCode = parseInt(unicode8, 16);
if (isNaN(charCode)) throw new Error(); // can never happen (regex), but helps performance
if (charCode <= 0xFFFF) return fromCharCode(charCode);
return fromCharCode(0xD800 + ((charCode -= 0x10000) / 0x400), 0xDC00 + (charCode & 0x3FF));
}
else {
var replacement = escapeReplacements[escapedChar];
if (!replacement)
throw new Error();
return replacement;
}
});
}
catch (error) { return null; }
},
// ### `_syntaxError` creates a syntax error for the given issue
_syntaxError: function (issue) {
this._input = null;
var err = new Error('Unexpected "' + issue + '" on line ' + this._line + '.');
err.context = {
token: undefined,
line: this._line,
previousToken: this.previousToken,
};
return err;
},
// ## Public methods
// ### `tokenize` starts the transformation of an N3 document into an array of tokens.
// The input can be a string or a stream.
tokenize: function (input, callback) {
var self = this;
this._line = 1;
// If the input is a string, continuously emit tokens through the callback until the end
if (typeof input === 'string') {
this._input = input;
// If a callback was passed, asynchronously call it
if (typeof callback === 'function')
immediately(function () { self._tokenizeToEnd(callback, true); });
// If no callback was passed, tokenize synchronously and return
else {
var tokens = [], error;
this._tokenizeToEnd(function (e, t) { e ? (error = e) : tokens.push(t); }, true);
if (error) throw error;
return tokens;
}
}
// Otherwise, the input must be a stream
else {
this._input = '';
if (typeof input.setEncoding === 'function')
input.setEncoding('utf8');
// Adds the data chunk to the buffer and parses as far as possible
input.on('data', function (data) {
if (self._input !== null) {
self._input += data;
self._tokenizeToEnd(callback, false);
}
});
// Parses until the end
input.on('end', function () {
if (self._input !== null)
self._tokenizeToEnd(callback, true);
});
input.on('error', callback);
}
},
};
// ## Exports
module.exports = N3Lexer;
}).call(this,require("timers").setImmediate)
},{"./IRIs":3,"timers":39}],6:[function(require,module,exports){
// **N3Parser** parses N3 documents.
var N3Lexer = require('./N3Lexer'),
DataFactory = require('./N3DataFactory'),
namespaces = require('./IRIs');
// Regexes for IRIs
var absoluteIRI = /^[a-z][a-z0-9+.-]*:/i,
schemeAuthority = /^(?:([a-z][a-z0-9+.-]*:))?(?:\/\/[^\/]*)?/i,
dotSegments = /(?:^|\/)\.\.?(?:$|[\/#?])/;
// The next ID for new blank nodes
var blankNodePrefix = 0, blankNodeCount = 0;
// ## Constructor
function N3Parser(options) {
if (!(this instanceof N3Parser))
return new N3Parser(options);
this._contextStack = [];
this._graph = null;
// Set the document IRI
options = options || {};
this._setBase(options.baseIRI);
options.factory && initDataFactory(this, options.factory);
// Set supported features depending on the format
var format = (typeof options.format === 'string') ?
options.format.match(/\w*$/)[0].toLowerCase() : '',
isTurtle = format === 'turtle', isTriG = format === 'trig',
isNTriples = /triple/.test(format), isNQuads = /quad/.test(format),
isN3 = this._n3Mode = /n3/.test(format),
isLineMode = isNTriples || isNQuads;
if (!(this._supportsNamedGraphs = !(isTurtle || isN3)))
this._readPredicateOrNamedGraph = this._readPredicate;
this._supportsQuads = !(isTurtle || isTriG || isNTriples || isN3);
// Disable relative IRIs in N-Triples or N-Quads mode
if (isLineMode) {
this._base = '';
this._resolveIRI = function (token) {
this._error('Disallowed relative IRI', token);
return this._callback = noop, this._subject = null;
};
}
this._blankNodePrefix = typeof options.blankNodePrefix !== 'string' ? '' :
options.blankNodePrefix.replace(/^(?!_:)/, '_:');
this._lexer = options.lexer || new N3Lexer({ lineMode: isLineMode, n3: isN3 });
// Disable explicit quantifiers by default
this._explicitQuantifiers = !!options.explicitQuantifiers;
}
// ## Private class methods
// ### `_resetBlankNodeIds` restarts blank node identification
N3Parser._resetBlankNodeIds = function () {
blankNodePrefix = blankNodeCount = 0;
};
N3Parser.prototype = {
// ## Private methods
// ### `_blank` creates a new blank node
_blank: function () {
return this._blankNode('b' + blankNodeCount++);
},
// ### `_setBase` sets the base IRI to resolve relative IRIs
_setBase: function (baseIRI) {
if (!baseIRI)
this._base = null;
else {
// Remove fragment if present
var fragmentPos = baseIRI.indexOf('#');
if (fragmentPos >= 0)
baseIRI = baseIRI.substr(0, fragmentPos);
// Set base IRI and its components
this._base = baseIRI;
this._basePath = baseIRI.indexOf('/') < 0 ? baseIRI :
baseIRI.replace(/[^\/?]*(?:\?.*)?$/, '');
baseIRI = baseIRI.match(schemeAuthority);
this._baseRoot = baseIRI[0];
this._baseScheme = baseIRI[1];
}
},
// ### `_saveContext` stores the current parsing context
// when entering a new scope (list, blank node, formula)
_saveContext: function (type, graph, subject, predicate, object) {
var n3Mode = this._n3Mode;
this._contextStack.push({
subject: subject, predicate: predicate, object: object,
graph: graph, type: type,
inverse: n3Mode ? this._inversePredicate : false,
blankPrefix: n3Mode ? this._prefixes._ : '',
quantified: n3Mode ? this._quantified : null,
});
// The settings below only apply to N3 streams
if (n3Mode) {
// Every new scope resets the predicate direction
this._inversePredicate = false;
// In N3, blank nodes are scoped to a formula
// (using a dot as separator, as a blank node label cannot start with it)
this._prefixes._ = (this._graph ? this._graph.id.substr(2) + '.' : '.');
// Quantifiers are scoped to a formula
this._quantified = Object.create(this._quantified);
}
},
// ### `_restoreContext` restores the parent context
// when leaving a scope (list, blank node, formula)
_restoreContext: function () {
var context = this._contextStack.pop(), n3Mode = this._n3Mode;
this._subject = context.subject;
this._predicate = context.predicate;
this._object = context.object;
this._graph = context.graph;
// The settings below only apply to N3 streams
if (n3Mode) {
this._inversePredicate = context.inverse;
this._prefixes._ = context.blankPrefix;
this._quantified = context.quantified;
}
},
// ### `_readInTopContext` reads a token when in the top context
_readInTopContext: function (token) {
switch (token.type) {
// If an EOF token arrives in the top context, signal that we're done
case 'eof':
if (this._graph !== null)
return this._error('Unclosed graph', token);
delete this._prefixes._;
return this._callback(null, null, this._prefixes);
// It could be a prefix declaration
case 'PREFIX':
this._sparqlStyle = true;
case '@prefix':
return this._readPrefix;
// It could be a base declaration
case 'BASE':
this._sparqlStyle = true;
case '@base':
return this._readBaseIRI;
// It could be a graph
case '{':
if (this._supportsNamedGraphs) {
this._graph = '';
this._subject = null;
return this._readSubject;
}
case 'GRAPH':
if (this._supportsNamedGraphs)
return this._readNamedGraphLabel;
// Otherwise, the next token must be a subject
default:
return this._readSubject(token);
}
},
// ### `_readEntity` reads an IRI, prefixed name, blank node, or variable
_readEntity: function (token, quantifier) {
var value;
switch (token.type) {
// Read a relative or absolute IRI
case 'IRI':
case 'typeIRI':
value = this._namedNode(this._base === null || absoluteIRI.test(token.value) ?
token.value : this._resolveIRI(token));
break;
// Read a prefixed name
case 'type':
case 'prefixed':
var prefix = this._prefixes[token.prefix];
if (prefix === undefined)
return this._error('Undefined prefix "' + token.prefix + ':"', token);
value = this._namedNode(prefix + token.value);
break;
// Read a blank node
case 'blank':
value = this._blankNode(this._prefixes[token.prefix] + token.value);
break;
// Read a variable
case 'var':
value = this._variable(token.value.substr(1));
break;
// Everything else is not an entity
default:
return this._error('Expected entity but got ' + token.type, token);
}
// In N3 mode, replace the entity if it is quantified
if (!quantifier && this._n3Mode && (value.id in this._quantified))
value = this._quantified[value.id];
return value;
},
// ### `_readSubject` reads a quad's subject
_readSubject: function (token) {
this._predicate = null;
switch (token.type) {
case '[':
// Start a new quad with a new blank node as subject
this._saveContext('blank', this._graph,
this._subject = this._blank(), null, null);
return this._readBlankNodeHead;
case '(':
// Start a new list
this._saveContext('list', this._graph, this.RDF_NIL, null, null);
this._subject = null;
return this._readListItem;
case '{':
// Start a new formula
if (!this._n3Mode)
return this._error('Unexpected graph', token);
this._saveContext('formula', this._graph,
this._graph = this._blank(), null, null);
return this._readSubject;
case '}':
// No subject; the graph in which we are reading is closed instead
return this._readPunctuation(token);
case '@forSome':
if (!this._n3Mode)
return this._error('Unexpected "@forSome"', token);
this._subject = null;
this._predicate = this.N3_FORSOME;
this._quantifier = this._blankNode;
return this._readQuantifierList;
case '@forAll':
if (!this._n3Mode)
return this._error('Unexpected "@forAll"', token);
this._subject = null;
this._predicate = this.N3_FORALL;
this._quantifier = this._variable;
return this._readQuantifierList;
default:
// Read the subject entity
if ((this._subject = this._readEntity(token)) === undefined)
return;
// In N3 mode, the subject might be a path
if (this._n3Mode)
return this._getPathReader(this._readPredicateOrNamedGraph);
}
// The next token must be a predicate,
// or, if the subject was actually a graph IRI, a named graph
return this._readPredicateOrNamedGraph;
},
// ### `_readPredicate` reads a quad's predicate
_readPredicate: function (token) {
var type = token.type;
switch (type) {
case 'inverse':
this._inversePredicate = true;
case 'abbreviation':
this._predicate = this.ABBREVIATIONS[token.value];
break;
case '.':
case ']':
case '}':
// Expected predicate didn't come, must have been trailing semicolon
if (this._predicate === null)
return this._error('Unexpected ' + type, token);
this._subject = null;
return type === ']' ? this._readBlankNodeTail(token) : this._readPunctuation(token);
case ';':
// Additional semicolons can be safely ignored
return this._predicate !== null ? this._readPredicate :
this._error('Expected predicate but got ;', token);
case 'blank':
if (!this._n3Mode)
return this._error('Disallowed blank node as predicate', token);
default:
if ((this._predicate = this._readEntity(token)) === undefined)
return;
}
// The next token must be an object
return this._readObject;
},
// ### `_readObject` reads a quad's object
_readObject: function (token) {
switch (token.type) {
case 'literal':
// Regular literal, can still get a datatype or language
if (token.prefix.length === 0) {
this._literalValue = token.value;
return this._readDataTypeOrLang;
}
// Pre-datatyped string literal (prefix stores the datatype)
else
this._object = this._literal(token.value, this._namedNode(token.prefix));
break;
case '[':
// Start a new quad with a new blank node as subject
this._saveContext('blank', this._graph, this._subject, this._predicate,
this._subject = this._blank());
return this._readBlankNodeHead;
case '(':
// Start a new list
this._saveContext('list', this._graph, this._subject, this._predicate, this.RDF_NIL);
this._subject = null;
return this._readListItem;
case '{':
// Start a new formula
if (!this._n3Mode)
return this._error('Unexpected graph', token);
this._saveContext('formula', this._graph, this._subject, this._predicate,
this._graph = this._blank());
return this._readSubject;
default:
// Read the object entity
if ((this._object = this._readEntity(token)) === undefined)
return;
// In N3 mode, the object might be a path
if (this._n3Mode)
return this._getPathReader(this._getContextEndReader());
}
return this._getContextEndReader();
},
// ### `_readPredicateOrNamedGraph` reads a quad's predicate, or a named graph
_readPredicateOrNamedGraph: function (token) {
return token.type === '{' ? this._readGraph(token) : this._readPredicate(token);
},
// ### `_readGraph` reads a graph
_readGraph: function (token) {
if (token.type !== '{')
return this._error('Expected graph but got ' + token.type, token);
// The "subject" we read is actually the GRAPH's label
this._graph = this._subject, this._subject = null;
return this._readSubject;
},
// ### `_readBlankNodeHead` reads the head of a blank node
_readBlankNodeHead: function (token) {
if (token.type === ']') {
this._subject = null;
return this._readBlankNodeTail(token);
}
else {
this._predicate = null;
return this._readPredicate(token);
}
},
// ### `_readBlankNodeTail` reads the end of a blank node
_readBlankNodeTail: function (token) {
if (token.type !== ']')
return this._readBlankNodePunctuation(token);
// Store blank node quad
if (this._subject !== null)
this._emit(this._subject, this._predicate, this._object, this._graph);
// Restore the parent context containing this blank node
var empty = this._predicate === null;
this._restoreContext();
// If the blank node was the subject, continue reading the predicate
if (this._object === null)
// If the blank node was empty, it could be a named graph label
return empty ? this._readPredicateOrNamedGraph : this._readPredicateAfterBlank;
// If the blank node was the object, restore previous context and read punctuation
else
return this._getContextEndReader();
},
// ### `_readPredicateAfterBlank` reads a predicate after an anonymous blank node
_readPredicateAfterBlank: function (token) {
// If a dot follows a blank node in top context, there is no predicate
if (token.type === '.' && !this._contextStack.length) {
this._subject = null; // cancel the current quad
return this._readPunctuation(token);
}
return this._readPredicate(token);
},
// ### `_readListItem` reads items from a list
_readListItem: function (token) {
var item = null, // The item of the list
list = null, // The list itself
prevList = this._subject, // The previous list that contains this list
stack = this._contextStack, // The stack of parent contexts
parent = stack[stack.length - 1], // The parent containing the current list
next = this._readListItem; // The next function to execute
switch (token.type) {
case '[':
// Stack the current list quad and start a new quad with a blank node as subject
this._saveContext('blank', this._graph,
list = this._blank(), this.RDF_FIRST,
this._subject = item = this._blank());
next = this._readBlankNodeHead;
break;
case '(':
// Stack the current list quad and start a new list
this._saveContext('list', this._graph,
list = this._blank(), this.RDF_FIRST, this.RDF_NIL);
this._subject = null;
break;
case ')':
// Closing the list; restore the parent context
this._restoreContext();
// If this list is contained within a parent list, return the membership quad here.
// This will be `<parent list element> rdf:first <this list>.`.
if (stack.length !== 0 && stack[stack.length - 1].type === 'list')
this._emit(this._subject, this._predicate, this._object, this._graph);
// Was this list the parent's subject?
if (this._predicate === null) {
// The next token is the predicate
next = this._readPredicate;
// No list tail if this was an empty list
if (this._subject === this.RDF_NIL)
return next;
}
// The list was in the parent context's object
else {
next = this._getContextEndReader();
// No list tail if this was an empty list
if (this._object === this.RDF_NIL)
return next;
}
// Close the list by making the head nil
list = this.RDF_NIL;
break;
case 'literal':
// Regular literal, can still get a datatype or language
if (token.prefix.length === 0) {
this._literalValue = token.value;
next = this._readListItemDataTypeOrLang;
}
// Pre-datatyped string literal (prefix stores the datatype)
else {
item = this._literal(token.value, this._namedNode(token.prefix));
next = this._getContextEndReader();
}
break;
default:
if ((item = this._readEntity(token)) === undefined)
return;
}
// Create a new blank node if no item head was assigned yet
if (list === null)
this._subject = list = this._blank();
// Is this the first element of the list?
if (prevList === null) {
// This list is either the subject or the object of its parent
if (parent.predicate === null)
parent.subject = list;
else
parent.object = list;
}
else {
// Continue the previous list with the current list
this._emit(prevList, this.RDF_REST, list, this._graph);
}
// If an item was read, add it to the list
if (item !== null) {
// In N3 mode, the item might be a path
if (this._n3Mode && (token.type === 'IRI' || token.type === 'prefixed')) {
// Create a new context to add the item's path
this._saveContext('item', this._graph, list, this.RDF_FIRST, item);
this._subject = item, this._predicate = null;
// _readPath will restore the context and output the item
return this._getPathReader(this._readListItem);
}
// Output the item
this._emit(list, this.RDF_FIRST, item, this._graph);
}
return next;
},
// ### `_readDataTypeOrLang` reads an _optional_ datatype or language
_readDataTypeOrLang: function (token) {
return this._completeLiteral(token, false);
},
// ### `_readListItemDataTypeOrLang` reads an _optional_ datatype or language in a list
_readListItemDataTypeOrLang: function (token) {
return this._completeLiteral(token, true);
},
// ### `_completeLiteral` completes a literal with an optional datatype or language
_completeLiteral: function (token, listItem) {
switch (token.type) {
// Create a datatyped literal
case 'type':
case 'typeIRI':
var datatype = this._readEntity(token);
if (datatype === undefined) return; // No datatype means an error occurred
this._object = this._literal(this._literalValue, datatype);
token = null;
break;
// Create a language-tagged string
case 'langcode':
this._object = this._literal(this._literalValue, token.value);
token = null;
break;
// Create a simple string literal
default:
this._object = this._literal(this._literalValue);
}
// If this literal was part of a list, write the item
// (we could also check the context stack, but passing in a flag is faster)
if (listItem)
this._emit(this._subject, this.RDF_FIRST, this._object, this._graph);
// If the token was consumed, continue with the rest of the input
if (token === null)
return this._getContextEndReader();
// Otherwise, consume the token now
else {
this._readCallback = this._getContextEndReader();
return this._readCallback(token);
}
},
// ### `_readFormulaTail` reads the end of a formula
_readFormulaTail: function (token) {
if (token.type !== '}')
return this._readPunctuation(token);
// Store the last quad of the formula
if (this._subject !== null)
this._emit(this._subject, this._predicate, this._object, this._graph);
// Restore the parent context containing this formula
this._restoreContext();
// If the formula was the subject, continue reading the predicate.
// If the formula was the object, read punctuation.
return this._object === null ? this._readPredicate : this._getContextEndReader();
},
// ### `_readPunctuation` reads punctuation between quads or quad parts
_readPunctuation: function (token) {
var next, subject = this._subject, graph = this._graph,
inversePredicate = this._inversePredicate;
switch (token.type) {
// A closing brace ends a graph
case '}':
if (this._graph === null)
return this._error('Unexpected graph closing', token);
if (this._n3Mode)
return this._readFormulaTail(token);
this._graph = null;
// A dot just ends the statement, without sharing anything with the next
case '.':
this._subject = null;
next = this._contextStack.length ? this._readSubject : this._readInTopContext;
if (inversePredicate) this._inversePredicate = false;
break;
// Semicolon means the subject is shared; predicate and object are different
case ';':
next = this._readPredicate;
break;
// Comma means both the subject and predicate are shared; the object is different
case ',':
next = this._readObject;
break;
default:
// An entity means this is a quad (only allowed if not already inside a graph)
if (this._supportsQuads && this._graph === null && (graph = this._readEntity(token)) !== undefined) {
next = this._readQuadPunctuation;
break;
}
return this._error('Expected punctuation to follow "' + this._object.id + '"', token);
}
// A quad has been completed now, so return it
if (subject !== null) {
var predicate = this._predicate, object = this._object;
if (!inversePredicate)
this._emit(subject, predicate, object, graph);
else
this._emit(object, predicate, subject, graph);
}
return next;
},
// ### `_readBlankNodePunctuation` reads punctuation in a blank node
_readBlankNodePunctuation: function (token) {
var next;
switch (token.type) {
// Semicolon means the subject is shared; predicate and object are different
case ';':
next = this._readPredicate;
break;
// Comma means both the subject and predicate are shared; the object is different
case ',':
next = this._readObject;
break;
default:
return this._error('Expected punctuation to follow "' + this._object.id + '"', token);
}
// A quad has been completed now, so return it
this._emit(this._subject, this._predicate, this._object, this._graph);
return next;
},
// ### `_readQuadPunctuation` reads punctuation after a quad
_readQuadPunctuation: function (token) {
if (token.type !== '.')
return this._error('Expected dot to follow quad', token);
return this._readInTopContext;
},
// ### `_readPrefix` reads the prefix of a prefix declaration
_readPrefix: function (token) {
if (token.type !== 'prefix')
return this._error('Expected prefix to follow @prefix', token);
this._prefix = token.value;
return this._readPrefixIRI;
},
// ### `_readPrefixIRI` reads the IRI of a prefix declaration
_readPrefixIRI: function (token) {
if (token.type !== 'IRI')
return this._error('Expected IRI to follow prefix "' + this._prefix + ':"', token);
var prefixNode = this._readEntity(token);
this._prefixes[this._prefix] = prefixNode.value;
this._prefixCallback(this._prefix, prefixNode);
return this._readDeclarationPunctuation;
},
// ### `_readBaseIRI` reads the IRI of a base declaration
_readBaseIRI: function (token) {
if (token.type !== 'IRI')
return this._error('Expected IRI to follow base declaration', token);
this._setBase(this._base === null || absoluteIRI.test(token.value) ?
token.value : this._resolveIRI(token));
return this._readDeclarationPunctuation;
},
// ### `_readNamedGraphLabel` reads the label of a named graph
_readNamedGraphLabel: function (token) {
switch (token.type) {
case 'IRI':
case 'blank':
case 'prefixed':
return this._readSubject(token), this._readGraph;
case '[':
return this._readNamedGraphBlankLabel;
default:
return this._error('Invalid graph label', token);
}
},
// ### `_readNamedGraphLabel` reads a blank node label of a named graph
_readNamedGraphBlankLabel: function (token) {
if (token.type !== ']')
return this._error('Invalid graph label', token);
this._subject = this._blank();
return this._readGraph;
},
// ### `_readDeclarationPunctuation` reads the punctuation of a declaration
_readDeclarationPunctuation: function (token) {
// SPARQL-style declarations don't have punctuation
if (this._sparqlStyle) {
this._sparqlStyle = false;
return this._readInTopContext(token);
}
if (token.type !== '.')
return this._error('Expected declaration to end with a dot', token);
return this._readInTopContext;
},
// Reads a list of quantified symbols from a @forSome or @forAll statement
_readQuantifierList: function (token) {
var entity;
switch (token.type) {
case 'IRI':
case 'prefixed':
if ((entity = this._readEntity(token, true)) !== undefined)
break;
default:
return this._error('Unexpected ' + token.type, token);
}
// Without explicit quantifiers, map entities to a quantified entity
if (!this._explicitQuantifiers)
this._quantified[entity.id] = this._quantifier('b' + blankNodeCount++);
// With explicit quantifiers, output the reified quantifier
else {
// If this is the first item, start a new quantifier list
if (this._subject === null)
this._emit(this._graph || this.DEFAULTGRAPH, this._predicate,
this._subject = this._blank(), this.QUANTIFIERS_GRAPH);
// Otherwise, continue the previous list
else
this._emit(this._subject, this.RDF_REST,
this._subject = this._blank(), this.QUANTIFIERS_GRAPH);
// Output the list item
this._emit(this._subject, this.RDF_FIRST, entity, this.QUANTIFIERS_GRAPH);
}
return this._readQuantifierPunctuation;
},
// Reads punctuation from a @forSome or @forAll statement
_readQuantifierPunctuation: function (token) {
// Read more quantifiers
if (token.type === ',')
return this._readQuantifierList;
// End of the quantifier list
else {
// With explicit quantifiers, close the quantifier list
if (this._explicitQuantifiers) {
this._emit(this._subject, this.RDF_REST, this.RDF_NIL, this.QUANTIFIERS_GRAPH);
this._subject = null;
}
// Read a dot
this._readCallback = this._getContextEndReader();
return this._readCallback(token);
}
},
// ### `_getPathReader` reads a potential path and then resumes with the given function
_getPathReader: function (afterPath) {
this._afterPath = afterPath;
return this._readPath;
},
// ### `_readPath` reads a potential path
_readPath: function (token) {
switch (token.type) {
// Forward path
case '!': return this._readForwardPath;
// Backward path
case '^': return this._readBackwardPath;
// Not a path; resume reading where we left off
default:
var stack = this._contextStack, parent = stack.length && stack[stack.length - 1];
// If we were reading a list item, we still need to output it
if (parent && parent.type === 'item') {
// The list item is the remaining subejct after reading the path
var item = this._subject;
// Switch back to the context of the list
this._restoreContext();
// Output the list item
this._emit(this._subject, this.RDF_FIRST, item, this._graph);
}
return this._afterPath(token);
}
},
// ### `_readForwardPath` reads a '!' path
_readForwardPath: function (token) {
var subject, predicate, object = this._blank();
// The next token is the predicate
if ((predicate = this._readEntity(token)) === undefined)
return;
// If we were reading a subject, replace the subject by the path's object
if (this._predicate === null)
subject = this._subject, this._subject = object;
// If we were reading an object, replace the subject by the path's object
else
subject = this._object, this._object = object;
// Emit the path's current quad and read its next section
this._emit(subject, predicate, object, this._graph);
return this._readPath;
},
// ### `_readBackwardPath` reads a '^' path
_readBackwardPath: function (token) {
var subject = this._blank(), predicate, object;
// The next token is the predicate
if ((predicate = this._readEntity(token)) === undefined)
return;
// If we were reading a subject, replace the subject by the path's subject
if (this._predicate === null)
object = this._subject, this._subject = subject;
// If we were reading an object, replace the subject by the path's subject
else
object = this._object, this._object = subject;
// Emit the path's current quad and read its next section
this._emit(subject, predicate, object, this._graph);
return this._readPath;
},
// ### `_getContextEndReader` gets the next reader function at the end of a context
_getContextEndReader: function () {
var contextStack = this._contextStack;
if (!contextStack.length)
return this._readPunctuation;
switch (contextStack[contextStack.length - 1].type) {
case 'blank':
return this._readBlankNodeTail;
case 'list':
return this._readListItem;
case 'formula':
return this._readFormulaTail;
}
},
// ### `_emit` sends a quad through the callback
_emit: function (subject, predicate, object, graph) {
this._callback(null, this._quad(subject, predicate, object, graph || this.DEFAULTGRAPH));
},
// ### `_error` emits an error message through the callback
_error: function (message, token) {
var err = new Error(message + ' on line ' + token.line + '.');
err.context = {
token: token,
line: token.line,
previousToken: this._lexer.previousToken,
};
this._callback(err);
this._callback = noop;
},
// ### `_resolveIRI` resolves a relative IRI token against the base path,
// assuming that a base path has been set and that the IRI is indeed relative
_resolveIRI: function (token) {
var iri = token.value;
switch (iri[0]) {
// An empty relative IRI indicates the base IRI
case undefined: return this._base;
// Resolve relative fragment IRIs against the base IRI
case '#': return this._base + iri;
// Resolve relative query string IRIs by replacing the query string
case '?': return this._base.replace(/(?:\?.*)?$/, iri);
// Resolve root-relative IRIs at the root of the base IRI
case '/':
// Resolve scheme-relative IRIs to the scheme
return (iri[1] === '/' ? this._baseScheme : this._baseRoot) + this._removeDotSegments(iri);
// Resolve all other IRIs at the base IRI's path
default:
return this._removeDotSegments(this._basePath + iri);
}
},
// ### `_removeDotSegments` resolves './' and '../' path segments in an IRI as per RFC3986
_removeDotSegments: function (iri) {
// Don't modify the IRI if it does not contain any dot segments
if (!dotSegments.test(iri))
return iri;
// Start with an imaginary slash before the IRI in order to resolve trailing './' and '../'
var result = '', length = iri.length, i = -1, pathStart = -1, segmentStart = 0, next = '/';
while (i < length) {
switch (next) {
// The path starts with the first slash after the authority
case ':':
if (pathStart < 0) {
// Skip two slashes before the authority
if (iri[++i] === '/' && iri[++i] === '/')
// Skip to slash after the authority
while ((pathStart = i + 1) < length && iri[pathStart] !== '/')
i = pathStart;
}
break;
// Don't modify a query string or fragment
case '?':
case '#':
i = length;
break;
// Handle '/.' or '/..' path segments
case '/':
if (iri[i + 1] === '.') {
next = iri[++i + 1];
switch (next) {
// Remove a '/.' segment
case '/':
result += iri.substring(segmentStart, i - 1);
segmentStart = i + 1;
break;
// Remove a trailing '/.' segment
case undefined:
case '?':
case '#':
return result + iri.substring(segmentStart, i) + iri.substr(i + 1);
// Remove a '/..' segment
case '.':
next = iri[++i + 1];
if (next === undefined || next === '/' || next === '?' || next === '#') {
result += iri.substring(segmentStart, i - 2);
// Try to remove the parent path from result
if ((segmentStart = result.lastIndexOf('/')) >= pathStart)
result = result.substr(0, segmentStart);
// Remove a trailing '/..' segment
if (next !== '/')
return result + '/' + iri.substr(i + 1);
segmentStart = i + 1;
}
}
}
}
next = iri[++i];
}
return result + iri.substring(segmentStart);
},
// ## Public methods
// ### `parse` parses the N3 input and emits each parsed quad through the callback
parse: function (input, quadCallback, prefixCallback) {
var self = this;
// The read callback is the next function to be executed when a token arrives.
// We start reading in the top context.
this._readCallback = this._readInTopContext;
this._sparqlStyle = false;
this._prefixes = Object.create(null);
this._prefixes._ = this._blankNodePrefix ? this._blankNodePrefix.substr(2)
: 'b' + blankNodePrefix++ + '_';
this._prefixCallback = prefixCallback || noop;
this._inversePredicate = false;
this._quantified = Object.create(null);
// Parse synchronously if no quad callback is given
if (!quadCallback) {
var quads = [], error;
this._callback = function (e, t) { e ? (error = e) : t && quads.push(t); };
this._lexer.tokenize(input).every(function (token) {
return self._readCallback = self._readCallback(token);
});
if (error) throw error;
return quads;
}
// Parse asynchronously otherwise, executing the read callback when a token arrives
this._callback = quadCallback;
this._lexer.tokenize(input, function (error, token) {
if (error !== null)
self._callback(error), self._callback = noop;
else if (self._readCallback)
self._readCallback = self._readCallback(token);
});
},
};
// The empty function
function noop() {}
// Initializes the parser with the given data factory
function initDataFactory(parser, factory) {
// Set factory methods
var namedNode = factory.namedNode;
parser._namedNode = namedNode;
parser._blankNode = factory.blankNode;
parser._literal = factory.literal;
parser._variable = factory.variable;
parser._quad = factory.quad;
parser.DEFAULTGRAPH = factory.defaultGraph();
// Set common named nodes
parser.RDF_FIRST = namedNode(namespaces.rdf.first);
parser.RDF_REST = namedNode(namespaces.rdf.rest);
parser.RDF_NIL = namedNode(namespaces.rdf.nil);
parser.N3_FORALL = namedNode(namespaces.r.forAll);
parser.N3_FORSOME = namedNode(namespaces.r.forSome);
parser.ABBREVIATIONS = {
'a': namedNode(namespaces.rdf.type),
'=': namedNode(namespaces.owl.sameAs),
'>': namedNode(namespaces.log.implies),
};
parser.QUANTIFIERS_GRAPH = namedNode('urn:n3:quantifiers');
}
initDataFactory(N3Parser.prototype, DataFactory);
// ## Exports
module.exports = N3Parser;
},{"./IRIs":3,"./N3DataFactory":4,"./N3Lexer":5}],7:[function(require,module,exports){
// **N3Store** objects store N3 quads by graph in memory.
var DataFactory = require('./N3DataFactory');
var toId = DataFactory.internal.toId,
fromId = DataFactory.internal.fromId;
// ## Constructor
function N3Store(quads, options) {
if (!(this instanceof N3Store))
return new N3Store(quads, options);
// The number of quads is initially zero
this._size = 0;
// `_graphs` contains subject, predicate, and object indexes per graph
this._graphs = Object.create(null);
// `_ids` maps entities such as `http://xmlns.com/foaf/0.1/name` to numbers,
// saving memory by using only numbers as keys in `_graphs`
this._id = 0;
this._ids = Object.create(null);
this._ids['><'] = 0; // dummy entry, so the first actual key is non-zero
this._entities = Object.create(null); // inverse of `_ids`
// `_blankNodeIndex` is the index of the last automatically named blank node
this._blankNodeIndex = 0;
// Shift parameters if `quads` is not given
if (!options && quads && !quads[0])
options = quads, quads = null;
options = options || {};
this._factory = options.factory || DataFactory;
// Add quads if passed
if (quads)
this.addQuads(quads);
}
N3Store.prototype = {
// ## Public properties
// ### `size` returns the number of quads in the store
get size() {
// Return the quad count if if was cached
var size = this._size;
if (size !== null)
return size;
// Calculate the number of quads by counting to the deepest level
size = 0;
var graphs = this._graphs, subjects, subject;
for (var graphKey in graphs)
for (var subjectKey in (subjects = graphs[graphKey].subjects))
for (var predicateKey in (subject = subjects[subjectKey]))
size += Object.keys(subject[predicateKey]).length;
return this._size = size;
},
// ## Private methods
// ### `_addToIndex` adds a quad to a three-layered index.
// Returns if the index has changed, if the entry did not already exist.
_addToIndex: function (index0, key0, key1, key2) {
// Create layers as necessary
var index1 = index0[key0] || (index0[key0] = {});
var index2 = index1[key1] || (index1[key1] = {});
// Setting the key to _any_ value signals the presence of the quad
var existed = key2 in index2;
if (!existed)
index2[key2] = null;
return !existed;
},
// ### `_removeFromIndex` removes a quad from a three-layered index
_removeFromIndex: function (index0, key0, key1, key2) {
// Remove the quad from the index
var index1 = index0[key0], index2 = index1[key1], key;
delete index2[key2];
// Remove intermediary index layers if they are empty
for (key in index2) return;
delete index1[key1];
for (key in index1) return;
delete index0[key0];
},
// ### `_findInIndex` finds a set of quads in a three-layered index.
// The index base is `index0` and the keys at each level are `key0`, `key1`, and `key2`.
// Any of these keys can be undefined, which is interpreted as a wildcard.
// `name0`, `name1`, and `name2` are the names of the keys at each level,
// used when reconstructing the resulting quad
// (for instance: _subject_, _predicate_, and _object_).
// Finally, `graph` will be the graph of the created quads.
// If `callback` is given, each result is passed through it
// and iteration halts when it returns truthy for any quad.
// If instead `array` is given, each result is added to the array.
_findInIndex: function (index0, key0, key1, key2, name0, name1, name2, graph, callback, array) {
var tmp, index1, index2, varCount = !key0 + !key1 + !key2,
// depending on the number of variables, keys or reverse index are faster
entityKeys = varCount > 1 ? Object.keys(this._ids) : this._entities;
// If a key is specified, use only that part of index 0.
if (key0) (tmp = index0, index0 = {})[key0] = tmp[key0];
for (var value0 in index0) {
var entity0 = entityKeys[value0];
if (index1 = index0[value0]) {
// If a key is specified, use only that part of index 1.
if (key1) (tmp = index1, index1 = {})[key1] = tmp[key1];
for (var value1 in index1) {
var entity1 = entityKeys[value1];
if (index2 = index1[value1]) {
// If a key is specified, use only that part of index 2, if it exists.
var values = key2 ? (key2 in index2 ? [key2] : []) : Object.keys(index2);
// Create quads for all items found in index 2.
for (var l = 0; l < values.length; l++) {
var parts = { subject: null, predicate: null, object: null };
parts[name0] = fromId(entity0, this._factory);
parts[name1] = fromId(entity1, this._factory);
parts[name2] = fromId(entityKeys[values[l]], this._factory);
var quad = this._factory.quad(
parts.subject, parts.predicate, parts.object, fromId(graph, this._factory));
if (array)
array.push(quad);
else if (callback(quad))
return true;
}
}
}
}
}
return array;
},
// ### `_loop` executes the callback on all keys of index 0
_loop: function (index0, callback) {
for (var key0 in index0)
callback(key0);
},
// ### `_loopByKey0` executes the callback on all keys of a certain entry in index 0
_loopByKey0: function (index0, key0, callback) {
var index1, key1;
if (index1 = index0[key0]) {
for (key1 in index1)
callback(key1);
}
},
// ### `_loopByKey1` executes the callback on given keys of all entries in index 0
_loopByKey1: function (index0, key1, callback) {
var key0, index1;
for (key0 in index0) {
index1 = index0[key0];
if (index1[key1])
callback(key0);
}
},
// ### `_loopBy2Keys` executes the callback on given keys of certain entries in index 2
_loopBy2Keys: function (index0, key0, key1, callback) {
var index1, index2, key2;
if ((index1 = index0[key0]) && (index2 = index1[key1])) {
for (key2 in index2)
callback(key2);
}
},
// ### `_countInIndex` counts matching quads in a three-layered index.
// The index base is `index0` and the keys at each level are `key0`, `key1`, and `key2`.
// Any of these keys can be undefined, which is interpreted as a wildcard.
_countInIndex: function (index0, key0, key1, key2) {
var count = 0, tmp, index1, index2;
// If a key is specified, count only that part of index 0
if (key0) (tmp = index0, index0 = {})[key0] = tmp[key0];
for (var value0 in index0) {
if (index1 = index0[value0]) {
// If a key is specified, count only that part of index 1
if (key1) (tmp = index1, index1 = {})[key1] = tmp[key1];
for (var value1 in index1) {
if (index2 = index1[value1]) {
// If a key is specified, count the quad if it exists
if (key2) (key2 in index2) && count++;
// Otherwise, count all quads
else count += Object.keys(index2).length;
}
}
}
}
return count;
},
// ### `_getGraphs` returns an array with the given graph,
// or all graphs if the argument is null or undefined.
_getGraphs: function (graph) {
if (!isString(graph))
return this._graphs;
var graphs = {};
graphs[graph] = this._graphs[graph];
return graphs;
},
// ### `_uniqueEntities` returns a function that accepts an entity ID
// and passes the corresponding entity to callback if it hasn't occurred before.
_uniqueEntities: function (callback) {
var uniqueIds = Object.create(null), entities = this._entities;
return function (id) {
if (!(id in uniqueIds)) {
uniqueIds[id] = true;
callback(fromId(entities[id]));
}
};
},
// ## Public methods
// ### `addQuad` adds a new quad to the store.
// Returns if the quad index has changed, if the quad did not already exist.
addQuad: function (subject, predicate, object, graph) {
// Shift arguments if a quad object is given instead of components
if (!predicate)
graph = subject.graph, object = subject.object,
predicate = subject.predicate, subject = subject.subject;
// Convert terms to internal string representation
subject = toId(subject);
predicate = toId(predicate);
object = toId(object);
graph = toId(graph);
// Find the graph that will contain the triple
var graphItem = this._graphs[graph];
// Create the graph if it doesn't exist yet
if (!graphItem) {
graphItem = this._graphs[graph] = { subjects: {}, predicates: {}, objects: {} };
// Freezing a graph helps subsequent `add` performance,
// and properties will never be modified anyway
Object.freeze(graphItem);
}
// Since entities can often be long IRIs, we avoid storing them in every index.
// Instead, we have a separate index that maps entities to numbers,
// which are then used as keys in the other indexes.
var ids = this._ids;
var entities = this._entities;
subject = ids[subject] || (ids[entities[++this._id] = subject] = this._id);
predicate = ids[predicate] || (ids[entities[++this._id] = predicate] = this._id);
object = ids[object] || (ids[entities[++this._id] = object] = this._id);
var changed = this._addToIndex(graphItem.subjects, subject, predicate, object);
this._addToIndex(graphItem.predicates, predicate, object, subject);
this._addToIndex(graphItem.objects, object, subject, predicate);
// The cached quad count is now invalid
this._size = null;
return changed;
},
// ### `addQuads` adds multiple quads to the store
addQuads: function (quads) {
for (var i = 0; i < quads.length; i++)
this.addQuad(quads[i]);
},
// ### `import` adds a stream of quads to the store
import: function (stream) {
var self = this;
stream.on('data', function (quad) { self.addQuad(quad); });
return stream;
},
// ### `removeQuad` removes a quad from the store if it exists
removeQuad: function (subject, predicate, object, graph) {
// Shift arguments if a quad object is given instead of components
if (!predicate)
graph = subject.graph, object = subject.object,
predicate = subject.predicate, subject = subject.subject;
// Convert terms to internal string representation
subject = toId(subject);
predicate = toId(predicate);
object = toId(object);
graph = toId(graph);
// Find internal identifiers for all components
// and verify the quad exists.
var graphItem, ids = this._ids, graphs = this._graphs, subjects, predicates;
if (!(subject = ids[subject]) || !(predicate = ids[predicate]) ||
!(object = ids[object]) || !(graphItem = graphs[graph]) ||
!(subjects = graphItem.subjects[subject]) ||
!(predicates = subjects[predicate]) ||
!(object in predicates))
return false;
// Remove it from all indexes
this._removeFromIndex(graphItem.subjects, subject, predicate, object);
this._removeFromIndex(graphItem.predicates, predicate, object, subject);
this._removeFromIndex(graphItem.objects, object, subject, predicate);
if (this._size !== null) this._size--;
// Remove the graph if it is empty
for (subject in graphItem.subjects) return true;
delete graphs[graph];
return true;
},
// ### `removeQuads` removes multiple quads from the store
removeQuads: function (quads) {
for (var i = 0; i < quads.length; i++)
this.removeQuad(quads[i]);
},
// ### `remove` removes a stream of quads from the store
remove: function (stream) {
var self = this;
stream.on('data', function (quad) { self.removeQuad(quad); });
return stream;
},
// ### `getQuads` returns an array of quads matching a pattern.
// Setting any field to `undefined` or `null` indicates a wildcard.
getQuads: function (subject, predicate, object, graph) {
// Convert terms to internal string representation
subject = subject && toId(subject);
predicate = predicate && toId(predicate);
object = object && toId(object);
graph = graph && toId(graph);
var quads = [], graphs = this._getGraphs(graph), content,
ids = this._ids, subjectId, predicateId, objectId;
// Translate IRIs to internal index keys.
if (isString(subject) && !(subjectId = ids[subject]) ||
isString(predicate) && !(predicateId = ids[predicate]) ||
isString(object) && !(objectId = ids[object]))
return quads;
for (var graphId in graphs) {
// Only if the specified graph contains triples, there can be results
if (content = graphs[graphId]) {
// Choose the optimal index, based on what fields are present
if (subjectId) {
if (objectId)
// If subject and object are given, the object index will be the fastest
this._findInIndex(content.objects, objectId, subjectId, predicateId,
'object', 'subject', 'predicate', graphId, null, quads);
else
// If only subject and possibly predicate are given, the subject index will be the fastest
this._findInIndex(content.subjects, subjectId, predicateId, null,
'subject', 'predicate', 'object', graphId, null, quads);
}
else if (predicateId)
// If only predicate and possibly object are given, the predicate index will be the fastest
this._findInIndex(content.predicates, predicateId, objectId, null,
'predicate', 'object', 'subject', graphId, null, quads);
else if (objectId)
// If only object is given, the object index will be the fastest
this._findInIndex(content.objects, objectId, null, null,
'object', 'subject', 'predicate', graphId, null, quads);
else
// If nothing is given, iterate subjects and predicates first
this._findInIndex(content.subjects, null, null, null,
'subject', 'predicate', 'object', graphId, null, quads);
}
}
return quads;
},
// ### `countQuads` returns the number of quads matching a pattern.
// Setting any field to `undefined` or `null` indicates a wildcard.
countQuads: function (subject, predicate, object, graph) {
// Convert terms to internal string representation
subject = subject && toId(subject);
predicate = predicate && toId(predicate);
object = object && toId(object);
graph = graph && toId(graph);
var count = 0, graphs = this._getGraphs(graph), content,
ids = this._ids, subjectId, predicateId, objectId;
// Translate IRIs to internal index keys.
if (isString(subject) && !(subjectId = ids[subject]) ||
isString(predicate) && !(predicateId = ids[predicate]) ||
isString(object) && !(objectId = ids[object]))
return 0;
for (var graphId in graphs) {
// Only if the specified graph contains triples, there can be results
if (content = graphs[graphId]) {
// Choose the optimal index, based on what fields are present
if (subject) {
if (object)
// If subject and object are given, the object index will be the fastest
count += this._countInIndex(content.objects, objectId, subjectId, predicateId);
else
// If only subject and possibly predicate are given, the subject index will be the fastest
count += this._countInIndex(content.subjects, subjectId, predicateId, objectId);
}
else if (predicate) {
// If only predicate and possibly object are given, the predicate index will be the fastest
count += this._countInIndex(content.predicates, predicateId, objectId, subjectId);
}
else {
// If only object is possibly given, the object index will be the fastest
count += this._countInIndex(content.objects, objectId, subjectId, predicateId);
}
}
}
return count;
},
// ### `forEach` executes the callback on all quads.
// Setting any field to `undefined` or `null` indicates a wildcard.
forEach: function (callback, subject, predicate, object, graph) {
this.some(function (quad) {
callback(quad);
return false;
}, subject, predicate, object, graph);
},
// ### `every` executes the callback on all quads,
// and returns `true` if it returns truthy for all them.
// Setting any field to `undefined` or `null` indicates a wildcard.
every: function (callback, subject, predicate, object, graph) {
var some = false;
var every = !this.some(function (quad) {
some = true;
return !callback(quad);
}, subject, predicate, object, graph);
return some && every;
},
// ### `some` executes the callback on all quads,
// and returns `true` if it returns truthy for any of them.
// Setting any field to `undefined` or `null` indicates a wildcard.
some: function (callback, subject, predicate, object, graph) {
// Convert terms to internal string representation
subject = subject && toId(subject);
predicate = predicate && toId(predicate);
object = object && toId(object);
graph = graph && toId(graph);
var graphs = this._getGraphs(graph), content,
ids = this._ids, subjectId, predicateId, objectId;
// Translate IRIs to internal index keys.
if (isString(subject) && !(subjectId = ids[subject]) ||
isString(predicate) && !(predicateId = ids[predicate]) ||
isString(object) && !(objectId = ids[object]))
return false;
for (var graphId in graphs) {
// Only if the specified graph contains triples, there can be results
if (content = graphs[graphId]) {
// Choose the optimal index, based on what fields are present
if (subjectId) {
if (objectId) {
// If subject and object are given, the object index will be the fastest
if (this._findInIndex(content.objects, objectId, subjectId, predicateId,
'object', 'subject', 'predicate', graphId, callback, null))
return true;
}
else
// If only subject and possibly predicate are given, the subject index will be the fastest
if (this._findInIndex(content.subjects, subjectId, predicateId, null,
'subject', 'predicate', 'object', graphId, callback, null))
return true;
}
else if (predicateId) {
// If only predicate and possibly object are given, the predicate index will be the fastest
if (this._findInIndex(content.predicates, predicateId, objectId, null,
'predicate', 'object', 'subject', graphId, callback, null)) {
return true;
}
}
else if (objectId) {
// If only object is given, the object index will be the fastest
if (this._findInIndex(content.objects, objectId, null, null,
'object', 'subject', 'predicate', graphId, callback, null)) {
return true;
}
}
else
// If nothing is given, iterate subjects and predicates first
if (this._findInIndex(content.subjects, null, null, null,
'subject', 'predicate', 'object', graphId, callback, null)) {
return true;
}
}
}
return false;
},
// ### `getSubjects` returns all subjects that match the pattern.
// Setting any field to `undefined` or `null` indicates a wildcard.
getSubjects: function (predicate, object, graph) {
var results = [];
this.forSubjects(function (s) { results.push(s); }, predicate, object, graph);
return results;
},
// ### `forSubjects` executes the callback on all subjects that match the pattern.
// Setting any field to `undefined` or `null` indicates a wildcard.
forSubjects: function (callback, predicate, object, graph) {
// Convert terms to internal string representation
predicate = predicate && toId(predicate);
object = object && toId(object);
graph = graph && toId(graph);
var ids = this._ids, graphs = this._getGraphs(graph), content, predicateId, objectId;
callback = this._uniqueEntities(callback);
// Translate IRIs to internal index keys.
if (isString(predicate) && !(predicateId = ids[predicate]) ||
isString(object) && !(objectId = ids[object]))
return;
for (graph in graphs) {
// Only if the specified graph contains triples, there can be results
if (content = graphs[graph]) {
// Choose optimal index based on which fields are wildcards
if (predicateId) {
if (objectId)
// If predicate and object are given, the POS index is best.
this._loopBy2Keys(content.predicates, predicateId, objectId, callback);
else
// If only predicate is given, the SPO index is best.
this._loopByKey1(content.subjects, predicateId, callback);
}
else if (objectId)
// If only object is given, the OSP index is best.
this._loopByKey0(content.objects, objectId, callback);
else
// If no params given, iterate all the subjects
this._loop(content.subjects, callback);
}
}
},
// ### `getPredicates` returns all predicates that match the pattern.
// Setting any field to `undefined` or `null` indicates a wildcard.
getPredicates: function (subject, object, graph) {
var results = [];
this.forPredicates(function (p) { results.push(p); }, subject, object, graph);
return results;
},
// ### `forPredicates` executes the callback on all predicates that match the pattern.
// Setting any field to `undefined` or `null` indicates a wildcard.
forPredicates: function (callback, subject, object, graph) {
// Convert terms to internal string representation
subject = subject && toId(subject);
object = object && toId(object);
graph = graph && toId(graph);
var ids = this._ids, graphs = this._getGraphs(graph), content, subjectId, objectId;
callback = this._uniqueEntities(callback);
// Translate IRIs to internal index keys.
if (isString(subject) && !(subjectId = ids[subject]) ||
isString(object) && !(objectId = ids[object]))
return;
for (graph in graphs) {
// Only if the specified graph contains triples, there can be results
if (content = graphs[graph]) {
// Choose optimal index based on which fields are wildcards
if (subjectId) {
if (objectId)
// If subject and object are given, the OSP index is best.
this._loopBy2Keys(content.objects, objectId, subjectId, callback);
else
// If only subject is given, the SPO index is best.
this._loopByKey0(content.subjects, subjectId, callback);
}
else if (objectId)
// If only object is given, the POS index is best.
this._loopByKey1(content.predicates, objectId, callback);
else
// If no params given, iterate all the predicates.
this._loop(content.predicates, callback);
}
}
},
// ### `getObjects` returns all objects that match the pattern.
// Setting any field to `undefined` or `null` indicates a wildcard.
getObjects: function (subject, predicate, graph) {
var results = [];
this.forObjects(function (o) { results.push(o); }, subject, predicate, graph);
return results;
},
// ### `forObjects` executes the callback on all objects that match the pattern.
// Setting any field to `undefined` or `null` indicates a wildcard.
forObjects: function (callback, subject, predicate, graph) {
// Convert terms to internal string representation
subject = subject && toId(subject);
predicate = predicate && toId(predicate);
graph = graph && toId(graph);
var ids = this._ids, graphs = this._getGraphs(graph), content, subjectId, predicateId;
callback = this._uniqueEntities(callback);
// Translate IRIs to internal index keys.
if (isString(subject) && !(subjectId = ids[subject]) ||
isString(predicate) && !(predicateId = ids[predicate]))
return;
for (graph in graphs) {
// Only if the specified graph contains triples, there can be results
if (content = graphs[graph]) {
// Choose optimal index based on which fields are wildcards
if (subjectId) {
if (predicateId)
// If subject and predicate are given, the SPO index is best.
this._loopBy2Keys(content.subjects, subjectId, predicateId, callback);
else
// If only subject is given, the OSP index is best.
this._loopByKey1(content.objects, subjectId, callback);
}
else if (predicateId)
// If only predicate is given, the POS index is best.
this._loopByKey0(content.predicates, predicateId, callback);
else
// If no params given, iterate all the objects.
this._loop(content.objects, callback);
}
}
},
// ### `getGraphs` returns all graphs that match the pattern.
// Setting any field to `undefined` or `null` indicates a wildcard.
getGraphs: function (subject, predicate, object) {
var results = [];
this.forGraphs(function (g) { results.push(g); }, subject, predicate, object);
return results;
},
// ### `forGraphs` executes the callback on all graphs that match the pattern.
// Setting any field to `undefined` or `null` indicates a wildcard.
forGraphs: function (callback, subject, predicate, object) {
for (var graph in this._graphs) {
this.some(function (quad) {
callback(quad.graph);
return true; // Halt iteration of some()
}, subject, predicate, object, graph);
}
},
// ### `createBlankNode` creates a new blank node, returning its name
createBlankNode: function (suggestedName) {
var name, index;
// Generate a name based on the suggested name
if (suggestedName) {
name = suggestedName = '_:' + suggestedName, index = 1;
while (this._ids[name])
name = suggestedName + index++;
}
// Generate a generic blank node name
else {
do { name = '_:b' + this._blankNodeIndex++; }
while (this._ids[name]);
}
// Add the blank node to the entities, avoiding the generation of duplicates
this._ids[name] = ++this._id;
this._entities[this._id] = name;
return this._factory.blankNode(name.substr(2));
},
};
// Determines whether the argument is a string
function isString(s) {
return typeof s === 'string' || s instanceof String;
}
// ## Exports
module.exports = N3Store;
},{"./N3DataFactory":4}],8:[function(require,module,exports){
// **N3StreamParser** parses a text stream into a quad stream.
var Transform = require('stream').Transform,
util = require('util'),
N3Parser = require('./N3Parser.js');
// ## Constructor
function N3StreamParser(options) {
if (!(this instanceof N3StreamParser))
return new N3StreamParser(options);
// Initialize Transform base class
Transform.call(this, { decodeStrings: true });
this._readableState.objectMode = true;
// Set up parser
var self = this, parser = new N3Parser(options), onData, onEnd;
// Pass dummy stream to obtain `data` and `end` callbacks
parser.parse({
on: function (event, callback) {
switch (event) {
case 'data': onData = callback; break;
case 'end': onEnd = callback; break;
}
},
},
// Handle quads by pushing them down the pipeline
function (error, quad) { error && self.emit('error', error) || quad && self.push(quad); },
// Emit prefixes through the `prefix` event
function (prefix, uri) { self.emit('prefix', prefix, uri); });
// Implement Transform methods through parser callbacks
this._transform = function (chunk, encoding, done) { onData(chunk); done(); };
this._flush = function (done) { onEnd(); done(); };
}
util.inherits(N3StreamParser, Transform);
// ### Parses a stream of strings
N3StreamParser.prototype.import = function (stream) {
var self = this;
stream.on('data', function (chunk) { self.write(chunk); });
stream.on('end', function () { self.end(); });
stream.on('error', function (error) { self.emit('error', error); });
return this;
};
// ## Exports
module.exports = N3StreamParser;
},{"./N3Parser.js":6,"stream":38,"util":42}],9:[function(require,module,exports){
// **N3StreamWriter** serializes a quad stream into a text stream.
var Transform = require('stream').Transform,
util = require('util'),
N3Writer = require('./N3Writer.js');
// ## Constructor
function N3StreamWriter(options) {
if (!(this instanceof N3StreamWriter))
return new N3StreamWriter(options);
// Initialize Transform base class
Transform.call(this, { encoding: 'utf8' });
this._writableState.objectMode = true;
// Set up writer with a dummy stream object
var self = this;
var writer = this._writer = new N3Writer({
write: function (quad, encoding, callback) { self.push(quad); callback && callback(); },
end: function (callback) { self.push(null); callback && callback(); },
}, options);
// Implement Transform methods on top of writer
this._transform = function (quad, encoding, done) { writer.addQuad(quad, done); };
this._flush = function (done) { writer.end(done); };
}
util.inherits(N3StreamWriter, Transform);
// ### Serializes a stream of quads
N3StreamWriter.prototype.import = function (stream) {
var self = this;
stream.on('data', function (quad) { self.write(quad); });
stream.on('end', function () { self.end(); });
stream.on('error', function (error) { self.emit('error', error); });
stream.on('prefix', function (prefix, iri) { self._writer.addPrefix(prefix, iri); });
return this;
};
// ## Exports
module.exports = N3StreamWriter;
},{"./N3Writer.js":11,"stream":38,"util":42}],10:[function(require,module,exports){
// **N3Util** provides N3 utility functions.
var DataFactory = require('./N3DataFactory');
var N3Util = {
// Tests whether the given term represents an IRI
isNamedNode: function (term) {
return !!term && term.termType === 'NamedNode';
},
// Tests whether the given term represents a blank node
isBlankNode: function (term) {
return !!term && term.termType === 'BlankNode';
},
// Tests whether the given term represents a literal
isLiteral: function (term) {
return !!term && term.termType === 'Literal';
},
// Tests whether the given term represents a variable
isVariable: function (term) {
return !!term && term.termType === 'Variable';
},
// Tests whether the given term represents the default graph
isDefaultGraph: function (term) {
return !!term && term.termType === 'DefaultGraph';
},
// Tests whether the given quad is in the default graph
inDefaultGraph: function (quad) {
return N3Util.isDefaultGraph(quad.graph);
},
// Creates a function that prepends the given IRI to a local name
prefix: function (iri, factory) {
return N3Util.prefixes({ '': iri }, factory)('');
},
// Creates a function that allows registering and expanding prefixes
prefixes: function (defaultPrefixes, factory) {
// Add all of the default prefixes
var prefixes = Object.create(null);
for (var prefix in defaultPrefixes)
processPrefix(prefix, defaultPrefixes[prefix]);
// Set the default factory if none was specified
factory = factory || DataFactory;
// Registers a new prefix (if an IRI was specified)
// or retrieves a function that expands an existing prefix (if no IRI was specified)
function processPrefix(prefix, iri) {
// Create a new prefix if an IRI is specified or the prefix doesn't exist
if (typeof iri === 'string') {
// Create a function that expands the prefix
var cache = Object.create(null);
prefixes[prefix] = function (local) {
return cache[local] || (cache[local] = factory.namedNode(iri + local));
};
}
else if (!(prefix in prefixes)) {
throw new Error('Unknown prefix: ' + prefix);
}
return prefixes[prefix];
}
return processPrefix;
},
};
// ## Exports
module.exports = N3Util;
},{"./N3DataFactory":4}],11:[function(require,module,exports){
// **N3Writer** writes N3 documents.
var namespaces = require('./IRIs'),
DataFactory = require('./N3DataFactory');
var DEFAULTGRAPH = DataFactory.defaultGraph();
var rdf = namespaces.rdf,
xsd = namespaces.xsd;
// Characters in literals that require escaping
var escape = /["\\\t\n\r\b\f\u0000-\u0019\ud800-\udbff]/,
escapeAll = /["\\\t\n\r\b\f\u0000-\u0019]|[\ud800-\udbff][\udc00-\udfff]/g,
escapedCharacters = {
'\\': '\\\\', '"': '\\"', '\t': '\\t',
'\n': '\\n', '\r': '\\r', '\b': '\\b', '\f': '\\f',
};
// ## Constructor
function N3Writer(outputStream, options) {
if (!(this instanceof N3Writer))
return new N3Writer(outputStream, options);
// Shift arguments if the first argument is not a stream
if (outputStream && typeof outputStream.write !== 'function')
options = outputStream, outputStream = null;
options = options || {};
// If no output stream given, send the output as string through the end callback
if (!outputStream) {
var output = '';
this._outputStream = {
write: function (chunk, encoding, done) { output += chunk; done && done(); },
end: function (done) { done && done(null, output); },
};
this._endStream = true;
}
else {
this._outputStream = outputStream;
this._endStream = options.end === undefined ? true : !!options.end;
}
// Initialize writer, depending on the format
this._subject = null;
if (!(/triple|quad/i).test(options.format)) {
this._graph = DEFAULTGRAPH;
this._prefixIRIs = Object.create(null);
options.prefixes && this.addPrefixes(options.prefixes);
}
else {
this._writeQuad = this._writeQuadLine;
}
}
N3Writer.prototype = {
// ## Private methods
// ### Whether the current graph is the default graph
get _inDefaultGraph() {
return DEFAULTGRAPH.equals(this._graph);
},
// ### `_write` writes the argument to the output stream
_write: function (string, callback) {
this._outputStream.write(string, 'utf8', callback);
},
// ### `_writeQuad` writes the quad to the output stream
_writeQuad: function (subject, predicate, object, graph, done) {
try {
// Write the graph's label if it has changed
if (!graph.equals(this._graph)) {
// Close the previous graph and start the new one
this._write((this._subject === null ? '' : (this._inDefaultGraph ? '.\n' : '\n}\n')) +
(DEFAULTGRAPH.equals(graph) ? '' : this._encodeIriOrBlank(graph) + ' {\n'));
this._graph = graph;
this._subject = null;
}
// Don't repeat the subject if it's the same
if (subject.equals(this._subject)) {
// Don't repeat the predicate if it's the same
if (predicate.equals(this._predicate))
this._write(', ' + this._encodeObject(object), done);
// Same subject, different predicate
else
this._write(';\n ' +
this._encodePredicate(this._predicate = predicate) + ' ' +
this._encodeObject(object), done);
}
// Different subject; write the whole quad
else
this._write((this._subject === null ? '' : '.\n') +
this._encodeIriOrBlank(this._subject = subject) + ' ' +
this._encodePredicate(this._predicate = predicate) + ' ' +
this._encodeObject(object), done);
}
catch (error) { done && done(error); }
},
// ### `_writeQuadLine` writes the quad to the output stream as a single line
_writeQuadLine: function (subject, predicate, object, graph, done) {
// Write the quad without prefixes
delete this._prefixMatch;
this._write(this.quadToString(subject, predicate, object, graph), done);
},
// ### `quadToString` serializes a quad as a string
quadToString: function (subject, predicate, object, graph) {
return this._encodeIriOrBlank(subject) + ' ' +
this._encodeIriOrBlank(predicate) + ' ' +
this._encodeObject(object) +
(graph && graph.value ? ' ' + this._encodeIriOrBlank(graph) + '.\n' : '.\n');
},
// ### `quadsToString` serializes an array of quads as a string
quadsToString: function (quads) {
return quads.map(function (t) {
return this.quadToString(t.subject, t.predicate, t.object, t.graph);
}, this).join('');
},
// ### `_encodeIriOrBlank` represents an IRI or blank node
_encodeIriOrBlank: function (entity) {
// A blank node or list is represented as-is
if (entity.termType !== 'NamedNode')
return 'id' in entity ? entity.id : '_:' + entity.value;
// Escape special characters
var iri = entity.value;
if (escape.test(iri))
iri = iri.replace(escapeAll, characterReplacer);
// Try to represent the IRI as prefixed name
var prefixMatch = this._prefixRegex.exec(iri);
return !prefixMatch ? '<' + iri + '>' :
(!prefixMatch[1] ? iri : this._prefixIRIs[prefixMatch[1]] + prefixMatch[2]);
},
// ### `_encodeLiteral` represents a literal
_encodeLiteral: function (literal) {
// Escape special characters
var value = literal.value;
if (escape.test(value))
value = value.replace(escapeAll, characterReplacer);
// Write the literal, possibly with type or language
if (literal.language)
return '"' + value + '"@' + literal.language;
else if (literal.datatype.value !== xsd.string)
return '"' + value + '"^^' + this._encodeIriOrBlank(literal.datatype);
else
return '"' + value + '"';
},
// ### `_encodePredicate` represents a predicate
_encodePredicate: function (predicate) {
return predicate.value === rdf.type ? 'a' : this._encodeIriOrBlank(predicate);
},
// ### `_encodeObject` represents an object
_encodeObject: function (object) {
return object.termType === 'Literal' ? this._encodeLiteral(object) : this._encodeIriOrBlank(object);
},
// ### `_blockedWrite` replaces `_write` after the writer has been closed
_blockedWrite: function () {
throw new Error('Cannot write because the writer has been closed.');
},
// ### `addQuad` adds the quad to the output stream
addQuad: function (subject, predicate, object, graph, done) {
// The quad was given as an object, so shift parameters
if (object === undefined)
this._writeQuad(subject.subject, subject.predicate, subject.object, subject.graph, predicate);
// The optional `graph` parameter was not provided
else if (typeof graph === 'function')
this._writeQuad(subject, predicate, object, DEFAULTGRAPH, graph);
// The `graph` parameter was provided
else
this._writeQuad(subject, predicate, object, graph || DEFAULTGRAPH, done);
},
// ### `addQuads` adds the quads to the output stream
addQuads: function (quads) {
for (var i = 0; i < quads.length; i++)
this.addQuad(quads[i]);
},
// ### `addPrefix` adds the prefix to the output stream
addPrefix: function (prefix, iri, done) {
var prefixes = {};
prefixes[prefix] = iri;
this.addPrefixes(prefixes, done);
},
// ### `addPrefixes` adds the prefixes to the output stream
addPrefixes: function (prefixes, done) {
// Add all useful prefixes
var prefixIRIs = this._prefixIRIs, hasPrefixes = false;
for (var prefix in prefixes) {
// Verify whether the prefix can be used and does not exist yet
var iri = prefixes[prefix];
if (typeof iri !== 'string')
iri = iri.value;
if (/[#\/]$/.test(iri) && prefixIRIs[iri] !== (prefix += ':')) {
hasPrefixes = true;
prefixIRIs[iri] = prefix;
// Finish a possible pending quad
if (this._subject !== null) {
this._write(this._inDefaultGraph ? '.\n' : '\n}\n');
this._subject = null, this._graph = '';
}
// Write prefix
this._write('@prefix ' + prefix + ' <' + iri + '>.\n');
}
}
// Recreate the prefix matcher
if (hasPrefixes) {
var IRIlist = '', prefixList = '';
for (var prefixIRI in prefixIRIs) {
IRIlist += IRIlist ? '|' + prefixIRI : prefixIRI;
prefixList += (prefixList ? '|' : '') + prefixIRIs[prefixIRI];
}
IRIlist = IRIlist.replace(/[\]\/\(\)\*\+\?\.\\\$]/g, '\\$&');
this._prefixRegex = new RegExp('^(?:' + prefixList + ')[^\/]*$|' +
'^(' + IRIlist + ')([a-zA-Z][\\-_a-zA-Z0-9]*)$');
}
// End a prefix block with a newline
this._write(hasPrefixes ? '\n' : '', done);
},
// ### `blank` creates a blank node with the given content
blank: function (predicate, object) {
var children = predicate, child, length;
// Empty blank node
if (predicate === undefined)
children = [];
// Blank node passed as blank(Term("predicate"), Term("object"))
else if (predicate.termType)
children = [{ predicate: predicate, object: object }];
// Blank node passed as blank({ predicate: predicate, object: object })
else if (!('length' in predicate))
children = [predicate];
switch (length = children.length) {
// Generate an empty blank node
case 0:
return new SerializedTerm('[]');
// Generate a non-nested one-triple blank node
case 1:
child = children[0];
if (!(child.object instanceof SerializedTerm))
return new SerializedTerm('[ ' + this._encodePredicate(child.predicate) + ' ' +
this._encodeObject(child.object) + ' ]');
// Generate a multi-triple or nested blank node
default:
var contents = '[';
// Write all triples in order
for (var i = 0; i < length; i++) {
child = children[i];
// Write only the object is the predicate is the same as the previous
if (child.predicate.equals(predicate))
contents += ', ' + this._encodeObject(child.object);
// Otherwise, write the predicate and the object
else {
contents += (i ? ';\n ' : '\n ') +
this._encodePredicate(child.predicate) + ' ' +
this._encodeObject(child.object);
predicate = child.predicate;
}
}
return new SerializedTerm(contents + '\n]');
}
},
// ### `list` creates a list node with the given content
list: function (elements) {
var length = elements && elements.length || 0, contents = new Array(length);
for (var i = 0; i < length; i++)
contents[i] = this._encodeObject(elements[i]);
return new SerializedTerm('(' + contents.join(' ') + ')');
},
// ### `_prefixRegex` matches a prefixed name or IRI that begins with one of the added prefixes
_prefixRegex: /$0^/,
// ### `end` signals the end of the output stream
end: function (done) {
// Finish a possible pending quad
if (this._subject !== null) {
this._write(this._inDefaultGraph ? '.\n' : '\n}\n');
this._subject = null;
}
// Disallow further writing
this._write = this._blockedWrite;
// Try to end the underlying stream, ensuring done is called exactly one time
var singleDone = done && function (error, result) { singleDone = null, done(error, result); };
if (this._endStream) {
try { return this._outputStream.end(singleDone); }
catch (error) { /* error closing stream */ }
}
singleDone && singleDone();
},
};
// Replaces a character by its escaped version
function characterReplacer(character) {
// Replace a single character by its escaped version
var result = escapedCharacters[character];
if (result === undefined) {
// Replace a single character with its 4-bit unicode escape sequence
if (character.length === 1) {
result = character.charCodeAt(0).toString(16);
result = '\\u0000'.substr(0, 6 - result.length) + result;
}
// Replace a surrogate pair with its 8-bit unicode escape sequence
else {
result = ((character.charCodeAt(0) - 0xD800) * 0x400 +
character.charCodeAt(1) + 0x2400).toString(16);
result = '\\U00000000'.substr(0, 10 - result.length) + result;
}
}
return result;
}
// ## Placeholder class to represent already pretty-printed terms
function SerializedTerm(value) {
this.id = value;
}
DataFactory.internal.Term.subclass(SerializedTerm);
// Pretty-printed nodes are not equal to any other node
// (e.g., [] does not equal [])
SerializedTerm.prototype.equals = function () { return false; };
// ## Exports
module.exports = N3Writer;
},{"./IRIs":3,"./N3DataFactory":4}],12:[function(require,module,exports){
'use strict'
exports.byteLength = byteLength
exports.toByteArray = toByteArray
exports.fromByteArray = fromByteArray
var lookup = []
var revLookup = []
var Arr = typeof Uint8Array !== 'undefined' ? Uint8Array : Array
var code = 'ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/'
for (var i = 0, len = code.length; i < len; ++i) {
lookup[i] = code[i]
revLookup[code.charCodeAt(i)] = i
}
// Support decoding URL-safe base64 strings, as Node.js does.
// See: https://en.wikipedia.org/wiki/Base64#URL_applications
revLookup['-'.charCodeAt(0)] = 62
revLookup['_'.charCodeAt(0)] = 63
function getLens (b64) {
var len = b64.length
if (len % 4 > 0) {
throw new Error('Invalid string. Length must be a multiple of 4')
}
// Trim off extra bytes after placeholder bytes are found
// See: https://github.com/beatgammit/base64-js/issues/42
var validLen = b64.indexOf('=')
if (validLen === -1) validLen = len
var placeHoldersLen = validLen === len
? 0
: 4 - (validLen % 4)
return [validLen, placeHoldersLen]
}
// base64 is 4/3 + up to two characters of the original data
function byteLength (b64) {
var lens = getLens(b64)
var validLen = lens[0]
var placeHoldersLen = lens[1]
return ((validLen + placeHoldersLen) * 3 / 4) - placeHoldersLen
}
function _byteLength (b64, validLen, placeHoldersLen) {
return ((validLen + placeHoldersLen) * 3 / 4) - placeHoldersLen
}
function toByteArray (b64) {
var tmp
var lens = getLens(b64)
var validLen = lens[0]
var placeHoldersLen = lens[1]
var arr = new Arr(_byteLength(b64, validLen, placeHoldersLen))
var curByte = 0
// if there are placeholders, only get up to the last complete 4 chars
var len = placeHoldersLen > 0
? validLen - 4
: validLen
for (var i = 0; i < len; i += 4) {
tmp =
(revLookup[b64.charCodeAt(i)] << 18) |
(revLookup[b64.charCodeAt(i + 1)] << 12) |
(revLookup[b64.charCodeAt(i + 2)] << 6) |
revLookup[b64.charCodeAt(i + 3)]
arr[curByte++] = (tmp >> 16) & 0xFF
arr[curByte++] = (tmp >> 8) & 0xFF
arr[curByte++] = tmp & 0xFF
}
if (placeHoldersLen === 2) {
tmp =
(revLookup[b64.charCodeAt(i)] << 2) |
(revLookup[b64.charCodeAt(i + 1)] >> 4)
arr[curByte++] = tmp & 0xFF
}
if (placeHoldersLen === 1) {
tmp =
(revLookup[b64.charCodeAt(i)] << 10) |
(revLookup[b64.charCodeAt(i + 1)] << 4) |
(revLookup[b64.charCodeAt(i + 2)] >> 2)
arr[curByte++] = (tmp >> 8) & 0xFF
arr[curByte++] = tmp & 0xFF
}
return arr
}
function tripletToBase64 (num) {
return lookup[num >> 18 & 0x3F] +
lookup[num >> 12 & 0x3F] +
lookup[num >> 6 & 0x3F] +
lookup[num & 0x3F]
}
function encodeChunk (uint8, start, end) {
var tmp
var output = []
for (var i = start; i < end; i += 3) {
tmp =
((uint8[i] << 16) & 0xFF0000) +
((uint8[i + 1] << 8) & 0xFF00) +
(uint8[i + 2] & 0xFF)
output.push(tripletToBase64(tmp))
}
return output.join('')
}
function fromByteArray (uint8) {
var tmp
var len = uint8.length
var extraBytes = len % 3 // if we have 1 byte left, pad 2 bytes
var parts = []
var maxChunkLength = 16383 // must be multiple of 3
// go through the array every three bytes, we'll deal with trailing stuff later
for (var i = 0, len2 = len - extraBytes; i < len2; i += maxChunkLength) {
parts.push(encodeChunk(
uint8, i, (i + maxChunkLength) > len2 ? len2 : (i + maxChunkLength)
))
}
// pad the end with zeros, but make sure to not forget the extra bytes
if (extraBytes === 1) {
tmp = uint8[len - 1]
parts.push(
lookup[tmp >> 2] +
lookup[(tmp << 4) & 0x3F] +
'=='
)
} else if (extraBytes === 2) {
tmp = (uint8[len - 2] << 8) + uint8[len - 1]
parts.push(
lookup[tmp >> 10] +
lookup[(tmp >> 4) & 0x3F] +
lookup[(tmp << 2) & 0x3F] +
'='
)
}
return parts.join('')
}
},{}],13:[function(require,module,exports){
},{}],14:[function(require,module,exports){
/*!
* The buffer module from node.js, for the browser.
*
* @author Feross Aboukhadijeh <https://feross.org>
* @license MIT
*/
/* eslint-disable no-proto */
'use strict'
var base64 = require('base64-js')
var ieee754 = require('ieee754')
exports.Buffer = Buffer
exports.SlowBuffer = SlowBuffer
exports.INSPECT_MAX_BYTES = 50
var K_MAX_LENGTH = 0x7fffffff
exports.kMaxLength = K_MAX_LENGTH
/**
* If `Buffer.TYPED_ARRAY_SUPPORT`:
* === true Use Uint8Array implementation (fastest)
* === false Print warning and recommend using `buffer` v4.x which has an Object
* implementation (most compatible, even IE6)
*
* Browsers that support typed arrays are IE 10+, Firefox 4+, Chrome 7+, Safari 5.1+,
* Opera 11.6+, iOS 4.2+.
*
* We report that the browser does not support typed arrays if the are not subclassable
* using __proto__. Firefox 4-29 lacks support for adding new properties to `Uint8Array`
* (See: https://bugzilla.mozilla.org/show_bug.cgi?id=695438). IE 10 lacks support
* for __proto__ and has a buggy typed array implementation.
*/
Buffer.TYPED_ARRAY_SUPPORT = typedArraySupport()
if (!Buffer.TYPED_ARRAY_SUPPORT && typeof console !== 'undefined' &&
typeof console.error === 'function') {
console.error(
'This browser lacks typed array (Uint8Array) support which is required by ' +
'`buffer` v5.x. Use `buffer` v4.x if you require old browser support.'
)
}
function typedArraySupport () {
// Can typed array instances can be augmented?
try {
var arr = new Uint8Array(1)
arr.__proto__ = { __proto__: Uint8Array.prototype, foo: function () { return 42 } }
return arr.foo() === 42
} catch (e) {
return false
}
}
Object.defineProperty(Buffer.prototype, 'parent', {
enumerable: true,
get: function () {
if (!Buffer.isBuffer(this)) return undefined
return this.buffer
}
})
Object.defineProperty(Buffer.prototype, 'offset', {
enumerable: true,
get: function () {
if (!Buffer.isBuffer(this)) return undefined
return this.byteOffset
}
})
function createBuffer (length) {
if (length > K_MAX_LENGTH) {
throw new RangeError('The value "' + length + '" is invalid for option "size"')
}
// Return an augmented `Uint8Array` instance
var buf = new Uint8Array(length)
buf.__proto__ = Buffer.prototype
return buf
}
/**
* The Buffer constructor returns instances of `Uint8Array` that have their
* prototype changed to `Buffer.prototype`. Furthermore, `Buffer` is a subclass of
* `Uint8Array`, so the returned instances will have all the node `Buffer` methods
* and the `Uint8Array` methods. Square bracket notation works as expected -- it
* returns a single octet.
*
* The `Uint8Array` prototype remains unmodified.
*/
function Buffer (arg, encodingOrOffset, length) {
// Common case.
if (typeof arg === 'number') {
if (typeof encodingOrOffset === 'string') {
throw new TypeError(
'The "string" argument must be of type string. Received type number'
)
}
return allocUnsafe(arg)
}
return from(arg, encodingOrOffset, length)
}
// Fix subarray() in ES2016. See: https://github.com/feross/buffer/pull/97
if (typeof Symbol !== 'undefined' && Symbol.species != null &&
Buffer[Symbol.species] === Buffer) {
Object.defineProperty(Buffer, Symbol.species, {
value: null,
configurable: true,
enumerable: false,
writable: false
})
}
Buffer.poolSize = 8192 // not used by this implementation
function from (value, encodingOrOffset, length) {
if (typeof value === 'string') {
return fromString(value, encodingOrOffset)
}
if (ArrayBuffer.isView(value)) {
return fromArrayLike(value)
}
if (value == null) {
throw TypeError(
'The first argument must be one of type string, Buffer, ArrayBuffer, Array, ' +
'or Array-like Object. Received type ' + (typeof value)
)
}
if (isInstance(value, ArrayBuffer) ||
(value && isInstance(value.buffer, ArrayBuffer))) {
return fromArrayBuffer(value, encodingOrOffset, length)
}
if (typeof value === 'number') {
throw new TypeError(
'The "value" argument must not be of type number. Received type number'
)
}
var valueOf = value.valueOf && value.valueOf()
if (valueOf != null && valueOf !== value) {
return Buffer.from(valueOf, encodingOrOffset, length)
}
var b = fromObject(value)
if (b) return b
if (typeof Symbol !== 'undefined' && Symbol.toPrimitive != null &&
typeof value[Symbol.toPrimitive] === 'function') {
return Buffer.from(
value[Symbol.toPrimitive]('string'), encodingOrOffset, length
)
}
throw new TypeError(
'The first argument must be one of type string, Buffer, ArrayBuffer, Array, ' +
'or Array-like Object. Received type ' + (typeof value)
)
}
/**
* Functionally equivalent to Buffer(arg, encoding) but throws a TypeError
* if value is a number.
* Buffer.from(str[, encoding])
* Buffer.from(array)
* Buffer.from(buffer)
* Buffer.from(arrayBuffer[, byteOffset[, length]])
**/
Buffer.from = function (value, encodingOrOffset, length) {
return from(value, encodingOrOffset, length)
}
// Note: Change prototype *after* Buffer.from is defined to workaround Chrome bug:
// https://github.com/feross/buffer/pull/148
Buffer.prototype.__proto__ = Uint8Array.prototype
Buffer.__proto__ = Uint8Array
function assertSize (size) {
if (typeof size !== 'number') {
throw new TypeError('"size" argument must be of type number')
} else if (size < 0) {
throw new RangeError('The value "' + size + '" is invalid for option "size"')
}
}
function alloc (size, fill, encoding) {
assertSize(size)
if (size <= 0) {
return createBuffer(size)
}
if (fill !== undefined) {
// Only pay attention to encoding if it's a string. This
// prevents accidentally sending in a number that would
// be interpretted as a start offset.
return typeof encoding === 'string'
? createBuffer(size).fill(fill, encoding)
: createBuffer(size).fill(fill)
}
return createBuffer(size)
}
/**
* Creates a new filled Buffer instance.
* alloc(size[, fill[, encoding]])
**/
Buffer.alloc = function (size, fill, encoding) {
return alloc(size, fill, encoding)
}
function allocUnsafe (size) {
assertSize(size)
return createBuffer(size < 0 ? 0 : checked(size) | 0)
}
/**
* Equivalent to Buffer(num), by default creates a non-zero-filled Buffer instance.
* */
Buffer.allocUnsafe = function (size) {
return allocUnsafe(size)
}
/**
* Equivalent to SlowBuffer(num), by default creates a non-zero-filled Buffer instance.
*/
Buffer.allocUnsafeSlow = function (size) {
return allocUnsafe(size)
}
function fromString (string, encoding) {
if (typeof encoding !== 'string' || encoding === '') {
encoding = 'utf8'
}
if (!Buffer.isEncoding(encoding)) {
throw new TypeError('Unknown encoding: ' + encoding)
}
var length = byteLength(string, encoding) | 0
var buf = createBuffer(length)
var actual = buf.write(string, encoding)
if (actual !== length) {
// Writing a hex string, for example, that contains invalid characters will
// cause everything after the first invalid character to be ignored. (e.g.
// 'abxxcd' will be treated as 'ab')
buf = buf.slice(0, actual)
}
return buf
}
function fromArrayLike (array) {
var length = array.length < 0 ? 0 : checked(array.length) | 0
var buf = createBuffer(length)
for (var i = 0; i < length; i += 1) {
buf[i] = array[i] & 255
}
return buf
}
function fromArrayBuffer (array, byteOffset, length) {
if (byteOffset < 0 || array.byteLength < byteOffset) {
throw new RangeError('"offset" is outside of buffer bounds')
}
if (array.byteLength < byteOffset + (length || 0)) {
throw new RangeError('"length" is outside of buffer bounds')
}
var buf
if (byteOffset === undefined && length === undefined) {
buf = new Uint8Array(array)
} else if (length === undefined) {
buf = new Uint8Array(array, byteOffset)
} else {
buf = new Uint8Array(array, byteOffset, length)
}
// Return an augmented `Uint8Array` instance
buf.__proto__ = Buffer.prototype
return buf
}
function fromObject (obj) {
if (Buffer.isBuffer(obj)) {
var len = checked(obj.length) | 0
var buf = createBuffer(len)
if (buf.length === 0) {
return buf
}
obj.copy(buf, 0, 0, len)
return buf
}
if (obj.length !== undefined) {
if (typeof obj.length !== 'number' || numberIsNaN(obj.length)) {
return createBuffer(0)
}
return fromArrayLike(obj)
}
if (obj.type === 'Buffer' && Array.isArray(obj.data)) {
return fromArrayLike(obj.data)
}
}
function checked (length) {
// Note: cannot use `length < K_MAX_LENGTH` here because that fails when
// length is NaN (which is otherwise coerced to zero.)
if (length >= K_MAX_LENGTH) {
throw new RangeError('Attempt to allocate Buffer larger than maximum ' +
'size: 0x' + K_MAX_LENGTH.toString(16) + ' bytes')
}
return length | 0
}
function SlowBuffer (length) {
if (+length != length) { // eslint-disable-line eqeqeq
length = 0
}
return Buffer.alloc(+length)
}
Buffer.isBuffer = function isBuffer (b) {
return b != null && b._isBuffer === true &&
b !== Buffer.prototype // so Buffer.isBuffer(Buffer.prototype) will be false
}
Buffer.compare = function compare (a, b) {
if (isInstance(a, Uint8Array)) a = Buffer.from(a, a.offset, a.byteLength)
if (isInstance(b, Uint8Array)) b = Buffer.from(b, b.offset, b.byteLength)
if (!Buffer.isBuffer(a) || !Buffer.isBuffer(b)) {
throw new TypeError(
'The "buf1", "buf2" arguments must be one of type Buffer or Uint8Array'
)
}
if (a === b) return 0
var x = a.length
var y = b.length
for (var i = 0, len = Math.min(x, y); i < len; ++i) {
if (a[i] !== b[i]) {
x = a[i]
y = b[i]
break
}
}
if (x < y) return -1
if (y < x) return 1
return 0
}
Buffer.isEncoding = function isEncoding (encoding) {
switch (String(encoding).toLowerCase()) {
case 'hex':
case 'utf8':
case 'utf-8':
case 'ascii':
case 'latin1':
case 'binary':
case 'base64':
case 'ucs2':
case 'ucs-2':
case 'utf16le':
case 'utf-16le':
return true
default:
return false
}
}
Buffer.concat = function concat (list, length) {
if (!Array.isArray(list)) {
throw new TypeError('"list" argument must be an Array of Buffers')
}
if (list.length === 0) {
return Buffer.alloc(0)
}
var i
if (length === undefined) {
length = 0
for (i = 0; i < list.length; ++i) {
length += list[i].length
}
}
var buffer = Buffer.allocUnsafe(length)
var pos = 0
for (i = 0; i < list.length; ++i) {
var buf = list[i]
if (isInstance(buf, Uint8Array)) {
buf = Buffer.from(buf)
}
if (!Buffer.isBuffer(buf)) {
throw new TypeError('"list" argument must be an Array of Buffers')
}
buf.copy(buffer, pos)
pos += buf.length
}
return buffer
}
function byteLength (string, encoding) {
if (Buffer.isBuffer(string)) {
return string.length
}
if (ArrayBuffer.isView(string) || isInstance(string, ArrayBuffer)) {
return string.byteLength
}
if (typeof string !== 'string') {
throw new TypeError(
'The "string" argument must be one of type string, Buffer, or ArrayBuffer. ' +
'Received type ' + typeof string
)
}
var len = string.length
var mustMatch = (arguments.length > 2 && arguments[2] === true)
if (!mustMatch && len === 0) return 0
// Use a for loop to avoid recursion
var loweredCase = false
for (;;) {
switch (encoding) {
case 'ascii':
case 'latin1':
case 'binary':
return len
case 'utf8':
case 'utf-8':
return utf8ToBytes(string).length
case 'ucs2':
case 'ucs-2':
case 'utf16le':
case 'utf-16le':
return len * 2
case 'hex':
return len >>> 1
case 'base64':
return base64ToBytes(string).length
default:
if (loweredCase) {
return mustMatch ? -1 : utf8ToBytes(string).length // assume utf8
}
encoding = ('' + encoding).toLowerCase()
loweredCase = true
}
}
}
Buffer.byteLength = byteLength
function slowToString (encoding, start, end) {
var loweredCase = false
// No need to verify that "this.length <= MAX_UINT32" since it's a read-only
// property of a typed array.
// This behaves neither like String nor Uint8Array in that we set start/end
// to their upper/lower bounds if the value passed is out of range.
// undefined is handled specially as per ECMA-262 6th Edition,
// Section 13.3.3.7 Runtime Semantics: KeyedBindingInitialization.
if (start === undefined || start < 0) {
start = 0
}
// Return early if start > this.length. Done here to prevent potential uint32
// coercion fail below.
if (start > this.length) {
return ''
}
if (end === undefined || end > this.length) {
end = this.length
}
if (end <= 0) {
return ''
}
// Force coersion to uint32. This will also coerce falsey/NaN values to 0.
end >>>= 0
start >>>= 0
if (end <= start) {
return ''
}
if (!encoding) encoding = 'utf8'
while (true) {
switch (encoding) {
case 'hex':
return hexSlice(this, start, end)
case 'utf8':
case 'utf-8':
return utf8Slice(this, start, end)
case 'ascii':
return asciiSlice(this, start, end)
case 'latin1':
case 'binary':
return latin1Slice(this, start, end)
case 'base64':
return base64Slice(this, start, end)
case 'ucs2':
case 'ucs-2':
case 'utf16le':
case 'utf-16le':
return utf16leSlice(this, start, end)
default:
if (loweredCase) throw new TypeError('Unknown encoding: ' + encoding)
encoding = (encoding + '').toLowerCase()
loweredCase = true
}
}
}
// This property is used by `Buffer.isBuffer` (and the `is-buffer` npm package)
// to detect a Buffer instance. It's not possible to use `instanceof Buffer`
// reliably in a browserify context because there could be multiple different
// copies of the 'buffer' package in use. This method works even for Buffer
// instances that were created from another copy of the `buffer` package.
// See: https://github.com/feross/buffer/issues/154
Buffer.prototype._isBuffer = true
function swap (b, n, m) {
var i = b[n]
b[n] = b[m]
b[m] = i
}
Buffer.prototype.swap16 = function swap16 () {
var len = this.length
if (len % 2 !== 0) {
throw new RangeError('Buffer size must be a multiple of 16-bits')
}
for (var i = 0; i < len; i += 2) {
swap(this, i, i + 1)
}
return this
}
Buffer.prototype.swap32 = function swap32 () {
var len = this.length
if (len % 4 !== 0) {
throw new RangeError('Buffer size must be a multiple of 32-bits')
}
for (var i = 0; i < len; i += 4) {
swap(this, i, i + 3)
swap(this, i + 1, i + 2)
}
return this
}
Buffer.prototype.swap64 = function swap64 () {
var len = this.length
if (len % 8 !== 0) {
throw new RangeError('Buffer size must be a multiple of 64-bits')
}
for (var i = 0; i < len; i += 8) {
swap(this, i, i + 7)
swap(this, i + 1, i + 6)
swap(this, i + 2, i + 5)
swap(this, i + 3, i + 4)
}
return this
}
Buffer.prototype.toString = function toString () {
var length = this.length
if (length === 0) return ''
if (arguments.length === 0) return utf8Slice(this, 0, length)
return slowToString.apply(this, arguments)
}
Buffer.prototype.toLocaleString = Buffer.prototype.toString
Buffer.prototype.equals = function equals (b) {
if (!Buffer.isBuffer(b)) throw new TypeError('Argument must be a Buffer')
if (this === b) return true
return Buffer.compare(this, b) === 0
}
Buffer.prototype.inspect = function inspect () {
var str = ''
var max = exports.INSPECT_MAX_BYTES
str = this.toString('hex', 0, max).replace(/(.{2})/g, '$1 ').trim()
if (this.length > max) str += ' ... '
return '<Buffer ' + str + '>'
}
Buffer.prototype.compare = function compare (target, start, end, thisStart, thisEnd) {
if (isInstance(target, Uint8Array)) {
target = Buffer.from(target, target.offset, target.byteLength)
}
if (!Buffer.isBuffer(target)) {
throw new TypeError(
'The "target" argument must be one of type Buffer or Uint8Array. ' +
'Received type ' + (typeof target)
)
}
if (start === undefined) {
start = 0
}
if (end === undefined) {
end = target ? target.length : 0
}
if (thisStart === undefined) {
thisStart = 0
}
if (thisEnd === undefined) {
thisEnd = this.length
}
if (start < 0 || end > target.length || thisStart < 0 || thisEnd > this.length) {
throw new RangeError('out of range index')
}
if (thisStart >= thisEnd && start >= end) {
return 0
}
if (thisStart >= thisEnd) {
return -1
}
if (start >= end) {
return 1
}
start >>>= 0
end >>>= 0
thisStart >>>= 0
thisEnd >>>= 0
if (this === target) return 0
var x = thisEnd - thisStart
var y = end - start
var len = Math.min(x, y)
var thisCopy = this.slice(thisStart, thisEnd)
var targetCopy = target.slice(start, end)
for (var i = 0; i < len; ++i) {
if (thisCopy[i] !== targetCopy[i]) {
x = thisCopy[i]
y = targetCopy[i]
break
}
}
if (x < y) return -1
if (y < x) return 1
return 0
}
// Finds either the first index of `val` in `buffer` at offset >= `byteOffset`,
// OR the last index of `val` in `buffer` at offset <= `byteOffset`.
//
// Arguments:
// - buffer - a Buffer to search
// - val - a string, Buffer, or number
// - byteOffset - an index into `buffer`; will be clamped to an int32
// - encoding - an optional encoding, relevant is val is a string
// - dir - true for indexOf, false for lastIndexOf
function bidirectionalIndexOf (buffer, val, byteOffset, encoding, dir) {
// Empty buffer means no match
if (buffer.length === 0) return -1
// Normalize byteOffset
if (typeof byteOffset === 'string') {
encoding = byteOffset
byteOffset = 0
} else if (byteOffset > 0x7fffffff) {
byteOffset = 0x7fffffff
} else if (byteOffset < -0x80000000) {
byteOffset = -0x80000000
}
byteOffset = +byteOffset // Coerce to Number.
if (numberIsNaN(byteOffset)) {
// byteOffset: it it's undefined, null, NaN, "foo", etc, search whole buffer
byteOffset = dir ? 0 : (buffer.length - 1)
}
// Normalize byteOffset: negative offsets start from the end of the buffer
if (byteOffset < 0) byteOffset = buffer.length + byteOffset
if (byteOffset >= buffer.length) {
if (dir) return -1
else byteOffset = buffer.length - 1
} else if (byteOffset < 0) {
if (dir) byteOffset = 0
else return -1
}
// Normalize val
if (typeof val === 'string') {
val = Buffer.from(val, encoding)
}
// Finally, search either indexOf (if dir is true) or lastIndexOf
if (Buffer.isBuffer(val)) {
// Special case: looking for empty string/buffer always fails
if (val.length === 0) {
return -1
}
return arrayIndexOf(buffer, val, byteOffset, encoding, dir)
} else if (typeof val === 'number') {
val = val & 0xFF // Search for a byte value [0-255]
if (typeof Uint8Array.prototype.indexOf === 'function') {
if (dir) {
return Uint8Array.prototype.indexOf.call(buffer, val, byteOffset)
} else {
return Uint8Array.prototype.lastIndexOf.call(buffer, val, byteOffset)
}
}
return arrayIndexOf(buffer, [ val ], byteOffset, encoding, dir)
}
throw new TypeError('val must be string, number or Buffer')
}
function arrayIndexOf (arr, val, byteOffset, encoding, dir) {
var indexSize = 1
var arrLength = arr.length
var valLength = val.length
if (encoding !== undefined) {
encoding = String(encoding).toLowerCase()
if (encoding === 'ucs2' || encoding === 'ucs-2' ||
encoding === 'utf16le' || encoding === 'utf-16le') {
if (arr.length < 2 || val.length < 2) {
return -1
}
indexSize = 2
arrLength /= 2
valLength /= 2
byteOffset /= 2
}
}
function read (buf, i) {
if (indexSize === 1) {
return buf[i]
} else {
return buf.readUInt16BE(i * indexSize)
}
}
var i
if (dir) {
var foundIndex = -1
for (i = byteOffset; i < arrLength; i++) {
if (read(arr, i) === read(val, foundIndex === -1 ? 0 : i - foundIndex)) {
if (foundIndex === -1) foundIndex = i
if (i - foundIndex + 1 === valLength) return foundIndex * indexSize
} else {
if (foundIndex !== -1) i -= i - foundIndex
foundIndex = -1
}
}
} else {
if (byteOffset + valLength > arrLength) byteOffset = arrLength - valLength
for (i = byteOffset; i >= 0; i--) {
var found = true
for (var j = 0; j < valLength; j++) {
if (read(arr, i + j) !== read(val, j)) {
found = false
break
}
}
if (found) return i
}
}
return -1
}
Buffer.prototype.includes = function includes (val, byteOffset, encoding) {
return this.indexOf(val, byteOffset, encoding) !== -1
}
Buffer.prototype.indexOf = function indexOf (val, byteOffset, encoding) {
return bidirectionalIndexOf(this, val, byteOffset, encoding, true)
}
Buffer.prototype.lastIndexOf = function lastIndexOf (val, byteOffset, encoding) {
return bidirectionalIndexOf(this, val, byteOffset, encoding, false)
}
function hexWrite (buf, string, offset, length) {
offset = Number(offset) || 0
var remaining = buf.length - offset
if (!length) {
length = remaining
} else {
length = Number(length)
if (length > remaining) {
length = remaining
}
}
var strLen = string.length
if (length > strLen / 2) {
length = strLen / 2
}
for (var i = 0; i < length; ++i) {
var parsed = parseInt(string.substr(i * 2, 2), 16)
if (numberIsNaN(parsed)) return i
buf[offset + i] = parsed
}
return i
}
function utf8Write (buf, string, offset, length) {
return blitBuffer(utf8ToBytes(string, buf.length - offset), buf, offset, length)
}
function asciiWrite (buf, string, offset, length) {
return blitBuffer(asciiToBytes(string), buf, offset, length)
}
function latin1Write (buf, string, offset, length) {
return asciiWrite(buf, string, offset, length)
}
function base64Write (buf, string, offset, length) {
return blitBuffer(base64ToBytes(string), buf, offset, length)
}
function ucs2Write (buf, string, offset, length) {
return blitBuffer(utf16leToBytes(string, buf.length - offset), buf, offset, length)
}
Buffer.prototype.write = function write (string, offset, length, encoding) {
// Buffer#write(string)
if (offset === undefined) {
encoding = 'utf8'
length = this.length
offset = 0
// Buffer#write(string, encoding)
} else if (length === undefined && typeof offset === 'string') {
encoding = offset
length = this.length
offset = 0
// Buffer#write(string, offset[, length][, encoding])
} else if (isFinite(offset)) {
offset = offset >>> 0
if (isFinite(length)) {
length = length >>> 0
if (encoding === undefined) encoding = 'utf8'
} else {
encoding = length
length = undefined
}
} else {
throw new Error(
'Buffer.write(string, encoding, offset[, length]) is no longer supported'
)
}
var remaining = this.length - offset
if (length === undefined || length > remaining) length = remaining
if ((string.length > 0 && (length < 0 || offset < 0)) || offset > this.length) {
throw new RangeError('Attempt to write outside buffer bounds')
}
if (!encoding) encoding = 'utf8'
var loweredCase = false
for (;;) {
switch (encoding) {
case 'hex':
return hexWrite(this, string, offset, length)
case 'utf8':
case 'utf-8':
return utf8Write(this, string, offset, length)
case 'ascii':
return asciiWrite(this, string, offset, length)
case 'latin1':
case 'binary':
return latin1Write(this, string, offset, length)
case 'base64':
// Warning: maxLength not taken into account in base64Write
return base64Write(this, string, offset, length)
case 'ucs2':
case 'ucs-2':
case 'utf16le':
case 'utf-16le':
return ucs2Write(this, string, offset, length)
default:
if (loweredCase) throw new TypeError('Unknown encoding: ' + encoding)
encoding = ('' + encoding).toLowerCase()
loweredCase = true
}
}
}
Buffer.prototype.toJSON = function toJSON () {
return {
type: 'Buffer',
data: Array.prototype.slice.call(this._arr || this, 0)
}
}
function base64Slice (buf, start, end) {
if (start === 0 && end === buf.length) {
return base64.fromByteArray(buf)
} else {
return base64.fromByteArray(buf.slice(start, end))
}
}
function utf8Slice (buf, start, end) {
end = Math.min(buf.length, end)
var res = []
var i = start
while (i < end) {
var firstByte = buf[i]
var codePoint = null
var bytesPerSequence = (firstByte > 0xEF) ? 4
: (firstByte > 0xDF) ? 3
: (firstByte > 0xBF) ? 2
: 1
if (i + bytesPerSequence <= end) {
var secondByte, thirdByte, fourthByte, tempCodePoint
switch (bytesPerSequence) {
case 1:
if (firstByte < 0x80) {
codePoint = firstByte
}
break
case 2:
secondByte = buf[i + 1]
if ((secondByte & 0xC0) === 0x80) {
tempCodePoint = (firstByte & 0x1F) << 0x6 | (secondByte & 0x3F)
if (tempCodePoint > 0x7F) {
codePoint = tempCodePoint
}
}
break
case 3:
secondByte = buf[i + 1]
thirdByte = buf[i + 2]
if ((secondByte & 0xC0) === 0x80 && (thirdByte & 0xC0) === 0x80) {
tempCodePoint = (firstByte & 0xF) << 0xC | (secondByte & 0x3F) << 0x6 | (thirdByte & 0x3F)
if (tempCodePoint > 0x7FF && (tempCodePoint < 0xD800 || tempCodePoint > 0xDFFF)) {
codePoint = tempCodePoint
}
}
break
case 4:
secondByte = buf[i + 1]
thirdByte = buf[i + 2]
fourthByte = buf[i + 3]
if ((secondByte & 0xC0) === 0x80 && (thirdByte & 0xC0) === 0x80 && (fourthByte & 0xC0) === 0x80) {
tempCodePoint = (firstByte & 0xF) << 0x12 | (secondByte & 0x3F) << 0xC | (thirdByte & 0x3F) << 0x6 | (fourthByte & 0x3F)
if (tempCodePoint > 0xFFFF && tempCodePoint < 0x110000) {
codePoint = tempCodePoint
}
}
}
}
if (codePoint === null) {
// we did not generate a valid codePoint so insert a
// replacement char (U+FFFD) and advance only 1 byte
codePoint = 0xFFFD
bytesPerSequence = 1
} else if (codePoint > 0xFFFF) {
// encode to utf16 (surrogate pair dance)
codePoint -= 0x10000
res.push(codePoint >>> 10 & 0x3FF | 0xD800)
codePoint = 0xDC00 | codePoint & 0x3FF
}
res.push(codePoint)
i += bytesPerSequence
}
return decodeCodePointsArray(res)
}
// Based on http://stackoverflow.com/a/22747272/680742, the browser with
// the lowest limit is Chrome, with 0x10000 args.
// We go 1 magnitude less, for safety
var MAX_ARGUMENTS_LENGTH = 0x1000
function decodeCodePointsArray (codePoints) {
var len = codePoints.length
if (len <= MAX_ARGUMENTS_LENGTH) {
return String.fromCharCode.apply(String, codePoints) // avoid extra slice()
}
// Decode in chunks to avoid "call stack size exceeded".
var res = ''
var i = 0
while (i < len) {
res += String.fromCharCode.apply(
String,
codePoints.slice(i, i += MAX_ARGUMENTS_LENGTH)
)
}
return res
}
function asciiSlice (buf, start, end) {
var ret = ''
end = Math.min(buf.length, end)
for (var i = start; i < end; ++i) {
ret += String.fromCharCode(buf[i] & 0x7F)
}
return ret
}
function latin1Slice (buf, start, end) {
var ret = ''
end = Math.min(buf.length, end)
for (var i = start; i < end; ++i) {
ret += String.fromCharCode(buf[i])
}
return ret
}
function hexSlice (buf, start, end) {
var len = buf.length
if (!start || start < 0) start = 0
if (!end || end < 0 || end > len) end = len
var out = ''
for (var i = start; i < end; ++i) {
out += toHex(buf[i])
}
return out
}
function utf16leSlice (buf, start, end) {
var bytes = buf.slice(start, end)
var res = ''
for (var i = 0; i < bytes.length; i += 2) {
res += String.fromCharCode(bytes[i] + (bytes[i + 1] * 256))
}
return res
}
Buffer.prototype.slice = function slice (start, end) {
var len = this.length
start = ~~start
end = end === undefined ? len : ~~end
if (start < 0) {
start += len
if (start < 0) start = 0
} else if (start > len) {
start = len
}
if (end < 0) {
end += len
if (end < 0) end = 0
} else if (end > len) {
end = len
}
if (end < start) end = start
var newBuf = this.subarray(start, end)
// Return an augmented `Uint8Array` instance
newBuf.__proto__ = Buffer.prototype
return newBuf
}
/*
* Need to make sure that buffer isn't trying to write out of bounds.
*/
function checkOffset (offset, ext, length) {
if ((offset % 1) !== 0 || offset < 0) throw new RangeError('offset is not uint')
if (offset + ext > length) throw new RangeError('Trying to access beyond buffer length')
}
Buffer.prototype.readUIntLE = function readUIntLE (offset, byteLength, noAssert) {
offset = offset >>> 0
byteLength = byteLength >>> 0
if (!noAssert) checkOffset(offset, byteLength, this.length)
var val = this[offset]
var mul = 1
var i = 0
while (++i < byteLength && (mul *= 0x100)) {
val += this[offset + i] * mul
}
return val
}
Buffer.prototype.readUIntBE = function readUIntBE (offset, byteLength, noAssert) {
offset = offset >>> 0
byteLength = byteLength >>> 0
if (!noAssert) {
checkOffset(offset, byteLength, this.length)
}
var val = this[offset + --byteLength]
var mul = 1
while (byteLength > 0 && (mul *= 0x100)) {
val += this[offset + --byteLength] * mul
}
return val
}
Buffer.prototype.readUInt8 = function readUInt8 (offset, noAssert) {
offset = offset >>> 0
if (!noAssert) checkOffset(offset, 1, this.length)
return this[offset]
}
Buffer.prototype.readUInt16LE = function readUInt16LE (offset, noAssert) {
offset = offset >>> 0
if (!noAssert) checkOffset(offset, 2, this.length)
return this[offset] | (this[offset + 1] << 8)
}
Buffer.prototype.readUInt16BE = function readUInt16BE (offset, noAssert) {
offset = offset >>> 0
if (!noAssert) checkOffset(offset, 2, this.length)
return (this[offset] << 8) | this[offset + 1]
}
Buffer.prototype.readUInt32LE = function readUInt32LE (offset, noAssert) {
offset = offset >>> 0
if (!noAssert) checkOffset(offset, 4, this.length)
return ((this[offset]) |
(this[offset + 1] << 8) |
(this[offset + 2] << 16)) +
(this[offset + 3] * 0x1000000)
}
Buffer.prototype.readUInt32BE = function readUInt32BE (offset, noAssert) {
offset = offset >>> 0
if (!noAssert) checkOffset(offset, 4, this.length)
return (this[offset] * 0x1000000) +
((this[offset + 1] << 16) |
(this[offset + 2] << 8) |
this[offset + 3])
}
Buffer.prototype.readIntLE = function readIntLE (offset, byteLength, noAssert) {
offset = offset >>> 0
byteLength = byteLength >>> 0
if (!noAssert) checkOffset(offset, byteLength, this.length)
var val = this[offset]
var mul = 1
var i = 0
while (++i < byteLength && (mul *= 0x100)) {
val += this[offset + i] * mul
}
mul *= 0x80
if (val >= mul) val -= Math.pow(2, 8 * byteLength)
return val
}
Buffer.prototype.readIntBE = function readIntBE (offset, byteLength, noAssert) {
offset = offset >>> 0
byteLength = byteLength >>> 0
if (!noAssert) checkOffset(offset, byteLength, this.length)
var i = byteLength
var mul = 1
var val = this[offset + --i]
while (i > 0 && (mul *= 0x100)) {
val += this[offset + --i] * mul
}
mul *= 0x80
if (val >= mul) val -= Math.pow(2, 8 * byteLength)
return val
}
Buffer.prototype.readInt8 = function readInt8 (offset, noAssert) {
offset = offset >>> 0
if (!noAssert) checkOffset(offset, 1, this.length)
if (!(this[offset] & 0x80)) return (this[offset])
return ((0xff - this[offset] + 1) * -1)
}
Buffer.prototype.readInt16LE = function readInt16LE (offset, noAssert) {
offset = offset >>> 0
if (!noAssert) checkOffset(offset, 2, this.length)
var val = this[offset] | (this[offset + 1] << 8)
return (val & 0x8000) ? val | 0xFFFF0000 : val
}
Buffer.prototype.readInt16BE = function readInt16BE (offset, noAssert) {
offset = offset >>> 0
if (!noAssert) checkOffset(offset, 2, this.length)
var val = this[offset + 1] | (this[offset] << 8)
return (val & 0x8000) ? val | 0xFFFF0000 : val
}
Buffer.prototype.readInt32LE = function readInt32LE (offset, noAssert) {
offset = offset >>> 0
if (!noAssert) checkOffset(offset, 4, this.length)
return (this[offset]) |
(this[offset + 1] << 8) |
(this[offset + 2] << 16) |
(this[offset + 3] << 24)
}
Buffer.prototype.readInt32BE = function readInt32BE (offset, noAssert) {
offset = offset >>> 0
if (!noAssert) checkOffset(offset, 4, this.length)
return (this[offset] << 24) |
(this[offset + 1] << 16) |
(this[offset + 2] << 8) |
(this[offset + 3])
}
Buffer.prototype.readFloatLE = function readFloatLE (offset, noAssert) {
offset = offset >>> 0
if (!noAssert) checkOffset(offset, 4, this.length)
return ieee754.read(this, offset, true, 23, 4)
}
Buffer.prototype.readFloatBE = function readFloatBE (offset, noAssert) {
offset = offset >>> 0
if (!noAssert) checkOffset(offset, 4, this.length)
return ieee754.read(this, offset, false, 23, 4)
}
Buffer.prototype.readDoubleLE = function readDoubleLE (offset, noAssert) {
offset = offset >>> 0
if (!noAssert) checkOffset(offset, 8, this.length)
return ieee754.read(this, offset, true, 52, 8)
}
Buffer.prototype.readDoubleBE = function readDoubleBE (offset, noAssert) {
offset = offset >>> 0
if (!noAssert) checkOffset(offset, 8, this.length)
return ieee754.read(this, offset, false, 52, 8)
}
function checkInt (buf, value, offset, ext, max, min) {
if (!Buffer.isBuffer(buf)) throw new TypeError('"buffer" argument must be a Buffer instance')
if (value > max || value < min) throw new RangeError('"value" argument is out of bounds')
if (offset + ext > buf.length) throw new RangeError('Index out of range')
}
Buffer.prototype.writeUIntLE = function writeUIntLE (value, offset, byteLength, noAssert) {
value = +value
offset = offset >>> 0
byteLength = byteLength >>> 0
if (!noAssert) {
var maxBytes = Math.pow(2, 8 * byteLength) - 1
checkInt(this, value, offset, byteLength, maxBytes, 0)
}
var mul = 1
var i = 0
this[offset] = value & 0xFF
while (++i < byteLength && (mul *= 0x100)) {
this[offset + i] = (value / mul) & 0xFF
}
return offset + byteLength
}
Buffer.prototype.writeUIntBE = function writeUIntBE (value, offset, byteLength, noAssert) {
value = +value
offset = offset >>> 0
byteLength = byteLength >>> 0
if (!noAssert) {
var maxBytes = Math.pow(2, 8 * byteLength) - 1
checkInt(this, value, offset, byteLength, maxBytes, 0)
}
var i = byteLength - 1
var mul = 1
this[offset + i] = value & 0xFF
while (--i >= 0 && (mul *= 0x100)) {
this[offset + i] = (value / mul) & 0xFF
}
return offset + byteLength
}
Buffer.prototype.writeUInt8 = function writeUInt8 (value, offset, noAssert) {
value = +value
offset = offset >>> 0
if (!noAssert) checkInt(this, value, offset, 1, 0xff, 0)
this[offset] = (value & 0xff)
return offset + 1
}
Buffer.prototype.writeUInt16LE = function writeUInt16LE (value, offset, noAssert) {
value = +value
offset = offset >>> 0
if (!noAssert) checkInt(this, value, offset, 2, 0xffff, 0)
this[offset] = (value & 0xff)
this[offset + 1] = (value >>> 8)
return offset + 2
}
Buffer.prototype.writeUInt16BE = function writeUInt16BE (value, offset, noAssert) {
value = +value
offset = offset >>> 0
if (!noAssert) checkInt(this, value, offset, 2, 0xffff, 0)
this[offset] = (value >>> 8)
this[offset + 1] = (value & 0xff)
return offset + 2
}
Buffer.prototype.writeUInt32LE = function writeUInt32LE (value, offset, noAssert) {
value = +value
offset = offset >>> 0
if (!noAssert) checkInt(this, value, offset, 4, 0xffffffff, 0)
this[offset + 3] = (value >>> 24)
this[offset + 2] = (value >>> 16)
this[offset + 1] = (value >>> 8)
this[offset] = (value & 0xff)
return offset + 4
}
Buffer.prototype.writeUInt32BE = function writeUInt32BE (value, offset, noAssert) {
value = +value
offset = offset >>> 0
if (!noAssert) checkInt(this, value, offset, 4, 0xffffffff, 0)
this[offset] = (value >>> 24)
this[offset + 1] = (value >>> 16)
this[offset + 2] = (value >>> 8)
this[offset + 3] = (value & 0xff)
return offset + 4
}
Buffer.prototype.writeIntLE = function writeIntLE (value, offset, byteLength, noAssert) {
value = +value
offset = offset >>> 0
if (!noAssert) {
var limit = Math.pow(2, (8 * byteLength) - 1)
checkInt(this, value, offset, byteLength, limit - 1, -limit)
}
var i = 0
var mul = 1
var sub = 0
this[offset] = value & 0xFF
while (++i < byteLength && (mul *= 0x100)) {
if (value < 0 && sub === 0 && this[offset + i - 1] !== 0) {
sub = 1
}
this[offset + i] = ((value / mul) >> 0) - sub & 0xFF
}
return offset + byteLength
}
Buffer.prototype.writeIntBE = function writeIntBE (value, offset, byteLength, noAssert) {
value = +value
offset = offset >>> 0
if (!noAssert) {
var limit = Math.pow(2, (8 * byteLength) - 1)
checkInt(this, value, offset, byteLength, limit - 1, -limit)
}
var i = byteLength - 1
var mul = 1
var sub = 0
this[offset + i] = value & 0xFF
while (--i >= 0 && (mul *= 0x100)) {
if (value < 0 && sub === 0 && this[offset + i + 1] !== 0) {
sub = 1
}
this[offset + i] = ((value / mul) >> 0) - sub & 0xFF
}
return offset + byteLength
}
Buffer.prototype.writeInt8 = function writeInt8 (value, offset, noAssert) {
value = +value
offset = offset >>> 0
if (!noAssert) checkInt(this, value, offset, 1, 0x7f, -0x80)
if (value < 0) value = 0xff + value + 1
this[offset] = (value & 0xff)
return offset + 1
}
Buffer.prototype.writeInt16LE = function writeInt16LE (value, offset, noAssert) {
value = +value
offset = offset >>> 0
if (!noAssert) checkInt(this, value, offset, 2, 0x7fff, -0x8000)
this[offset] = (value & 0xff)
this[offset + 1] = (value >>> 8)
return offset + 2
}
Buffer.prototype.writeInt16BE = function writeInt16BE (value, offset, noAssert) {
value = +value
offset = offset >>> 0
if (!noAssert) checkInt(this, value, offset, 2, 0x7fff, -0x8000)
this[offset] = (value >>> 8)
this[offset + 1] = (value & 0xff)
return offset + 2
}
Buffer.prototype.writeInt32LE = function writeInt32LE (value, offset, noAssert) {
value = +value
offset = offset >>> 0
if (!noAssert) checkInt(this, value, offset, 4, 0x7fffffff, -0x80000000)
this[offset] = (value & 0xff)
this[offset + 1] = (value >>> 8)
this[offset + 2] = (value >>> 16)
this[offset + 3] = (value >>> 24)
return offset + 4
}
Buffer.prototype.writeInt32BE = function writeInt32BE (value, offset, noAssert) {
value = +value
offset = offset >>> 0
if (!noAssert) checkInt(this, value, offset, 4, 0x7fffffff, -0x80000000)
if (value < 0) value = 0xffffffff + value + 1
this[offset] = (value >>> 24)
this[offset + 1] = (value >>> 16)
this[offset + 2] = (value >>> 8)
this[offset + 3] = (value & 0xff)
return offset + 4
}
function checkIEEE754 (buf, value, offset, ext, max, min) {
if (offset + ext > buf.length) throw new RangeError('Index out of range')
if (offset < 0) throw new RangeError('Index out of range')
}
function writeFloat (buf, value, offset, littleEndian, noAssert) {
value = +value
offset = offset >>> 0
if (!noAssert) {
checkIEEE754(buf, value, offset, 4, 3.4028234663852886e+38, -3.4028234663852886e+38)
}
ieee754.write(buf, value, offset, littleEndian, 23, 4)
return offset + 4
}
Buffer.prototype.writeFloatLE = function writeFloatLE (value, offset, noAssert) {
return writeFloat(this, value, offset, true, noAssert)
}
Buffer.prototype.writeFloatBE = function writeFloatBE (value, offset, noAssert) {
return writeFloat(this, value, offset, false, noAssert)
}
function writeDouble (buf, value, offset, littleEndian, noAssert) {
value = +value
offset = offset >>> 0
if (!noAssert) {
checkIEEE754(buf, value, offset, 8, 1.7976931348623157E+308, -1.7976931348623157E+308)
}
ieee754.write(buf, value, offset, littleEndian, 52, 8)
return offset + 8
}
Buffer.prototype.writeDoubleLE = function writeDoubleLE (value, offset, noAssert) {
return writeDouble(this, value, offset, true, noAssert)
}
Buffer.prototype.writeDoubleBE = function writeDoubleBE (value, offset, noAssert) {
return writeDouble(this, value, offset, false, noAssert)
}
// copy(targetBuffer, targetStart=0, sourceStart=0, sourceEnd=buffer.length)
Buffer.prototype.copy = function copy (target, targetStart, start, end) {
if (!Buffer.isBuffer(target)) throw new TypeError('argument should be a Buffer')
if (!start) start = 0
if (!end && end !== 0) end = this.length
if (targetStart >= target.length) targetStart = target.length
if (!targetStart) targetStart = 0
if (end > 0 && end < start) end = start
// Copy 0 bytes; we're done
if (end === start) return 0
if (target.length === 0 || this.length === 0) return 0
// Fatal error conditions
if (targetStart < 0) {
throw new RangeError('targetStart out of bounds')
}
if (start < 0 || start >= this.length) throw new RangeError('Index out of range')
if (end < 0) throw new RangeError('sourceEnd out of bounds')
// Are we oob?
if (end > this.length) end = this.length
if (target.length - targetStart < end - start) {
end = target.length - targetStart + start
}
var len = end - start
if (this === target && typeof Uint8Array.prototype.copyWithin === 'function') {
// Use built-in when available, missing from IE11
this.copyWithin(targetStart, start, end)
} else if (this === target && start < targetStart && targetStart < end) {
// descending copy from end
for (var i = len - 1; i >= 0; --i) {
target[i + targetStart] = this[i + start]
}
} else {
Uint8Array.prototype.set.call(
target,
this.subarray(start, end),
targetStart
)
}
return len
}
// Usage:
// buffer.fill(number[, offset[, end]])
// buffer.fill(buffer[, offset[, end]])
// buffer.fill(string[, offset[, end]][, encoding])
Buffer.prototype.fill = function fill (val, start, end, encoding) {
// Handle string cases:
if (typeof val === 'string') {
if (typeof start === 'string') {
encoding = start
start = 0
end = this.length
} else if (typeof end === 'string') {
encoding = end
end = this.length
}
if (encoding !== undefined && typeof encoding !== 'string') {
throw new TypeError('encoding must be a string')
}
if (typeof encoding === 'string' && !Buffer.isEncoding(encoding)) {
throw new TypeError('Unknown encoding: ' + encoding)
}
if (val.length === 1) {
var code = val.charCodeAt(0)
if ((encoding === 'utf8' && code < 128) ||
encoding === 'latin1') {
// Fast path: If `val` fits into a single byte, use that numeric value.
val = code
}
}
} else if (typeof val === 'number') {
val = val & 255
}
// Invalid ranges are not set to a default, so can range check early.
if (start < 0 || this.length < start || this.length < end) {
throw new RangeError('Out of range index')
}
if (end <= start) {
return this
}
start = start >>> 0
end = end === undefined ? this.length : end >>> 0
if (!val) val = 0
var i
if (typeof val === 'number') {
for (i = start; i < end; ++i) {
this[i] = val
}
} else {
var bytes = Buffer.isBuffer(val)
? val
: Buffer.from(val, encoding)
var len = bytes.length
if (len === 0) {
throw new TypeError('The value "' + val +
'" is invalid for argument "value"')
}
for (i = 0; i < end - start; ++i) {
this[i + start] = bytes[i % len]
}
}
return this
}
// HELPER FUNCTIONS
// ================
var INVALID_BASE64_RE = /[^+/0-9A-Za-z-_]/g
function base64clean (str) {
// Node takes equal signs as end of the Base64 encoding
str = str.split('=')[0]
// Node strips out invalid characters like \n and \t from the string, base64-js does not
str = str.trim().replace(INVALID_BASE64_RE, '')
// Node converts strings with length < 2 to ''
if (str.length < 2) return ''
// Node allows for non-padded base64 strings (missing trailing ===), base64-js does not
while (str.length % 4 !== 0) {
str = str + '='
}
return str
}
function toHex (n) {
if (n < 16) return '0' + n.toString(16)
return n.toString(16)
}
function utf8ToBytes (string, units) {
units = units || Infinity
var codePoint
var length = string.length
var leadSurrogate = null
var bytes = []
for (var i = 0; i < length; ++i) {
codePoint = string.charCodeAt(i)
// is surrogate component
if (codePoint > 0xD7FF && codePoint < 0xE000) {
// last char was a lead
if (!leadSurrogate) {
// no lead yet
if (codePoint > 0xDBFF) {
// unexpected trail
if ((units -= 3) > -1) bytes.push(0xEF, 0xBF, 0xBD)
continue
} else if (i + 1 === length) {
// unpaired lead
if ((units -= 3) > -1) bytes.push(0xEF, 0xBF, 0xBD)
continue
}
// valid lead
leadSurrogate = codePoint
continue
}
// 2 leads in a row
if (codePoint < 0xDC00) {
if ((units -= 3) > -1) bytes.push(0xEF, 0xBF, 0xBD)
leadSurrogate = codePoint
continue
}
// valid surrogate pair
codePoint = (leadSurrogate - 0xD800 << 10 | codePoint - 0xDC00) + 0x10000
} else if (leadSurrogate) {
// valid bmp char, but last char was a lead
if ((units -= 3) > -1) bytes.push(0xEF, 0xBF, 0xBD)
}
leadSurrogate = null
// encode utf8
if (codePoint < 0x80) {
if ((units -= 1) < 0) break
bytes.push(codePoint)
} else if (codePoint < 0x800) {
if ((units -= 2) < 0) break
bytes.push(
codePoint >> 0x6 | 0xC0,
codePoint & 0x3F | 0x80
)
} else if (codePoint < 0x10000) {
if ((units -= 3) < 0) break
bytes.push(
codePoint >> 0xC | 0xE0,
codePoint >> 0x6 & 0x3F | 0x80,
codePoint & 0x3F | 0x80
)
} else if (codePoint < 0x110000) {
if ((units -= 4) < 0) break
bytes.push(
codePoint >> 0x12 | 0xF0,
codePoint >> 0xC & 0x3F | 0x80,
codePoint >> 0x6 & 0x3F | 0x80,
codePoint & 0x3F | 0x80
)
} else {
throw new Error('Invalid code point')
}
}
return bytes
}
function asciiToBytes (str) {
var byteArray = []
for (var i = 0; i < str.length; ++i) {
// Node's code seems to be doing this and not & 0x7F..
byteArray.push(str.charCodeAt(i) & 0xFF)
}
return byteArray
}
function utf16leToBytes (str, units) {
var c, hi, lo
var byteArray = []
for (var i = 0; i < str.length; ++i) {
if ((units -= 2) < 0) break
c = str.charCodeAt(i)
hi = c >> 8
lo = c % 256
byteArray.push(lo)
byteArray.push(hi)
}
return byteArray
}
function base64ToBytes (str) {
return base64.toByteArray(base64clean(str))
}
function blitBuffer (src, dst, offset, length) {
for (var i = 0; i < length; ++i) {
if ((i + offset >= dst.length) || (i >= src.length)) break
dst[i + offset] = src[i]
}
return i
}
// ArrayBuffer or Uint8Array objects from other contexts (i.e. iframes) do not pass
// the `instanceof` check but they should be treated as of that type.
// See: https://github.com/feross/buffer/issues/166
function isInstance (obj, type) {
return obj instanceof type ||
(obj != null && obj.constructor != null && obj.constructor.name != null &&
obj.constructor.name === type.name)
}
function numberIsNaN (obj) {
// For IE11 support
return obj !== obj // eslint-disable-line no-self-compare
}
},{"base64-js":12,"ieee754":17}],15:[function(require,module,exports){
(function (Buffer){
// Copyright Joyent, Inc. and other Node contributors.
//
// 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.
// NOTE: These type checking functions intentionally don't use `instanceof`
// because it is fragile and can be easily faked with `Object.create()`.
function isArray(arg) {
if (Array.isArray) {
return Array.isArray(arg);
}
return objectToString(arg) === '[object Array]';
}
exports.isArray = isArray;
function isBoolean(arg) {
return typeof arg === 'boolean';
}
exports.isBoolean = isBoolean;
function isNull(arg) {
return arg === null;
}
exports.isNull = isNull;
function isNullOrUndefined(arg) {
return arg == null;
}
exports.isNullOrUndefined = isNullOrUndefined;
function isNumber(arg) {
return typeof arg === 'number';
}
exports.isNumber = isNumber;
function isString(arg) {
return typeof arg === 'string';
}
exports.isString = isString;
function isSymbol(arg) {
return typeof arg === 'symbol';
}
exports.isSymbol = isSymbol;
function isUndefined(arg) {
return arg === void 0;
}
exports.isUndefined = isUndefined;
function isRegExp(re) {
return objectToString(re) === '[object RegExp]';
}
exports.isRegExp = isRegExp;
function isObject(arg) {
return typeof arg === 'object' && arg !== null;
}
exports.isObject = isObject;
function isDate(d) {
return objectToString(d) === '[object Date]';
}
exports.isDate = isDate;
function isError(e) {
return (objectToString(e) === '[object Error]' || e instanceof Error);
}
exports.isError = isError;
function isFunction(arg) {
return typeof arg === 'function';
}
exports.isFunction = isFunction;
function isPrimitive(arg) {
return arg === null ||
typeof arg === 'boolean' ||
typeof arg === 'number' ||
typeof arg === 'string' ||
typeof arg === 'symbol' || // ES6 symbol
typeof arg === 'undefined';
}
exports.isPrimitive = isPrimitive;
exports.isBuffer = Buffer.isBuffer;
function objectToString(o) {
return Object.prototype.toString.call(o);
}
}).call(this,{"isBuffer":require("../../is-buffer/index.js")})
},{"../../is-buffer/index.js":19}],16:[function(require,module,exports){
// Copyright Joyent, Inc. and other Node contributors.
//
// 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 objectCreate = Object.create || objectCreatePolyfill
var objectKeys = Object.keys || objectKeysPolyfill
var bind = Function.prototype.bind || functionBindPolyfill
function EventEmitter() {
if (!this._events || !Object.prototype.hasOwnProperty.call(this, '_events')) {
this._events = objectCreate(null);
this._eventsCount = 0;
}
this._maxListeners = this._maxListeners || undefined;
}
module.exports = EventEmitter;
// Backwards-compat with node 0.10.x
EventEmitter.EventEmitter = EventEmitter;
EventEmitter.prototype._events = undefined;
EventEmitter.prototype._maxListeners = undefined;
// By default EventEmitters will print a warning if more than 10 listeners are
// added to it. This is a useful default which helps finding memory leaks.
var defaultMaxListeners = 10;
var hasDefineProperty;
try {
var o = {};
if (Object.defineProperty) Object.defineProperty(o, 'x', { value: 0 });
hasDefineProperty = o.x === 0;
} catch (err) { hasDefineProperty = false }
if (hasDefineProperty) {
Object.defineProperty(EventEmitter, 'defaultMaxListeners', {
enumerable: true,
get: function() {
return defaultMaxListeners;
},
set: function(arg) {
// check whether the input is a positive number (whose value is zero or
// greater and not a NaN).
if (typeof arg !== 'number' || arg < 0 || arg !== arg)
throw new TypeError('"defaultMaxListeners" must be a positive number');
defaultMaxListeners = arg;
}
});
} else {
EventEmitter.defaultMaxListeners = defaultMaxListeners;
}
// Obviously not all Emitters should be limited to 10. This function allows
// that to be increased. Set to zero for unlimited.
EventEmitter.prototype.setMaxListeners = function setMaxListeners(n) {
if (typeof n !== 'number' || n < 0 || isNaN(n))
throw new TypeError('"n" argument must be a positive number');
this._maxListeners = n;
return this;
};
function $getMaxListeners(that) {
if (that._maxListeners === undefined)
return EventEmitter.defaultMaxListeners;
return that._maxListeners;
}
EventEmitter.prototype.getMaxListeners = function getMaxListeners() {
return $getMaxListeners(this);
};
// These standalone emit* functions are used to optimize calling of event
// handlers for fast cases because emit() itself often has a variable number of
// arguments and can be deoptimized because of that. These functions always have
// the same number of arguments and thus do not get deoptimized, so the code
// inside them can execute faster.
function emitNone(handler, isFn, self) {
if (isFn)
handler.call(self);
else {
var len = handler.length;
var listeners = arrayClone(handler, len);
for (var i = 0; i < len; ++i)
listeners[i].call(self);
}
}
function emitOne(handler, isFn, self, arg1) {
if (isFn)
handler.call(self, arg1);
else {
var len = handler.length;
var listeners = arrayClone(handler, len);
for (var i = 0; i < len; ++i)
listeners[i].call(self, arg1);
}
}
function emitTwo(handler, isFn, self, arg1, arg2) {
if (isFn)
handler.call(self, arg1, arg2);
else {
var len = handler.length;
var listeners = arrayClone(handler, len);
for (var i = 0; i < len; ++i)
listeners[i].call(self, arg1, arg2);
}
}
function emitThree(handler, isFn, self, arg1, arg2, arg3) {
if (isFn)
handler.call(self, arg1, arg2, arg3);
else {
var len = handler.length;
var listeners = arrayClone(handler, len);
for (var i = 0; i < len; ++i)
listeners[i].call(self, arg1, arg2, arg3);
}
}
function emitMany(handler, isFn, self, args) {
if (isFn)
handler.apply(self, args);
else {
var len = handler.length;
var listeners = arrayClone(handler, len);
for (var i = 0; i < len; ++i)
listeners[i].apply(self, args);
}
}
EventEmitter.prototype.emit = function emit(type) {
var er, handler, len, args, i, events;
var doError = (type === 'error');
events = this._events;
if (events)
doError = (doError && events.error == null);
else if (!doError)
return false;
// If there is no 'error' event listener then throw.
if (doError) {
if (arguments.length > 1)
er = arguments[1];
if (er instanceof Error) {
throw er; // Unhandled 'error' event
} else {
// At least give some kind of context to the user
var err = new Error('Unhandled "error" event. (' + er + ')');
err.context = er;
throw err;
}
return false;
}
handler = events[type];
if (!handler)
return false;
var isFn = typeof handler === 'function';
len = arguments.length;
switch (len) {
// fast cases
case 1:
emitNone(handler, isFn, this);
break;
case 2:
emitOne(handler, isFn, this, arguments[1]);
break;
case 3:
emitTwo(handler, isFn, this, arguments[1], arguments[2]);
break;
case 4:
emitThree(handler, isFn, this, arguments[1], arguments[2], arguments[3]);
break;
// slower
default:
args = new Array(len - 1);
for (i = 1; i < len; i++)
args[i - 1] = arguments[i];
emitMany(handler, isFn, this, args);
}
return true;
};
function _addListener(target, type, listener, prepend) {
var m;
var events;
var existing;
if (typeof listener !== 'function')
throw new TypeError('"listener" argument must be a function');
events = target._events;
if (!events) {
events = target._events = objectCreate(null);
target._eventsCount = 0;
} else {
// To avoid recursion in the case that type === "newListener"! Before
// adding it to the listeners, first emit "newListener".
if (events.newListener) {
target.emit('newListener', type,
listener.listener ? listener.listener : listener);
// Re-assign `events` because a newListener handler could have caused the
// this._events to be assigned to a new object
events = target._events;
}
existing = events[type];
}
if (!existing) {
// Optimize the case of one listener. Don't need the extra array object.
existing = events[type] = listener;
++target._eventsCount;
} else {
if (typeof existing === 'function') {
// Adding the second element, need to change to array.
existing = events[type] =
prepend ? [listener, existing] : [existing, listener];
} else {
// If we've already got an array, just append.
if (prepend) {
existing.unshift(listener);
} else {
existing.push(listener);
}
}
// Check for listener leak
if (!existing.warned) {
m = $getMaxListeners(target);
if (m && m > 0 && existing.length > m) {
existing.warned = true;
var w = new Error('Possible EventEmitter memory leak detected. ' +
existing.length + ' "' + String(type) + '" listeners ' +
'added. Use emitter.setMaxListeners() to ' +
'increase limit.');
w.name = 'MaxListenersExceededWarning';
w.emitter = target;
w.type = type;
w.count = existing.length;
if (typeof console === 'object' && console.warn) {
console.warn('%s: %s', w.name, w.message);
}
}
}
}
return target;
}
EventEmitter.prototype.addListener = function addListener(type, listener) {
return _addListener(this, type, listener, false);
};
EventEmitter.prototype.on = EventEmitter.prototype.addListener;
EventEmitter.prototype.prependListener =
function prependListener(type, listener) {
return _addListener(this, type, listener, true);
};
function onceWrapper() {
if (!this.fired) {
this.target.removeListener(this.type, this.wrapFn);
this.fired = true;
switch (arguments.length) {
case 0:
return this.listener.call(this.target);
case 1:
return this.listener.call(this.target, arguments[0]);
case 2:
return this.listener.call(this.target, arguments[0], arguments[1]);
case 3:
return this.listener.call(this.target, arguments[0], arguments[1],
arguments[2]);
default:
var args = new Array(arguments.length);
for (var i = 0; i < args.length; ++i)
args[i] = arguments[i];
this.listener.apply(this.target, args);
}
}
}
function _onceWrap(target, type, listener) {
var state = { fired: false, wrapFn: undefined, target: target, type: type, listener: listener };
var wrapped = bind.call(onceWrapper, state);
wrapped.listener = listener;
state.wrapFn = wrapped;
return wrapped;
}
EventEmitter.prototype.once = function once(type, listener) {
if (typeof listener !== 'function')
throw new TypeError('"listener" argument must be a function');
this.on(type, _onceWrap(this, type, listener));
return this;
};
EventEmitter.prototype.prependOnceListener =
function prependOnceListener(type, listener) {
if (typeof listener !== 'function')
throw new TypeError('"listener" argument must be a function');
this.prependListener(type, _onceWrap(this, type, listener));
return this;
};
// Emits a 'removeListener' event if and only if the listener was removed.
EventEmitter.prototype.removeListener =
function removeListener(type, listener) {
var list, events, position, i, originalListener;
if (typeof listener !== 'function')
throw new TypeError('"listener" argument must be a function');
events = this._events;
if (!events)
return this;
list = events[type];
if (!list)
return this;
if (list === listener || list.listener === listener) {
if (--this._eventsCount === 0)
this._events = objectCreate(null);
else {
delete events[type];
if (events.removeListener)
this.emit('removeListener', type, list.listener || listener);
}
} else if (typeof list !== 'function') {
position = -1;
for (i = list.length - 1; i >= 0; i--) {
if (list[i] === listener || list[i].listener === listener) {
originalListener = list[i].listener;
position = i;
break;
}
}
if (position < 0)
return this;
if (position === 0)
list.shift();
else
spliceOne(list, position);
if (list.length === 1)
events[type] = list[0];
if (events.removeListener)
this.emit('removeListener', type, originalListener || listener);
}
return this;
};
EventEmitter.prototype.removeAllListeners =
function removeAllListeners(type) {
var listeners, events, i;
events = this._events;
if (!events)
return this;
// not listening for removeListener, no need to emit
if (!events.removeListener) {
if (arguments.length === 0) {
this._events = objectCreate(null);
this._eventsCount = 0;
} else if (events[type]) {
if (--this._eventsCount === 0)
this._events = objectCreate(null);
else
delete events[type];
}
return this;
}
// emit removeListener for all listeners on all events
if (arguments.length === 0) {
var keys = objectKeys(events);
var key;
for (i = 0; i < keys.length; ++i) {
key = keys[i];
if (key === 'removeListener') continue;
this.removeAllListeners(key);
}
this.removeAllListeners('removeListener');
this._events = objectCreate(null);
this._eventsCount = 0;
return this;
}
listeners = events[type];
if (typeof listeners === 'function') {
this.removeListener(type, listeners);
} else if (listeners) {
// LIFO order
for (i = listeners.length - 1; i >= 0; i--) {
this.removeListener(type, listeners[i]);
}
}
return this;
};
function _listeners(target, type, unwrap) {
var events = target._events;
if (!events)
return [];
var evlistener = events[type];
if (!evlistener)
return [];
if (typeof evlistener === 'function')
return unwrap ? [evlistener.listener || evlistener] : [evlistener];
return unwrap ? unwrapListeners(evlistener) : arrayClone(evlistener, evlistener.length);
}
EventEmitter.prototype.listeners = function listeners(type) {
return _listeners(this, type, true);
};
EventEmitter.prototype.rawListeners = function rawListeners(type) {
return _listeners(this, type, false);
};
EventEmitter.listenerCount = function(emitter, type) {
if (typeof emitter.listenerCount === 'function') {
return emitter.listenerCount(type);
} else {
return listenerCount.call(emitter, type);
}
};
EventEmitter.prototype.listenerCount = listenerCount;
function listenerCount(type) {
var events = this._events;
if (events) {
var evlistener = events[type];
if (typeof evlistener === 'function') {
return 1;
} else if (evlistener) {
return evlistener.length;
}
}
return 0;
}
EventEmitter.prototype.eventNames = function eventNames() {
return this._eventsCount > 0 ? Reflect.ownKeys(this._events) : [];
};
// About 1.5x faster than the two-arg version of Array#splice().
function spliceOne(list, index) {
for (var i = index, k = i + 1, n = list.length; k < n; i += 1, k += 1)
list[i] = list[k];
list.pop();
}
function arrayClone(arr, n) {
var copy = new Array(n);
for (var i = 0; i < n; ++i)
copy[i] = arr[i];
return copy;
}
function unwrapListeners(arr) {
var ret = new Array(arr.length);
for (var i = 0; i < ret.length; ++i) {
ret[i] = arr[i].listener || arr[i];
}
return ret;
}
function objectCreatePolyfill(proto) {
var F = function() {};
F.prototype = proto;
return new F;
}
function objectKeysPolyfill(obj) {
var keys = [];
for (var k in obj) if (Object.prototype.hasOwnProperty.call(obj, k)) {
keys.push(k);
}
return k;
}
function functionBindPolyfill(context) {
var fn = this;
return function () {
return fn.apply(context, arguments);
};
}
},{}],17:[function(require,module,exports){
exports.read = function (buffer, offset, isLE, mLen, nBytes) {
var e, m
var eLen = (nBytes * 8) - mLen - 1
var eMax = (1 << eLen) - 1
var eBias = eMax >> 1
var nBits = -7
var i = isLE ? (nBytes - 1) : 0
var d = isLE ? -1 : 1
var s = buffer[offset + i]
i += d
e = s & ((1 << (-nBits)) - 1)
s >>= (-nBits)
nBits += eLen
for (; nBits > 0; e = (e * 256) + buffer[offset + i], i += d, nBits -= 8) {}
m = e & ((1 << (-nBits)) - 1)
e >>= (-nBits)
nBits += mLen
for (; nBits > 0; m = (m * 256) + buffer[offset + i], i += d, nBits -= 8) {}
if (e === 0) {
e = 1 - eBias
} else if (e === eMax) {
return m ? NaN : ((s ? -1 : 1) * Infinity)
} else {
m = m + Math.pow(2, mLen)
e = e - eBias
}
return (s ? -1 : 1) * m * Math.pow(2, e - mLen)
}
exports.write = function (buffer, value, offset, isLE, mLen, nBytes) {
var e, m, c
var eLen = (nBytes * 8) - mLen - 1
var eMax = (1 << eLen) - 1
var eBias = eMax >> 1
var rt = (mLen === 23 ? Math.pow(2, -24) - Math.pow(2, -77) : 0)
var i = isLE ? 0 : (nBytes - 1)
var d = isLE ? 1 : -1
var s = value < 0 || (value === 0 && 1 / value < 0) ? 1 : 0
value = Math.abs(value)
if (isNaN(value) || value === Infinity) {
m = isNaN(value) ? 1 : 0
e = eMax
} else {
e = Math.floor(Math.log(value) / Math.LN2)
if (value * (c = Math.pow(2, -e)) < 1) {
e--
c *= 2
}
if (e + eBias >= 1) {
value += rt / c
} else {
value += rt * Math.pow(2, 1 - eBias)
}
if (value * c >= 2) {
e++
c /= 2
}
if (e + eBias >= eMax) {
m = 0
e = eMax
} else if (e + eBias >= 1) {
m = ((value * c) - 1) * Math.pow(2, mLen)
e = e + eBias
} else {
m = value * Math.pow(2, eBias - 1) * Math.pow(2, mLen)
e = 0
}
}
for (; mLen >= 8; buffer[offset + i] = m & 0xff, i += d, m /= 256, mLen -= 8) {}
e = (e << mLen) | m
eLen += mLen
for (; eLen > 0; buffer[offset + i] = e & 0xff, i += d, e /= 256, eLen -= 8) {}
buffer[offset + i - d] |= s * 128
}
},{}],18:[function(require,module,exports){
if (typeof Object.create === 'function') {
// implementation from standard node.js 'util' module
module.exports = function inherits(ctor, superCtor) {
ctor.super_ = superCtor
ctor.prototype = Object.create(superCtor.prototype, {
constructor: {
value: ctor,
enumerable: false,
writable: true,
configurable: true
}
});
};
} else {
// old school shim for old browsers
module.exports = function inherits(ctor, superCtor) {
ctor.super_ = superCtor
var TempCtor = function () {}
TempCtor.prototype = superCtor.prototype
ctor.prototype = new TempCtor()
ctor.prototype.constructor = ctor
}
}
},{}],19:[function(require,module,exports){
/*!
* Determine if an object is a Buffer
*
* @author Feross Aboukhadijeh <https://feross.org>
* @license MIT
*/
// The _isBuffer check is for Safari 5-7 support, because it's missing
// Object.prototype.constructor. Remove this eventually
module.exports = function (obj) {
return obj != null && (isBuffer(obj) || isSlowBuffer(obj) || !!obj._isBuffer)
}
function isBuffer (obj) {
return !!obj.constructor && typeof obj.constructor.isBuffer === 'function' && obj.constructor.isBuffer(obj)
}
// For Node v0.10 support. Remove this eventually.
function isSlowBuffer (obj) {
return typeof obj.readFloatLE === 'function' && typeof obj.slice === 'function' && isBuffer(obj.slice(0, 0))
}
},{}],20:[function(require,module,exports){
var toString = {}.toString;
module.exports = Array.isArray || function (arr) {
return toString.call(arr) == '[object Array]';
};
},{}],21:[function(require,module,exports){
(function (process){
'use strict';
if (!process.version ||
process.version.indexOf('v0.') === 0 ||
process.version.indexOf('v1.') === 0 && process.version.indexOf('v1.8.') !== 0) {
module.exports = { nextTick: nextTick };
} else {
module.exports = process
}
function nextTick(fn, arg1, arg2, arg3) {
if (typeof fn !== 'function') {
throw new TypeError('"callback" argument must be a function');
}
var len = arguments.length;
var args, i;
switch (len) {
case 0:
case 1:
return process.nextTick(fn);
case 2:
return process.nextTick(function afterTickOne() {
fn.call(null, arg1);
});
case 3:
return process.nextTick(function afterTickTwo() {
fn.call(null, arg1, arg2);
});
case 4:
return process.nextTick(function afterTickThree() {
fn.call(null, arg1, arg2, arg3);
});
default:
args = new Array(len - 1);
i = 0;
while (i < args.length) {
args[i++] = arguments[i];
}
return process.nextTick(function afterTick() {
fn.apply(null, args);
});
}
}
}).call(this,require('_process'))
},{"_process":22}],22:[function(require,module,exports){
// shim for using process in browser
var process = module.exports = {};
// cached from whatever global is present so that test runners that stub it
// don't break things. But we need to wrap it in a try catch in case it is
// wrapped in strict mode code which doesn't define any globals. It's inside a
// function because try/catches deoptimize in certain engines.
var cachedSetTimeout;
var cachedClearTimeout;
function defaultSetTimout() {
throw new Error('setTimeout has not been defined');
}
function defaultClearTimeout () {
throw new Error('clearTimeout has not been defined');
}
(function () {
try {
if (typeof setTimeout === 'function') {
cachedSetTimeout = setTimeout;
} else {
cachedSetTimeout = defaultSetTimout;
}
} catch (e) {
cachedSetTimeout = defaultSetTimout;
}
try {
if (typeof clearTimeout === 'function') {
cachedClearTimeout = clearTimeout;
} else {
cachedClearTimeout = defaultClearTimeout;
}
} catch (e) {
cachedClearTimeout = defaultClearTimeout;
}
} ())
function runTimeout(fun) {
if (cachedSetTimeout === setTimeout) {
//normal enviroments in sane situations
return setTimeout(fun, 0);
}
// if setTimeout wasn't available but was latter defined
if ((cachedSetTimeout === defaultSetTimout || !cachedSetTimeout) && setTimeout) {
cachedSetTimeout = setTimeout;
return setTimeout(fun, 0);
}
try {
// when when somebody has screwed with setTimeout but no I.E. maddness
return cachedSetTimeout(fun, 0);
} catch(e){
try {
// When we are in I.E. but the script has been evaled so I.E. doesn't trust the global object when called normally
return cachedSetTimeout.call(null, fun, 0);
} catch(e){
// same as above but when it's a version of I.E. that must have the global object for 'this', hopfully our context correct otherwise it will throw a global error
return cachedSetTimeout.call(this, fun, 0);
}
}
}
function runClearTimeout(marker) {
if (cachedClearTimeout === clearTimeout) {
//normal enviroments in sane situations
return clearTimeout(marker);
}
// if clearTimeout wasn't available but was latter defined
if ((cachedClearTimeout === defaultClearTimeout || !cachedClearTimeout) && clearTimeout) {
cachedClearTimeout = clearTimeout;
return clearTimeout(marker);
}
try {
// when when somebody has screwed with setTimeout but no I.E. maddness
return cachedClearTimeout(marker);
} catch (e){
try {
// When we are in I.E. but the script has been evaled so I.E. doesn't trust the global object when called normally
return cachedClearTimeout.call(null, marker);
} catch (e){
// same as above but when it's a version of I.E. that must have the global object for 'this', hopfully our context correct otherwise it will throw a global error.
// Some versions of I.E. have different rules for clearTimeout vs setTimeout
return cachedClearTimeout.call(this, marker);
}
}
}
var queue = [];
var draining = false;
var currentQueue;
var queueIndex = -1;
function cleanUpNextTick() {
if (!draining || !currentQueue) {
return;
}
draining = false;
if (currentQueue.length) {
queue = currentQueue.concat(queue);
} else {
queueIndex = -1;
}
if (queue.length) {
drainQueue();
}
}
function drainQueue() {
if (draining) {
return;
}
var timeout = runTimeout(cleanUpNextTick);
draining = true;
var len = queue.length;
while(len) {
currentQueue = queue;
queue = [];
while (++queueIndex < len) {
if (currentQueue) {
currentQueue[queueIndex].run();
}
}
queueIndex = -1;
len = queue.length;
}
currentQueue = null;
draining = false;
runClearTimeout(timeout);
}
process.nextTick = function (fun) {
var args = new Array(arguments.length - 1);
if (arguments.length > 1) {
for (var i = 1; i < arguments.length; i++) {
args[i - 1] = arguments[i];
}
}
queue.push(new Item(fun, args));
if (queue.length === 1 && !draining) {
runTimeout(drainQueue);
}
};
// v8 likes predictible objects
function Item(fun, array) {
this.fun = fun;
this.array = array;
}
Item.prototype.run = function () {
this.fun.apply(null, this.array);
};
process.title = 'browser';
process.browser = true;
process.env = {};
process.argv = [];
process.version = ''; // empty string to avoid regexp issues
process.versions = {};
function noop() {}
process.on = noop;
process.addListener = noop;
process.once = noop;
process.off = noop;
process.removeListener = noop;
process.removeAllListeners = noop;
process.emit = noop;
process.prependListener = noop;
process.prependOnceListener = noop;
process.listeners = function (name) { return [] }
process.binding = function (name) {
throw new Error('process.binding is not supported');
};
process.cwd = function () { return '/' };
process.chdir = function (dir) {
throw new Error('process.chdir is not supported');
};
process.umask = function() { return 0; };
},{}],23:[function(require,module,exports){
module.exports = require('./lib/_stream_duplex.js');
},{"./lib/_stream_duplex.js":24}],24:[function(require,module,exports){
// Copyright Joyent, Inc. and other Node contributors.
//
// 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.
// a duplex stream is just a stream that is both readable and writable.
// Since JS doesn't have multiple prototypal inheritance, this class
// prototypally inherits from Readable, and then parasitically from
// Writable.
'use strict';
/*<replacement>*/
var pna = require('process-nextick-args');
/*</replacement>*/
/*<replacement>*/
var objectKeys = Object.keys || function (obj) {
var keys = [];
for (var key in obj) {
keys.push(key);
}return keys;
};
/*</replacement>*/
module.exports = Duplex;
/*<replacement>*/
var util = require('core-util-is');
util.inherits = require('inherits');
/*</replacement>*/
var Readable = require('./_stream_readable');
var Writable = require('./_stream_writable');
util.inherits(Duplex, Readable);
{
// avoid scope creep, the keys array can then be collected
var keys = objectKeys(Writable.prototype);
for (var v = 0; v < keys.length; v++) {
var method = keys[v];
if (!Duplex.prototype[method]) Duplex.prototype[method] = Writable.prototype[method];
}
}
function Duplex(options) {
if (!(this instanceof Duplex)) return new Duplex(options);
Readable.call(this, options);
Writable.call(this, options);
if (options && options.readable === false) this.readable = false;
if (options && options.writable === false) this.writable = false;
this.allowHalfOpen = true;
if (options && options.allowHalfOpen === false) this.allowHalfOpen = false;
this.once('end', onend);
}
Object.defineProperty(Duplex.prototype, 'writableHighWaterMark', {
// making it explicit this property is not enumerable
// because otherwise some prototype manipulation in
// userland will fail
enumerable: false,
get: function () {
return this._writableState.highWaterMark;
}
});
// the no-half-open enforcer
function onend() {
// if we allow half-open state, or if the writable side ended,
// then we're ok.
if (this.allowHalfOpen || this._writableState.ended) return;
// no more data can be written.
// But allow more writes to happen in this tick.
pna.nextTick(onEndNT, this);
}
function onEndNT(self) {
self.end();
}
Object.defineProperty(Duplex.prototype, 'destroyed', {
get: function () {
if (this._readableState === undefined || this._writableState === undefined) {
return false;
}
return this._readableState.destroyed && this._writableState.destroyed;
},
set: function (value) {
// we ignore the value if the stream
// has not been initialized yet
if (this._readableState === undefined || this._writableState === undefined) {
return;
}
// backward compatibility, the user is explicitly
// managing destroyed
this._readableState.destroyed = value;
this._writableState.destroyed = value;
}
});
Duplex.prototype._destroy = function (err, cb) {
this.push(null);
this.end();
pna.nextTick(cb, err);
};
},{"./_stream_readable":26,"./_stream_writable":28,"core-util-is":15,"inherits":18,"process-nextick-args":21}],25:[function(require,module,exports){
// Copyright Joyent, Inc. and other Node contributors.
//
// 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.
// a passthrough stream.
// basically just the most minimal sort of Transform stream.
// Every written chunk gets output as-is.
'use strict';
module.exports = PassThrough;
var Transform = require('./_stream_transform');
/*<replacement>*/
var util = require('core-util-is');
util.inherits = require('inherits');
/*</replacement>*/
util.inherits(PassThrough, Transform);
function PassThrough(options) {
if (!(this instanceof PassThrough)) return new PassThrough(options);
Transform.call(this, options);
}
PassThrough.prototype._transform = function (chunk, encoding, cb) {
cb(null, chunk);
};
},{"./_stream_transform":27,"core-util-is":15,"inherits":18}],26:[function(require,module,exports){
(function (process,global){
// Copyright Joyent, Inc. and other Node contributors.
//
// 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.
'use strict';
/*<replacement>*/
var pna = require('process-nextick-args');
/*</replacement>*/
module.exports = Readable;
/*<replacement>*/
var isArray = require('isarray');
/*</replacement>*/
/*<replacement>*/
var Duplex;
/*</replacement>*/
Readable.ReadableState = ReadableState;
/*<replacement>*/
var EE = require('events').EventEmitter;
var EElistenerCount = function (emitter, type) {
return emitter.listeners(type).length;
};
/*</replacement>*/
/*<replacement>*/
var Stream = require('./internal/streams/stream');
/*</replacement>*/
/*<replacement>*/
var Buffer = require('safe-buffer').Buffer;
var OurUint8Array = global.Uint8Array || function () {};
function _uint8ArrayToBuffer(chunk) {
return Buffer.from(chunk);
}
function _isUint8Array(obj) {
return Buffer.isBuffer(obj) || obj instanceof OurUint8Array;
}
/*</replacement>*/
/*<replacement>*/
var util = require('core-util-is');
util.inherits = require('inherits');
/*</replacement>*/
/*<replacement>*/
var debugUtil = require('util');
var debug = void 0;
if (debugUtil && debugUtil.debuglog) {
debug = debugUtil.debuglog('stream');
} else {
debug = function () {};
}
/*</replacement>*/
var BufferList = require('./internal/streams/BufferList');
var destroyImpl = require('./internal/streams/destroy');
var StringDecoder;
util.inherits(Readable, Stream);
var kProxyEvents = ['error', 'close', 'destroy', 'pause', 'resume'];
function prependListener(emitter, event, fn) {
// Sadly this is not cacheable as some libraries bundle their own
// event emitter implementation with them.
if (typeof emitter.prependListener === 'function') return emitter.prependListener(event, fn);
// This is a hack to make sure that our error handler is attached before any
// userland ones. NEVER DO THIS. This is here only because this code needs
// to continue to work with older versions of Node.js that do not include
// the prependListener() method. The goal is to eventually remove this hack.
if (!emitter._events || !emitter._events[event]) emitter.on(event, fn);else if (isArray(emitter._events[event])) emitter._events[event].unshift(fn);else emitter._events[event] = [fn, emitter._events[event]];
}
function ReadableState(options, stream) {
Duplex = Duplex || require('./_stream_duplex');
options = options || {};
// Duplex streams are both readable and writable, but share
// the same options object.
// However, some cases require setting options to different
// values for the readable and the writable sides of the duplex stream.
// These options can be provided separately as readableXXX and writableXXX.
var isDuplex = stream instanceof Duplex;
// object stream flag. Used to make read(n) ignore n and to
// make all the buffer merging and length checks go away
this.objectMode = !!options.objectMode;
if (isDuplex) this.objectMode = this.objectMode || !!options.readableObjectMode;
// the point at which it stops calling _read() to fill the buffer
// Note: 0 is a valid value, means "don't call _read preemptively ever"
var hwm = options.highWaterMark;
var readableHwm = options.readableHighWaterMark;
var defaultHwm = this.objectMode ? 16 : 16 * 1024;
if (hwm || hwm === 0) this.highWaterMark = hwm;else if (isDuplex && (readableHwm || readableHwm === 0)) this.highWaterMark = readableHwm;else this.highWaterMark = defaultHwm;
// cast to ints.
this.highWaterMark = Math.floor(this.highWaterMark);
// A linked list is used to store data chunks instead of an array because the
// linked list can remove elements from the beginning faster than
// array.shift()
this.buffer = new BufferList();
this.length = 0;
this.pipes = null;
this.pipesCount = 0;
this.flowing = null;
this.ended = false;
this.endEmitted = false;
this.reading = false;
// a flag to be able to tell if the event 'readable'/'data' is emitted
// immediately, or on a later tick. We set this to true at first, because
// any actions that shouldn't happen until "later" should generally also
// not happen before the first read call.
this.sync = true;
// whenever we return null, then we set a flag to say
// that we're awaiting a 'readable' event emission.
this.needReadable = false;
this.emittedReadable = false;
this.readableListening = false;
this.resumeScheduled = false;
// has it been destroyed
this.destroyed = false;
// Crypto is kind of old and crusty. Historically, its default string
// encoding is 'binary' so we have to make this configurable.
// Everything else in the universe uses 'utf8', though.
this.defaultEncoding = options.defaultEncoding || 'utf8';
// the number of writers that are awaiting a drain event in .pipe()s
this.awaitDrain = 0;
// if true, a maybeReadMore has been scheduled
this.readingMore = false;
this.decoder = null;
this.encoding = null;
if (options.encoding) {
if (!StringDecoder) StringDecoder = require('string_decoder/').StringDecoder;
this.decoder = new StringDecoder(options.encoding);
this.encoding = options.encoding;
}
}
function Readable(options) {
Duplex = Duplex || require('./_stream_duplex');
if (!(this instanceof Readable)) return new Readable(options);
this._readableState = new ReadableState(options, this);
// legacy
this.readable = true;
if (options) {
if (typeof options.read === 'function') this._read = options.read;
if (typeof options.destroy === 'function') this._destroy = options.destroy;
}
Stream.call(this);
}
Object.defineProperty(Readable.prototype, 'destroyed', {
get: function () {
if (this._readableState === undefined) {
return false;
}
return this._readableState.destroyed;
},
set: function (value) {
// we ignore the value if the stream
// has not been initialized yet
if (!this._readableState) {
return;
}
// backward compatibility, the user is explicitly
// managing destroyed
this._readableState.destroyed = value;
}
});
Readable.prototype.destroy = destroyImpl.destroy;
Readable.prototype._undestroy = destroyImpl.undestroy;
Readable.prototype._destroy = function (err, cb) {
this.push(null);
cb(err);
};
// Manually shove something into the read() buffer.
// This returns true if the highWaterMark has not been hit yet,
// similar to how Writable.write() returns true if you should
// write() some more.
Readable.prototype.push = function (chunk, encoding) {
var state = this._readableState;
var skipChunkCheck;
if (!state.objectMode) {
if (typeof chunk === 'string') {
encoding = encoding || state.defaultEncoding;
if (encoding !== state.encoding) {
chunk = Buffer.from(chunk, encoding);
encoding = '';
}
skipChunkCheck = true;
}
} else {
skipChunkCheck = true;
}
return readableAddChunk(this, chunk, encoding, false, skipChunkCheck);
};
// Unshift should *always* be something directly out of read()
Readable.prototype.unshift = function (chunk) {
return readableAddChunk(this, chunk, null, true, false);
};
function readableAddChunk(stream, chunk, encoding, addToFront, skipChunkCheck) {
var state = stream._readableState;
if (chunk === null) {
state.reading = false;
onEofChunk(stream, state);
} else {
var er;
if (!skipChunkCheck) er = chunkInvalid(state, chunk);
if (er) {
stream.emit('error', er);
} else if (state.objectMode || chunk && chunk.length > 0) {
if (typeof chunk !== 'string' && !state.objectMode && Object.getPrototypeOf(chunk) !== Buffer.prototype) {
chunk = _uint8ArrayToBuffer(chunk);
}
if (addToFront) {
if (state.endEmitted) stream.emit('error', new Error('stream.unshift() after end event'));else addChunk(stream, state, chunk, true);
} else if (state.ended) {
stream.emit('error', new Error('stream.push() after EOF'));
} else {
state.reading = false;
if (state.decoder && !encoding) {
chunk = state.decoder.write(chunk);
if (state.objectMode || chunk.length !== 0) addChunk(stream, state, chunk, false);else maybeReadMore(stream, state);
} else {
addChunk(stream, state, chunk, false);
}
}
} else if (!addToFront) {
state.reading = false;
}
}
return needMoreData(state);
}
function addChunk(stream, state, chunk, addToFront) {
if (state.flowing && state.length === 0 && !state.sync) {
stream.emit('data', chunk);
stream.read(0);
} else {
// update the buffer info.
state.length += state.objectMode ? 1 : chunk.length;
if (addToFront) state.buffer.unshift(chunk);else state.buffer.push(chunk);
if (state.needReadable) emitReadable(stream);
}
maybeReadMore(stream, state);
}
function chunkInvalid(state, chunk) {
var er;
if (!_isUint8Array(chunk) && typeof chunk !== 'string' && chunk !== undefined && !state.objectMode) {
er = new TypeError('Invalid non-string/buffer chunk');
}
return er;
}
// if it's past the high water mark, we can push in some more.
// Also, if we have no data yet, we can stand some
// more bytes. This is to work around cases where hwm=0,
// such as the repl. Also, if the push() triggered a
// readable event, and the user called read(largeNumber) such that
// needReadable was set, then we ought to push more, so that another
// 'readable' event will be triggered.
function needMoreData(state) {
return !state.ended && (state.needReadable || state.length < state.highWaterMark || state.length === 0);
}
Readable.prototype.isPaused = function () {
return this._readableState.flowing === false;
};
// backwards compatibility.
Readable.prototype.setEncoding = function (enc) {
if (!StringDecoder) StringDecoder = require('string_decoder/').StringDecoder;
this._readableState.decoder = new StringDecoder(enc);
this._readableState.encoding = enc;
return this;
};
// Don't raise the hwm > 8MB
var MAX_HWM = 0x800000;
function computeNewHighWaterMark(n) {
if (n >= MAX_HWM) {
n = MAX_HWM;
} else {
// Get the next highest power of 2 to prevent increasing hwm excessively in
// tiny amounts
n--;
n |= n >>> 1;
n |= n >>> 2;
n |= n >>> 4;
n |= n >>> 8;
n |= n >>> 16;
n++;
}
return n;
}
// This function is designed to be inlinable, so please take care when making
// changes to the function body.
function howMuchToRead(n, state) {
if (n <= 0 || state.length === 0 && state.ended) return 0;
if (state.objectMode) return 1;
if (n !== n) {
// Only flow one buffer at a time
if (state.flowing && state.length) return state.buffer.head.data.length;else return state.length;
}
// If we're asking for more than the current hwm, then raise the hwm.
if (n > state.highWaterMark) state.highWaterMark = computeNewHighWaterMark(n);
if (n <= state.length) return n;
// Don't have enough
if (!state.ended) {
state.needReadable = true;
return 0;
}
return state.length;
}
// you can override either this method, or the async _read(n) below.
Readable.prototype.read = function (n) {
debug('read', n);
n = parseInt(n, 10);
var state = this._readableState;
var nOrig = n;
if (n !== 0) state.emittedReadable = false;
// if we're doing read(0) to trigger a readable event, but we
// already have a bunch of data in the buffer, then just trigger
// the 'readable' event and move on.
if (n === 0 && state.needReadable && (state.length >= state.highWaterMark || state.ended)) {
debug('read: emitReadable', state.length, state.ended);
if (state.length === 0 && state.ended) endReadable(this);else emitReadable(this);
return null;
}
n = howMuchToRead(n, state);
// if we've ended, and we're now clear, then finish it up.
if (n === 0 && state.ended) {
if (state.length === 0) endReadable(this);
return null;
}
// All the actual chunk generation logic needs to be
// *below* the call to _read. The reason is that in certain
// synthetic stream cases, such as passthrough streams, _read
// may be a completely synchronous operation which may change
// the state of the read buffer, providing enough data when
// before there was *not* enough.
//
// So, the steps are:
// 1. Figure out what the state of things will be after we do
// a read from the buffer.
//
// 2. If that resulting state will trigger a _read, then call _read.
// Note that this may be asynchronous, or synchronous. Yes, it is
// deeply ugly to write APIs this way, but that still doesn't mean
// that the Readable class should behave improperly, as streams are
// designed to be sync/async agnostic.
// Take note if the _read call is sync or async (ie, if the read call
// has returned yet), so that we know whether or not it's safe to emit
// 'readable' etc.
//
// 3. Actually pull the requested chunks out of the buffer and return.
// if we need a readable event, then we need to do some reading.
var doRead = state.needReadable;
debug('need readable', doRead);
// if we currently have less than the highWaterMark, then also read some
if (state.length === 0 || state.length - n < state.highWaterMark) {
doRead = true;
debug('length less than watermark', doRead);
}
// however, if we've ended, then there's no point, and if we're already
// reading, then it's unnecessary.
if (state.ended || state.reading) {
doRead = false;
debug('reading or ended', doRead);
} else if (doRead) {
debug('do read');
state.reading = true;
state.sync = true;
// if the length is currently zero, then we *need* a readable event.
if (state.length === 0) state.needReadable = true;
// call internal read method
this._read(state.highWaterMark);
state.sync = false;
// If _read pushed data synchronously, then `reading` will be false,
// and we need to re-evaluate how much data we can return to the user.
if (!state.reading) n = howMuchToRead(nOrig, state);
}
var ret;
if (n > 0) ret = fromList(n, state);else ret = null;
if (ret === null) {
state.needReadable = true;
n = 0;
} else {
state.length -= n;
}
if (state.length === 0) {
// If we have nothing in the buffer, then we want to know
// as soon as we *do* get something into the buffer.
if (!state.ended) state.needReadable = true;
// If we tried to read() past the EOF, then emit end on the next tick.
if (nOrig !== n && state.ended) endReadable(this);
}
if (ret !== null) this.emit('data', ret);
return ret;
};
function onEofChunk(stream, state) {
if (state.ended) return;
if (state.decoder) {
var chunk = state.decoder.end();
if (chunk && chunk.length) {
state.buffer.push(chunk);
state.length += state.objectMode ? 1 : chunk.length;
}
}
state.ended = true;
// emit 'readable' now to make sure it gets picked up.
emitReadable(stream);
}
// Don't emit readable right away in sync mode, because this can trigger
// another read() call => stack overflow. This way, it might trigger
// a nextTick recursion warning, but that's not so bad.
function emitReadable(stream) {
var state = stream._readableState;
state.needReadable = false;
if (!state.emittedReadable) {
debug('emitReadable', state.flowing);
state.emittedReadable = true;
if (state.sync) pna.nextTick(emitReadable_, stream);else emitReadable_(stream);
}
}
function emitReadable_(stream) {
debug('emit readable');
stream.emit('readable');
flow(stream);
}
// at this point, the user has presumably seen the 'readable' event,
// and called read() to consume some data. that may have triggered
// in turn another _read(n) call, in which case reading = true if
// it's in progress.
// However, if we're not ended, or reading, and the length < hwm,
// then go ahead and try to read some more preemptively.
function maybeReadMore(stream, state) {
if (!state.readingMore) {
state.readingMore = true;
pna.nextTick(maybeReadMore_, stream, state);
}
}
function maybeReadMore_(stream, state) {
var len = state.length;
while (!state.reading && !state.flowing && !state.ended && state.length < state.highWaterMark) {
debug('maybeReadMore read 0');
stream.read(0);
if (len === state.length)
// didn't get any data, stop spinning.
break;else len = state.length;
}
state.readingMore = false;
}
// abstract method. to be overridden in specific implementation classes.
// call cb(er, data) where data is <= n in length.
// for virtual (non-string, non-buffer) streams, "length" is somewhat
// arbitrary, and perhaps not very meaningful.
Readable.prototype._read = function (n) {
this.emit('error', new Error('_read() is not implemented'));
};
Readable.prototype.pipe = function (dest, pipeOpts) {
var src = this;
var state = this._readableState;
switch (state.pipesCount) {
case 0:
state.pipes = dest;
break;
case 1:
state.pipes = [state.pipes, dest];
break;
default:
state.pipes.push(dest);
break;
}
state.pipesCount += 1;
debug('pipe count=%d opts=%j', state.pipesCount, pipeOpts);
var doEnd = (!pipeOpts || pipeOpts.end !== false) && dest !== process.stdout && dest !== process.stderr;
var endFn = doEnd ? onend : unpipe;
if (state.endEmitted) pna.nextTick(endFn);else src.once('end', endFn);
dest.on('unpipe', onunpipe);
function onunpipe(readable, unpipeInfo) {
debug('onunpipe');
if (readable === src) {
if (unpipeInfo && unpipeInfo.hasUnpiped === false) {
unpipeInfo.hasUnpiped = true;
cleanup();
}
}
}
function onend() {
debug('onend');
dest.end();
}
// when the dest drains, it reduces the awaitDrain counter
// on the source. This would be more elegant with a .once()
// handler in flow(), but adding and removing repeatedly is
// too slow.
var ondrain = pipeOnDrain(src);
dest.on('drain', ondrain);
var cleanedUp = false;
function cleanup() {
debug('cleanup');
// cleanup event handlers once the pipe is broken
dest.removeListener('close', onclose);
dest.removeListener('finish', onfinish);
dest.removeListener('drain', ondrain);
dest.removeListener('error', onerror);
dest.removeListener('unpipe', onunpipe);
src.removeListener('end', onend);
src.removeListener('end', unpipe);
src.removeListener('data', ondata);
cleanedUp = true;
// if the reader is waiting for a drain event from this
// specific writer, then it would cause it to never start
// flowing again.
// So, if this is awaiting a drain, then we just call it now.
// If we don't know, then assume that we are waiting for one.
if (state.awaitDrain && (!dest._writableState || dest._writableState.needDrain)) ondrain();
}
// If the user pushes more data while we're writing to dest then we'll end up
// in ondata again. However, we only want to increase awaitDrain once because
// dest will only emit one 'drain' event for the multiple writes.
// => Introduce a guard on increasing awaitDrain.
var increasedAwaitDrain = false;
src.on('data', ondata);
function ondata(chunk) {
debug('ondata');
increasedAwaitDrain = false;
var ret = dest.write(chunk);
if (false === ret && !increasedAwaitDrain) {
// If the user unpiped during `dest.write()`, it is possible
// to get stuck in a permanently paused state if that write
// also returned false.
// => Check whether `dest` is still a piping destination.
if ((state.pipesCount === 1 && state.pipes === dest || state.pipesCount > 1 && indexOf(state.pipes, dest) !== -1) && !cleanedUp) {
debug('false write response, pause', src._readableState.awaitDrain);
src._readableState.awaitDrain++;
increasedAwaitDrain = true;
}
src.pause();
}
}
// if the dest has an error, then stop piping into it.
// however, don't suppress the throwing behavior for this.
function onerror(er) {
debug('onerror', er);
unpipe();
dest.removeListener('error', onerror);
if (EElistenerCount(dest, 'error') === 0) dest.emit('error', er);
}
// Make sure our error handler is attached before userland ones.
prependListener(dest, 'error', onerror);
// Both close and finish should trigger unpipe, but only once.
function onclose() {
dest.removeListener('finish', onfinish);
unpipe();
}
dest.once('close', onclose);
function onfinish() {
debug('onfinish');
dest.removeListener('close', onclose);
unpipe();
}
dest.once('finish', onfinish);
function unpipe() {
debug('unpipe');
src.unpipe(dest);
}
// tell the dest that it's being piped to
dest.emit('pipe', src);
// start the flow if it hasn't been started already.
if (!state.flowing) {
debug('pipe resume');
src.resume();
}
return dest;
};
function pipeOnDrain(src) {
return function () {
var state = src._readableState;
debug('pipeOnDrain', state.awaitDrain);
if (state.awaitDrain) state.awaitDrain--;
if (state.awaitDrain === 0 && EElistenerCount(src, 'data')) {
state.flowing = true;
flow(src);
}
};
}
Readable.prototype.unpipe = function (dest) {
var state = this._readableState;
var unpipeInfo = { hasUnpiped: false };
// if we're not piping anywhere, then do nothing.
if (state.pipesCount === 0) return this;
// just one destination. most common case.
if (state.pipesCount === 1) {
// passed in one, but it's not the right one.
if (dest && dest !== state.pipes) return this;
if (!dest) dest = state.pipes;
// got a match.
state.pipes = null;
state.pipesCount = 0;
state.flowing = false;
if (dest) dest.emit('unpipe', this, unpipeInfo);
return this;
}
// slow case. multiple pipe destinations.
if (!dest) {
// remove all.
var dests = state.pipes;
var len = state.pipesCount;
state.pipes = null;
state.pipesCount = 0;
state.flowing = false;
for (var i = 0; i < len; i++) {
dests[i].emit('unpipe', this, unpipeInfo);
}return this;
}
// try to find the right one.
var index = indexOf(state.pipes, dest);
if (index === -1) return this;
state.pipes.splice(index, 1);
state.pipesCount -= 1;
if (state.pipesCount === 1) state.pipes = state.pipes[0];
dest.emit('unpipe', this, unpipeInfo);
return this;
};
// set up data events if they are asked for
// Ensure readable listeners eventually get something
Readable.prototype.on = function (ev, fn) {
var res = Stream.prototype.on.call(this, ev, fn);
if (ev === 'data') {
// Start flowing on next tick if stream isn't explicitly paused
if (this._readableState.flowing !== false) this.resume();
} else if (ev === 'readable') {
var state = this._readableState;
if (!state.endEmitted && !state.readableListening) {
state.readableListening = state.needReadable = true;
state.emittedReadable = false;
if (!state.reading) {
pna.nextTick(nReadingNextTick, this);
} else if (state.length) {
emitReadable(this);
}
}
}
return res;
};
Readable.prototype.addListener = Readable.prototype.on;
function nReadingNextTick(self) {
debug('readable nexttick read 0');
self.read(0);
}
// pause() and resume() are remnants of the legacy readable stream API
// If the user uses them, then switch into old mode.
Readable.prototype.resume = function () {
var state = this._readableState;
if (!state.flowing) {
debug('resume');
state.flowing = true;
resume(this, state);
}
return this;
};
function resume(stream, state) {
if (!state.resumeScheduled) {
state.resumeScheduled = true;
pna.nextTick(resume_, stream, state);
}
}
function resume_(stream, state) {
if (!state.reading) {
debug('resume read 0');
stream.read(0);
}
state.resumeScheduled = false;
state.awaitDrain = 0;
stream.emit('resume');
flow(stream);
if (state.flowing && !state.reading) stream.read(0);
}
Readable.prototype.pause = function () {
debug('call pause flowing=%j', this._readableState.flowing);
if (false !== this._readableState.flowing) {
debug('pause');
this._readableState.flowing = false;
this.emit('pause');
}
return this;
};
function flow(stream) {
var state = stream._readableState;
debug('flow', state.flowing);
while (state.flowing && stream.read() !== null) {}
}
// wrap an old-style stream as the async data source.
// This is *not* part of the readable stream interface.
// It is an ugly unfortunate mess of history.
Readable.prototype.wrap = function (stream) {
var _this = this;
var state = this._readableState;
var paused = false;
stream.on('end', function () {
debug('wrapped end');
if (state.decoder && !state.ended) {
var chunk = state.decoder.end();
if (chunk && chunk.length) _this.push(chunk);
}
_this.push(null);
});
stream.on('data', function (chunk) {
debug('wrapped data');
if (state.decoder) chunk = state.decoder.write(chunk);
// don't skip over falsy values in objectMode
if (state.objectMode && (chunk === null || chunk === undefined)) return;else if (!state.objectMode && (!chunk || !chunk.length)) return;
var ret = _this.push(chunk);
if (!ret) {
paused = true;
stream.pause();
}
});
// proxy all the other methods.
// important when wrapping filters and duplexes.
for (var i in stream) {
if (this[i] === undefined && typeof stream[i] === 'function') {
this[i] = function (method) {
return function () {
return stream[method].apply(stream, arguments);
};
}(i);
}
}
// proxy certain important events.
for (var n = 0; n < kProxyEvents.length; n++) {
stream.on(kProxyEvents[n], this.emit.bind(this, kProxyEvents[n]));
}
// when we try to consume some more bytes, simply unpause the
// underlying stream.
this._read = function (n) {
debug('wrapped _read', n);
if (paused) {
paused = false;
stream.resume();
}
};
return this;
};
Object.defineProperty(Readable.prototype, 'readableHighWaterMark', {
// making it explicit this property is not enumerable
// because otherwise some prototype manipulation in
// userland will fail
enumerable: false,
get: function () {
return this._readableState.highWaterMark;
}
});
// exposed for testing purposes only.
Readable._fromList = fromList;
// Pluck off n bytes from an array of buffers.
// Length is the combined lengths of all the buffers in the list.
// This function is designed to be inlinable, so please take care when making
// changes to the function body.
function fromList(n, state) {
// nothing buffered
if (state.length === 0) return null;
var ret;
if (state.objectMode) ret = state.buffer.shift();else if (!n || n >= state.length) {
// read it all, truncate the list
if (state.decoder) ret = state.buffer.join('');else if (state.buffer.length === 1) ret = state.buffer.head.data;else ret = state.buffer.concat(state.length);
state.buffer.clear();
} else {
// read part of list
ret = fromListPartial(n, state.buffer, state.decoder);
}
return ret;
}
// Extracts only enough buffered data to satisfy the amount requested.
// This function is designed to be inlinable, so please take care when making
// changes to the function body.
function fromListPartial(n, list, hasStrings) {
var ret;
if (n < list.head.data.length) {
// slice is the same for buffers and strings
ret = list.head.data.slice(0, n);
list.head.data = list.head.data.slice(n);
} else if (n === list.head.data.length) {
// first chunk is a perfect match
ret = list.shift();
} else {
// result spans more than one buffer
ret = hasStrings ? copyFromBufferString(n, list) : copyFromBuffer(n, list);
}
return ret;
}
// Copies a specified amount of characters from the list of buffered data
// chunks.
// This function is designed to be inlinable, so please take care when making
// changes to the function body.
function copyFromBufferString(n, list) {
var p = list.head;
var c = 1;
var ret = p.data;
n -= ret.length;
while (p = p.next) {
var str = p.data;
var nb = n > str.length ? str.length : n;
if (nb === str.length) ret += str;else ret += str.slice(0, n);
n -= nb;
if (n === 0) {
if (nb === str.length) {
++c;
if (p.next) list.head = p.next;else list.head = list.tail = null;
} else {
list.head = p;
p.data = str.slice(nb);
}
break;
}
++c;
}
list.length -= c;
return ret;
}
// Copies a specified amount of bytes from the list of buffered data chunks.
// This function is designed to be inlinable, so please take care when making
// changes to the function body.
function copyFromBuffer(n, list) {
var ret = Buffer.allocUnsafe(n);
var p = list.head;
var c = 1;
p.data.copy(ret);
n -= p.data.length;
while (p = p.next) {
var buf = p.data;
var nb = n > buf.length ? buf.length : n;
buf.copy(ret, ret.length - n, 0, nb);
n -= nb;
if (n === 0) {
if (nb === buf.length) {
++c;
if (p.next) list.head = p.next;else list.head = list.tail = null;
} else {
list.head = p;
p.data = buf.slice(nb);
}
break;
}
++c;
}
list.length -= c;
return ret;
}
function endReadable(stream) {
var state = stream._readableState;
// If we get here before consuming all the bytes, then that is a
// bug in node. Should never happen.
if (state.length > 0) throw new Error('"endReadable()" called on non-empty stream');
if (!state.endEmitted) {
state.ended = true;
pna.nextTick(endReadableNT, state, stream);
}
}
function endReadableNT(state, stream) {
// Check that we didn't get one last unshift.
if (!state.endEmitted && state.length === 0) {
state.endEmitted = true;
stream.readable = false;
stream.emit('end');
}
}
function indexOf(xs, x) {
for (var i = 0, l = xs.length; i < l; i++) {
if (xs[i] === x) return i;
}
return -1;
}
}).call(this,require('_process'),typeof global !== "undefined" ? global : typeof self !== "undefined" ? self : typeof window !== "undefined" ? window : {})
},{"./_stream_duplex":24,"./internal/streams/BufferList":29,"./internal/streams/destroy":30,"./internal/streams/stream":31,"_process":22,"core-util-is":15,"events":16,"inherits":18,"isarray":20,"process-nextick-args":21,"safe-buffer":37,"string_decoder/":32,"util":13}],27:[function(require,module,exports){
// Copyright Joyent, Inc. and other Node contributors.
//
// 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.
// a transform stream is a readable/writable stream where you do
// something with the data. Sometimes it's called a "filter",
// but that's not a great name for it, since that implies a thing where
// some bits pass through, and others are simply ignored. (That would
// be a valid example of a transform, of course.)
//
// While the output is causally related to the input, it's not a
// necessarily symmetric or synchronous transformation. For example,
// a zlib stream might take multiple plain-text writes(), and then
// emit a single compressed chunk some time in the future.
//
// Here's how this works:
//
// The Transform stream has all the aspects of the readable and writable
// stream classes. When you write(chunk), that calls _write(chunk,cb)
// internally, and returns false if there's a lot of pending writes
// buffered up. When you call read(), that calls _read(n) until
// there's enough pending readable data buffered up.
//
// In a transform stream, the written data is placed in a buffer. When
// _read(n) is called, it transforms the queued up data, calling the
// buffered _write cb's as it consumes chunks. If consuming a single
// written chunk would result in multiple output chunks, then the first
// outputted bit calls the readcb, and subsequent chunks just go into
// the read buffer, and will cause it to emit 'readable' if necessary.
//
// This way, back-pressure is actually determined by the reading side,
// since _read has to be called to start processing a new chunk. However,
// a pathological inflate type of transform can cause excessive buffering
// here. For example, imagine a stream where every byte of input is
// interpreted as an integer from 0-255, and then results in that many
// bytes of output. Writing the 4 bytes {ff,ff,ff,ff} would result in
// 1kb of data being output. In this case, you could write a very small
// amount of input, and end up with a very large amount of output. In
// such a pathological inflating mechanism, there'd be no way to tell
// the system to stop doing the transform. A single 4MB write could
// cause the system to run out of memory.
//
// However, even in such a pathological case, only a single written chunk
// would be consumed, and then the rest would wait (un-transformed) until
// the results of the previous transformed chunk were consumed.
'use strict';
module.exports = Transform;
var Duplex = require('./_stream_duplex');
/*<replacement>*/
var util = require('core-util-is');
util.inherits = require('inherits');
/*</replacement>*/
util.inherits(Transform, Duplex);
function afterTransform(er, data) {
var ts = this._transformState;
ts.transforming = false;
var cb = ts.writecb;
if (!cb) {
return this.emit('error', new Error('write callback called multiple times'));
}
ts.writechunk = null;
ts.writecb = null;
if (data != null) // single equals check for both `null` and `undefined`
this.push(data);
cb(er);
var rs = this._readableState;
rs.reading = false;
if (rs.needReadable || rs.length < rs.highWaterMark) {
this._read(rs.highWaterMark);
}
}
function Transform(options) {
if (!(this instanceof Transform)) return new Transform(options);
Duplex.call(this, options);
this._transformState = {
afterTransform: afterTransform.bind(this),
needTransform: false,
transforming: false,
writecb: null,
writechunk: null,
writeencoding: null
};
// start out asking for a readable event once data is transformed.
this._readableState.needReadable = true;
// we have implemented the _read method, and done the other things
// that Readable wants before the first _read call, so unset the
// sync guard flag.
this._readableState.sync = false;
if (options) {
if (typeof options.transform === 'function') this._transform = options.transform;
if (typeof options.flush === 'function') this._flush = options.flush;
}
// When the writable side finishes, then flush out anything remaining.
this.on('prefinish', prefinish);
}
function prefinish() {
var _this = this;
if (typeof this._flush === 'function') {
this._flush(function (er, data) {
done(_this, er, data);
});
} else {
done(this, null, null);
}
}
Transform.prototype.push = function (chunk, encoding) {
this._transformState.needTransform = false;
return Duplex.prototype.push.call(this, chunk, encoding);
};
// This is the part where you do stuff!
// override this function in implementation classes.
// 'chunk' is an input chunk.
//
// Call `push(newChunk)` to pass along transformed output
// to the readable side. You may call 'push' zero or more times.
//
// Call `cb(err)` when you are done with this chunk. If you pass
// an error, then that'll put the hurt on the whole operation. If you
// never call cb(), then you'll never get another chunk.
Transform.prototype._transform = function (chunk, encoding, cb) {
throw new Error('_transform() is not implemented');
};
Transform.prototype._write = function (chunk, encoding, cb) {
var ts = this._transformState;
ts.writecb = cb;
ts.writechunk = chunk;
ts.writeencoding = encoding;
if (!ts.transforming) {
var rs = this._readableState;
if (ts.needTransform || rs.needReadable || rs.length < rs.highWaterMark) this._read(rs.highWaterMark);
}
};
// Doesn't matter what the args are here.
// _transform does all the work.
// That we got here means that the readable side wants more data.
Transform.prototype._read = function (n) {
var ts = this._transformState;
if (ts.writechunk !== null && ts.writecb && !ts.transforming) {
ts.transforming = true;
this._transform(ts.writechunk, ts.writeencoding, ts.afterTransform);
} else {
// mark that we need a transform, so that any data that comes in
// will get processed, now that we've asked for it.
ts.needTransform = true;
}
};
Transform.prototype._destroy = function (err, cb) {
var _this2 = this;
Duplex.prototype._destroy.call(this, err, function (err2) {
cb(err2);
_this2.emit('close');
});
};
function done(stream, er, data) {
if (er) return stream.emit('error', er);
if (data != null) // single equals check for both `null` and `undefined`
stream.push(data);
// if there's nothing in the write buffer, then that means
// that nothing more will ever be provided
if (stream._writableState.length) throw new Error('Calling transform done when ws.length != 0');
if (stream._transformState.transforming) throw new Error('Calling transform done when still transforming');
return stream.push(null);
}
},{"./_stream_duplex":24,"core-util-is":15,"inherits":18}],28:[function(require,module,exports){
(function (process,global,setImmediate){
// Copyright Joyent, Inc. and other Node contributors.
//
// 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.
// A bit simpler than readable streams.
// Implement an async ._write(chunk, encoding, cb), and it'll handle all
// the drain event emission and buffering.
'use strict';
/*<replacement>*/
var pna = require('process-nextick-args');
/*</replacement>*/
module.exports = Writable;
/* <replacement> */
function WriteReq(chunk, encoding, cb) {
this.chunk = chunk;
this.encoding = encoding;
this.callback = cb;
this.next = null;
}
// It seems a linked list but it is not
// there will be only 2 of these for each stream
function CorkedRequest(state) {
var _this = this;
this.next = null;
this.entry = null;
this.finish = function () {
onCorkedFinish(_this, state);
};
}
/* </replacement> */
/*<replacement>*/
var asyncWrite = !process.browser && ['v0.10', 'v0.9.'].indexOf(process.version.slice(0, 5)) > -1 ? setImmediate : pna.nextTick;
/*</replacement>*/
/*<replacement>*/
var Duplex;
/*</replacement>*/
Writable.WritableState = WritableState;
/*<replacement>*/
var util = require('core-util-is');
util.inherits = require('inherits');
/*</replacement>*/
/*<replacement>*/
var internalUtil = {
deprecate: require('util-deprecate')
};
/*</replacement>*/
/*<replacement>*/
var Stream = require('./internal/streams/stream');
/*</replacement>*/
/*<replacement>*/
var Buffer = require('safe-buffer').Buffer;
var OurUint8Array = global.Uint8Array || function () {};
function _uint8ArrayToBuffer(chunk) {
return Buffer.from(chunk);
}
function _isUint8Array(obj) {
return Buffer.isBuffer(obj) || obj instanceof OurUint8Array;
}
/*</replacement>*/
var destroyImpl = require('./internal/streams/destroy');
util.inherits(Writable, Stream);
function nop() {}
function WritableState(options, stream) {
Duplex = Duplex || require('./_stream_duplex');
options = options || {};
// Duplex streams are both readable and writable, but share
// the same options object.
// However, some cases require setting options to different
// values for the readable and the writable sides of the duplex stream.
// These options can be provided separately as readableXXX and writableXXX.
var isDuplex = stream instanceof Duplex;
// object stream flag to indicate whether or not this stream
// contains buffers or objects.
this.objectMode = !!options.objectMode;
if (isDuplex) this.objectMode = this.objectMode || !!options.writableObjectMode;
// the point at which write() starts returning false
// Note: 0 is a valid value, means that we always return false if
// the entire buffer is not flushed immediately on write()
var hwm = options.highWaterMark;
var writableHwm = options.writableHighWaterMark;
var defaultHwm = this.objectMode ? 16 : 16 * 1024;
if (hwm || hwm === 0) this.highWaterMark = hwm;else if (isDuplex && (writableHwm || writableHwm === 0)) this.highWaterMark = writableHwm;else this.highWaterMark = defaultHwm;
// cast to ints.
this.highWaterMark = Math.floor(this.highWaterMark);
// if _final has been called
this.finalCalled = false;
// drain event flag.
this.needDrain = false;
// at the start of calling end()
this.ending = false;
// when end() has been called, and returned
this.ended = false;
// when 'finish' is emitted
this.finished = false;
// has it been destroyed
this.destroyed = false;
// should we decode strings into buffers before passing to _write?
// this is here so that some node-core streams can optimize string
// handling at a lower level.
var noDecode = options.decodeStrings === false;
this.decodeStrings = !noDecode;
// Crypto is kind of old and crusty. Historically, its default string
// encoding is 'binary' so we have to make this configurable.
// Everything else in the universe uses 'utf8', though.
this.defaultEncoding = options.defaultEncoding || 'utf8';
// not an actual buffer we keep track of, but a measurement
// of how much we're waiting to get pushed to some underlying
// socket or file.
this.length = 0;
// a flag to see when we're in the middle of a write.
this.writing = false;
// when true all writes will be buffered until .uncork() call
this.corked = 0;
// a flag to be able to tell if the onwrite cb is called immediately,
// or on a later tick. We set this to true at first, because any
// actions that shouldn't happen until "later" should generally also
// not happen before the first write call.
this.sync = true;
// a flag to know if we're processing previously buffered items, which
// may call the _write() callback in the same tick, so that we don't
// end up in an overlapped onwrite situation.
this.bufferProcessing = false;
// the callback that's passed to _write(chunk,cb)
this.onwrite = function (er) {
onwrite(stream, er);
};
// the callback that the user supplies to write(chunk,encoding,cb)
this.writecb = null;
// the amount that is being written when _write is called.
this.writelen = 0;
this.bufferedRequest = null;
this.lastBufferedRequest = null;
// number of pending user-supplied write callbacks
// this must be 0 before 'finish' can be emitted
this.pendingcb = 0;
// emit prefinish if the only thing we're waiting for is _write cbs
// This is relevant for synchronous Transform streams
this.prefinished = false;
// True if the error was already emitted and should not be thrown again
this.errorEmitted = false;
// count buffered requests
this.bufferedRequestCount = 0;
// allocate the first CorkedRequest, there is always
// one allocated and free to use, and we maintain at most two
this.corkedRequestsFree = new CorkedRequest(this);
}
WritableState.prototype.getBuffer = function getBuffer() {
var current = this.bufferedRequest;
var out = [];
while (current) {
out.push(current);
current = current.next;
}
return out;
};
(function () {
try {
Object.defineProperty(WritableState.prototype, 'buffer', {
get: internalUtil.deprecate(function () {
return this.getBuffer();
}, '_writableState.buffer is deprecated. Use _writableState.getBuffer ' + 'instead.', 'DEP0003')
});
} catch (_) {}
})();
// Test _writableState for inheritance to account for Duplex streams,
// whose prototype chain only points to Readable.
var realHasInstance;
if (typeof Symbol === 'function' && Symbol.hasInstance && typeof Function.prototype[Symbol.hasInstance] === 'function') {
realHasInstance = Function.prototype[Symbol.hasInstance];
Object.defineProperty(Writable, Symbol.hasInstance, {
value: function (object) {
if (realHasInstance.call(this, object)) return true;
if (this !== Writable) return false;
return object && object._writableState instanceof WritableState;
}
});
} else {
realHasInstance = function (object) {
return object instanceof this;
};
}
function Writable(options) {
Duplex = Duplex || require('./_stream_duplex');
// Writable ctor is applied to Duplexes, too.
// `realHasInstance` is necessary because using plain `instanceof`
// would return false, as no `_writableState` property is attached.
// Trying to use the custom `instanceof` for Writable here will also break the
// Node.js LazyTransform implementation, which has a non-trivial getter for
// `_writableState` that would lead to infinite recursion.
if (!realHasInstance.call(Writable, this) && !(this instanceof Duplex)) {
return new Writable(options);
}
this._writableState = new WritableState(options, this);
// legacy.
this.writable = true;
if (options) {
if (typeof options.write === 'function') this._write = options.write;
if (typeof options.writev === 'function') this._writev = options.writev;
if (typeof options.destroy === 'function') this._destroy = options.destroy;
if (typeof options.final === 'function') this._final = options.final;
}
Stream.call(this);
}
// Otherwise people can pipe Writable streams, which is just wrong.
Writable.prototype.pipe = function () {
this.emit('error', new Error('Cannot pipe, not readable'));
};
function writeAfterEnd(stream, cb) {
var er = new Error('write after end');
// TODO: defer error events consistently everywhere, not just the cb
stream.emit('error', er);
pna.nextTick(cb, er);
}
// Checks that a user-supplied chunk is valid, especially for the particular
// mode the stream is in. Currently this means that `null` is never accepted
// and undefined/non-string values are only allowed in object mode.
function validChunk(stream, state, chunk, cb) {
var valid = true;
var er = false;
if (chunk === null) {
er = new TypeError('May not write null values to stream');
} else if (typeof chunk !== 'string' && chunk !== undefined && !state.objectMode) {
er = new TypeError('Invalid non-string/buffer chunk');
}
if (er) {
stream.emit('error', er);
pna.nextTick(cb, er);
valid = false;
}
return valid;
}
Writable.prototype.write = function (chunk, encoding, cb) {
var state = this._writableState;
var ret = false;
var isBuf = !state.objectMode && _isUint8Array(chunk);
if (isBuf && !Buffer.isBuffer(chunk)) {
chunk = _uint8ArrayToBuffer(chunk);
}
if (typeof encoding === 'function') {
cb = encoding;
encoding = null;
}
if (isBuf) encoding = 'buffer';else if (!encoding) encoding = state.defaultEncoding;
if (typeof cb !== 'function') cb = nop;
if (state.ended) writeAfterEnd(this, cb);else if (isBuf || validChunk(this, state, chunk, cb)) {
state.pendingcb++;
ret = writeOrBuffer(this, state, isBuf, chunk, encoding, cb);
}
return ret;
};
Writable.prototype.cork = function () {
var state = this._writableState;
state.corked++;
};
Writable.prototype.uncork = function () {
var state = this._writableState;
if (state.corked) {
state.corked--;
if (!state.writing && !state.corked && !state.finished && !state.bufferProcessing && state.bufferedRequest) clearBuffer(this, state);
}
};
Writable.prototype.setDefaultEncoding = function setDefaultEncoding(encoding) {
// node::ParseEncoding() requires lower case.
if (typeof encoding === 'string') encoding = encoding.toLowerCase();
if (!(['hex', 'utf8', 'utf-8', 'ascii', 'binary', 'base64', 'ucs2', 'ucs-2', 'utf16le', 'utf-16le', 'raw'].indexOf((encoding + '').toLowerCase()) > -1)) throw new TypeError('Unknown encoding: ' + encoding);
this._writableState.defaultEncoding = encoding;
return this;
};
function decodeChunk(state, chunk, encoding) {
if (!state.objectMode && state.decodeStrings !== false && typeof chunk === 'string') {
chunk = Buffer.from(chunk, encoding);
}
return chunk;
}
Object.defineProperty(Writable.prototype, 'writableHighWaterMark', {
// making it explicit this property is not enumerable
// because otherwise some prototype manipulation in
// userland will fail
enumerable: false,
get: function () {
return this._writableState.highWaterMark;
}
});
// if we're already writing something, then just put this
// in the queue, and wait our turn. Otherwise, call _write
// If we return false, then we need a drain event, so set that flag.
function writeOrBuffer(stream, state, isBuf, chunk, encoding, cb) {
if (!isBuf) {
var newChunk = decodeChunk(state, chunk, encoding);
if (chunk !== newChunk) {
isBuf = true;
encoding = 'buffer';
chunk = newChunk;
}
}
var len = state.objectMode ? 1 : chunk.length;
state.length += len;
var ret = state.length < state.highWaterMark;
// we must ensure that previous needDrain will not be reset to false.
if (!ret) state.needDrain = true;
if (state.writing || state.corked) {
var last = state.lastBufferedRequest;
state.lastBufferedRequest = {
chunk: chunk,
encoding: encoding,
isBuf: isBuf,
callback: cb,
next: null
};
if (last) {
last.next = state.lastBufferedRequest;
} else {
state.bufferedRequest = state.lastBufferedRequest;
}
state.bufferedRequestCount += 1;
} else {
doWrite(stream, state, false, len, chunk, encoding, cb);
}
return ret;
}
function doWrite(stream, state, writev, len, chunk, encoding, cb) {
state.writelen = len;
state.writecb = cb;
state.writing = true;
state.sync = true;
if (writev) stream._writev(chunk, state.onwrite);else stream._write(chunk, encoding, state.onwrite);
state.sync = false;
}
function onwriteError(stream, state, sync, er, cb) {
--state.pendingcb;
if (sync) {
// defer the callback if we are being called synchronously
// to avoid piling up things on the stack
pna.nextTick(cb, er);
// this can emit finish, and it will always happen
// after error
pna.nextTick(finishMaybe, stream, state);
stream._writableState.errorEmitted = true;
stream.emit('error', er);
} else {
// the caller expect this to happen before if
// it is async
cb(er);
stream._writableState.errorEmitted = true;
stream.emit('error', er);
// this can emit finish, but finish must
// always follow error
finishMaybe(stream, state);
}
}
function onwriteStateUpdate(state) {
state.writing = false;
state.writecb = null;
state.length -= state.writelen;
state.writelen = 0;
}
function onwrite(stream, er) {
var state = stream._writableState;
var sync = state.sync;
var cb = state.writecb;
onwriteStateUpdate(state);
if (er) onwriteError(stream, state, sync, er, cb);else {
// Check if we're actually ready to finish, but don't emit yet
var finished = needFinish(state);
if (!finished && !state.corked && !state.bufferProcessing && state.bufferedRequest) {
clearBuffer(stream, state);
}
if (sync) {
/*<replacement>*/
asyncWrite(afterWrite, stream, state, finished, cb);
/*</replacement>*/
} else {
afterWrite(stream, state, finished, cb);
}
}
}
function afterWrite(stream, state, finished, cb) {
if (!finished) onwriteDrain(stream, state);
state.pendingcb--;
cb();
finishMaybe(stream, state);
}
// Must force callback to be called on nextTick, so that we don't
// emit 'drain' before the write() consumer gets the 'false' return
// value, and has a chance to attach a 'drain' listener.
function onwriteDrain(stream, state) {
if (state.length === 0 && state.needDrain) {
state.needDrain = false;
stream.emit('drain');
}
}
// if there's something in the buffer waiting, then process it
function clearBuffer(stream, state) {
state.bufferProcessing = true;
var entry = state.bufferedRequest;
if (stream._writev && entry && entry.next) {
// Fast case, write everything using _writev()
var l = state.bufferedRequestCount;
var buffer = new Array(l);
var holder = state.corkedRequestsFree;
holder.entry = entry;
var count = 0;
var allBuffers = true;
while (entry) {
buffer[count] = entry;
if (!entry.isBuf) allBuffers = false;
entry = entry.next;
count += 1;
}
buffer.allBuffers = allBuffers;
doWrite(stream, state, true, state.length, buffer, '', holder.finish);
// doWrite is almost always async, defer these to save a bit of time
// as the hot path ends with doWrite
state.pendingcb++;
state.lastBufferedRequest = null;
if (holder.next) {
state.corkedRequestsFree = holder.next;
holder.next = null;
} else {
state.corkedRequestsFree = new CorkedRequest(state);
}
state.bufferedRequestCount = 0;
} else {
// Slow case, write chunks one-by-one
while (entry) {
var chunk = entry.chunk;
var encoding = entry.encoding;
var cb = entry.callback;
var len = state.objectMode ? 1 : chunk.length;
doWrite(stream, state, false, len, chunk, encoding, cb);
entry = entry.next;
state.bufferedRequestCount--;
// if we didn't call the onwrite immediately, then
// it means that we need to wait until it does.
// also, that means that the chunk and cb are currently
// being processed, so move the buffer counter past them.
if (state.writing) {
break;
}
}
if (entry === null) state.lastBufferedRequest = null;
}
state.bufferedRequest = entry;
state.bufferProcessing = false;
}
Writable.prototype._write = function (chunk, encoding, cb) {
cb(new Error('_write() is not implemented'));
};
Writable.prototype._writev = null;
Writable.prototype.end = function (chunk, encoding, cb) {
var state = this._writableState;
if (typeof chunk === 'function') {
cb = chunk;
chunk = null;
encoding = null;
} else if (typeof encoding === 'function') {
cb = encoding;
encoding = null;
}
if (chunk !== null && chunk !== undefined) this.write(chunk, encoding);
// .end() fully uncorks
if (state.corked) {
state.corked = 1;
this.uncork();
}
// ignore unnecessary end() calls.
if (!state.ending && !state.finished) endWritable(this, state, cb);
};
function needFinish(state) {
return state.ending && state.length === 0 && state.bufferedRequest === null && !state.finished && !state.writing;
}
function callFinal(stream, state) {
stream._final(function (err) {
state.pendingcb--;
if (err) {
stream.emit('error', err);
}
state.prefinished = true;
stream.emit('prefinish');
finishMaybe(stream, state);
});
}
function prefinish(stream, state) {
if (!state.prefinished && !state.finalCalled) {
if (typeof stream._final === 'function') {
state.pendingcb++;
state.finalCalled = true;
pna.nextTick(callFinal, stream, state);
} else {
state.prefinished = true;
stream.emit('prefinish');
}
}
}
function finishMaybe(stream, state) {
var need = needFinish(state);
if (need) {
prefinish(stream, state);
if (state.pendingcb === 0) {
state.finished = true;
stream.emit('finish');
}
}
return need;
}
function endWritable(stream, state, cb) {
state.ending = true;
finishMaybe(stream, state);
if (cb) {
if (state.finished) pna.nextTick(cb);else stream.once('finish', cb);
}
state.ended = true;
stream.writable = false;
}
function onCorkedFinish(corkReq, state, err) {
var entry = corkReq.entry;
corkReq.entry = null;
while (entry) {
var cb = entry.callback;
state.pendingcb--;
cb(err);
entry = entry.next;
}
if (state.corkedRequestsFree) {
state.corkedRequestsFree.next = corkReq;
} else {
state.corkedRequestsFree = corkReq;
}
}
Object.defineProperty(Writable.prototype, 'destroyed', {
get: function () {
if (this._writableState === undefined) {
return false;
}
return this._writableState.destroyed;
},
set: function (value) {
// we ignore the value if the stream
// has not been initialized yet
if (!this._writableState) {
return;
}
// backward compatibility, the user is explicitly
// managing destroyed
this._writableState.destroyed = value;
}
});
Writable.prototype.destroy = destroyImpl.destroy;
Writable.prototype._undestroy = destroyImpl.undestroy;
Writable.prototype._destroy = function (err, cb) {
this.end();
cb(err);
};
}).call(this,require('_process'),typeof global !== "undefined" ? global : typeof self !== "undefined" ? self : typeof window !== "undefined" ? window : {},require("timers").setImmediate)
},{"./_stream_duplex":24,"./internal/streams/destroy":30,"./internal/streams/stream":31,"_process":22,"core-util-is":15,"inherits":18,"process-nextick-args":21,"safe-buffer":37,"timers":39,"util-deprecate":40}],29:[function(require,module,exports){
'use strict';
function _classCallCheck(instance, Constructor) { if (!(instance instanceof Constructor)) { throw new TypeError("Cannot call a class as a function"); } }
var Buffer = require('safe-buffer').Buffer;
var util = require('util');
function copyBuffer(src, target, offset) {
src.copy(target, offset);
}
module.exports = function () {
function BufferList() {
_classCallCheck(this, BufferList);
this.head = null;
this.tail = null;
this.length = 0;
}
BufferList.prototype.push = function push(v) {
var entry = { data: v, next: null };
if (this.length > 0) this.tail.next = entry;else this.head = entry;
this.tail = entry;
++this.length;
};
BufferList.prototype.unshift = function unshift(v) {
var entry = { data: v, next: this.head };
if (this.length === 0) this.tail = entry;
this.head = entry;
++this.length;
};
BufferList.prototype.shift = function shift() {
if (this.length === 0) return;
var ret = this.head.data;
if (this.length === 1) this.head = this.tail = null;else this.head = this.head.next;
--this.length;
return ret;
};
BufferList.prototype.clear = function clear() {
this.head = this.tail = null;
this.length = 0;
};
BufferList.prototype.join = function join(s) {
if (this.length === 0) return '';
var p = this.head;
var ret = '' + p.data;
while (p = p.next) {
ret += s + p.data;
}return ret;
};
BufferList.prototype.concat = function concat(n) {
if (this.length === 0) return Buffer.alloc(0);
if (this.length === 1) return this.head.data;
var ret = Buffer.allocUnsafe(n >>> 0);
var p = this.head;
var i = 0;
while (p) {
copyBuffer(p.data, ret, i);
i += p.data.length;
p = p.next;
}
return ret;
};
return BufferList;
}();
if (util && util.inspect && util.inspect.custom) {
module.exports.prototype[util.inspect.custom] = function () {
var obj = util.inspect({ length: this.length });
return this.constructor.name + ' ' + obj;
};
}
},{"safe-buffer":37,"util":13}],30:[function(require,module,exports){
'use strict';
/*<replacement>*/
var pna = require('process-nextick-args');
/*</replacement>*/
// undocumented cb() API, needed for core, not for public API
function destroy(err, cb) {
var _this = this;
var readableDestroyed = this._readableState && this._readableState.destroyed;
var writableDestroyed = this._writableState && this._writableState.destroyed;
if (readableDestroyed || writableDestroyed) {
if (cb) {
cb(err);
} else if (err && (!this._writableState || !this._writableState.errorEmitted)) {
pna.nextTick(emitErrorNT, this, err);
}
return this;
}
// we set destroyed to true before firing error callbacks in order
// to make it re-entrance safe in case destroy() is called within callbacks
if (this._readableState) {
this._readableState.destroyed = true;
}
// if this is a duplex stream mark the writable part as destroyed as well
if (this._writableState) {
this._writableState.destroyed = true;
}
this._destroy(err || null, function (err) {
if (!cb && err) {
pna.nextTick(emitErrorNT, _this, err);
if (_this._writableState) {
_this._writableState.errorEmitted = true;
}
} else if (cb) {
cb(err);
}
});
return this;
}
function undestroy() {
if (this._readableState) {
this._readableState.destroyed = false;
this._readableState.reading = false;
this._readableState.ended = false;
this._readableState.endEmitted = false;
}
if (this._writableState) {
this._writableState.destroyed = false;
this._writableState.ended = false;
this._writableState.ending = false;
this._writableState.finished = false;
this._writableState.errorEmitted = false;
}
}
function emitErrorNT(self, err) {
self.emit('error', err);
}
module.exports = {
destroy: destroy,
undestroy: undestroy
};
},{"process-nextick-args":21}],31:[function(require,module,exports){
module.exports = require('events').EventEmitter;
},{"events":16}],32:[function(require,module,exports){
// Copyright Joyent, Inc. and other Node contributors.
//
// 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.
'use strict';
/*<replacement>*/
var Buffer = require('safe-buffer').Buffer;
/*</replacement>*/
var isEncoding = Buffer.isEncoding || function (encoding) {
encoding = '' + encoding;
switch (encoding && encoding.toLowerCase()) {
case 'hex':case 'utf8':case 'utf-8':case 'ascii':case 'binary':case 'base64':case 'ucs2':case 'ucs-2':case 'utf16le':case 'utf-16le':case 'raw':
return true;
default:
return false;
}
};
function _normalizeEncoding(enc) {
if (!enc) return 'utf8';
var retried;
while (true) {
switch (enc) {
case 'utf8':
case 'utf-8':
return 'utf8';
case 'ucs2':
case 'ucs-2':
case 'utf16le':
case 'utf-16le':
return 'utf16le';
case 'latin1':
case 'binary':
return 'latin1';
case 'base64':
case 'ascii':
case 'hex':
return enc;
default:
if (retried) return; // undefined
enc = ('' + enc).toLowerCase();
retried = true;
}
}
};
// Do not cache `Buffer.isEncoding` when checking encoding names as some
// modules monkey-patch it to support additional encodings
function normalizeEncoding(enc) {
var nenc = _normalizeEncoding(enc);
if (typeof nenc !== 'string' && (Buffer.isEncoding === isEncoding || !isEncoding(enc))) throw new Error('Unknown encoding: ' + enc);
return nenc || enc;
}
// StringDecoder provides an interface for efficiently splitting a series of
// buffers into a series of JS strings without breaking apart multi-byte
// characters.
exports.StringDecoder = StringDecoder;
function StringDecoder(encoding) {
this.encoding = normalizeEncoding(encoding);
var nb;
switch (this.encoding) {
case 'utf16le':
this.text = utf16Text;
this.end = utf16End;
nb = 4;
break;
case 'utf8':
this.fillLast = utf8FillLast;
nb = 4;
break;
case 'base64':
this.text = base64Text;
this.end = base64End;
nb = 3;
break;
default:
this.write = simpleWrite;
this.end = simpleEnd;
return;
}
this.lastNeed = 0;
this.lastTotal = 0;
this.lastChar = Buffer.allocUnsafe(nb);
}
StringDecoder.prototype.write = function (buf) {
if (buf.length === 0) return '';
var r;
var i;
if (this.lastNeed) {
r = this.fillLast(buf);
if (r === undefined) return '';
i = this.lastNeed;
this.lastNeed = 0;
} else {
i = 0;
}
if (i < buf.length) return r ? r + this.text(buf, i) : this.text(buf, i);
return r || '';
};
StringDecoder.prototype.end = utf8End;
// Returns only complete characters in a Buffer
StringDecoder.prototype.text = utf8Text;
// Attempts to complete a partial non-UTF-8 character using bytes from a Buffer
StringDecoder.prototype.fillLast = function (buf) {
if (this.lastNeed <= buf.length) {
buf.copy(this.lastChar, this.lastTotal - this.lastNeed, 0, this.lastNeed);
return this.lastChar.toString(this.encoding, 0, this.lastTotal);
}
buf.copy(this.lastChar, this.lastTotal - this.lastNeed, 0, buf.length);
this.lastNeed -= buf.length;
};
// Checks the type of a UTF-8 byte, whether it's ASCII, a leading byte, or a
// continuation byte. If an invalid byte is detected, -2 is returned.
function utf8CheckByte(byte) {
if (byte <= 0x7F) return 0;else if (byte >> 5 === 0x06) return 2;else if (byte >> 4 === 0x0E) return 3;else if (byte >> 3 === 0x1E) return 4;
return byte >> 6 === 0x02 ? -1 : -2;
}
// Checks at most 3 bytes at the end of a Buffer in order to detect an
// incomplete multi-byte UTF-8 character. The total number of bytes (2, 3, or 4)
// needed to complete the UTF-8 character (if applicable) are returned.
function utf8CheckIncomplete(self, buf, i) {
var j = buf.length - 1;
if (j < i) return 0;
var nb = utf8CheckByte(buf[j]);
if (nb >= 0) {
if (nb > 0) self.lastNeed = nb - 1;
return nb;
}
if (--j < i || nb === -2) return 0;
nb = utf8CheckByte(buf[j]);
if (nb >= 0) {
if (nb > 0) self.lastNeed = nb - 2;
return nb;
}
if (--j < i || nb === -2) return 0;
nb = utf8CheckByte(buf[j]);
if (nb >= 0) {
if (nb > 0) {
if (nb === 2) nb = 0;else self.lastNeed = nb - 3;
}
return nb;
}
return 0;
}
// Validates as many continuation bytes for a multi-byte UTF-8 character as
// needed or are available. If we see a non-continuation byte where we expect
// one, we "replace" the validated continuation bytes we've seen so far with
// a single UTF-8 replacement character ('\ufffd'), to match v8's UTF-8 decoding
// behavior. The continuation byte check is included three times in the case
// where all of the continuation bytes for a character exist in the same buffer.
// It is also done this way as a slight performance increase instead of using a
// loop.
function utf8CheckExtraBytes(self, buf, p) {
if ((buf[0] & 0xC0) !== 0x80) {
self.lastNeed = 0;
return '\ufffd';
}
if (self.lastNeed > 1 && buf.length > 1) {
if ((buf[1] & 0xC0) !== 0x80) {
self.lastNeed = 1;
return '\ufffd';
}
if (self.lastNeed > 2 && buf.length > 2) {
if ((buf[2] & 0xC0) !== 0x80) {
self.lastNeed = 2;
return '\ufffd';
}
}
}
}
// Attempts to complete a multi-byte UTF-8 character using bytes from a Buffer.
function utf8FillLast(buf) {
var p = this.lastTotal - this.lastNeed;
var r = utf8CheckExtraBytes(this, buf, p);
if (r !== undefined) return r;
if (this.lastNeed <= buf.length) {
buf.copy(this.lastChar, p, 0, this.lastNeed);
return this.lastChar.toString(this.encoding, 0, this.lastTotal);
}
buf.copy(this.lastChar, p, 0, buf.length);
this.lastNeed -= buf.length;
}
// Returns all complete UTF-8 characters in a Buffer. If the Buffer ended on a
// partial character, the character's bytes are buffered until the required
// number of bytes are available.
function utf8Text(buf, i) {
var total = utf8CheckIncomplete(this, buf, i);
if (!this.lastNeed) return buf.toString('utf8', i);
this.lastTotal = total;
var end = buf.length - (total - this.lastNeed);
buf.copy(this.lastChar, 0, end);
return buf.toString('utf8', i, end);
}
// For UTF-8, a replacement character is added when ending on a partial
// character.
function utf8End(buf) {
var r = buf && buf.length ? this.write(buf) : '';
if (this.lastNeed) return r + '\ufffd';
return r;
}
// UTF-16LE typically needs two bytes per character, but even if we have an even
// number of bytes available, we need to check if we end on a leading/high
// surrogate. In that case, we need to wait for the next two bytes in order to
// decode the last character properly.
function utf16Text(buf, i) {
if ((buf.length - i) % 2 === 0) {
var r = buf.toString('utf16le', i);
if (r) {
var c = r.charCodeAt(r.length - 1);
if (c >= 0xD800 && c <= 0xDBFF) {
this.lastNeed = 2;
this.lastTotal = 4;
this.lastChar[0] = buf[buf.length - 2];
this.lastChar[1] = buf[buf.length - 1];
return r.slice(0, -1);
}
}
return r;
}
this.lastNeed = 1;
this.lastTotal = 2;
this.lastChar[0] = buf[buf.length - 1];
return buf.toString('utf16le', i, buf.length - 1);
}
// For UTF-16LE we do not explicitly append special replacement characters if we
// end on a partial character, we simply let v8 handle that.
function utf16End(buf) {
var r = buf && buf.length ? this.write(buf) : '';
if (this.lastNeed) {
var end = this.lastTotal - this.lastNeed;
return r + this.lastChar.toString('utf16le', 0, end);
}
return r;
}
function base64Text(buf, i) {
var n = (buf.length - i) % 3;
if (n === 0) return buf.toString('base64', i);
this.lastNeed = 3 - n;
this.lastTotal = 3;
if (n === 1) {
this.lastChar[0] = buf[buf.length - 1];
} else {
this.lastChar[0] = buf[buf.length - 2];
this.lastChar[1] = buf[buf.length - 1];
}
return buf.toString('base64', i, buf.length - n);
}
function base64End(buf) {
var r = buf && buf.length ? this.write(buf) : '';
if (this.lastNeed) return r + this.lastChar.toString('base64', 0, 3 - this.lastNeed);
return r;
}
// Pass bytes on through for single-byte encodings (e.g. ascii, latin1, hex)
function simpleWrite(buf) {
return buf.toString(this.encoding);
}
function simpleEnd(buf) {
return buf && buf.length ? this.write(buf) : '';
}
},{"safe-buffer":37}],33:[function(require,module,exports){
module.exports = require('./readable').PassThrough
},{"./readable":34}],34:[function(require,module,exports){
exports = module.exports = require('./lib/_stream_readable.js');
exports.Stream = exports;
exports.Readable = exports;
exports.Writable = require('./lib/_stream_writable.js');
exports.Duplex = require('./lib/_stream_duplex.js');
exports.Transform = require('./lib/_stream_transform.js');
exports.PassThrough = require('./lib/_stream_passthrough.js');
},{"./lib/_stream_duplex.js":24,"./lib/_stream_passthrough.js":25,"./lib/_stream_readable.js":26,"./lib/_stream_transform.js":27,"./lib/_stream_writable.js":28}],35:[function(require,module,exports){
module.exports = require('./readable').Transform
},{"./readable":34}],36:[function(require,module,exports){
module.exports = require('./lib/_stream_writable.js');
},{"./lib/_stream_writable.js":28}],37:[function(require,module,exports){
/* eslint-disable node/no-deprecated-api */
var buffer = require('buffer')
var Buffer = buffer.Buffer
// alternative to using Object.keys for old browsers
function copyProps (src, dst) {
for (var key in src) {
dst[key] = src[key]
}
}
if (Buffer.from && Buffer.alloc && Buffer.allocUnsafe && Buffer.allocUnsafeSlow) {
module.exports = buffer
} else {
// Copy properties from require('buffer')
copyProps(buffer, exports)
exports.Buffer = SafeBuffer
}
function SafeBuffer (arg, encodingOrOffset, length) {
return Buffer(arg, encodingOrOffset, length)
}
// Copy static methods from Buffer
copyProps(Buffer, SafeBuffer)
SafeBuffer.from = function (arg, encodingOrOffset, length) {
if (typeof arg === 'number') {
throw new TypeError('Argument must not be a number')
}
return Buffer(arg, encodingOrOffset, length)
}
SafeBuffer.alloc = function (size, fill, encoding) {
if (typeof size !== 'number') {
throw new TypeError('Argument must be a number')
}
var buf = Buffer(size)
if (fill !== undefined) {
if (typeof encoding === 'string') {
buf.fill(fill, encoding)
} else {
buf.fill(fill)
}
} else {
buf.fill(0)
}
return buf
}
SafeBuffer.allocUnsafe = function (size) {
if (typeof size !== 'number') {
throw new TypeError('Argument must be a number')
}
return Buffer(size)
}
SafeBuffer.allocUnsafeSlow = function (size) {
if (typeof size !== 'number') {
throw new TypeError('Argument must be a number')
}
return buffer.SlowBuffer(size)
}
},{"buffer":14}],38:[function(require,module,exports){
// Copyright Joyent, Inc. and other Node contributors.
//
// 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.
module.exports = Stream;
var EE = require('events').EventEmitter;
var inherits = require('inherits');
inherits(Stream, EE);
Stream.Readable = require('readable-stream/readable.js');
Stream.Writable = require('readable-stream/writable.js');
Stream.Duplex = require('readable-stream/duplex.js');
Stream.Transform = require('readable-stream/transform.js');
Stream.PassThrough = require('readable-stream/passthrough.js');
// Backwards-compat with node 0.4.x
Stream.Stream = Stream;
// old-style streams. Note that the pipe method (the only relevant
// part of this class) is overridden in the Readable class.
function Stream() {
EE.call(this);
}
Stream.prototype.pipe = function(dest, options) {
var source = this;
function ondata(chunk) {
if (dest.writable) {
if (false === dest.write(chunk) && source.pause) {
source.pause();
}
}
}
source.on('data', ondata);
function ondrain() {
if (source.readable && source.resume) {
source.resume();
}
}
dest.on('drain', ondrain);
// If the 'end' option is not supplied, dest.end() will be called when
// source gets the 'end' or 'close' events. Only dest.end() once.
if (!dest._isStdio && (!options || options.end !== false)) {
source.on('end', onend);
source.on('close', onclose);
}
var didOnEnd = false;
function onend() {
if (didOnEnd) return;
didOnEnd = true;
dest.end();
}
function onclose() {
if (didOnEnd) return;
didOnEnd = true;
if (typeof dest.destroy === 'function') dest.destroy();
}
// don't leave dangling pipes when there are errors.
function onerror(er) {
cleanup();
if (EE.listenerCount(this, 'error') === 0) {
throw er; // Unhandled stream error in pipe.
}
}
source.on('error', onerror);
dest.on('error', onerror);
// remove all the event listeners that were added.
function cleanup() {
source.removeListener('data', ondata);
dest.removeListener('drain', ondrain);
source.removeListener('end', onend);
source.removeListener('close', onclose);
source.removeListener('error', onerror);
dest.removeListener('error', onerror);
source.removeListener('end', cleanup);
source.removeListener('close', cleanup);
dest.removeListener('close', cleanup);
}
source.on('end', cleanup);
source.on('close', cleanup);
dest.on('close', cleanup);
dest.emit('pipe', source);
// Allow for unix-like usage: A.pipe(B).pipe(C)
return dest;
};
},{"events":16,"inherits":18,"readable-stream/duplex.js":23,"readable-stream/passthrough.js":33,"readable-stream/readable.js":34,"readable-stream/transform.js":35,"readable-stream/writable.js":36}],39:[function(require,module,exports){
(function (setImmediate,clearImmediate){
var nextTick = require('process/browser.js').nextTick;
var apply = Function.prototype.apply;
var slice = Array.prototype.slice;
var immediateIds = {};
var nextImmediateId = 0;
// DOM APIs, for completeness
exports.setTimeout = function() {
return new Timeout(apply.call(setTimeout, window, arguments), clearTimeout);
};
exports.setInterval = function() {
return new Timeout(apply.call(setInterval, window, arguments), clearInterval);
};
exports.clearTimeout =
exports.clearInterval = function(timeout) { timeout.close(); };
function Timeout(id, clearFn) {
this._id = id;
this._clearFn = clearFn;
}
Timeout.prototype.unref = Timeout.prototype.ref = function() {};
Timeout.prototype.close = function() {
this._clearFn.call(window, this._id);
};
// Does not start the time, just sets up the members needed.
exports.enroll = function(item, msecs) {
clearTimeout(item._idleTimeoutId);
item._idleTimeout = msecs;
};
exports.unenroll = function(item) {
clearTimeout(item._idleTimeoutId);
item._idleTimeout = -1;
};
exports._unrefActive = exports.active = function(item) {
clearTimeout(item._idleTimeoutId);
var msecs = item._idleTimeout;
if (msecs >= 0) {
item._idleTimeoutId = setTimeout(function onTimeout() {
if (item._onTimeout)
item._onTimeout();
}, msecs);
}
};
// That's not how node.js implements it but the exposed api is the same.
exports.setImmediate = typeof setImmediate === "function" ? setImmediate : function(fn) {
var id = nextImmediateId++;
var args = arguments.length < 2 ? false : slice.call(arguments, 1);
immediateIds[id] = true;
nextTick(function onNextTick() {
if (immediateIds[id]) {
// fn.call() is faster so we optimize for the common use-case
// @see http://jsperf.com/call-apply-segu
if (args) {
fn.apply(null, args);
} else {
fn.call(null);
}
// Prevent ids from leaking
exports.clearImmediate(id);
}
});
return id;
};
exports.clearImmediate = typeof clearImmediate === "function" ? clearImmediate : function(id) {
delete immediateIds[id];
};
}).call(this,require("timers").setImmediate,require("timers").clearImmediate)
},{"process/browser.js":22,"timers":39}],40:[function(require,module,exports){
(function (global){
/**
* Module exports.
*/
module.exports = deprecate;
/**
* Mark that a method should not be used.
* Returns a modified function which warns once by default.
*
* If `localStorage.noDeprecation = true` is set, then it is a no-op.
*
* If `localStorage.throwDeprecation = true` is set, then deprecated functions
* will throw an Error when invoked.
*
* If `localStorage.traceDeprecation = true` is set, then deprecated functions
* will invoke `console.trace()` instead of `console.error()`.
*
* @param {Function} fn - the function to deprecate
* @param {String} msg - the string to print to the console when `fn` is invoked
* @returns {Function} a new "deprecated" version of `fn`
* @api public
*/
function deprecate (fn, msg) {
if (config('noDeprecation')) {
return fn;
}
var warned = false;
function deprecated() {
if (!warned) {
if (config('throwDeprecation')) {
throw new Error(msg);
} else if (config('traceDeprecation')) {
console.trace(msg);
} else {
console.warn(msg);
}
warned = true;
}
return fn.apply(this, arguments);
}
return deprecated;
}
/**
* Checks `localStorage` for boolean values for the given `name`.
*
* @param {String} name
* @returns {Boolean}
* @api private
*/
function config (name) {
// accessing global.localStorage can trigger a DOMException in sandboxed iframes
try {
if (!global.localStorage) return false;
} catch (_) {
return false;
}
var val = global.localStorage[name];
if (null == val) return false;
return String(val).toLowerCase() === 'true';
}
}).call(this,typeof global !== "undefined" ? global : typeof self !== "undefined" ? self : typeof window !== "undefined" ? window : {})
},{}],41:[function(require,module,exports){
module.exports = function isBuffer(arg) {
return arg && typeof arg === 'object'
&& typeof arg.copy === 'function'
&& typeof arg.fill === 'function'
&& typeof arg.readUInt8 === 'function';
}
},{}],42:[function(require,module,exports){
(function (process,global){
// Copyright Joyent, Inc. and other Node contributors.
//
// 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 formatRegExp = /%[sdj%]/g;
exports.format = function(f) {
if (!isString(f)) {
var objects = [];
for (var i = 0; i < arguments.length; i++) {
objects.push(inspect(arguments[i]));
}
return objects.join(' ');
}
var i = 1;
var args = arguments;
var len = args.length;
var str = String(f).replace(formatRegExp, function(x) {
if (x === '%%') return '%';
if (i >= len) return x;
switch (x) {
case '%s': return String(args[i++]);
case '%d': return Number(args[i++]);
case '%j':
try {
return JSON.stringify(args[i++]);
} catch (_) {
return '[Circular]';
}
default:
return x;
}
});
for (var x = args[i]; i < len; x = args[++i]) {
if (isNull(x) || !isObject(x)) {
str += ' ' + x;
} else {
str += ' ' + inspect(x);
}
}
return str;
};
// Mark that a method should not be used.
// Returns a modified function which warns once by default.
// If --no-deprecation is set, then it is a no-op.
exports.deprecate = function(fn, msg) {
// Allow for deprecating things in the process of starting up.
if (isUndefined(global.process)) {
return function() {
return exports.deprecate(fn, msg).apply(this, arguments);
};
}
if (process.noDeprecation === true) {
return fn;
}
var warned = false;
function deprecated() {
if (!warned) {
if (process.throwDeprecation) {
throw new Error(msg);
} else if (process.traceDeprecation) {
console.trace(msg);
} else {
console.error(msg);
}
warned = true;
}
return fn.apply(this, arguments);
}
return deprecated;
};
var debugs = {};
var debugEnviron;
exports.debuglog = function(set) {
if (isUndefined(debugEnviron))
debugEnviron = process.env.NODE_DEBUG || '';
set = set.toUpperCase();
if (!debugs[set]) {
if (new RegExp('\\b' + set + '\\b', 'i').test(debugEnviron)) {
var pid = process.pid;
debugs[set] = function() {
var msg = exports.format.apply(exports, arguments);
console.error('%s %d: %s', set, pid, msg);
};
} else {
debugs[set] = function() {};
}
}
return debugs[set];
};
/**
* Echos the value of a value. Trys to print the value out
* in the best way possible given the different types.
*
* @param {Object} obj The object to print out.
* @param {Object} opts Optional options object that alters the output.
*/
/* legacy: obj, showHidden, depth, colors*/
function inspect(obj, opts) {
// default options
var ctx = {
seen: [],
stylize: stylizeNoColor
};
// legacy...
if (arguments.length >= 3) ctx.depth = arguments[2];
if (arguments.length >= 4) ctx.colors = arguments[3];
if (isBoolean(opts)) {
// legacy...
ctx.showHidden = opts;
} else if (opts) {
// got an "options" object
exports._extend(ctx, opts);
}
// set default options
if (isUndefined(ctx.showHidden)) ctx.showHidden = false;
if (isUndefined(ctx.depth)) ctx.depth = 2;
if (isUndefined(ctx.colors)) ctx.colors = false;
if (isUndefined(ctx.customInspect)) ctx.customInspect = true;
if (ctx.colors) ctx.stylize = stylizeWithColor;
return formatValue(ctx, obj, ctx.depth);
}
exports.inspect = inspect;
// http://en.wikipedia.org/wiki/ANSI_escape_code#graphics
inspect.colors = {
'bold' : [1, 22],
'italic' : [3, 23],
'underline' : [4, 24],
'inverse' : [7, 27],
'white' : [37, 39],
'grey' : [90, 39],
'black' : [30, 39],
'blue' : [34, 39],
'cyan' : [36, 39],
'green' : [32, 39],
'magenta' : [35, 39],
'red' : [31, 39],
'yellow' : [33, 39]
};
// Don't use 'blue' not visible on cmd.exe
inspect.styles = {
'special': 'cyan',
'number': 'yellow',
'boolean': 'yellow',
'undefined': 'grey',
'null': 'bold',
'string': 'green',
'date': 'magenta',
// "name": intentionally not styling
'regexp': 'red'
};
function stylizeWithColor(str, styleType) {
var style = inspect.styles[styleType];
if (style) {
return '\u001b[' + inspect.colors[style][0] + 'm' + str +
'\u001b[' + inspect.colors[style][1] + 'm';
} else {
return str;
}
}
function stylizeNoColor(str, styleType) {
return str;
}
function arrayToHash(array) {
var hash = {};
array.forEach(function(val, idx) {
hash[val] = true;
});
return hash;
}
function formatValue(ctx, value, recurseTimes) {
// Provide a hook for user-specified inspect functions.
// Check that value is an object with an inspect function on it
if (ctx.customInspect &&
value &&
isFunction(value.inspect) &&
// Filter out the util module, it's inspect function is special
value.inspect !== exports.inspect &&
// Also filter out any prototype objects using the circular check.
!(value.constructor && value.constructor.prototype === value)) {
var ret = value.inspect(recurseTimes, ctx);
if (!isString(ret)) {
ret = formatValue(ctx, ret, recurseTimes);
}
return ret;
}
// Primitive types cannot have properties
var primitive = formatPrimitive(ctx, value);
if (primitive) {
return primitive;
}
// Look up the keys of the object.
var keys = Object.keys(value);
var visibleKeys = arrayToHash(keys);
if (ctx.showHidden) {
keys = Object.getOwnPropertyNames(value);
}
// IE doesn't make error fields non-enumerable
// http://msdn.microsoft.com/en-us/library/ie/dww52sbt(v=vs.94).aspx
if (isError(value)
&& (keys.indexOf('message') >= 0 || keys.indexOf('description') >= 0)) {
return formatError(value);
}
// Some type of object without properties can be shortcutted.
if (keys.length === 0) {
if (isFunction(value)) {
var name = value.name ? ': ' + value.name : '';
return ctx.stylize('[Function' + name + ']', 'special');
}
if (isRegExp(value)) {
return ctx.stylize(RegExp.prototype.toString.call(value), 'regexp');
}
if (isDate(value)) {
return ctx.stylize(Date.prototype.toString.call(value), 'date');
}
if (isError(value)) {
return formatError(value);
}
}
var base = '', array = false, braces = ['{', '}'];
// Make Array say that they are Array
if (isArray(value)) {
array = true;
braces = ['[', ']'];
}
// Make functions say that they are functions
if (isFunction(value)) {
var n = value.name ? ': ' + value.name : '';
base = ' [Function' + n + ']';
}
// Make RegExps say that they are RegExps
if (isRegExp(value)) {
base = ' ' + RegExp.prototype.toString.call(value);
}
// Make dates with properties first say the date
if (isDate(value)) {
base = ' ' + Date.prototype.toUTCString.call(value);
}
// Make error with message first say the error
if (isError(value)) {
base = ' ' + formatError(value);
}
if (keys.length === 0 && (!array || value.length == 0)) {
return braces[0] + base + braces[1];
}
if (recurseTimes < 0) {
if (isRegExp(value)) {
return ctx.stylize(RegExp.prototype.toString.call(value), 'regexp');
} else {
return ctx.stylize('[Object]', 'special');
}
}
ctx.seen.push(value);
var output;
if (array) {
output = formatArray(ctx, value, recurseTimes, visibleKeys, keys);
} else {
output = keys.map(function(key) {
return formatProperty(ctx, value, recurseTimes, visibleKeys, key, array);
});
}
ctx.seen.pop();
return reduceToSingleString(output, base, braces);
}
function formatPrimitive(ctx, value) {
if (isUndefined(value))
return ctx.stylize('undefined', 'undefined');
if (isString(value)) {
var simple = '\'' + JSON.stringify(value).replace(/^"|"$/g, '')
.replace(/'/g, "\\'")
.replace(/\\"/g, '"') + '\'';
return ctx.stylize(simple, 'string');
}
if (isNumber(value))
return ctx.stylize('' + value, 'number');
if (isBoolean(value))
return ctx.stylize('' + value, 'boolean');
// For some reason typeof null is "object", so special case here.
if (isNull(value))
return ctx.stylize('null', 'null');
}
function formatError(value) {
return '[' + Error.prototype.toString.call(value) + ']';
}
function formatArray(ctx, value, recurseTimes, visibleKeys, keys) {
var output = [];
for (var i = 0, l = value.length; i < l; ++i) {
if (hasOwnProperty(value, String(i))) {
output.push(formatProperty(ctx, value, recurseTimes, visibleKeys,
String(i), true));
} else {
output.push('');
}
}
keys.forEach(function(key) {
if (!key.match(/^\d+$/)) {
output.push(formatProperty(ctx, value, recurseTimes, visibleKeys,
key, true));
}
});
return output;
}
function formatProperty(ctx, value, recurseTimes, visibleKeys, key, array) {
var name, str, desc;
desc = Object.getOwnPropertyDescriptor(value, key) || { value: value[key] };
if (desc.get) {
if (desc.set) {
str = ctx.stylize('[Getter/Setter]', 'special');
} else {
str = ctx.stylize('[Getter]', 'special');
}
} else {
if (desc.set) {
str = ctx.stylize('[Setter]', 'special');
}
}
if (!hasOwnProperty(visibleKeys, key)) {
name = '[' + key + ']';
}
if (!str) {
if (ctx.seen.indexOf(desc.value) < 0) {
if (isNull(recurseTimes)) {
str = formatValue(ctx, desc.value, null);
} else {
str = formatValue(ctx, desc.value, recurseTimes - 1);
}
if (str.indexOf('\n') > -1) {
if (array) {
str = str.split('\n').map(function(line) {
return ' ' + line;
}).join('\n').substr(2);
} else {
str = '\n' + str.split('\n').map(function(line) {
return ' ' + line;
}).join('\n');
}
}
} else {
str = ctx.stylize('[Circular]', 'special');
}
}
if (isUndefined(name)) {
if (array && key.match(/^\d+$/)) {
return str;
}
name = JSON.stringify('' + key);
if (name.match(/^"([a-zA-Z_][a-zA-Z_0-9]*)"$/)) {
name = name.substr(1, name.length - 2);
name = ctx.stylize(name, 'name');
} else {
name = name.replace(/'/g, "\\'")
.replace(/\\"/g, '"')
.replace(/(^"|"$)/g, "'");
name = ctx.stylize(name, 'string');
}
}
return name + ': ' + str;
}
function reduceToSingleString(output, base, braces) {
var numLinesEst = 0;
var length = output.reduce(function(prev, cur) {
numLinesEst++;
if (cur.indexOf('\n') >= 0) numLinesEst++;
return prev + cur.replace(/\u001b\[\d\d?m/g, '').length + 1;
}, 0);
if (length > 60) {
return braces[0] +
(base === '' ? '' : base + '\n ') +
' ' +
output.join(',\n ') +
' ' +
braces[1];
}
return braces[0] + base + ' ' + output.join(', ') + ' ' + braces[1];
}
// NOTE: These type checking functions intentionally don't use `instanceof`
// because it is fragile and can be easily faked with `Object.create()`.
function isArray(ar) {
return Array.isArray(ar);
}
exports.isArray = isArray;
function isBoolean(arg) {
return typeof arg === 'boolean';
}
exports.isBoolean = isBoolean;
function isNull(arg) {
return arg === null;
}
exports.isNull = isNull;
function isNullOrUndefined(arg) {
return arg == null;
}
exports.isNullOrUndefined = isNullOrUndefined;
function isNumber(arg) {
return typeof arg === 'number';
}
exports.isNumber = isNumber;
function isString(arg) {
return typeof arg === 'string';
}
exports.isString = isString;
function isSymbol(arg) {
return typeof arg === 'symbol';
}
exports.isSymbol = isSymbol;
function isUndefined(arg) {
return arg === void 0;
}
exports.isUndefined = isUndefined;
function isRegExp(re) {
return isObject(re) && objectToString(re) === '[object RegExp]';
}
exports.isRegExp = isRegExp;
function isObject(arg) {
return typeof arg === 'object' && arg !== null;
}
exports.isObject = isObject;
function isDate(d) {
return isObject(d) && objectToString(d) === '[object Date]';
}
exports.isDate = isDate;
function isError(e) {
return isObject(e) &&
(objectToString(e) === '[object Error]' || e instanceof Error);
}
exports.isError = isError;
function isFunction(arg) {
return typeof arg === 'function';
}
exports.isFunction = isFunction;
function isPrimitive(arg) {
return arg === null ||
typeof arg === 'boolean' ||
typeof arg === 'number' ||
typeof arg === 'string' ||
typeof arg === 'symbol' || // ES6 symbol
typeof arg === 'undefined';
}
exports.isPrimitive = isPrimitive;
exports.isBuffer = require('./support/isBuffer');
function objectToString(o) {
return Object.prototype.toString.call(o);
}
function pad(n) {
return n < 10 ? '0' + n.toString(10) : n.toString(10);
}
var months = ['Jan', 'Feb', 'Mar', 'Apr', 'May', 'Jun', 'Jul', 'Aug', 'Sep',
'Oct', 'Nov', 'Dec'];
// 26 Feb 16:19:34
function timestamp() {
var d = new Date();
var time = [pad(d.getHours()),
pad(d.getMinutes()),
pad(d.getSeconds())].join(':');
return [d.getDate(), months[d.getMonth()], time].join(' ');
}
// log is just a thin wrapper to console.log that prepends a timestamp
exports.log = function() {
console.log('%s - %s', timestamp(), exports.format.apply(exports, arguments));
};
/**
* Inherit the prototype methods from one constructor into another.
*
* The Function.prototype.inherits from lang.js rewritten as a standalone
* function (not on Function.prototype). NOTE: If this file is to be loaded
* during bootstrapping this function needs to be rewritten using some native
* functions as prototype setup using normal JavaScript does not work as
* expected during bootstrapping (see mirror.js in r114903).
*
* @param {function} ctor Constructor function which needs to inherit the
* prototype.
* @param {function} superCtor Constructor function to inherit prototype from.
*/
exports.inherits = require('inherits');
exports._extend = function(origin, add) {
// Don't do anything if add isn't an object
if (!add || !isObject(add)) return origin;
var keys = Object.keys(add);
var i = keys.length;
while (i--) {
origin[keys[i]] = add[keys[i]];
}
return origin;
};
function hasOwnProperty(obj, prop) {
return Object.prototype.hasOwnProperty.call(obj, prop);
}
}).call(this,require('_process'),typeof global !== "undefined" ? global : typeof self !== "undefined" ? self : typeof window !== "undefined" ? window : {})
},{"./support/isBuffer":41,"_process":22,"inherits":18}]},{},[1]);
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