/*! Browser bundle of nunjucks 3.2.4 */ (function webpackUniversalModuleDefinition(root, factory) { if(typeof exports === 'object' && typeof module === 'object') module.exports = factory(); else if(typeof define === 'function' && define.amd) define([], factory); else if(typeof exports === 'object') exports["nunjucks"] = factory(); else root["nunjucks"] = factory(); })(typeof self !== 'undefined' ? self : this, function() { return /******/ (function(modules) { // webpackBootstrap /******/ // The module cache /******/ var installedModules = {}; /******/ /******/ // The require function /******/ function __webpack_require__(moduleId) { /******/ /******/ // Check if module is in cache /******/ if(installedModules[moduleId]) { /******/ return installedModules[moduleId].exports; /******/ } /******/ // Create a new module (and put it into the cache) /******/ var module = installedModules[moduleId] = { /******/ i: moduleId, /******/ l: false, /******/ exports: {} /******/ }; /******/ /******/ // Execute the module function /******/ modules[moduleId].call(module.exports, module, module.exports, __webpack_require__); /******/ /******/ // Flag the module as loaded /******/ module.l = true; /******/ /******/ // Return the exports of the module /******/ return module.exports; /******/ } /******/ /******/ /******/ // expose the modules object (__webpack_modules__) /******/ __webpack_require__.m = modules; /******/ /******/ // expose the module cache /******/ __webpack_require__.c = installedModules; /******/ /******/ // define getter function for harmony exports /******/ __webpack_require__.d = function(exports, name, getter) { /******/ if(!__webpack_require__.o(exports, name)) { /******/ Object.defineProperty(exports, name, { /******/ configurable: false, /******/ enumerable: true, /******/ get: getter /******/ }); /******/ } /******/ }; /******/ /******/ // getDefaultExport function for compatibility with non-harmony modules /******/ __webpack_require__.n = function(module) { /******/ var getter = module && module.__esModule ? /******/ function getDefault() { return module['default']; } : /******/ function getModuleExports() { return module; }; /******/ __webpack_require__.d(getter, 'a', getter); /******/ return getter; /******/ }; /******/ /******/ // Object.prototype.hasOwnProperty.call /******/ __webpack_require__.o = function(object, property) { return Object.prototype.hasOwnProperty.call(object, property); }; /******/ /******/ // __webpack_public_path__ /******/ __webpack_require__.p = ""; /******/ /******/ // Load entry module and return exports /******/ return __webpack_require__(__webpack_require__.s = 11); /******/ }) /************************************************************************/ /******/ ([ /* 0 */ /***/ (function(module, exports, __webpack_require__) { "use strict"; var ArrayProto = Array.prototype; var ObjProto = Object.prototype; var escapeMap = { '&': '&', '"': '"', '\'': ''', '<': '<', '>': '>', '\\': '\' }; var escapeRegex = /[&"'<>\\]/g; var exports = module.exports = {}; function hasOwnProp(obj, k) { return ObjProto.hasOwnProperty.call(obj, k); } exports.hasOwnProp = hasOwnProp; function lookupEscape(ch) { return escapeMap[ch]; } function _prettifyError(path, withInternals, err) { if (!err.Update) { // not one of ours, cast it err = new exports.TemplateError(err); } err.Update(path); // Unless they marked the dev flag, show them a trace from here if (!withInternals) { var old = err; err = new Error(old.message); err.name = old.name; } return err; } exports._prettifyError = _prettifyError; function TemplateError(message, lineno, colno) { var err; var cause; if (message instanceof Error) { cause = message; message = cause.name + ": " + cause.message; } if (Object.setPrototypeOf) { err = new Error(message); Object.setPrototypeOf(err, TemplateError.prototype); } else { err = this; Object.defineProperty(err, 'message', { enumerable: false, writable: true, value: message }); } Object.defineProperty(err, 'name', { value: 'Template render error' }); if (Error.captureStackTrace) { Error.captureStackTrace(err, this.constructor); } var getStack; if (cause) { var stackDescriptor = Object.getOwnPropertyDescriptor(cause, 'stack'); getStack = stackDescriptor && (stackDescriptor.get || function () { return stackDescriptor.value; }); if (!getStack) { getStack = function getStack() { return cause.stack; }; } } else { var stack = new Error(message).stack; getStack = function getStack() { return stack; }; } Object.defineProperty(err, 'stack', { get: function get() { return getStack.call(err); } }); Object.defineProperty(err, 'cause', { value: cause }); err.lineno = lineno; err.colno = colno; err.firstUpdate = true; err.Update = function Update(path) { var msg = '(' + (path || 'unknown path') + ')'; // only show lineno + colno next to path of template // where error occurred if (this.firstUpdate) { if (this.lineno && this.colno) { msg += " [Line " + this.lineno + ", Column " + this.colno + "]"; } else if (this.lineno) { msg += " [Line " + this.lineno + "]"; } } msg += '\n '; if (this.firstUpdate) { msg += ' '; } this.message = msg + (this.message || ''); this.firstUpdate = false; return this; }; return err; } if (Object.setPrototypeOf) { Object.setPrototypeOf(TemplateError.prototype, Error.prototype); } else { TemplateError.prototype = Object.create(Error.prototype, { constructor: { value: TemplateError } }); } exports.TemplateError = TemplateError; function escape(val) { return val.replace(escapeRegex, lookupEscape); } exports.escape = escape; function isFunction(obj) { return ObjProto.toString.call(obj) === '[object Function]'; } exports.isFunction = isFunction; function isArray(obj) { return ObjProto.toString.call(obj) === '[object Array]'; } exports.isArray = isArray; function isString(obj) { return ObjProto.toString.call(obj) === '[object String]'; } exports.isString = isString; function isObject(obj) { return ObjProto.toString.call(obj) === '[object Object]'; } exports.isObject = isObject; /** * @param {string|number} attr * @returns {(string|number)[]} * @private */ function _prepareAttributeParts(attr) { if (!attr) { return []; } if (typeof attr === 'string') { return attr.split('.'); } return [attr]; } /** * @param {string} attribute Attribute value. Dots allowed. * @returns {function(Object): *} */ function getAttrGetter(attribute) { var parts = _prepareAttributeParts(attribute); return function attrGetter(item) { var _item = item; for (var i = 0; i < parts.length; i++) { var part = parts[i]; // If item is not an object, and we still got parts to handle, it means // that something goes wrong. Just roll out to undefined in that case. if (hasOwnProp(_item, part)) { _item = _item[part]; } else { return undefined; } } return _item; }; } exports.getAttrGetter = getAttrGetter; function groupBy(obj, val, throwOnUndefined) { var result = {}; var iterator = isFunction(val) ? val : getAttrGetter(val); for (var i = 0; i < obj.length; i++) { var value = obj[i]; var key = iterator(value, i); if (key === undefined && throwOnUndefined === true) { throw new TypeError("groupby: attribute \"" + val + "\" resolved to undefined"); } (result[key] || (result[key] = [])).push(value); } return result; } exports.groupBy = groupBy; function toArray(obj) { return Array.prototype.slice.call(obj); } exports.toArray = toArray; function without(array) { var result = []; if (!array) { return result; } var length = array.length; var contains = toArray(arguments).slice(1); var index = -1; while (++index < length) { if (indexOf(contains, array[index]) === -1) { result.push(array[index]); } } return result; } exports.without = without; function repeat(char_, n) { var str = ''; for (var i = 0; i < n; i++) { str += char_; } return str; } exports.repeat = repeat; function each(obj, func, context) { if (obj == null) { return; } if (ArrayProto.forEach && obj.forEach === ArrayProto.forEach) { obj.forEach(func, context); } else if (obj.length === +obj.length) { for (var i = 0, l = obj.length; i < l; i++) { func.call(context, obj[i], i, obj); } } } exports.each = each; function map(obj, func) { var results = []; if (obj == null) { return results; } if (ArrayProto.map && obj.map === ArrayProto.map) { return obj.map(func); } for (var i = 0; i < obj.length; i++) { results[results.length] = func(obj[i], i); } if (obj.length === +obj.length) { results.length = obj.length; } return results; } exports.map = map; function asyncIter(arr, iter, cb) { var i = -1; function next() { i++; if (i < arr.length) { iter(arr[i], i, next, cb); } else { cb(); } } next(); } exports.asyncIter = asyncIter; function asyncFor(obj, iter, cb) { var keys = keys_(obj || {}); var len = keys.length; var i = -1; function next() { i++; var k = keys[i]; if (i < len) { iter(k, obj[k], i, len, next); } else { cb(); } } next(); } exports.asyncFor = asyncFor; function indexOf(arr, searchElement, fromIndex) { return Array.prototype.indexOf.call(arr || [], searchElement, fromIndex); } exports.indexOf = indexOf; function keys_(obj) { /* eslint-disable no-restricted-syntax */ var arr = []; for (var k in obj) { if (hasOwnProp(obj, k)) { arr.push(k); } } return arr; } exports.keys = keys_; function _entries(obj) { return keys_(obj).map(function (k) { return [k, obj[k]]; }); } exports._entries = _entries; function _values(obj) { return keys_(obj).map(function (k) { return obj[k]; }); } exports._values = _values; function extend(obj1, obj2) { obj1 = obj1 || {}; keys_(obj2).forEach(function (k) { obj1[k] = obj2[k]; }); return obj1; } exports._assign = exports.extend = extend; function inOperator(key, val) { if (isArray(val) || isString(val)) { return val.indexOf(key) !== -1; } else if (isObject(val)) { return key in val; } throw new Error('Cannot use "in" operator to search for "' + key + '" in unexpected types.'); } exports.inOperator = inOperator; /***/ }), /* 1 */ /***/ (function(module, exports, __webpack_require__) { "use strict"; // A simple class system, more documentation to come function _defineProperties(target, props) { for (var i = 0; i < props.length; i++) { var descriptor = props[i]; descriptor.enumerable = descriptor.enumerable || false; descriptor.configurable = true; if ("value" in descriptor) descriptor.writable = true; Object.defineProperty(target, _toPropertyKey(descriptor.key), descriptor); } } function _createClass(Constructor, protoProps, staticProps) { if (protoProps) _defineProperties(Constructor.prototype, protoProps); if (staticProps) _defineProperties(Constructor, staticProps); Object.defineProperty(Constructor, "prototype", { writable: false }); return Constructor; } function _toPropertyKey(arg) { var key = _toPrimitive(arg, "string"); return typeof key === "symbol" ? key : String(key); } function _toPrimitive(input, hint) { if (typeof input !== "object" || input === null) return input; var prim = input[Symbol.toPrimitive]; if (prim !== undefined) { var res = prim.call(input, hint || "default"); if (typeof res !== "object") return res; throw new TypeError("@@toPrimitive must return a primitive value."); } return (hint === "string" ? String : Number)(input); } function _inheritsLoose(subClass, superClass) { subClass.prototype = Object.create(superClass.prototype); subClass.prototype.constructor = subClass; _setPrototypeOf(subClass, superClass); } function _setPrototypeOf(o, p) { _setPrototypeOf = Object.setPrototypeOf ? Object.setPrototypeOf.bind() : function _setPrototypeOf(o, p) { o.__proto__ = p; return o; }; return _setPrototypeOf(o, p); } var EventEmitter = __webpack_require__(16); var lib = __webpack_require__(0); function parentWrap(parent, prop) { if (typeof parent !== 'function' || typeof prop !== 'function') { return prop; } return function wrap() { // Save the current parent method var tmp = this.parent; // Set parent to the previous method, call, and restore this.parent = parent; var res = prop.apply(this, arguments); this.parent = tmp; return res; }; } function extendClass(cls, name, props) { props = props || {}; lib.keys(props).forEach(function (k) { props[k] = parentWrap(cls.prototype[k], props[k]); }); var subclass = /*#__PURE__*/function (_cls) { _inheritsLoose(subclass, _cls); function subclass() { return _cls.apply(this, arguments) || this; } _createClass(subclass, [{ key: "typename", get: function get() { return name; } }]); return subclass; }(cls); lib._assign(subclass.prototype, props); return subclass; } var Obj = /*#__PURE__*/function () { function Obj() { // Unfortunately necessary for backwards compatibility this.init.apply(this, arguments); } var _proto = Obj.prototype; _proto.init = function init() {}; Obj.extend = function extend(name, props) { if (typeof name === 'object') { props = name; name = 'anonymous'; } return extendClass(this, name, props); }; _createClass(Obj, [{ key: "typename", get: function get() { return this.constructor.name; } }]); return Obj; }(); var EmitterObj = /*#__PURE__*/function (_EventEmitter) { _inheritsLoose(EmitterObj, _EventEmitter); function EmitterObj() { var _this2; var _this; _this = _EventEmitter.call(this) || this; // Unfortunately necessary for backwards compatibility (_this2 = _this).init.apply(_this2, arguments); return _this; } var _proto2 = EmitterObj.prototype; _proto2.init = function init() {}; EmitterObj.extend = function extend(name, props) { if (typeof name === 'object') { props = name; name = 'anonymous'; } return extendClass(this, name, props); }; _createClass(EmitterObj, [{ key: "typename", get: function get() { return this.constructor.name; } }]); return EmitterObj; }(EventEmitter); module.exports = { Obj: Obj, EmitterObj: EmitterObj }; /***/ }), /* 2 */ /***/ (function(module, exports, __webpack_require__) { "use strict"; var lib = __webpack_require__(0); var arrayFrom = Array.from; var supportsIterators = typeof Symbol === 'function' && Symbol.iterator && typeof arrayFrom === 'function'; // Frames keep track of scoping both at compile-time and run-time so // we know how to access variables. Block tags can introduce special // variables, for example. var Frame = /*#__PURE__*/function () { function Frame(parent, isolateWrites) { this.variables = Object.create(null); this.parent = parent; this.topLevel = false; // if this is true, writes (set) should never propagate upwards past // this frame to its parent (though reads may). this.isolateWrites = isolateWrites; } var _proto = Frame.prototype; _proto.set = function set(name, val, resolveUp) { // Allow variables with dots by automatically creating the // nested structure var parts = name.split('.'); var obj = this.variables; var frame = this; if (resolveUp) { if (frame = this.resolve(parts[0], true)) { frame.set(name, val); return; } } for (var i = 0; i < parts.length - 1; i++) { var id = parts[i]; if (!obj[id]) { obj[id] = {}; } obj = obj[id]; } obj[parts[parts.length - 1]] = val; }; _proto.get = function get(name) { var val = this.variables[name]; if (val !== undefined) { return val; } return null; }; _proto.lookup = function lookup(name) { var p = this.parent; var val = this.variables[name]; if (val !== undefined) { return val; } return p && p.lookup(name); }; _proto.resolve = function resolve(name, forWrite) { var p = forWrite && this.isolateWrites ? undefined : this.parent; var val = this.variables[name]; if (val !== undefined) { return this; } return p && p.resolve(name); }; _proto.push = function push(isolateWrites) { return new Frame(this, isolateWrites); }; _proto.pop = function pop() { return this.parent; }; return Frame; }(); function makeMacro(argNames, kwargNames, func) { return function macro() { for (var _len = arguments.length, macroArgs = new Array(_len), _key = 0; _key < _len; _key++) { macroArgs[_key] = arguments[_key]; } var argCount = numArgs(macroArgs); var args; var kwargs = getKeywordArgs(macroArgs); if (argCount > argNames.length) { args = macroArgs.slice(0, argNames.length); // Positional arguments that should be passed in as // keyword arguments (essentially default values) macroArgs.slice(args.length, argCount).forEach(function (val, i) { if (i < kwargNames.length) { kwargs[kwargNames[i]] = val; } }); args.push(kwargs); } else if (argCount < argNames.length) { args = macroArgs.slice(0, argCount); for (var i = argCount; i < argNames.length; i++) { var arg = argNames[i]; // Keyword arguments that should be passed as // positional arguments, i.e. the caller explicitly // used the name of a positional arg args.push(kwargs[arg]); delete kwargs[arg]; } args.push(kwargs); } else { args = macroArgs; } return func.apply(this, args); }; } function makeKeywordArgs(obj) { obj.__keywords = true; return obj; } function isKeywordArgs(obj) { return obj && Object.prototype.hasOwnProperty.call(obj, '__keywords'); } function getKeywordArgs(args) { var len = args.length; if (len) { var lastArg = args[len - 1]; if (isKeywordArgs(lastArg)) { return lastArg; } } return {}; } function numArgs(args) { var len = args.length; if (len === 0) { return 0; } var lastArg = args[len - 1]; if (isKeywordArgs(lastArg)) { return len - 1; } else { return len; } } // A SafeString object indicates that the string should not be // autoescaped. This happens magically because autoescaping only // occurs on primitive string objects. function SafeString(val) { if (typeof val !== 'string') { return val; } this.val = val; this.length = val.length; } SafeString.prototype = Object.create(String.prototype, { length: { writable: true, configurable: true, value: 0 } }); SafeString.prototype.valueOf = function valueOf() { return this.val; }; SafeString.prototype.toString = function toString() { return this.val; }; function copySafeness(dest, target) { if (dest instanceof SafeString) { return new SafeString(target); } return target.toString(); } function markSafe(val) { var type = typeof val; if (type === 'string') { return new SafeString(val); } else if (type !== 'function') { return val; } else { return function wrapSafe(args) { var ret = val.apply(this, arguments); if (typeof ret === 'string') { return new SafeString(ret); } return ret; }; } } function suppressValue(val, autoescape) { val = val !== undefined && val !== null ? val : ''; if (autoescape && !(val instanceof SafeString)) { val = lib.escape(val.toString()); } return val; } function ensureDefined(val, lineno, colno) { if (val === null || val === undefined) { throw new lib.TemplateError('attempted to output null or undefined value', lineno + 1, colno + 1); } return val; } function memberLookup(obj, val) { if (obj === undefined || obj === null) { return undefined; } if (typeof obj[val] === 'function') { return function () { for (var _len2 = arguments.length, args = new Array(_len2), _key2 = 0; _key2 < _len2; _key2++) { args[_key2] = arguments[_key2]; } return obj[val].apply(obj, args); }; } return obj[val]; } function callWrap(obj, name, context, args) { if (!obj) { throw new Error('Unable to call `' + name + '`, which is undefined or falsey'); } else if (typeof obj !== 'function') { throw new Error('Unable to call `' + name + '`, which is not a function'); } return obj.apply(context, args); } function contextOrFrameLookup(context, frame, name) { var val = frame.lookup(name); return val !== undefined ? val : context.lookup(name); } function handleError(error, lineno, colno) { if (error.lineno) { return error; } else { return new lib.TemplateError(error, lineno, colno); } } function asyncEach(arr, dimen, iter, cb) { if (lib.isArray(arr)) { var len = arr.length; lib.asyncIter(arr, function iterCallback(item, i, next) { switch (dimen) { case 1: iter(item, i, len, next); break; case 2: iter(item[0], item[1], i, len, next); break; case 3: iter(item[0], item[1], item[2], i, len, next); break; default: item.push(i, len, next); iter.apply(this, item); } }, cb); } else { lib.asyncFor(arr, function iterCallback(key, val, i, len, next) { iter(key, val, i, len, next); }, cb); } } function asyncAll(arr, dimen, func, cb) { var finished = 0; var len; var outputArr; function done(i, output) { finished++; outputArr[i] = output; if (finished === len) { cb(null, outputArr.join('')); } } if (lib.isArray(arr)) { len = arr.length; outputArr = new Array(len); if (len === 0) { cb(null, ''); } else { for (var i = 0; i < arr.length; i++) { var item = arr[i]; switch (dimen) { case 1: func(item, i, len, done); break; case 2: func(item[0], item[1], i, len, done); break; case 3: func(item[0], item[1], item[2], i, len, done); break; default: item.push(i, len, done); func.apply(this, item); } } } } else { var keys = lib.keys(arr || {}); len = keys.length; outputArr = new Array(len); if (len === 0) { cb(null, ''); } else { for (var _i = 0; _i < keys.length; _i++) { var k = keys[_i]; func(k, arr[k], _i, len, done); } } } } function fromIterator(arr) { if (typeof arr !== 'object' || arr === null || lib.isArray(arr)) { return arr; } else if (supportsIterators && Symbol.iterator in arr) { return arrayFrom(arr); } else { return arr; } } module.exports = { Frame: Frame, makeMacro: makeMacro, makeKeywordArgs: makeKeywordArgs, numArgs: numArgs, suppressValue: suppressValue, ensureDefined: ensureDefined, memberLookup: memberLookup, contextOrFrameLookup: contextOrFrameLookup, callWrap: callWrap, handleError: handleError, isArray: lib.isArray, keys: lib.keys, SafeString: SafeString, copySafeness: copySafeness, markSafe: markSafe, asyncEach: asyncEach, asyncAll: asyncAll, inOperator: lib.inOperator, fromIterator: fromIterator }; /***/ }), /* 3 */ /***/ (function(module, exports, __webpack_require__) { "use strict"; function _defineProperties(target, props) { for (var i = 0; i < props.length; i++) { var descriptor = props[i]; descriptor.enumerable = descriptor.enumerable || false; descriptor.configurable = true; if ("value" in descriptor) descriptor.writable = true; Object.defineProperty(target, _toPropertyKey(descriptor.key), descriptor); } } function _createClass(Constructor, protoProps, staticProps) { if (protoProps) _defineProperties(Constructor.prototype, protoProps); if (staticProps) _defineProperties(Constructor, staticProps); Object.defineProperty(Constructor, "prototype", { writable: false }); return Constructor; } function _toPropertyKey(arg) { var key = _toPrimitive(arg, "string"); return typeof key === "symbol" ? key : String(key); } function _toPrimitive(input, hint) { if (typeof input !== "object" || input === null) return input; var prim = input[Symbol.toPrimitive]; if (prim !== undefined) { var res = prim.call(input, hint || "default"); if (typeof res !== "object") return res; throw new TypeError("@@toPrimitive must return a primitive value."); } return (hint === "string" ? String : Number)(input); } function _inheritsLoose(subClass, superClass) { subClass.prototype = Object.create(superClass.prototype); subClass.prototype.constructor = subClass; _setPrototypeOf(subClass, superClass); } function _setPrototypeOf(o, p) { _setPrototypeOf = Object.setPrototypeOf ? Object.setPrototypeOf.bind() : function _setPrototypeOf(o, p) { o.__proto__ = p; return o; }; return _setPrototypeOf(o, p); } var _require = __webpack_require__(1), Obj = _require.Obj; function traverseAndCheck(obj, type, results) { if (obj instanceof type) { results.push(obj); } if (obj instanceof Node) { obj.findAll(type, results); } } var Node = /*#__PURE__*/function (_Obj) { _inheritsLoose(Node, _Obj); function Node() { return _Obj.apply(this, arguments) || this; } var _proto = Node.prototype; _proto.init = function init(lineno, colno) { var _arguments = arguments, _this = this; for (var _len = arguments.length, args = new Array(_len > 2 ? _len - 2 : 0), _key = 2; _key < _len; _key++) { args[_key - 2] = arguments[_key]; } this.lineno = lineno; this.colno = colno; this.fields.forEach(function (field, i) { // The first two args are line/col numbers, so offset by 2 var val = _arguments[i + 2]; // Fields should never be undefined, but null. It makes // testing easier to normalize values. if (val === undefined) { val = null; } _this[field] = val; }); }; _proto.findAll = function findAll(type, results) { var _this2 = this; results = results || []; if (this instanceof NodeList) { this.children.forEach(function (child) { return traverseAndCheck(child, type, results); }); } else { this.fields.forEach(function (field) { return traverseAndCheck(_this2[field], type, results); }); } return results; }; _proto.iterFields = function iterFields(func) { var _this3 = this; this.fields.forEach(function (field) { func(_this3[field], field); }); }; return Node; }(Obj); // Abstract nodes var Value = /*#__PURE__*/function (_Node) { _inheritsLoose(Value, _Node); function Value() { return _Node.apply(this, arguments) || this; } _createClass(Value, [{ key: "typename", get: function get() { return 'Value'; } }, { key: "fields", get: function get() { return ['value']; } }]); return Value; }(Node); // Concrete nodes var NodeList = /*#__PURE__*/function (_Node2) { _inheritsLoose(NodeList, _Node2); function NodeList() { return _Node2.apply(this, arguments) || this; } var _proto2 = NodeList.prototype; _proto2.init = function init(lineno, colno, nodes) { _Node2.prototype.init.call(this, lineno, colno, nodes || []); }; _proto2.addChild = function addChild(node) { this.children.push(node); }; _createClass(NodeList, [{ key: "typename", get: function get() { return 'NodeList'; } }, { key: "fields", get: function get() { return ['children']; } }]); return NodeList; }(Node); var Root = NodeList.extend('Root'); var Literal = Value.extend('Literal'); var _Symbol = Value.extend('Symbol'); var Group = NodeList.extend('Group'); var ArrayNode = NodeList.extend('Array'); var Pair = Node.extend('Pair', { fields: ['key', 'value'] }); var Dict = NodeList.extend('Dict'); var LookupVal = Node.extend('LookupVal', { fields: ['target', 'val'] }); var If = Node.extend('If', { fields: ['cond', 'body', 'else_'] }); var IfAsync = If.extend('IfAsync'); var InlineIf = Node.extend('InlineIf', { fields: ['cond', 'body', 'else_'] }); var For = Node.extend('For', { fields: ['arr', 'name', 'body', 'else_'] }); var AsyncEach = For.extend('AsyncEach'); var AsyncAll = For.extend('AsyncAll'); var Macro = Node.extend('Macro', { fields: ['name', 'args', 'body'] }); var Caller = Macro.extend('Caller'); var Import = Node.extend('Import', { fields: ['template', 'target', 'withContext'] }); var FromImport = /*#__PURE__*/function (_Node3) { _inheritsLoose(FromImport, _Node3); function FromImport() { return _Node3.apply(this, arguments) || this; } var _proto3 = FromImport.prototype; _proto3.init = function init(lineno, colno, template, names, withContext) { _Node3.prototype.init.call(this, lineno, colno, template, names || new NodeList(), withContext); }; _createClass(FromImport, [{ key: "typename", get: function get() { return 'FromImport'; } }, { key: "fields", get: function get() { return ['template', 'names', 'withContext']; } }]); return FromImport; }(Node); var FunCall = Node.extend('FunCall', { fields: ['name', 'args'] }); var Filter = FunCall.extend('Filter'); var FilterAsync = Filter.extend('FilterAsync', { fields: ['name', 'args', 'symbol'] }); var KeywordArgs = Dict.extend('KeywordArgs'); var Block = Node.extend('Block', { fields: ['name', 'body'] }); var Super = Node.extend('Super', { fields: ['blockName', 'symbol'] }); var TemplateRef = Node.extend('TemplateRef', { fields: ['template'] }); var Extends = TemplateRef.extend('Extends'); var Include = Node.extend('Include', { fields: ['template', 'ignoreMissing'] }); var Set = Node.extend('Set', { fields: ['targets', 'value'] }); var Switch = Node.extend('Switch', { fields: ['expr', 'cases', 'default'] }); var Case = Node.extend('Case', { fields: ['cond', 'body'] }); var Output = NodeList.extend('Output'); var Capture = Node.extend('Capture', { fields: ['body'] }); var TemplateData = Literal.extend('TemplateData'); var UnaryOp = Node.extend('UnaryOp', { fields: ['target'] }); var BinOp = Node.extend('BinOp', { fields: ['left', 'right'] }); var In = BinOp.extend('In'); var Is = BinOp.extend('Is'); var Or = BinOp.extend('Or'); var And = BinOp.extend('And'); var Not = UnaryOp.extend('Not'); var Add = BinOp.extend('Add'); var Concat = BinOp.extend('Concat'); var Sub = BinOp.extend('Sub'); var Mul = BinOp.extend('Mul'); var Div = BinOp.extend('Div'); var FloorDiv = BinOp.extend('FloorDiv'); var Mod = BinOp.extend('Mod'); var Pow = BinOp.extend('Pow'); var Neg = UnaryOp.extend('Neg'); var Pos = UnaryOp.extend('Pos'); var Compare = Node.extend('Compare', { fields: ['expr', 'ops'] }); var CompareOperand = Node.extend('CompareOperand', { fields: ['expr', 'type'] }); var CallExtension = Node.extend('CallExtension', { init: function init(ext, prop, args, contentArgs) { this.parent(); this.extName = ext.__name || ext; this.prop = prop; this.args = args || new NodeList(); this.contentArgs = contentArgs || []; this.autoescape = ext.autoescape; }, fields: ['extName', 'prop', 'args', 'contentArgs'] }); var CallExtensionAsync = CallExtension.extend('CallExtensionAsync'); // This is hacky, but this is just a debugging function anyway function print(str, indent, inline) { var lines = str.split('\n'); lines.forEach(function (line, i) { if (line && (inline && i > 0 || !inline)) { process.stdout.write(' '.repeat(indent)); } var nl = i === lines.length - 1 ? '' : '\n'; process.stdout.write("" + line + nl); }); } // Print the AST in a nicely formatted tree format for debuggin function printNodes(node, indent) { indent = indent || 0; print(node.typename + ': ', indent); if (node instanceof NodeList) { print('\n'); node.children.forEach(function (n) { printNodes(n, indent + 2); }); } else if (node instanceof CallExtension) { print(node.extName + "." + node.prop + "\n"); if (node.args) { printNodes(node.args, indent + 2); } if (node.contentArgs) { node.contentArgs.forEach(function (n) { printNodes(n, indent + 2); }); } } else { var nodes = []; var props = null; node.iterFields(function (val, fieldName) { if (val instanceof Node) { nodes.push([fieldName, val]); } else { props = props || {}; props[fieldName] = val; } }); if (props) { print(JSON.stringify(props, null, 2) + '\n', null, true); } else { print('\n'); } nodes.forEach(function (_ref) { var fieldName = _ref[0], n = _ref[1]; print("[" + fieldName + "] =>", indent + 2); printNodes(n, indent + 4); }); } } module.exports = { Node: Node, Root: Root, NodeList: NodeList, Value: Value, Literal: Literal, Symbol: _Symbol, Group: Group, Array: ArrayNode, Pair: Pair, Dict: Dict, Output: Output, Capture: Capture, TemplateData: TemplateData, If: If, IfAsync: IfAsync, InlineIf: InlineIf, For: For, AsyncEach: AsyncEach, AsyncAll: AsyncAll, Macro: Macro, Caller: Caller, Import: Import, FromImport: FromImport, FunCall: FunCall, Filter: Filter, FilterAsync: FilterAsync, KeywordArgs: KeywordArgs, Block: Block, Super: Super, Extends: Extends, Include: Include, Set: Set, Switch: Switch, Case: Case, LookupVal: LookupVal, BinOp: BinOp, In: In, Is: Is, Or: Or, And: And, Not: Not, Add: Add, Concat: Concat, Sub: Sub, Mul: Mul, Div: Div, FloorDiv: FloorDiv, Mod: Mod, Pow: Pow, Neg: Neg, Pos: Pos, Compare: Compare, CompareOperand: CompareOperand, CallExtension: CallExtension, CallExtensionAsync: CallExtensionAsync, printNodes: printNodes }; /***/ }), /* 4 */ /***/ (function(module, exports) { /***/ }), /* 5 */ /***/ (function(module, exports, __webpack_require__) { "use strict"; function _inheritsLoose(subClass, superClass) { subClass.prototype = Object.create(superClass.prototype); subClass.prototype.constructor = subClass; _setPrototypeOf(subClass, superClass); } function _setPrototypeOf(o, p) { _setPrototypeOf = Object.setPrototypeOf ? Object.setPrototypeOf.bind() : function _setPrototypeOf(o, p) { o.__proto__ = p; return o; }; return _setPrototypeOf(o, p); } var parser = __webpack_require__(8); var transformer = __webpack_require__(17); var nodes = __webpack_require__(3); var _require = __webpack_require__(0), TemplateError = _require.TemplateError; var _require2 = __webpack_require__(2), Frame = _require2.Frame; var _require3 = __webpack_require__(1), Obj = _require3.Obj; // These are all the same for now, but shouldn't be passed straight // through var compareOps = { '==': '==', '===': '===', '!=': '!=', '!==': '!==', '<': '<', '>': '>', '<=': '<=', '>=': '>=' }; var Compiler = /*#__PURE__*/function (_Obj) { _inheritsLoose(Compiler, _Obj); function Compiler() { return _Obj.apply(this, arguments) || this; } var _proto = Compiler.prototype; _proto.init = function init(templateName, throwOnUndefined) { this.templateName = templateName; this.codebuf = []; this.lastId = 0; this.buffer = null; this.bufferStack = []; this._scopeClosers = ''; this.inBlock = false; this.throwOnUndefined = throwOnUndefined; }; _proto.fail = function fail(msg, lineno, colno) { if (lineno !== undefined) { lineno += 1; } if (colno !== undefined) { colno += 1; } throw new TemplateError(msg, lineno, colno); }; _proto._pushBuffer = function _pushBuffer() { var id = this._tmpid(); this.bufferStack.push(this.buffer); this.buffer = id; this._emit("var " + this.buffer + " = \"\";"); return id; }; _proto._popBuffer = function _popBuffer() { this.buffer = this.bufferStack.pop(); }; _proto._emit = function _emit(code) { this.codebuf.push(code); }; _proto._emitLine = function _emitLine(code) { this._emit(code + '\n'); }; _proto._emitLines = function _emitLines() { var _this = this; for (var _len = arguments.length, lines = new Array(_len), _key = 0; _key < _len; _key++) { lines[_key] = arguments[_key]; } lines.forEach(function (line) { return _this._emitLine(line); }); }; _proto._emitFuncBegin = function _emitFuncBegin(node, name) { this.buffer = 'output'; this._scopeClosers = ''; this._emitLine("function " + name + "(env, context, frame, runtime, cb) {"); this._emitLine("var lineno = " + node.lineno + ";"); this._emitLine("var colno = " + node.colno + ";"); this._emitLine("var " + this.buffer + " = \"\";"); this._emitLine('try {'); }; _proto._emitFuncEnd = function _emitFuncEnd(noReturn) { if (!noReturn) { this._emitLine('cb(null, ' + this.buffer + ');'); } this._closeScopeLevels(); this._emitLine('} catch (e) {'); this._emitLine(' cb(runtime.handleError(e, lineno, colno));'); this._emitLine('}'); this._emitLine('}'); this.buffer = null; }; _proto._addScopeLevel = function _addScopeLevel() { this._scopeClosers += '})'; }; _proto._closeScopeLevels = function _closeScopeLevels() { this._emitLine(this._scopeClosers + ';'); this._scopeClosers = ''; }; _proto._withScopedSyntax = function _withScopedSyntax(func) { var _scopeClosers = this._scopeClosers; this._scopeClosers = ''; func.call(this); this._closeScopeLevels(); this._scopeClosers = _scopeClosers; }; _proto._makeCallback = function _makeCallback(res) { var err = this._tmpid(); return 'function(' + err + (res ? ',' + res : '') + ') {\n' + 'if(' + err + ') { cb(' + err + '); return; }'; }; _proto._tmpid = function _tmpid() { this.lastId++; return 't_' + this.lastId; }; _proto._templateName = function _templateName() { return this.templateName == null ? 'undefined' : JSON.stringify(this.templateName); }; _proto._compileChildren = function _compileChildren(node, frame) { var _this2 = this; node.children.forEach(function (child) { _this2.compile(child, frame); }); }; _proto._compileAggregate = function _compileAggregate(node, frame, startChar, endChar) { var _this3 = this; if (startChar) { this._emit(startChar); } node.children.forEach(function (child, i) { if (i > 0) { _this3._emit(','); } _this3.compile(child, frame); }); if (endChar) { this._emit(endChar); } }; _proto._compileExpression = function _compileExpression(node, frame) { // TODO: I'm not really sure if this type check is worth it or // not. this.assertType(node, nodes.Literal, nodes.Symbol, nodes.Group, nodes.Array, nodes.Dict, nodes.FunCall, nodes.Caller, nodes.Filter, nodes.LookupVal, nodes.Compare, nodes.InlineIf, nodes.In, nodes.Is, nodes.And, nodes.Or, nodes.Not, nodes.Add, nodes.Concat, nodes.Sub, nodes.Mul, nodes.Div, nodes.FloorDiv, nodes.Mod, nodes.Pow, nodes.Neg, nodes.Pos, nodes.Compare, nodes.NodeList); this.compile(node, frame); }; _proto.assertType = function assertType(node) { for (var _len2 = arguments.length, types = new Array(_len2 > 1 ? _len2 - 1 : 0), _key2 = 1; _key2 < _len2; _key2++) { types[_key2 - 1] = arguments[_key2]; } if (!types.some(function (t) { return node instanceof t; })) { this.fail("assertType: invalid type: " + node.typename, node.lineno, node.colno); } }; _proto.compileCallExtension = function compileCallExtension(node, frame, async) { var _this4 = this; var args = node.args; var contentArgs = node.contentArgs; var autoescape = typeof node.autoescape === 'boolean' ? node.autoescape : true; if (!async) { this._emit(this.buffer + " += runtime.suppressValue("); } this._emit("env.getExtension(\"" + node.extName + "\")[\"" + node.prop + "\"]("); this._emit('context'); if (args || contentArgs) { this._emit(','); } if (args) { if (!(args instanceof nodes.NodeList)) { this.fail('compileCallExtension: arguments must be a NodeList, ' + 'use `parser.parseSignature`'); } args.children.forEach(function (arg, i) { // Tag arguments are passed normally to the call. Note // that keyword arguments are turned into a single js // object as the last argument, if they exist. _this4._compileExpression(arg, frame); if (i !== args.children.length - 1 || contentArgs.length) { _this4._emit(','); } }); } if (contentArgs.length) { contentArgs.forEach(function (arg, i) { if (i > 0) { _this4._emit(','); } if (arg) { _this4._emitLine('function(cb) {'); _this4._emitLine('if(!cb) { cb = function(err) { if(err) { throw err; }}}'); var id = _this4._pushBuffer(); _this4._withScopedSyntax(function () { _this4.compile(arg, frame); _this4._emitLine("cb(null, " + id + ");"); }); _this4._popBuffer(); _this4._emitLine("return " + id + ";"); _this4._emitLine('}'); } else { _this4._emit('null'); } }); } if (async) { var res = this._tmpid(); this._emitLine(', ' + this._makeCallback(res)); this._emitLine(this.buffer + " += runtime.suppressValue(" + res + ", " + autoescape + " && env.opts.autoescape);"); this._addScopeLevel(); } else { this._emit(')'); this._emit(", " + autoescape + " && env.opts.autoescape);\n"); } }; _proto.compileCallExtensionAsync = function compileCallExtensionAsync(node, frame) { this.compileCallExtension(node, frame, true); }; _proto.compileNodeList = function compileNodeList(node, frame) { this._compileChildren(node, frame); }; _proto.compileLiteral = function compileLiteral(node) { if (typeof node.value === 'string') { var val = node.value.replace(/\\/g, '\\\\'); val = val.replace(/"/g, '\\"'); val = val.replace(/\n/g, '\\n'); val = val.replace(/\r/g, '\\r'); val = val.replace(/\t/g, '\\t'); val = val.replace(/\u2028/g, "\\u2028"); this._emit("\"" + val + "\""); } else if (node.value === null) { this._emit('null'); } else { this._emit(node.value.toString()); } }; _proto.compileSymbol = function compileSymbol(node, frame) { var name = node.value; var v = frame.lookup(name); if (v) { this._emit(v); } else { this._emit('runtime.contextOrFrameLookup(' + 'context, frame, "' + name + '")'); } }; _proto.compileGroup = function compileGroup(node, frame) { this._compileAggregate(node, frame, '(', ')'); }; _proto.compileArray = function compileArray(node, frame) { this._compileAggregate(node, frame, '[', ']'); }; _proto.compileDict = function compileDict(node, frame) { this._compileAggregate(node, frame, '{', '}'); }; _proto.compilePair = function compilePair(node, frame) { var key = node.key; var val = node.value; if (key instanceof nodes.Symbol) { key = new nodes.Literal(key.lineno, key.colno, key.value); } else if (!(key instanceof nodes.Literal && typeof key.value === 'string')) { this.fail('compilePair: Dict keys must be strings or names', key.lineno, key.colno); } this.compile(key, frame); this._emit(': '); this._compileExpression(val, frame); }; _proto.compileInlineIf = function compileInlineIf(node, frame) { this._emit('('); this.compile(node.cond, frame); this._emit('?'); this.compile(node.body, frame); this._emit(':'); if (node.else_ !== null) { this.compile(node.else_, frame); } else { this._emit('""'); } this._emit(')'); }; _proto.compileIn = function compileIn(node, frame) { this._emit('runtime.inOperator('); this.compile(node.left, frame); this._emit(','); this.compile(node.right, frame); this._emit(')'); }; _proto.compileIs = function compileIs(node, frame) { // first, we need to try to get the name of the test function, if it's a // callable (i.e., has args) and not a symbol. var right = node.right.name ? node.right.name.value // otherwise go with the symbol value : node.right.value; this._emit('env.getTest("' + right + '").call(context, '); this.compile(node.left, frame); // compile the arguments for the callable if they exist if (node.right.args) { this._emit(','); this.compile(node.right.args, frame); } this._emit(') === true'); }; _proto._binOpEmitter = function _binOpEmitter(node, frame, str) { this.compile(node.left, frame); this._emit(str); this.compile(node.right, frame); } // ensure concatenation instead of addition // by adding empty string in between ; _proto.compileOr = function compileOr(node, frame) { return this._binOpEmitter(node, frame, ' || '); }; _proto.compileAnd = function compileAnd(node, frame) { return this._binOpEmitter(node, frame, ' && '); }; _proto.compileAdd = function compileAdd(node, frame) { return this._binOpEmitter(node, frame, ' + '); }; _proto.compileConcat = function compileConcat(node, frame) { return this._binOpEmitter(node, frame, ' + "" + '); }; _proto.compileSub = function compileSub(node, frame) { return this._binOpEmitter(node, frame, ' - '); }; _proto.compileMul = function compileMul(node, frame) { return this._binOpEmitter(node, frame, ' * '); }; _proto.compileDiv = function compileDiv(node, frame) { return this._binOpEmitter(node, frame, ' / '); }; _proto.compileMod = function compileMod(node, frame) { return this._binOpEmitter(node, frame, ' % '); }; _proto.compileNot = function compileNot(node, frame) { this._emit('!'); this.compile(node.target, frame); }; _proto.compileFloorDiv = function compileFloorDiv(node, frame) { this._emit('Math.floor('); this.compile(node.left, frame); this._emit(' / '); this.compile(node.right, frame); this._emit(')'); }; _proto.compilePow = function compilePow(node, frame) { this._emit('Math.pow('); this.compile(node.left, frame); this._emit(', '); this.compile(node.right, frame); this._emit(')'); }; _proto.compileNeg = function compileNeg(node, frame) { this._emit('-'); this.compile(node.target, frame); }; _proto.compilePos = function compilePos(node, frame) { this._emit('+'); this.compile(node.target, frame); }; _proto.compileCompare = function compileCompare(node, frame) { var _this5 = this; this.compile(node.expr, frame); node.ops.forEach(function (op) { _this5._emit(" " + compareOps[op.type] + " "); _this5.compile(op.expr, frame); }); }; _proto.compileLookupVal = function compileLookupVal(node, frame) { this._emit('runtime.memberLookup(('); this._compileExpression(node.target, frame); this._emit('),'); this._compileExpression(node.val, frame); this._emit(')'); }; _proto._getNodeName = function _getNodeName(node) { switch (node.typename) { case 'Symbol': return node.value; case 'FunCall': return 'the return value of (' + this._getNodeName(node.name) + ')'; case 'LookupVal': return this._getNodeName(node.target) + '["' + this._getNodeName(node.val) + '"]'; case 'Literal': return node.value.toString(); default: return '--expression--'; } }; _proto.compileFunCall = function compileFunCall(node, frame) { // Keep track of line/col info at runtime by settings // variables within an expression. An expression in javascript // like (x, y, z) returns the last value, and x and y can be // anything this._emit('(lineno = ' + node.lineno + ', colno = ' + node.colno + ', '); this._emit('runtime.callWrap('); // Compile it as normal. this._compileExpression(node.name, frame); // Output the name of what we're calling so we can get friendly errors // if the lookup fails. this._emit(', "' + this._getNodeName(node.name).replace(/"/g, '\\"') + '", context, '); this._compileAggregate(node.args, frame, '[', '])'); this._emit(')'); }; _proto.compileFilter = function compileFilter(node, frame) { var name = node.name; this.assertType(name, nodes.Symbol); this._emit('env.getFilter("' + name.value + '").call(context, '); this._compileAggregate(node.args, frame); this._emit(')'); }; _proto.compileFilterAsync = function compileFilterAsync(node, frame) { var name = node.name; var symbol = node.symbol.value; this.assertType(name, nodes.Symbol); frame.set(symbol, symbol); this._emit('env.getFilter("' + name.value + '").call(context, '); this._compileAggregate(node.args, frame); this._emitLine(', ' + this._makeCallback(symbol)); this._addScopeLevel(); }; _proto.compileKeywordArgs = function compileKeywordArgs(node, frame) { this._emit('runtime.makeKeywordArgs('); this.compileDict(node, frame); this._emit(')'); }; _proto.compileSet = function compileSet(node, frame) { var _this6 = this; var ids = []; // Lookup the variable names for each identifier and create // new ones if necessary node.targets.forEach(function (target) { var name = target.value; var id = frame.lookup(name); if (id === null || id === undefined) { id = _this6._tmpid(); // Note: This relies on js allowing scope across // blocks, in case this is created inside an `if` _this6._emitLine('var ' + id + ';'); } ids.push(id); }); if (node.value) { this._emit(ids.join(' = ') + ' = '); this._compileExpression(node.value, frame); this._emitLine(';'); } else { this._emit(ids.join(' = ') + ' = '); this.compile(node.body, frame); this._emitLine(';'); } node.targets.forEach(function (target, i) { var id = ids[i]; var name = target.value; // We are running this for every var, but it's very // uncommon to assign to multiple vars anyway _this6._emitLine("frame.set(\"" + name + "\", " + id + ", true);"); _this6._emitLine('if(frame.topLevel) {'); _this6._emitLine("context.setVariable(\"" + name + "\", " + id + ");"); _this6._emitLine('}'); if (name.charAt(0) !== '_') { _this6._emitLine('if(frame.topLevel) {'); _this6._emitLine("context.addExport(\"" + name + "\", " + id + ");"); _this6._emitLine('}'); } }); }; _proto.compileSwitch = function compileSwitch(node, frame) { var _this7 = this; this._emit('switch ('); this.compile(node.expr, frame); this._emit(') {'); node.cases.forEach(function (c, i) { _this7._emit('case '); _this7.compile(c.cond, frame); _this7._emit(': '); _this7.compile(c.body, frame); // preserve fall-throughs if (c.body.children.length) { _this7._emitLine('break;'); } }); if (node.default) { this._emit('default:'); this.compile(node.default, frame); } this._emit('}'); }; _proto.compileIf = function compileIf(node, frame, async) { var _this8 = this; this._emit('if('); this._compileExpression(node.cond, frame); this._emitLine(') {'); this._withScopedSyntax(function () { _this8.compile(node.body, frame); if (async) { _this8._emit('cb()'); } }); if (node.else_) { this._emitLine('}\nelse {'); this._withScopedSyntax(function () { _this8.compile(node.else_, frame); if (async) { _this8._emit('cb()'); } }); } else if (async) { this._emitLine('}\nelse {'); this._emit('cb()'); } this._emitLine('}'); }; _proto.compileIfAsync = function compileIfAsync(node, frame) { this._emit('(function(cb) {'); this.compileIf(node, frame, true); this._emit('})(' + this._makeCallback()); this._addScopeLevel(); }; _proto._emitLoopBindings = function _emitLoopBindings(node, arr, i, len) { var _this9 = this; var bindings = [{ name: 'index', val: i + " + 1" }, { name: 'index0', val: i }, { name: 'revindex', val: len + " - " + i }, { name: 'revindex0', val: len + " - " + i + " - 1" }, { name: 'first', val: i + " === 0" }, { name: 'last', val: i + " === " + len + " - 1" }, { name: 'length', val: len }]; bindings.forEach(function (b) { _this9._emitLine("frame.set(\"loop." + b.name + "\", " + b.val + ");"); }); }; _proto.compileFor = function compileFor(node, frame) { var _this10 = this; // Some of this code is ugly, but it keeps the generated code // as fast as possible. ForAsync also shares some of this, but // not much. var i = this._tmpid(); var len = this._tmpid(); var arr = this._tmpid(); frame = frame.push(); this._emitLine('frame = frame.push();'); this._emit("var " + arr + " = "); this._compileExpression(node.arr, frame); this._emitLine(';'); this._emit("if(" + arr + ") {"); this._emitLine(arr + ' = runtime.fromIterator(' + arr + ');'); // If multiple names are passed, we need to bind them // appropriately if (node.name instanceof nodes.Array) { this._emitLine("var " + i + ";"); // The object could be an arroy or object. Note that the // body of the loop is duplicated for each condition, but // we are optimizing for speed over size. this._emitLine("if(runtime.isArray(" + arr + ")) {"); this._emitLine("var " + len + " = " + arr + ".length;"); this._emitLine("for(" + i + "=0; " + i + " < " + arr + ".length; " + i + "++) {"); // Bind each declared var node.name.children.forEach(function (child, u) { var tid = _this10._tmpid(); _this10._emitLine("var " + tid + " = " + arr + "[" + i + "][" + u + "];"); _this10._emitLine("frame.set(\"" + child + "\", " + arr + "[" + i + "][" + u + "]);"); frame.set(node.name.children[u].value, tid); }); this._emitLoopBindings(node, arr, i, len); this._withScopedSyntax(function () { _this10.compile(node.body, frame); }); this._emitLine('}'); this._emitLine('} else {'); // Iterate over the key/values of an object var _node$name$children = node.name.children, key = _node$name$children[0], val = _node$name$children[1]; var k = this._tmpid(); var v = this._tmpid(); frame.set(key.value, k); frame.set(val.value, v); this._emitLine(i + " = -1;"); this._emitLine("var " + len + " = runtime.keys(" + arr + ").length;"); this._emitLine("for(var " + k + " in " + arr + ") {"); this._emitLine(i + "++;"); this._emitLine("var " + v + " = " + arr + "[" + k + "];"); this._emitLine("frame.set(\"" + key.value + "\", " + k + ");"); this._emitLine("frame.set(\"" + val.value + "\", " + v + ");"); this._emitLoopBindings(node, arr, i, len); this._withScopedSyntax(function () { _this10.compile(node.body, frame); }); this._emitLine('}'); this._emitLine('}'); } else { // Generate a typical array iteration var _v = this._tmpid(); frame.set(node.name.value, _v); this._emitLine("var " + len + " = " + arr + ".length;"); this._emitLine("for(var " + i + "=0; " + i + " < " + arr + ".length; " + i + "++) {"); this._emitLine("var " + _v + " = " + arr + "[" + i + "];"); this._emitLine("frame.set(\"" + node.name.value + "\", " + _v + ");"); this._emitLoopBindings(node, arr, i, len); this._withScopedSyntax(function () { _this10.compile(node.body, frame); }); this._emitLine('}'); } this._emitLine('}'); if (node.else_) { this._emitLine('if (!' + len + ') {'); this.compile(node.else_, frame); this._emitLine('}'); } this._emitLine('frame = frame.pop();'); }; _proto._compileAsyncLoop = function _compileAsyncLoop(node, frame, parallel) { var _this11 = this; // This shares some code with the For tag, but not enough to // worry about. This iterates across an object asynchronously, // but not in parallel. var i = this._tmpid(); var len = this._tmpid(); var arr = this._tmpid(); var asyncMethod = parallel ? 'asyncAll' : 'asyncEach'; frame = frame.push(); this._emitLine('frame = frame.push();'); this._emit('var ' + arr + ' = runtime.fromIterator('); this._compileExpression(node.arr, frame); this._emitLine(');'); if (node.name instanceof nodes.Array) { var arrayLen = node.name.children.length; this._emit("runtime." + asyncMethod + "(" + arr + ", " + arrayLen + ", function("); node.name.children.forEach(function (name) { _this11._emit(name.value + ","); }); this._emit(i + ',' + len + ',next) {'); node.name.children.forEach(function (name) { var id = name.value; frame.set(id, id); _this11._emitLine("frame.set(\"" + id + "\", " + id + ");"); }); } else { var id = node.name.value; this._emitLine("runtime." + asyncMethod + "(" + arr + ", 1, function(" + id + ", " + i + ", " + len + ",next) {"); this._emitLine('frame.set("' + id + '", ' + id + ');'); frame.set(id, id); } this._emitLoopBindings(node, arr, i, len); this._withScopedSyntax(function () { var buf; if (parallel) { buf = _this11._pushBuffer(); } _this11.compile(node.body, frame); _this11._emitLine('next(' + i + (buf ? ',' + buf : '') + ');'); if (parallel) { _this11._popBuffer(); } }); var output = this._tmpid(); this._emitLine('}, ' + this._makeCallback(output)); this._addScopeLevel(); if (parallel) { this._emitLine(this.buffer + ' += ' + output + ';'); } if (node.else_) { this._emitLine('if (!' + arr + '.length) {'); this.compile(node.else_, frame); this._emitLine('}'); } this._emitLine('frame = frame.pop();'); }; _proto.compileAsyncEach = function compileAsyncEach(node, frame) { this._compileAsyncLoop(node, frame); }; _proto.compileAsyncAll = function compileAsyncAll(node, frame) { this._compileAsyncLoop(node, frame, true); }; _proto._compileMacro = function _compileMacro(node, frame) { var _this12 = this; var args = []; var kwargs = null; var funcId = 'macro_' + this._tmpid(); var keepFrame = frame !== undefined; // Type check the definition of the args node.args.children.forEach(function (arg, i) { if (i === node.args.children.length - 1 && arg instanceof nodes.Dict) { kwargs = arg; } else { _this12.assertType(arg, nodes.Symbol); args.push(arg); } }); var realNames = [].concat(args.map(function (n) { return "l_" + n.value; }), ['kwargs']); // Quoted argument names var argNames = args.map(function (n) { return "\"" + n.value + "\""; }); var kwargNames = (kwargs && kwargs.children || []).map(function (n) { return "\"" + n.key.value + "\""; }); // We pass a function to makeMacro which destructures the // arguments so support setting positional args with keywords // args and passing keyword args as positional args // (essentially default values). See runtime.js. var currFrame; if (keepFrame) { currFrame = frame.push(true); } else { currFrame = new Frame(); } this._emitLines("var " + funcId + " = runtime.makeMacro(", "[" + argNames.join(', ') + "], ", "[" + kwargNames.join(', ') + "], ", "function (" + realNames.join(', ') + ") {", 'var callerFrame = frame;', 'frame = ' + (keepFrame ? 'frame.push(true);' : 'new runtime.Frame();'), 'kwargs = kwargs || {};', 'if (Object.prototype.hasOwnProperty.call(kwargs, "caller")) {', 'frame.set("caller", kwargs.caller); }'); // Expose the arguments to the template. Don't need to use // random names because the function // will create a new run-time scope for us args.forEach(function (arg) { _this12._emitLine("frame.set(\"" + arg.value + "\", l_" + arg.value + ");"); currFrame.set(arg.value, "l_" + arg.value); }); // Expose the keyword arguments if (kwargs) { kwargs.children.forEach(function (pair) { var name = pair.key.value; _this12._emit("frame.set(\"" + name + "\", "); _this12._emit("Object.prototype.hasOwnProperty.call(kwargs, \"" + name + "\")"); _this12._emit(" ? kwargs[\"" + name + "\"] : "); _this12._compileExpression(pair.value, currFrame); _this12._emit(');'); }); } var bufferId = this._pushBuffer(); this._withScopedSyntax(function () { _this12.compile(node.body, currFrame); }); this._emitLine('frame = ' + (keepFrame ? 'frame.pop();' : 'callerFrame;')); this._emitLine("return new runtime.SafeString(" + bufferId + ");"); this._emitLine('});'); this._popBuffer(); return funcId; }; _proto.compileMacro = function compileMacro(node, frame) { var funcId = this._compileMacro(node); // Expose the macro to the templates var name = node.name.value; frame.set(name, funcId); if (frame.parent) { this._emitLine("frame.set(\"" + name + "\", " + funcId + ");"); } else { if (node.name.value.charAt(0) !== '_') { this._emitLine("context.addExport(\"" + name + "\");"); } this._emitLine("context.setVariable(\"" + name + "\", " + funcId + ");"); } }; _proto.compileCaller = function compileCaller(node, frame) { // basically an anonymous "macro expression" this._emit('(function (){'); var funcId = this._compileMacro(node, frame); this._emit("return " + funcId + ";})()"); }; _proto._compileGetTemplate = function _compileGetTemplate(node, frame, eagerCompile, ignoreMissing) { var parentTemplateId = this._tmpid(); var parentName = this._templateName(); var cb = this._makeCallback(parentTemplateId); var eagerCompileArg = eagerCompile ? 'true' : 'false'; var ignoreMissingArg = ignoreMissing ? 'true' : 'false'; this._emit('env.getTemplate('); this._compileExpression(node.template, frame); this._emitLine(", " + eagerCompileArg + ", " + parentName + ", " + ignoreMissingArg + ", " + cb); return parentTemplateId; }; _proto.compileImport = function compileImport(node, frame) { var target = node.target.value; var id = this._compileGetTemplate(node, frame, false, false); this._addScopeLevel(); this._emitLine(id + '.getExported(' + (node.withContext ? 'context.getVariables(), frame, ' : '') + this._makeCallback(id)); this._addScopeLevel(); frame.set(target, id); if (frame.parent) { this._emitLine("frame.set(\"" + target + "\", " + id + ");"); } else { this._emitLine("context.setVariable(\"" + target + "\", " + id + ");"); } }; _proto.compileFromImport = function compileFromImport(node, frame) { var _this13 = this; var importedId = this._compileGetTemplate(node, frame, false, false); this._addScopeLevel(); this._emitLine(importedId + '.getExported(' + (node.withContext ? 'context.getVariables(), frame, ' : '') + this._makeCallback(importedId)); this._addScopeLevel(); node.names.children.forEach(function (nameNode) { var name; var alias; var id = _this13._tmpid(); if (nameNode instanceof nodes.Pair) { name = nameNode.key.value; alias = nameNode.value.value; } else { name = nameNode.value; alias = name; } _this13._emitLine("if(Object.prototype.hasOwnProperty.call(" + importedId + ", \"" + name + "\")) {"); _this13._emitLine("var " + id + " = " + importedId + "." + name + ";"); _this13._emitLine('} else {'); _this13._emitLine("cb(new Error(\"cannot import '" + name + "'\")); return;"); _this13._emitLine('}'); frame.set(alias, id); if (frame.parent) { _this13._emitLine("frame.set(\"" + alias + "\", " + id + ");"); } else { _this13._emitLine("context.setVariable(\"" + alias + "\", " + id + ");"); } }); }; _proto.compileBlock = function compileBlock(node) { var id = this._tmpid(); // If we are executing outside a block (creating a top-level // block), we really don't want to execute its code because it // will execute twice: once when the child template runs and // again when the parent template runs. Note that blocks // within blocks will *always* execute immediately *and* // wherever else they are invoked (like used in a parent // template). This may have behavioral differences from jinja // because blocks can have side effects, but it seems like a // waste of performance to always execute huge top-level // blocks twice if (!this.inBlock) { this._emit('(parentTemplate ? function(e, c, f, r, cb) { cb(""); } : '); } this._emit("context.getBlock(\"" + node.name.value + "\")"); if (!this.inBlock) { this._emit(')'); } this._emitLine('(env, context, frame, runtime, ' + this._makeCallback(id)); this._emitLine(this.buffer + " += " + id + ";"); this._addScopeLevel(); }; _proto.compileSuper = function compileSuper(node, frame) { var name = node.blockName.value; var id = node.symbol.value; var cb = this._makeCallback(id); this._emitLine("context.getSuper(env, \"" + name + "\", b_" + name + ", frame, runtime, " + cb); this._emitLine(id + " = runtime.markSafe(" + id + ");"); this._addScopeLevel(); frame.set(id, id); }; _proto.compileExtends = function compileExtends(node, frame) { var k = this._tmpid(); var parentTemplateId = this._compileGetTemplate(node, frame, true, false); // extends is a dynamic tag and can occur within a block like // `if`, so if this happens we need to capture the parent // template in the top-level scope this._emitLine("parentTemplate = " + parentTemplateId); this._emitLine("for(var " + k + " in parentTemplate.blocks) {"); this._emitLine("context.addBlock(" + k + ", parentTemplate.blocks[" + k + "]);"); this._emitLine('}'); this._addScopeLevel(); }; _proto.compileInclude = function compileInclude(node, frame) { this._emitLine('var tasks = [];'); this._emitLine('tasks.push('); this._emitLine('function(callback) {'); var id = this._compileGetTemplate(node, frame, false, node.ignoreMissing); this._emitLine("callback(null," + id + ");});"); this._emitLine('});'); var id2 = this._tmpid(); this._emitLine('tasks.push('); this._emitLine('function(template, callback){'); this._emitLine('template.render(context.getVariables(), frame, ' + this._makeCallback(id2)); this._emitLine('callback(null,' + id2 + ');});'); this._emitLine('});'); this._emitLine('tasks.push('); this._emitLine('function(result, callback){'); this._emitLine(this.buffer + " += result;"); this._emitLine('callback(null);'); this._emitLine('});'); this._emitLine('env.waterfall(tasks, function(){'); this._addScopeLevel(); }; _proto.compileTemplateData = function compileTemplateData(node, frame) { this.compileLiteral(node, frame); }; _proto.compileCapture = function compileCapture(node, frame) { var _this14 = this; // we need to temporarily override the current buffer id as 'output' // so the set block writes to the capture output instead of the buffer var buffer = this.buffer; this.buffer = 'output'; this._emitLine('(function() {'); this._emitLine('var output = "";'); this._withScopedSyntax(function () { _this14.compile(node.body, frame); }); this._emitLine('return output;'); this._emitLine('})()'); // and of course, revert back to the old buffer id this.buffer = buffer; }; _proto.compileOutput = function compileOutput(node, frame) { var _this15 = this; var children = node.children; children.forEach(function (child) { // TemplateData is a special case because it is never // autoescaped, so simply output it for optimization if (child instanceof nodes.TemplateData) { if (child.value) { _this15._emit(_this15.buffer + " += "); _this15.compileLiteral(child, frame); _this15._emitLine(';'); } } else { _this15._emit(_this15.buffer + " += runtime.suppressValue("); if (_this15.throwOnUndefined) { _this15._emit('runtime.ensureDefined('); } _this15.compile(child, frame); if (_this15.throwOnUndefined) { _this15._emit("," + node.lineno + "," + node.colno + ")"); } _this15._emit(', env.opts.autoescape);\n'); } }); }; _proto.compileRoot = function compileRoot(node, frame) { var _this16 = this; if (frame) { this.fail('compileRoot: root node can\'t have frame'); } frame = new Frame(); this._emitFuncBegin(node, 'root'); this._emitLine('var parentTemplate = null;'); this._compileChildren(node, frame); this._emitLine('if(parentTemplate) {'); this._emitLine('parentTemplate.rootRenderFunc(env, context, frame, runtime, cb);'); this._emitLine('} else {'); this._emitLine("cb(null, " + this.buffer + ");"); this._emitLine('}'); this._emitFuncEnd(true); this.inBlock = true; var blockNames = []; var blocks = node.findAll(nodes.Block); blocks.forEach(function (block, i) { var name = block.name.value; if (blockNames.indexOf(name) !== -1) { throw new Error("Block \"" + name + "\" defined more than once."); } blockNames.push(name); _this16._emitFuncBegin(block, "b_" + name); var tmpFrame = new Frame(); _this16._emitLine('var frame = frame.push(true);'); _this16.compile(block.body, tmpFrame); _this16._emitFuncEnd(); }); this._emitLine('return {'); blocks.forEach(function (block, i) { var blockName = "b_" + block.name.value; _this16._emitLine(blockName + ": " + blockName + ","); }); this._emitLine('root: root\n};'); }; _proto.compile = function compile(node, frame) { var _compile = this['compile' + node.typename]; if (_compile) { _compile.call(this, node, frame); } else { this.fail("compile: Cannot compile node: " + node.typename, node.lineno, node.colno); } }; _proto.getCode = function getCode() { return this.codebuf.join(''); }; return Compiler; }(Obj); module.exports = { compile: function compile(src, asyncFilters, extensions, name, opts) { if (opts === void 0) { opts = {}; } var c = new Compiler(name, opts.throwOnUndefined); // Run the extension preprocessors against the source. var preprocessors = (extensions || []).map(function (ext) { return ext.preprocess; }).filter(function (f) { return !!f; }); var processedSrc = preprocessors.reduce(function (s, processor) { return processor(s); }, src); c.compile(transformer.transform(parser.parse(processedSrc, extensions, opts), asyncFilters, name)); return c.getCode(); }, Compiler: Compiler }; /***/ }), /* 6 */ /***/ (function(module, exports, __webpack_require__) { "use strict"; function _inheritsLoose(subClass, superClass) { subClass.prototype = Object.create(superClass.prototype); subClass.prototype.constructor = subClass; _setPrototypeOf(subClass, superClass); } function _setPrototypeOf(o, p) { _setPrototypeOf = Object.setPrototypeOf ? Object.setPrototypeOf.bind() : function _setPrototypeOf(o, p) { o.__proto__ = p; return o; }; return _setPrototypeOf(o, p); } var path = __webpack_require__(4); var _require = __webpack_require__(1), EmitterObj = _require.EmitterObj; module.exports = /*#__PURE__*/function (_EmitterObj) { _inheritsLoose(Loader, _EmitterObj); function Loader() { return _EmitterObj.apply(this, arguments) || this; } var _proto = Loader.prototype; _proto.resolve = function resolve(from, to) { return path.resolve(path.dirname(from), to); }; _proto.isRelative = function isRelative(filename) { return filename.indexOf('./') === 0 || filename.indexOf('../') === 0; }; return Loader; }(EmitterObj); /***/ }), /* 7 */ /***/ (function(module, exports, __webpack_require__) { "use strict"; function _inheritsLoose(subClass, superClass) { subClass.prototype = Object.create(superClass.prototype); subClass.prototype.constructor = subClass; _setPrototypeOf(subClass, superClass); } function _setPrototypeOf(o, p) { _setPrototypeOf = Object.setPrototypeOf ? Object.setPrototypeOf.bind() : function _setPrototypeOf(o, p) { o.__proto__ = p; return o; }; return _setPrototypeOf(o, p); } var asap = __webpack_require__(12); var _waterfall = __webpack_require__(15); var lib = __webpack_require__(0); var compiler = __webpack_require__(5); var filters = __webpack_require__(18); var _require = __webpack_require__(10), FileSystemLoader = _require.FileSystemLoader, WebLoader = _require.WebLoader, PrecompiledLoader = _require.PrecompiledLoader; var tests = __webpack_require__(20); var globals = __webpack_require__(21); var _require2 = __webpack_require__(1), Obj = _require2.Obj, EmitterObj = _require2.EmitterObj; var globalRuntime = __webpack_require__(2); var handleError = globalRuntime.handleError, Frame = globalRuntime.Frame; var expressApp = __webpack_require__(22); // If the user is using the async API, *always* call it // asynchronously even if the template was synchronous. function callbackAsap(cb, err, res) { asap(function () { cb(err, res); }); } /** * A no-op template, for use with {% include ignore missing %} */ var noopTmplSrc = { type: 'code', obj: { root: function root(env, context, frame, runtime, cb) { try { cb(null, ''); } catch (e) { cb(handleError(e, null, null)); } } } }; var Environment = /*#__PURE__*/function (_EmitterObj) { _inheritsLoose(Environment, _EmitterObj); function Environment() { return _EmitterObj.apply(this, arguments) || this; } var _proto = Environment.prototype; _proto.init = function init(loaders, opts) { var _this = this; // The dev flag determines the trace that'll be shown on errors. // If set to true, returns the full trace from the error point, // otherwise will return trace starting from Template.render // (the full trace from within nunjucks may confuse developers using // the library) // defaults to false opts = this.opts = opts || {}; this.opts.dev = !!opts.dev; // The autoescape flag sets global autoescaping. If true, // every string variable will be escaped by default. // If false, strings can be manually escaped using the `escape` filter. // defaults to true this.opts.autoescape = opts.autoescape != null ? opts.autoescape : true; // If true, this will make the system throw errors if trying // to output a null or undefined value this.opts.throwOnUndefined = !!opts.throwOnUndefined; this.opts.trimBlocks = !!opts.trimBlocks; this.opts.lstripBlocks = !!opts.lstripBlocks; this.loaders = []; if (!loaders) { // The filesystem loader is only available server-side if (FileSystemLoader) { this.loaders = [new FileSystemLoader('views')]; } else if (WebLoader) { this.loaders = [new WebLoader('/views')]; } } else { this.loaders = lib.isArray(loaders) ? loaders : [loaders]; } // It's easy to use precompiled templates: just include them // before you configure nunjucks and this will automatically // pick it up and use it if (typeof window !== 'undefined' && window.nunjucksPrecompiled) { this.loaders.unshift(new PrecompiledLoader(window.nunjucksPrecompiled)); } this._initLoaders(); this.globals = globals(); this.filters = {}; this.tests = {}; this.asyncFilters = []; this.extensions = {}; this.extensionsList = []; lib._entries(filters).forEach(function (_ref) { var name = _ref[0], filter = _ref[1]; return _this.addFilter(name, filter); }); lib._entries(tests).forEach(function (_ref2) { var name = _ref2[0], test = _ref2[1]; return _this.addTest(name, test); }); }; _proto._initLoaders = function _initLoaders() { var _this2 = this; this.loaders.forEach(function (loader) { // Caching and cache busting loader.cache = {}; if (typeof loader.on === 'function') { loader.on('update', function (name, fullname) { loader.cache[name] = null; _this2.emit('update', name, fullname, loader); }); loader.on('load', function (name, source) { _this2.emit('load', name, source, loader); }); } }); }; _proto.invalidateCache = function invalidateCache() { this.loaders.forEach(function (loader) { loader.cache = {}; }); }; _proto.addExtension = function addExtension(name, extension) { extension.__name = name; this.extensions[name] = extension; this.extensionsList.push(extension); return this; }; _proto.removeExtension = function removeExtension(name) { var extension = this.getExtension(name); if (!extension) { return; } this.extensionsList = lib.without(this.extensionsList, extension); delete this.extensions[name]; }; _proto.getExtension = function getExtension(name) { return this.extensions[name]; }; _proto.hasExtension = function hasExtension(name) { return !!this.extensions[name]; }; _proto.addGlobal = function addGlobal(name, value) { this.globals[name] = value; return this; }; _proto.getGlobal = function getGlobal(name) { if (typeof this.globals[name] === 'undefined') { throw new Error('global not found: ' + name); } return this.globals[name]; }; _proto.addFilter = function addFilter(name, func, async) { var wrapped = func; if (async) { this.asyncFilters.push(name); } this.filters[name] = wrapped; return this; }; _proto.getFilter = function getFilter(name) { if (!this.filters[name]) { throw new Error('filter not found: ' + name); } return this.filters[name]; }; _proto.addTest = function addTest(name, func) { this.tests[name] = func; return this; }; _proto.getTest = function getTest(name) { if (!this.tests[name]) { throw new Error('test not found: ' + name); } return this.tests[name]; }; _proto.resolveTemplate = function resolveTemplate(loader, parentName, filename) { var isRelative = loader.isRelative && parentName ? loader.isRelative(filename) : false; return isRelative && loader.resolve ? loader.resolve(parentName, filename) : filename; }; _proto.getTemplate = function getTemplate(name, eagerCompile, parentName, ignoreMissing, cb) { var _this3 = this; var that = this; var tmpl = null; if (name && name.raw) { // this fixes autoescape for templates referenced in symbols name = name.raw; } if (lib.isFunction(parentName)) { cb = parentName; parentName = null; eagerCompile = eagerCompile || false; } if (lib.isFunction(eagerCompile)) { cb = eagerCompile; eagerCompile = false; } if (name instanceof Template) { tmpl = name; } else if (typeof name !== 'string') { throw new Error('template names must be a string: ' + name); } else { for (var i = 0; i < this.loaders.length; i++) { var loader = this.loaders[i]; tmpl = loader.cache[this.resolveTemplate(loader, parentName, name)]; if (tmpl) { break; } } } if (tmpl) { if (eagerCompile) { tmpl.compile(); } if (cb) { cb(null, tmpl); return undefined; } else { return tmpl; } } var syncResult; var createTemplate = function createTemplate(err, info) { if (!info && !err && !ignoreMissing) { err = new Error('template not found: ' + name); } if (err) { if (cb) { cb(err); return; } else { throw err; } } var newTmpl; if (!info) { newTmpl = new Template(noopTmplSrc, _this3, '', eagerCompile); } else { newTmpl = new Template(info.src, _this3, info.path, eagerCompile); if (!info.noCache) { info.loader.cache[name] = newTmpl; } } if (cb) { cb(null, newTmpl); } else { syncResult = newTmpl; } }; lib.asyncIter(this.loaders, function (loader, i, next, done) { function handle(err, src) { if (err) { done(err); } else if (src) { src.loader = loader; done(null, src); } else { next(); } } // Resolve name relative to parentName name = that.resolveTemplate(loader, parentName, name); if (loader.async) { loader.getSource(name, handle); } else { handle(null, loader.getSource(name)); } }, createTemplate); return syncResult; }; _proto.express = function express(app) { return expressApp(this, app); }; _proto.render = function render(name, ctx, cb) { if (lib.isFunction(ctx)) { cb = ctx; ctx = null; } // We support a synchronous API to make it easier to migrate // existing code to async. This works because if you don't do // anything async work, the whole thing is actually run // synchronously. var syncResult = null; this.getTemplate(name, function (err, tmpl) { if (err && cb) { callbackAsap(cb, err); } else if (err) { throw err; } else { syncResult = tmpl.render(ctx, cb); } }); return syncResult; }; _proto.renderString = function renderString(src, ctx, opts, cb) { if (lib.isFunction(opts)) { cb = opts; opts = {}; } opts = opts || {}; var tmpl = new Template(src, this, opts.path); return tmpl.render(ctx, cb); }; _proto.waterfall = function waterfall(tasks, callback, forceAsync) { return _waterfall(tasks, callback, forceAsync); }; return Environment; }(EmitterObj); var Context = /*#__PURE__*/function (_Obj) { _inheritsLoose(Context, _Obj); function Context() { return _Obj.apply(this, arguments) || this; } var _proto2 = Context.prototype; _proto2.init = function init(ctx, blocks, env) { var _this4 = this; // Has to be tied to an environment so we can tap into its globals. this.env = env || new Environment(); // Make a duplicate of ctx this.ctx = lib.extend({}, ctx); this.blocks = {}; this.exported = []; lib.keys(blocks).forEach(function (name) { _this4.addBlock(name, blocks[name]); }); }; _proto2.lookup = function lookup(name) { // This is one of the most called functions, so optimize for // the typical case where the name isn't in the globals if (name in this.env.globals && !(name in this.ctx)) { return this.env.globals[name]; } else { return this.ctx[name]; } }; _proto2.setVariable = function setVariable(name, val) { this.ctx[name] = val; }; _proto2.getVariables = function getVariables() { return this.ctx; }; _proto2.addBlock = function addBlock(name, block) { this.blocks[name] = this.blocks[name] || []; this.blocks[name].push(block); return this; }; _proto2.getBlock = function getBlock(name) { if (!this.blocks[name]) { throw new Error('unknown block "' + name + '"'); } return this.blocks[name][0]; }; _proto2.getSuper = function getSuper(env, name, block, frame, runtime, cb) { var idx = lib.indexOf(this.blocks[name] || [], block); var blk = this.blocks[name][idx + 1]; var context = this; if (idx === -1 || !blk) { throw new Error('no super block available for "' + name + '"'); } blk(env, context, frame, runtime, cb); }; _proto2.addExport = function addExport(name) { this.exported.push(name); }; _proto2.getExported = function getExported() { var _this5 = this; var exported = {}; this.exported.forEach(function (name) { exported[name] = _this5.ctx[name]; }); return exported; }; return Context; }(Obj); var Template = /*#__PURE__*/function (_Obj2) { _inheritsLoose(Template, _Obj2); function Template() { return _Obj2.apply(this, arguments) || this; } var _proto3 = Template.prototype; _proto3.init = function init(src, env, path, eagerCompile) { this.env = env || new Environment(); if (lib.isObject(src)) { switch (src.type) { case 'code': this.tmplProps = src.obj; break; case 'string': this.tmplStr = src.obj; break; default: throw new Error("Unexpected template object type " + src.type + "; expected 'code', or 'string'"); } } else if (lib.isString(src)) { this.tmplStr = src; } else { throw new Error('src must be a string or an object describing the source'); } this.path = path; if (eagerCompile) { try { this._compile(); } catch (err) { throw lib._prettifyError(this.path, this.env.opts.dev, err); } } else { this.compiled = false; } }; _proto3.render = function render(ctx, parentFrame, cb) { var _this6 = this; if (typeof ctx === 'function') { cb = ctx; ctx = {}; } else if (typeof parentFrame === 'function') { cb = parentFrame; parentFrame = null; } // If there is a parent frame, we are being called from internal // code of another template, and the internal system // depends on the sync/async nature of the parent template // to be inherited, so force an async callback var forceAsync = !parentFrame; // Catch compile errors for async rendering try { this.compile(); } catch (e) { var err = lib._prettifyError(this.path, this.env.opts.dev, e); if (cb) { return callbackAsap(cb, err); } else { throw err; } } var context = new Context(ctx || {}, this.blocks, this.env); var frame = parentFrame ? parentFrame.push(true) : new Frame(); frame.topLevel = true; var syncResult = null; var didError = false; this.rootRenderFunc(this.env, context, frame, globalRuntime, function (err, res) { // TODO: this is actually a bug in the compiled template (because waterfall // tasks are both not passing errors up the chain of callbacks AND are not // causing a return from the top-most render function). But fixing that // will require a more substantial change to the compiler. if (didError && cb && typeof res !== 'undefined') { // prevent multiple calls to cb return; } if (err) { err = lib._prettifyError(_this6.path, _this6.env.opts.dev, err); didError = true; } if (cb) { if (forceAsync) { callbackAsap(cb, err, res); } else { cb(err, res); } } else { if (err) { throw err; } syncResult = res; } }); return syncResult; }; _proto3.getExported = function getExported(ctx, parentFrame, cb) { // eslint-disable-line consistent-return if (typeof ctx === 'function') { cb = ctx; ctx = {}; } if (typeof parentFrame === 'function') { cb = parentFrame; parentFrame = null; } // Catch compile errors for async rendering try { this.compile(); } catch (e) { if (cb) { return cb(e); } else { throw e; } } var frame = parentFrame ? parentFrame.push() : new Frame(); frame.topLevel = true; // Run the rootRenderFunc to populate the context with exported vars var context = new Context(ctx || {}, this.blocks, this.env); this.rootRenderFunc(this.env, context, frame, globalRuntime, function (err) { if (err) { cb(err, null); } else { cb(null, context.getExported()); } }); }; _proto3.compile = function compile() { if (!this.compiled) { this._compile(); } }; _proto3._compile = function _compile() { var props; if (this.tmplProps) { props = this.tmplProps; } else { var source = compiler.compile(this.tmplStr, this.env.asyncFilters, this.env.extensionsList, this.path, this.env.opts); var func = new Function(source); // eslint-disable-line no-new-func props = func(); } this.blocks = this._getBlocks(props); this.rootRenderFunc = props.root; this.compiled = true; }; _proto3._getBlocks = function _getBlocks(props) { var blocks = {}; lib.keys(props).forEach(function (k) { if (k.slice(0, 2) === 'b_') { blocks[k.slice(2)] = props[k]; } }); return blocks; }; return Template; }(Obj); module.exports = { Environment: Environment, Template: Template }; /***/ }), /* 8 */ /***/ (function(module, exports, __webpack_require__) { "use strict"; function _inheritsLoose(subClass, superClass) { subClass.prototype = Object.create(superClass.prototype); subClass.prototype.constructor = subClass; _setPrototypeOf(subClass, superClass); } function _setPrototypeOf(o, p) { _setPrototypeOf = Object.setPrototypeOf ? Object.setPrototypeOf.bind() : function _setPrototypeOf(o, p) { o.__proto__ = p; return o; }; return _setPrototypeOf(o, p); } var lexer = __webpack_require__(9); var nodes = __webpack_require__(3); var Obj = __webpack_require__(1).Obj; var lib = __webpack_require__(0); var Parser = /*#__PURE__*/function (_Obj) { _inheritsLoose(Parser, _Obj); function Parser() { return _Obj.apply(this, arguments) || this; } var _proto = Parser.prototype; _proto.init = function init(tokens) { this.tokens = tokens; this.peeked = null; this.breakOnBlocks = null; this.dropLeadingWhitespace = false; this.extensions = []; }; _proto.nextToken = function nextToken(withWhitespace) { var tok; if (this.peeked) { if (!withWhitespace && this.peeked.type === lexer.TOKEN_WHITESPACE) { this.peeked = null; } else { tok = this.peeked; this.peeked = null; return tok; } } tok = this.tokens.nextToken(); if (!withWhitespace) { while (tok && tok.type === lexer.TOKEN_WHITESPACE) { tok = this.tokens.nextToken(); } } return tok; }; _proto.peekToken = function peekToken() { this.peeked = this.peeked || this.nextToken(); return this.peeked; }; _proto.pushToken = function pushToken(tok) { if (this.peeked) { throw new Error('pushToken: can only push one token on between reads'); } this.peeked = tok; }; _proto.error = function error(msg, lineno, colno) { if (lineno === undefined || colno === undefined) { var tok = this.peekToken() || {}; lineno = tok.lineno; colno = tok.colno; } if (lineno !== undefined) { lineno += 1; } if (colno !== undefined) { colno += 1; } return new lib.TemplateError(msg, lineno, colno); }; _proto.fail = function fail(msg, lineno, colno) { throw this.error(msg, lineno, colno); }; _proto.skip = function skip(type) { var tok = this.nextToken(); if (!tok || tok.type !== type) { this.pushToken(tok); return false; } return true; }; _proto.expect = function expect(type) { var tok = this.nextToken(); if (tok.type !== type) { this.fail('expected ' + type + ', got ' + tok.type, tok.lineno, tok.colno); } return tok; }; _proto.skipValue = function skipValue(type, val) { var tok = this.nextToken(); if (!tok || tok.type !== type || tok.value !== val) { this.pushToken(tok); return false; } return true; }; _proto.skipSymbol = function skipSymbol(val) { return this.skipValue(lexer.TOKEN_SYMBOL, val); }; _proto.advanceAfterBlockEnd = function advanceAfterBlockEnd(name) { var tok; if (!name) { tok = this.peekToken(); if (!tok) { this.fail('unexpected end of file'); } if (tok.type !== lexer.TOKEN_SYMBOL) { this.fail('advanceAfterBlockEnd: expected symbol token or ' + 'explicit name to be passed'); } name = this.nextToken().value; } tok = this.nextToken(); if (tok && tok.type === lexer.TOKEN_BLOCK_END) { if (tok.value.charAt(0) === '-') { this.dropLeadingWhitespace = true; } } else { this.fail('expected block end in ' + name + ' statement'); } return tok; }; _proto.advanceAfterVariableEnd = function advanceAfterVariableEnd() { var tok = this.nextToken(); if (tok && tok.type === lexer.TOKEN_VARIABLE_END) { this.dropLeadingWhitespace = tok.value.charAt(tok.value.length - this.tokens.tags.VARIABLE_END.length - 1) === '-'; } else { this.pushToken(tok); this.fail('expected variable end'); } }; _proto.parseFor = function parseFor() { var forTok = this.peekToken(); var node; var endBlock; if (this.skipSymbol('for')) { node = new nodes.For(forTok.lineno, forTok.colno); endBlock = 'endfor'; } else if (this.skipSymbol('asyncEach')) { node = new nodes.AsyncEach(forTok.lineno, forTok.colno); endBlock = 'endeach'; } else if (this.skipSymbol('asyncAll')) { node = new nodes.AsyncAll(forTok.lineno, forTok.colno); endBlock = 'endall'; } else { this.fail('parseFor: expected for{Async}', forTok.lineno, forTok.colno); } node.name = this.parsePrimary(); if (!(node.name instanceof nodes.Symbol)) { this.fail('parseFor: variable name expected for loop'); } var type = this.peekToken().type; if (type === lexer.TOKEN_COMMA) { // key/value iteration var key = node.name; node.name = new nodes.Array(key.lineno, key.colno); node.name.addChild(key); while (this.skip(lexer.TOKEN_COMMA)) { var prim = this.parsePrimary(); node.name.addChild(prim); } } if (!this.skipSymbol('in')) { this.fail('parseFor: expected "in" keyword for loop', forTok.lineno, forTok.colno); } node.arr = this.parseExpression(); this.advanceAfterBlockEnd(forTok.value); node.body = this.parseUntilBlocks(endBlock, 'else'); if (this.skipSymbol('else')) { this.advanceAfterBlockEnd('else'); node.else_ = this.parseUntilBlocks(endBlock); } this.advanceAfterBlockEnd(); return node; }; _proto.parseMacro = function parseMacro() { var macroTok = this.peekToken(); if (!this.skipSymbol('macro')) { this.fail('expected macro'); } var name = this.parsePrimary(true); var args = this.parseSignature(); var node = new nodes.Macro(macroTok.lineno, macroTok.colno, name, args); this.advanceAfterBlockEnd(macroTok.value); node.body = this.parseUntilBlocks('endmacro'); this.advanceAfterBlockEnd(); return node; }; _proto.parseCall = function parseCall() { // a call block is parsed as a normal FunCall, but with an added // 'caller' kwarg which is a Caller node. var callTok = this.peekToken(); if (!this.skipSymbol('call')) { this.fail('expected call'); } var callerArgs = this.parseSignature(true) || new nodes.NodeList(); var macroCall = this.parsePrimary(); this.advanceAfterBlockEnd(callTok.value); var body = this.parseUntilBlocks('endcall'); this.advanceAfterBlockEnd(); var callerName = new nodes.Symbol(callTok.lineno, callTok.colno, 'caller'); var callerNode = new nodes.Caller(callTok.lineno, callTok.colno, callerName, callerArgs, body); // add the additional caller kwarg, adding kwargs if necessary var args = macroCall.args.children; if (!(args[args.length - 1] instanceof nodes.KeywordArgs)) { args.push(new nodes.KeywordArgs()); } var kwargs = args[args.length - 1]; kwargs.addChild(new nodes.Pair(callTok.lineno, callTok.colno, callerName, callerNode)); return new nodes.Output(callTok.lineno, callTok.colno, [macroCall]); }; _proto.parseWithContext = function parseWithContext() { var tok = this.peekToken(); var withContext = null; if (this.skipSymbol('with')) { withContext = true; } else if (this.skipSymbol('without')) { withContext = false; } if (withContext !== null) { if (!this.skipSymbol('context')) { this.fail('parseFrom: expected context after with/without', tok.lineno, tok.colno); } } return withContext; }; _proto.parseImport = function parseImport() { var importTok = this.peekToken(); if (!this.skipSymbol('import')) { this.fail('parseImport: expected import', importTok.lineno, importTok.colno); } var template = this.parseExpression(); if (!this.skipSymbol('as')) { this.fail('parseImport: expected "as" keyword', importTok.lineno, importTok.colno); } var target = this.parseExpression(); var withContext = this.parseWithContext(); var node = new nodes.Import(importTok.lineno, importTok.colno, template, target, withContext); this.advanceAfterBlockEnd(importTok.value); return node; }; _proto.parseFrom = function parseFrom() { var fromTok = this.peekToken(); if (!this.skipSymbol('from')) { this.fail('parseFrom: expected from'); } var template = this.parseExpression(); if (!this.skipSymbol('import')) { this.fail('parseFrom: expected import', fromTok.lineno, fromTok.colno); } var names = new nodes.NodeList(); var withContext; while (1) { // eslint-disable-line no-constant-condition var nextTok = this.peekToken(); if (nextTok.type === lexer.TOKEN_BLOCK_END) { if (!names.children.length) { this.fail('parseFrom: Expected at least one import name', fromTok.lineno, fromTok.colno); } // Since we are manually advancing past the block end, // need to keep track of whitespace control (normally // this is done in `advanceAfterBlockEnd` if (nextTok.value.charAt(0) === '-') { this.dropLeadingWhitespace = true; } this.nextToken(); break; } if (names.children.length > 0 && !this.skip(lexer.TOKEN_COMMA)) { this.fail('parseFrom: expected comma', fromTok.lineno, fromTok.colno); } var name = this.parsePrimary(); if (name.value.charAt(0) === '_') { this.fail('parseFrom: names starting with an underscore cannot be imported', name.lineno, name.colno); } if (this.skipSymbol('as')) { var alias = this.parsePrimary(); names.addChild(new nodes.Pair(name.lineno, name.colno, name, alias)); } else { names.addChild(name); } withContext = this.parseWithContext(); } return new nodes.FromImport(fromTok.lineno, fromTok.colno, template, names, withContext); }; _proto.parseBlock = function parseBlock() { var tag = this.peekToken(); if (!this.skipSymbol('block')) { this.fail('parseBlock: expected block', tag.lineno, tag.colno); } var node = new nodes.Block(tag.lineno, tag.colno); node.name = this.parsePrimary(); if (!(node.name instanceof nodes.Symbol)) { this.fail('parseBlock: variable name expected', tag.lineno, tag.colno); } this.advanceAfterBlockEnd(tag.value); node.body = this.parseUntilBlocks('endblock'); this.skipSymbol('endblock'); this.skipSymbol(node.name.value); var tok = this.peekToken(); if (!tok) { this.fail('parseBlock: expected endblock, got end of file'); } this.advanceAfterBlockEnd(tok.value); return node; }; _proto.parseExtends = function parseExtends() { var tagName = 'extends'; var tag = this.peekToken(); if (!this.skipSymbol(tagName)) { this.fail('parseTemplateRef: expected ' + tagName); } var node = new nodes.Extends(tag.lineno, tag.colno); node.template = this.parseExpression(); this.advanceAfterBlockEnd(tag.value); return node; }; _proto.parseInclude = function parseInclude() { var tagName = 'include'; var tag = this.peekToken(); if (!this.skipSymbol(tagName)) { this.fail('parseInclude: expected ' + tagName); } var node = new nodes.Include(tag.lineno, tag.colno); node.template = this.parseExpression(); if (this.skipSymbol('ignore') && this.skipSymbol('missing')) { node.ignoreMissing = true; } this.advanceAfterBlockEnd(tag.value); return node; }; _proto.parseIf = function parseIf() { var tag = this.peekToken(); var node; if (this.skipSymbol('if') || this.skipSymbol('elif') || this.skipSymbol('elseif')) { node = new nodes.If(tag.lineno, tag.colno); } else if (this.skipSymbol('ifAsync')) { node = new nodes.IfAsync(tag.lineno, tag.colno); } else { this.fail('parseIf: expected if, elif, or elseif', tag.lineno, tag.colno); } node.cond = this.parseExpression(); this.advanceAfterBlockEnd(tag.value); node.body = this.parseUntilBlocks('elif', 'elseif', 'else', 'endif'); var tok = this.peekToken(); switch (tok && tok.value) { case 'elseif': case 'elif': node.else_ = this.parseIf(); break; case 'else': this.advanceAfterBlockEnd(); node.else_ = this.parseUntilBlocks('endif'); this.advanceAfterBlockEnd(); break; case 'endif': node.else_ = null; this.advanceAfterBlockEnd(); break; default: this.fail('parseIf: expected elif, else, or endif, got end of file'); } return node; }; _proto.parseSet = function parseSet() { var tag = this.peekToken(); if (!this.skipSymbol('set')) { this.fail('parseSet: expected set', tag.lineno, tag.colno); } var node = new nodes.Set(tag.lineno, tag.colno, []); var target; while (target = this.parsePrimary()) { node.targets.push(target); if (!this.skip(lexer.TOKEN_COMMA)) { break; } } if (!this.skipValue(lexer.TOKEN_OPERATOR, '=')) { if (!this.skip(lexer.TOKEN_BLOCK_END)) { this.fail('parseSet: expected = or block end in set tag', tag.lineno, tag.colno); } else { node.body = new nodes.Capture(tag.lineno, tag.colno, this.parseUntilBlocks('endset')); node.value = null; this.advanceAfterBlockEnd(); } } else { node.value = this.parseExpression(); this.advanceAfterBlockEnd(tag.value); } return node; }; _proto.parseSwitch = function parseSwitch() { /* * Store the tag names in variables in case someone ever wants to * customize this. */ var switchStart = 'switch'; var switchEnd = 'endswitch'; var caseStart = 'case'; var caseDefault = 'default'; // Get the switch tag. var tag = this.peekToken(); // fail early if we get some unexpected tag. if (!this.skipSymbol(switchStart) && !this.skipSymbol(caseStart) && !this.skipSymbol(caseDefault)) { this.fail('parseSwitch: expected "switch," "case" or "default"', tag.lineno, tag.colno); } // parse the switch expression var expr = this.parseExpression(); // advance until a start of a case, a default case or an endswitch. this.advanceAfterBlockEnd(switchStart); this.parseUntilBlocks(caseStart, caseDefault, switchEnd); // this is the first case. it could also be an endswitch, we'll check. var tok = this.peekToken(); // create new variables for our cases and default case. var cases = []; var defaultCase; // while we're dealing with new cases nodes... do { // skip the start symbol and get the case expression this.skipSymbol(caseStart); var cond = this.parseExpression(); this.advanceAfterBlockEnd(switchStart); // get the body of the case node and add it to the array of cases. var body = this.parseUntilBlocks(caseStart, caseDefault, switchEnd); cases.push(new nodes.Case(tok.line, tok.col, cond, body)); // get our next case tok = this.peekToken(); } while (tok && tok.value === caseStart); // we either have a default case or a switch end. switch (tok.value) { case caseDefault: this.advanceAfterBlockEnd(); defaultCase = this.parseUntilBlocks(switchEnd); this.advanceAfterBlockEnd(); break; case switchEnd: this.advanceAfterBlockEnd(); break; default: // otherwise bail because EOF this.fail('parseSwitch: expected "case," "default" or "endswitch," got EOF.'); } // and return the switch node. return new nodes.Switch(tag.lineno, tag.colno, expr, cases, defaultCase); }; _proto.parseStatement = function parseStatement() { var tok = this.peekToken(); var node; if (tok.type !== lexer.TOKEN_SYMBOL) { this.fail('tag name expected', tok.lineno, tok.colno); } if (this.breakOnBlocks && lib.indexOf(this.breakOnBlocks, tok.value) !== -1) { return null; } switch (tok.value) { case 'raw': return this.parseRaw(); case 'verbatim': return this.parseRaw('verbatim'); case 'if': case 'ifAsync': return this.parseIf(); case 'for': case 'asyncEach': case 'asyncAll': return this.parseFor(); case 'block': return this.parseBlock(); case 'extends': return this.parseExtends(); case 'include': return this.parseInclude(); case 'set': return this.parseSet(); case 'macro': return this.parseMacro(); case 'call': return this.parseCall(); case 'import': return this.parseImport(); case 'from': return this.parseFrom(); case 'filter': return this.parseFilterStatement(); case 'switch': return this.parseSwitch(); default: if (this.extensions.length) { for (var i = 0; i < this.extensions.length; i++) { var ext = this.extensions[i]; if (lib.indexOf(ext.tags || [], tok.value) !== -1) { return ext.parse(this, nodes, lexer); } } } this.fail('unknown block tag: ' + tok.value, tok.lineno, tok.colno); } return node; }; _proto.parseRaw = function parseRaw(tagName) { tagName = tagName || 'raw'; var endTagName = 'end' + tagName; // Look for upcoming raw blocks (ignore all other kinds of blocks) var rawBlockRegex = new RegExp('([\\s\\S]*?){%\\s*(' + tagName + '|' + endTagName + ')\\s*(?=%})%}'); var rawLevel = 1; var str = ''; var matches = null; // Skip opening raw token // Keep this token to track line and column numbers var begun = this.advanceAfterBlockEnd(); // Exit when there's nothing to match // or when we've found the matching "endraw" block while ((matches = this.tokens._extractRegex(rawBlockRegex)) && rawLevel > 0) { var all = matches[0]; var pre = matches[1]; var blockName = matches[2]; // Adjust rawlevel if (blockName === tagName) { rawLevel += 1; } else if (blockName === endTagName) { rawLevel -= 1; } // Add to str if (rawLevel === 0) { // We want to exclude the last "endraw" str += pre; // Move tokenizer to beginning of endraw block this.tokens.backN(all.length - pre.length); } else { str += all; } } return new nodes.Output(begun.lineno, begun.colno, [new nodes.TemplateData(begun.lineno, begun.colno, str)]); }; _proto.parsePostfix = function parsePostfix(node) { var lookup; var tok = this.peekToken(); while (tok) { if (tok.type === lexer.TOKEN_LEFT_PAREN) { // Function call node = new nodes.FunCall(tok.lineno, tok.colno, node, this.parseSignature()); } else if (tok.type === lexer.TOKEN_LEFT_BRACKET) { // Reference lookup = this.parseAggregate(); if (lookup.children.length > 1) { this.fail('invalid index'); } node = new nodes.LookupVal(tok.lineno, tok.colno, node, lookup.children[0]); } else if (tok.type === lexer.TOKEN_OPERATOR && tok.value === '.') { // Reference this.nextToken(); var val = this.nextToken(); if (val.type !== lexer.TOKEN_SYMBOL) { this.fail('expected name as lookup value, got ' + val.value, val.lineno, val.colno); } // Make a literal string because it's not a variable // reference lookup = new nodes.Literal(val.lineno, val.colno, val.value); node = new nodes.LookupVal(tok.lineno, tok.colno, node, lookup); } else { break; } tok = this.peekToken(); } return node; }; _proto.parseExpression = function parseExpression() { var node = this.parseInlineIf(); return node; }; _proto.parseInlineIf = function parseInlineIf() { var node = this.parseOr(); if (this.skipSymbol('if')) { var condNode = this.parseOr(); var bodyNode = node; node = new nodes.InlineIf(node.lineno, node.colno); node.body = bodyNode; node.cond = condNode; if (this.skipSymbol('else')) { node.else_ = this.parseOr(); } else { node.else_ = null; } } return node; }; _proto.parseOr = function parseOr() { var node = this.parseAnd(); while (this.skipSymbol('or')) { var node2 = this.parseAnd(); node = new nodes.Or(node.lineno, node.colno, node, node2); } return node; }; _proto.parseAnd = function parseAnd() { var node = this.parseNot(); while (this.skipSymbol('and')) { var node2 = this.parseNot(); node = new nodes.And(node.lineno, node.colno, node, node2); } return node; }; _proto.parseNot = function parseNot() { var tok = this.peekToken(); if (this.skipSymbol('not')) { return new nodes.Not(tok.lineno, tok.colno, this.parseNot()); } return this.parseIn(); }; _proto.parseIn = function parseIn() { var node = this.parseIs(); while (1) { // eslint-disable-line no-constant-condition // check if the next token is 'not' var tok = this.nextToken(); if (!tok) { break; } var invert = tok.type === lexer.TOKEN_SYMBOL && tok.value === 'not'; // if it wasn't 'not', put it back if (!invert) { this.pushToken(tok); } if (this.skipSymbol('in')) { var node2 = this.parseIs(); node = new nodes.In(node.lineno, node.colno, node, node2); if (invert) { node = new nodes.Not(node.lineno, node.colno, node); } } else { // if we'd found a 'not' but this wasn't an 'in', put back the 'not' if (invert) { this.pushToken(tok); } break; } } return node; } // I put this right after "in" in the operator precedence stack. That can // obviously be changed to be closer to Jinja. ; _proto.parseIs = function parseIs() { var node = this.parseCompare(); // look for an is if (this.skipSymbol('is')) { // look for a not var not = this.skipSymbol('not'); // get the next node var node2 = this.parseCompare(); // create an Is node using the next node and the info from our Is node. node = new nodes.Is(node.lineno, node.colno, node, node2); // if we have a Not, create a Not node from our Is node. if (not) { node = new nodes.Not(node.lineno, node.colno, node); } } // return the node. return node; }; _proto.parseCompare = function parseCompare() { var compareOps = ['==', '===', '!=', '!==', '<', '>', '<=', '>=']; var expr = this.parseConcat(); var ops = []; while (1) { // eslint-disable-line no-constant-condition var tok = this.nextToken(); if (!tok) { break; } else if (compareOps.indexOf(tok.value) !== -1) { ops.push(new nodes.CompareOperand(tok.lineno, tok.colno, this.parseConcat(), tok.value)); } else { this.pushToken(tok); break; } } if (ops.length) { return new nodes.Compare(ops[0].lineno, ops[0].colno, expr, ops); } else { return expr; } } // finds the '~' for string concatenation ; _proto.parseConcat = function parseConcat() { var node = this.parseAdd(); while (this.skipValue(lexer.TOKEN_TILDE, '~')) { var node2 = this.parseAdd(); node = new nodes.Concat(node.lineno, node.colno, node, node2); } return node; }; _proto.parseAdd = function parseAdd() { var node = this.parseSub(); while (this.skipValue(lexer.TOKEN_OPERATOR, '+')) { var node2 = this.parseSub(); node = new nodes.Add(node.lineno, node.colno, node, node2); } return node; }; _proto.parseSub = function parseSub() { var node = this.parseMul(); while (this.skipValue(lexer.TOKEN_OPERATOR, '-')) { var node2 = this.parseMul(); node = new nodes.Sub(node.lineno, node.colno, node, node2); } return node; }; _proto.parseMul = function parseMul() { var node = this.parseDiv(); while (this.skipValue(lexer.TOKEN_OPERATOR, '*')) { var node2 = this.parseDiv(); node = new nodes.Mul(node.lineno, node.colno, node, node2); } return node; }; _proto.parseDiv = function parseDiv() { var node = this.parseFloorDiv(); while (this.skipValue(lexer.TOKEN_OPERATOR, '/')) { var node2 = this.parseFloorDiv(); node = new nodes.Div(node.lineno, node.colno, node, node2); } return node; }; _proto.parseFloorDiv = function parseFloorDiv() { var node = this.parseMod(); while (this.skipValue(lexer.TOKEN_OPERATOR, '//')) { var node2 = this.parseMod(); node = new nodes.FloorDiv(node.lineno, node.colno, node, node2); } return node; }; _proto.parseMod = function parseMod() { var node = this.parsePow(); while (this.skipValue(lexer.TOKEN_OPERATOR, '%')) { var node2 = this.parsePow(); node = new nodes.Mod(node.lineno, node.colno, node, node2); } return node; }; _proto.parsePow = function parsePow() { var node = this.parseUnary(); while (this.skipValue(lexer.TOKEN_OPERATOR, '**')) { var node2 = this.parseUnary(); node = new nodes.Pow(node.lineno, node.colno, node, node2); } return node; }; _proto.parseUnary = function parseUnary(noFilters) { var tok = this.peekToken(); var node; if (this.skipValue(lexer.TOKEN_OPERATOR, '-')) { node = new nodes.Neg(tok.lineno, tok.colno, this.parseUnary(true)); } else if (this.skipValue(lexer.TOKEN_OPERATOR, '+')) { node = new nodes.Pos(tok.lineno, tok.colno, this.parseUnary(true)); } else { node = this.parsePrimary(); } if (!noFilters) { node = this.parseFilter(node); } return node; }; _proto.parsePrimary = function parsePrimary(noPostfix) { var tok = this.nextToken(); var val; var node = null; if (!tok) { this.fail('expected expression, got end of file'); } else if (tok.type === lexer.TOKEN_STRING) { val = tok.value; } else if (tok.type === lexer.TOKEN_INT) { val = parseInt(tok.value, 10); } else if (tok.type === lexer.TOKEN_FLOAT) { val = parseFloat(tok.value); } else if (tok.type === lexer.TOKEN_BOOLEAN) { if (tok.value === 'true') { val = true; } else if (tok.value === 'false') { val = false; } else { this.fail('invalid boolean: ' + tok.value, tok.lineno, tok.colno); } } else if (tok.type === lexer.TOKEN_NONE) { val = null; } else if (tok.type === lexer.TOKEN_REGEX) { val = new RegExp(tok.value.body, tok.value.flags); } if (val !== undefined) { node = new nodes.Literal(tok.lineno, tok.colno, val); } else if (tok.type === lexer.TOKEN_SYMBOL) { node = new nodes.Symbol(tok.lineno, tok.colno, tok.value); } else { // See if it's an aggregate type, we need to push the // current delimiter token back on this.pushToken(tok); node = this.parseAggregate(); } if (!noPostfix) { node = this.parsePostfix(node); } if (node) { return node; } else { throw this.error("unexpected token: " + tok.value, tok.lineno, tok.colno); } }; _proto.parseFilterName = function parseFilterName() { var tok = this.expect(lexer.TOKEN_SYMBOL); var name = tok.value; while (this.skipValue(lexer.TOKEN_OPERATOR, '.')) { name += '.' + this.expect(lexer.TOKEN_SYMBOL).value; } return new nodes.Symbol(tok.lineno, tok.colno, name); }; _proto.parseFilterArgs = function parseFilterArgs(node) { if (this.peekToken().type === lexer.TOKEN_LEFT_PAREN) { // Get a FunCall node and add the parameters to the // filter var call = this.parsePostfix(node); return call.args.children; } return []; }; _proto.parseFilter = function parseFilter(node) { while (this.skip(lexer.TOKEN_PIPE)) { var name = this.parseFilterName(); node = new nodes.Filter(name.lineno, name.colno, name, new nodes.NodeList(name.lineno, name.colno, [node].concat(this.parseFilterArgs(node)))); } return node; }; _proto.parseFilterStatement = function parseFilterStatement() { var filterTok = this.peekToken(); if (!this.skipSymbol('filter')) { this.fail('parseFilterStatement: expected filter'); } var name = this.parseFilterName(); var args = this.parseFilterArgs(name); this.advanceAfterBlockEnd(filterTok.value); var body = new nodes.Capture(name.lineno, name.colno, this.parseUntilBlocks('endfilter')); this.advanceAfterBlockEnd(); var node = new nodes.Filter(name.lineno, name.colno, name, new nodes.NodeList(name.lineno, name.colno, [body].concat(args))); return new nodes.Output(name.lineno, name.colno, [node]); }; _proto.parseAggregate = function parseAggregate() { var tok = this.nextToken(); var node; switch (tok.type) { case lexer.TOKEN_LEFT_PAREN: node = new nodes.Group(tok.lineno, tok.colno); break; case lexer.TOKEN_LEFT_BRACKET: node = new nodes.Array(tok.lineno, tok.colno); break; case lexer.TOKEN_LEFT_CURLY: node = new nodes.Dict(tok.lineno, tok.colno); break; default: return null; } while (1) { // eslint-disable-line no-constant-condition var type = this.peekToken().type; if (type === lexer.TOKEN_RIGHT_PAREN || type === lexer.TOKEN_RIGHT_BRACKET || type === lexer.TOKEN_RIGHT_CURLY) { this.nextToken(); break; } if (node.children.length > 0) { if (!this.skip(lexer.TOKEN_COMMA)) { this.fail('parseAggregate: expected comma after expression', tok.lineno, tok.colno); } } if (node instanceof nodes.Dict) { // TODO: check for errors var key = this.parsePrimary(); // We expect a key/value pair for dicts, separated by a // colon if (!this.skip(lexer.TOKEN_COLON)) { this.fail('parseAggregate: expected colon after dict key', tok.lineno, tok.colno); } // TODO: check for errors var value = this.parseExpression(); node.addChild(new nodes.Pair(key.lineno, key.colno, key, value)); } else { // TODO: check for errors var expr = this.parseExpression(); node.addChild(expr); } } return node; }; _proto.parseSignature = function parseSignature(tolerant, noParens) { var tok = this.peekToken(); if (!noParens && tok.type !== lexer.TOKEN_LEFT_PAREN) { if (tolerant) { return null; } else { this.fail('expected arguments', tok.lineno, tok.colno); } } if (tok.type === lexer.TOKEN_LEFT_PAREN) { tok = this.nextToken(); } var args = new nodes.NodeList(tok.lineno, tok.colno); var kwargs = new nodes.KeywordArgs(tok.lineno, tok.colno); var checkComma = false; while (1) { // eslint-disable-line no-constant-condition tok = this.peekToken(); if (!noParens && tok.type === lexer.TOKEN_RIGHT_PAREN) { this.nextToken(); break; } else if (noParens && tok.type === lexer.TOKEN_BLOCK_END) { break; } if (checkComma && !this.skip(lexer.TOKEN_COMMA)) { this.fail('parseSignature: expected comma after expression', tok.lineno, tok.colno); } else { var arg = this.parseExpression(); if (this.skipValue(lexer.TOKEN_OPERATOR, '=')) { kwargs.addChild(new nodes.Pair(arg.lineno, arg.colno, arg, this.parseExpression())); } else { args.addChild(arg); } } checkComma = true; } if (kwargs.children.length) { args.addChild(kwargs); } return args; }; _proto.parseUntilBlocks = function parseUntilBlocks() { var prev = this.breakOnBlocks; for (var _len = arguments.length, blockNames = new Array(_len), _key = 0; _key < _len; _key++) { blockNames[_key] = arguments[_key]; } this.breakOnBlocks = blockNames; var ret = this.parse(); this.breakOnBlocks = prev; return ret; }; _proto.parseNodes = function parseNodes() { var tok; var buf = []; while (tok = this.nextToken()) { if (tok.type === lexer.TOKEN_DATA) { var data = tok.value; var nextToken = this.peekToken(); var nextVal = nextToken && nextToken.value; // If the last token has "-" we need to trim the // leading whitespace of the data. This is marked with // the `dropLeadingWhitespace` variable. if (this.dropLeadingWhitespace) { // TODO: this could be optimized (don't use regex) data = data.replace(/^\s*/, ''); this.dropLeadingWhitespace = false; } // Same for the succeeding block start token if (nextToken && (nextToken.type === lexer.TOKEN_BLOCK_START && nextVal.charAt(nextVal.length - 1) === '-' || nextToken.type === lexer.TOKEN_VARIABLE_START && nextVal.charAt(this.tokens.tags.VARIABLE_START.length) === '-' || nextToken.type === lexer.TOKEN_COMMENT && nextVal.charAt(this.tokens.tags.COMMENT_START.length) === '-')) { // TODO: this could be optimized (don't use regex) data = data.replace(/\s*$/, ''); } buf.push(new nodes.Output(tok.lineno, tok.colno, [new nodes.TemplateData(tok.lineno, tok.colno, data)])); } else if (tok.type === lexer.TOKEN_BLOCK_START) { this.dropLeadingWhitespace = false; var n = this.parseStatement(); if (!n) { break; } buf.push(n); } else if (tok.type === lexer.TOKEN_VARIABLE_START) { var e = this.parseExpression(); this.dropLeadingWhitespace = false; this.advanceAfterVariableEnd(); buf.push(new nodes.Output(tok.lineno, tok.colno, [e])); } else if (tok.type === lexer.TOKEN_COMMENT) { this.dropLeadingWhitespace = tok.value.charAt(tok.value.length - this.tokens.tags.COMMENT_END.length - 1) === '-'; } else { // Ignore comments, otherwise this should be an error this.fail('Unexpected token at top-level: ' + tok.type, tok.lineno, tok.colno); } } return buf; }; _proto.parse = function parse() { return new nodes.NodeList(0, 0, this.parseNodes()); }; _proto.parseAsRoot = function parseAsRoot() { return new nodes.Root(0, 0, this.parseNodes()); }; return Parser; }(Obj); // var util = require('util'); // var l = lexer.lex('{%- if x -%}\n hello {% endif %}'); // var t; // while((t = l.nextToken())) { // console.log(util.inspect(t)); // } // var p = new Parser(lexer.lex('hello {% filter title %}' + // 'Hello madam how are you' + // '{% endfilter %}')); // var n = p.parseAsRoot(); // nodes.printNodes(n); module.exports = { parse: function parse(src, extensions, opts) { var p = new Parser(lexer.lex(src, opts)); if (extensions !== undefined) { p.extensions = extensions; } return p.parseAsRoot(); }, Parser: Parser }; /***/ }), /* 9 */ /***/ (function(module, exports, __webpack_require__) { "use strict"; var lib = __webpack_require__(0); var whitespaceChars = " \n\t\r\xA0"; var delimChars = '()[]{}%*-+~/#,:|.<>=!'; var intChars = '0123456789'; var BLOCK_START = '{%'; var BLOCK_END = '%}'; var VARIABLE_START = '{{'; var VARIABLE_END = '}}'; var COMMENT_START = '{#'; var COMMENT_END = '#}'; var TOKEN_STRING = 'string'; var TOKEN_WHITESPACE = 'whitespace'; var TOKEN_DATA = 'data'; var TOKEN_BLOCK_START = 'block-start'; var TOKEN_BLOCK_END = 'block-end'; var TOKEN_VARIABLE_START = 'variable-start'; var TOKEN_VARIABLE_END = 'variable-end'; var TOKEN_COMMENT = 'comment'; var TOKEN_LEFT_PAREN = 'left-paren'; var TOKEN_RIGHT_PAREN = 'right-paren'; var TOKEN_LEFT_BRACKET = 'left-bracket'; var TOKEN_RIGHT_BRACKET = 'right-bracket'; var TOKEN_LEFT_CURLY = 'left-curly'; var TOKEN_RIGHT_CURLY = 'right-curly'; var TOKEN_OPERATOR = 'operator'; var TOKEN_COMMA = 'comma'; var TOKEN_COLON = 'colon'; var TOKEN_TILDE = 'tilde'; var TOKEN_PIPE = 'pipe'; var TOKEN_INT = 'int'; var TOKEN_FLOAT = 'float'; var TOKEN_BOOLEAN = 'boolean'; var TOKEN_NONE = 'none'; var TOKEN_SYMBOL = 'symbol'; var TOKEN_SPECIAL = 'special'; var TOKEN_REGEX = 'regex'; function token(type, value, lineno, colno) { return { type: type, value: value, lineno: lineno, colno: colno }; } var Tokenizer = /*#__PURE__*/function () { function Tokenizer(str, opts) { this.str = str; this.index = 0; this.len = str.length; this.lineno = 0; this.colno = 0; this.in_code = false; opts = opts || {}; var tags = opts.tags || {}; this.tags = { BLOCK_START: tags.blockStart || BLOCK_START, BLOCK_END: tags.blockEnd || BLOCK_END, VARIABLE_START: tags.variableStart || VARIABLE_START, VARIABLE_END: tags.variableEnd || VARIABLE_END, COMMENT_START: tags.commentStart || COMMENT_START, COMMENT_END: tags.commentEnd || COMMENT_END }; this.trimBlocks = !!opts.trimBlocks; this.lstripBlocks = !!opts.lstripBlocks; } var _proto = Tokenizer.prototype; _proto.nextToken = function nextToken() { var lineno = this.lineno; var colno = this.colno; var tok; if (this.in_code) { // Otherwise, if we are in a block parse it as code var cur = this.current(); if (this.isFinished()) { // We have nothing else to parse return null; } else if (cur === '"' || cur === '\'') { // We've hit a string return token(TOKEN_STRING, this._parseString(cur), lineno, colno); } else if (tok = this._extract(whitespaceChars)) { // We hit some whitespace return token(TOKEN_WHITESPACE, tok, lineno, colno); } else if ((tok = this._extractString(this.tags.BLOCK_END)) || (tok = this._extractString('-' + this.tags.BLOCK_END))) { // Special check for the block end tag // // It is a requirement that start and end tags are composed of // delimiter characters (%{}[] etc), and our code always // breaks on delimiters so we can assume the token parsing // doesn't consume these elsewhere this.in_code = false; if (this.trimBlocks) { cur = this.current(); if (cur === '\n') { // Skip newline this.forward(); } else if (cur === '\r') { // Skip CRLF newline this.forward(); cur = this.current(); if (cur === '\n') { this.forward(); } else { // Was not a CRLF, so go back this.back(); } } } return token(TOKEN_BLOCK_END, tok, lineno, colno); } else if ((tok = this._extractString(this.tags.VARIABLE_END)) || (tok = this._extractString('-' + this.tags.VARIABLE_END))) { // Special check for variable end tag (see above) this.in_code = false; return token(TOKEN_VARIABLE_END, tok, lineno, colno); } else if (cur === 'r' && this.str.charAt(this.index + 1) === '/') { // Skip past 'r/'. this.forwardN(2); // Extract until the end of the regex -- / ends it, \/ does not. var regexBody = ''; while (!this.isFinished()) { if (this.current() === '/' && this.previous() !== '\\') { this.forward(); break; } else { regexBody += this.current(); this.forward(); } } // Check for flags. // The possible flags are according to https://developer.mozilla.org/en/docs/Web/JavaScript/Reference/Global_Objects/RegExp) var POSSIBLE_FLAGS = ['g', 'i', 'm', 'y']; var regexFlags = ''; while (!this.isFinished()) { var isCurrentAFlag = POSSIBLE_FLAGS.indexOf(this.current()) !== -1; if (isCurrentAFlag) { regexFlags += this.current(); this.forward(); } else { break; } } return token(TOKEN_REGEX, { body: regexBody, flags: regexFlags }, lineno, colno); } else if (delimChars.indexOf(cur) !== -1) { // We've hit a delimiter (a special char like a bracket) this.forward(); var complexOps = ['==', '===', '!=', '!==', '<=', '>=', '//', '**']; var curComplex = cur + this.current(); var type; if (lib.indexOf(complexOps, curComplex) !== -1) { this.forward(); cur = curComplex; // See if this is a strict equality/inequality comparator if (lib.indexOf(complexOps, curComplex + this.current()) !== -1) { cur = curComplex + this.current(); this.forward(); } } switch (cur) { case '(': type = TOKEN_LEFT_PAREN; break; case ')': type = TOKEN_RIGHT_PAREN; break; case '[': type = TOKEN_LEFT_BRACKET; break; case ']': type = TOKEN_RIGHT_BRACKET; break; case '{': type = TOKEN_LEFT_CURLY; break; case '}': type = TOKEN_RIGHT_CURLY; break; case ',': type = TOKEN_COMMA; break; case ':': type = TOKEN_COLON; break; case '~': type = TOKEN_TILDE; break; case '|': type = TOKEN_PIPE; break; default: type = TOKEN_OPERATOR; } return token(type, cur, lineno, colno); } else { // We are not at whitespace or a delimiter, so extract the // text and parse it tok = this._extractUntil(whitespaceChars + delimChars); if (tok.match(/^[-+]?[0-9]+$/)) { if (this.current() === '.') { this.forward(); var dec = this._extract(intChars); return token(TOKEN_FLOAT, tok + '.' + dec, lineno, colno); } else { return token(TOKEN_INT, tok, lineno, colno); } } else if (tok.match(/^(true|false)$/)) { return token(TOKEN_BOOLEAN, tok, lineno, colno); } else if (tok === 'none') { return token(TOKEN_NONE, tok, lineno, colno); /* * Added to make the test `null is null` evaluate truthily. * Otherwise, Nunjucks will look up null in the context and * return `undefined`, which is not what we want. This *may* have * consequences is someone is using null in their templates as a * variable. */ } else if (tok === 'null') { return token(TOKEN_NONE, tok, lineno, colno); } else if (tok) { return token(TOKEN_SYMBOL, tok, lineno, colno); } else { throw new Error('Unexpected value while parsing: ' + tok); } } } else { // Parse out the template text, breaking on tag // delimiters because we need to look for block/variable start // tags (don't use the full delimChars for optimization) var beginChars = this.tags.BLOCK_START.charAt(0) + this.tags.VARIABLE_START.charAt(0) + this.tags.COMMENT_START.charAt(0) + this.tags.COMMENT_END.charAt(0); if (this.isFinished()) { return null; } else if ((tok = this._extractString(this.tags.BLOCK_START + '-')) || (tok = this._extractString(this.tags.BLOCK_START))) { this.in_code = true; return token(TOKEN_BLOCK_START, tok, lineno, colno); } else if ((tok = this._extractString(this.tags.VARIABLE_START + '-')) || (tok = this._extractString(this.tags.VARIABLE_START))) { this.in_code = true; return token(TOKEN_VARIABLE_START, tok, lineno, colno); } else { tok = ''; var data; var inComment = false; if (this._matches(this.tags.COMMENT_START)) { inComment = true; tok = this._extractString(this.tags.COMMENT_START); } // Continually consume text, breaking on the tag delimiter // characters and checking to see if it's a start tag. // // We could hit the end of the template in the middle of // our looping, so check for the null return value from // _extractUntil while ((data = this._extractUntil(beginChars)) !== null) { tok += data; if ((this._matches(this.tags.BLOCK_START) || this._matches(this.tags.VARIABLE_START) || this._matches(this.tags.COMMENT_START)) && !inComment) { if (this.lstripBlocks && this._matches(this.tags.BLOCK_START) && this.colno > 0 && this.colno <= tok.length) { var lastLine = tok.slice(-this.colno); if (/^\s+$/.test(lastLine)) { // Remove block leading whitespace from beginning of the string tok = tok.slice(0, -this.colno); if (!tok.length) { // All data removed, collapse to avoid unnecessary nodes // by returning next token (block start) return this.nextToken(); } } } // If it is a start tag, stop looping break; } else if (this._matches(this.tags.COMMENT_END)) { if (!inComment) { throw new Error('unexpected end of comment'); } tok += this._extractString(this.tags.COMMENT_END); break; } else { // It does not match any tag, so add the character and // carry on tok += this.current(); this.forward(); } } if (data === null && inComment) { throw new Error('expected end of comment, got end of file'); } return token(inComment ? TOKEN_COMMENT : TOKEN_DATA, tok, lineno, colno); } } }; _proto._parseString = function _parseString(delimiter) { this.forward(); var str = ''; while (!this.isFinished() && this.current() !== delimiter) { var cur = this.current(); if (cur === '\\') { this.forward(); switch (this.current()) { case 'n': str += '\n'; break; case 't': str += '\t'; break; case 'r': str += '\r'; break; default: str += this.current(); } this.forward(); } else { str += cur; this.forward(); } } this.forward(); return str; }; _proto._matches = function _matches(str) { if (this.index + str.length > this.len) { return null; } var m = this.str.slice(this.index, this.index + str.length); return m === str; }; _proto._extractString = function _extractString(str) { if (this._matches(str)) { this.forwardN(str.length); return str; } return null; }; _proto._extractUntil = function _extractUntil(charString) { // Extract all non-matching chars, with the default matching set // to everything return this._extractMatching(true, charString || ''); }; _proto._extract = function _extract(charString) { // Extract all matching chars (no default, so charString must be // explicit) return this._extractMatching(false, charString); }; _proto._extractMatching = function _extractMatching(breakOnMatch, charString) { // Pull out characters until a breaking char is hit. // If breakOnMatch is false, a non-matching char stops it. // If breakOnMatch is true, a matching char stops it. if (this.isFinished()) { return null; } var first = charString.indexOf(this.current()); // Only proceed if the first character doesn't meet our condition if (breakOnMatch && first === -1 || !breakOnMatch && first !== -1) { var t = this.current(); this.forward(); // And pull out all the chars one at a time until we hit a // breaking char var idx = charString.indexOf(this.current()); while ((breakOnMatch && idx === -1 || !breakOnMatch && idx !== -1) && !this.isFinished()) { t += this.current(); this.forward(); idx = charString.indexOf(this.current()); } return t; } return ''; }; _proto._extractRegex = function _extractRegex(regex) { var matches = this.currentStr().match(regex); if (!matches) { return null; } // Move forward whatever was matched this.forwardN(matches[0].length); return matches; }; _proto.isFinished = function isFinished() { return this.index >= this.len; }; _proto.forwardN = function forwardN(n) { for (var i = 0; i < n; i++) { this.forward(); } }; _proto.forward = function forward() { this.index++; if (this.previous() === '\n') { this.lineno++; this.colno = 0; } else { this.colno++; } }; _proto.backN = function backN(n) { for (var i = 0; i < n; i++) { this.back(); } }; _proto.back = function back() { this.index--; if (this.current() === '\n') { this.lineno--; var idx = this.src.lastIndexOf('\n', this.index - 1); if (idx === -1) { this.colno = this.index; } else { this.colno = this.index - idx; } } else { this.colno--; } } // current returns current character ; _proto.current = function current() { if (!this.isFinished()) { return this.str.charAt(this.index); } return ''; } // currentStr returns what's left of the unparsed string ; _proto.currentStr = function currentStr() { if (!this.isFinished()) { return this.str.substr(this.index); } return ''; }; _proto.previous = function previous() { return this.str.charAt(this.index - 1); }; return Tokenizer; }(); module.exports = { lex: function lex(src, opts) { return new Tokenizer(src, opts); }, TOKEN_STRING: TOKEN_STRING, TOKEN_WHITESPACE: TOKEN_WHITESPACE, TOKEN_DATA: TOKEN_DATA, TOKEN_BLOCK_START: TOKEN_BLOCK_START, TOKEN_BLOCK_END: TOKEN_BLOCK_END, TOKEN_VARIABLE_START: TOKEN_VARIABLE_START, TOKEN_VARIABLE_END: TOKEN_VARIABLE_END, TOKEN_COMMENT: TOKEN_COMMENT, TOKEN_LEFT_PAREN: TOKEN_LEFT_PAREN, TOKEN_RIGHT_PAREN: TOKEN_RIGHT_PAREN, TOKEN_LEFT_BRACKET: TOKEN_LEFT_BRACKET, TOKEN_RIGHT_BRACKET: TOKEN_RIGHT_BRACKET, TOKEN_LEFT_CURLY: TOKEN_LEFT_CURLY, TOKEN_RIGHT_CURLY: TOKEN_RIGHT_CURLY, TOKEN_OPERATOR: TOKEN_OPERATOR, TOKEN_COMMA: TOKEN_COMMA, TOKEN_COLON: TOKEN_COLON, TOKEN_TILDE: TOKEN_TILDE, TOKEN_PIPE: TOKEN_PIPE, TOKEN_INT: TOKEN_INT, TOKEN_FLOAT: TOKEN_FLOAT, TOKEN_BOOLEAN: TOKEN_BOOLEAN, TOKEN_NONE: TOKEN_NONE, TOKEN_SYMBOL: TOKEN_SYMBOL, TOKEN_SPECIAL: TOKEN_SPECIAL, TOKEN_REGEX: TOKEN_REGEX }; /***/ }), /* 10 */ /***/ (function(module, exports, __webpack_require__) { "use strict"; function _inheritsLoose(subClass, superClass) { subClass.prototype = Object.create(superClass.prototype); subClass.prototype.constructor = subClass; _setPrototypeOf(subClass, superClass); } function _setPrototypeOf(o, p) { _setPrototypeOf = Object.setPrototypeOf ? Object.setPrototypeOf.bind() : function _setPrototypeOf(o, p) { o.__proto__ = p; return o; }; return _setPrototypeOf(o, p); } var Loader = __webpack_require__(6); var _require = __webpack_require__(19), PrecompiledLoader = _require.PrecompiledLoader; var WebLoader = /*#__PURE__*/function (_Loader) { _inheritsLoose(WebLoader, _Loader); function WebLoader(baseURL, opts) { var _this; _this = _Loader.call(this) || this; _this.baseURL = baseURL || '.'; opts = opts || {}; // By default, the cache is turned off because there's no way // to "watch" templates over HTTP, so they are re-downloaded // and compiled each time. (Remember, PRECOMPILE YOUR // TEMPLATES in production!) _this.useCache = !!opts.useCache; // We default `async` to false so that the simple synchronous // API can be used when you aren't doing anything async in // your templates (which is most of the time). This performs a // sync ajax request, but that's ok because it should *only* // happen in development. PRECOMPILE YOUR TEMPLATES. _this.async = !!opts.async; return _this; } var _proto = WebLoader.prototype; _proto.resolve = function resolve(from, to) { throw new Error('relative templates not support in the browser yet'); }; _proto.getSource = function getSource(name, cb) { var _this2 = this; var useCache = this.useCache; var result; this.fetch(this.baseURL + '/' + name, function (err, src) { if (err) { if (cb) { cb(err.content); } else if (err.status === 404) { result = null; } else { throw err.content; } } else { result = { src: src, path: name, noCache: !useCache }; _this2.emit('load', name, result); if (cb) { cb(null, result); } } }); // if this WebLoader isn't running asynchronously, the // fetch above would actually run sync and we'll have a // result here return result; }; _proto.fetch = function fetch(url, cb) { // Only in the browser please if (typeof window === 'undefined') { throw new Error('WebLoader can only by used in a browser'); } var ajax = new XMLHttpRequest(); var loading = true; ajax.onreadystatechange = function () { if (ajax.readyState === 4 && loading) { loading = false; if (ajax.status === 0 || ajax.status === 200) { cb(null, ajax.responseText); } else { cb({ status: ajax.status, content: ajax.responseText }); } } }; url += (url.indexOf('?') === -1 ? '?' : '&') + 's=' + new Date().getTime(); ajax.open('GET', url, this.async); ajax.send(); }; return WebLoader; }(Loader); module.exports = { WebLoader: WebLoader, PrecompiledLoader: PrecompiledLoader }; /***/ }), /* 11 */ /***/ (function(module, exports, __webpack_require__) { "use strict"; var lib = __webpack_require__(0); var _require = __webpack_require__(7), Environment = _require.Environment, Template = _require.Template; var Loader = __webpack_require__(6); var loaders = __webpack_require__(10); var precompile = __webpack_require__(23); var compiler = __webpack_require__(5); var parser = __webpack_require__(8); var lexer = __webpack_require__(9); var runtime = __webpack_require__(2); var nodes = __webpack_require__(3); var installJinjaCompat = __webpack_require__(25); // A single instance of an environment, since this is so commonly used var e; function configure(templatesPath, opts) { opts = opts || {}; if (lib.isObject(templatesPath)) { opts = templatesPath; templatesPath = null; } var TemplateLoader; if (loaders.FileSystemLoader) { TemplateLoader = new loaders.FileSystemLoader(templatesPath, { watch: opts.watch, noCache: opts.noCache }); } else if (loaders.WebLoader) { TemplateLoader = new loaders.WebLoader(templatesPath, { useCache: opts.web && opts.web.useCache, async: opts.web && opts.web.async }); } e = new Environment(TemplateLoader, opts); if (opts && opts.express) { e.express(opts.express); } return e; } module.exports = { Environment: Environment, Template: Template, Loader: Loader, FileSystemLoader: loaders.FileSystemLoader, NodeResolveLoader: loaders.NodeResolveLoader, PrecompiledLoader: loaders.PrecompiledLoader, WebLoader: loaders.WebLoader, compiler: compiler, parser: parser, lexer: lexer, runtime: runtime, lib: lib, nodes: nodes, installJinjaCompat: installJinjaCompat, configure: configure, reset: function reset() { e = undefined; }, compile: function compile(src, env, path, eagerCompile) { if (!e) { configure(); } return new Template(src, env, path, eagerCompile); }, render: function render(name, ctx, cb) { if (!e) { configure(); } return e.render(name, ctx, cb); }, renderString: function renderString(src, ctx, cb) { if (!e) { configure(); } return e.renderString(src, ctx, cb); }, precompile: precompile ? precompile.precompile : undefined, precompileString: precompile ? precompile.precompileString : undefined }; /***/ }), /* 12 */ /***/ (function(module, exports, __webpack_require__) { "use strict"; // rawAsap provides everything we need except exception management. var rawAsap = __webpack_require__(13); // RawTasks are recycled to reduce GC churn. var freeTasks = []; // We queue errors to ensure they are thrown in right order (FIFO). // Array-as-queue is good enough here, since we are just dealing with exceptions. var pendingErrors = []; var requestErrorThrow = rawAsap.makeRequestCallFromTimer(throwFirstError); function throwFirstError() { if (pendingErrors.length) { throw pendingErrors.shift(); } } /** * Calls a task as soon as possible after returning, in its own event, with priority * over other events like animation, reflow, and repaint. An error thrown from an * event will not interrupt, nor even substantially slow down the processing of * other events, but will be rather postponed to a lower priority event. * @param {{call}} task A callable object, typically a function that takes no * arguments. */ module.exports = asap; function asap(task) { var rawTask; if (freeTasks.length) { rawTask = freeTasks.pop(); } else { rawTask = new RawTask(); } rawTask.task = task; rawAsap(rawTask); } // We wrap tasks with recyclable task objects. A task object implements // `call`, just like a function. function RawTask() { this.task = null; } // The sole purpose of wrapping the task is to catch the exception and recycle // the task object after its single use. RawTask.prototype.call = function () { try { this.task.call(); } catch (error) { if (asap.onerror) { // This hook exists purely for testing purposes. // Its name will be periodically randomized to break any code that // depends on its existence. asap.onerror(error); } else { // In a web browser, exceptions are not fatal. However, to avoid // slowing down the queue of pending tasks, we rethrow the error in a // lower priority turn. pendingErrors.push(error); requestErrorThrow(); } } finally { this.task = null; freeTasks[freeTasks.length] = this; } }; /***/ }), /* 13 */ /***/ (function(module, exports, __webpack_require__) { "use strict"; /* WEBPACK VAR INJECTION */(function(global) { // Use the fastest means possible to execute a task in its own turn, with // priority over other events including IO, animation, reflow, and redraw // events in browsers. // // An exception thrown by a task will permanently interrupt the processing of // subsequent tasks. The higher level `asap` function ensures that if an // exception is thrown by a task, that the task queue will continue flushing as // soon as possible, but if you use `rawAsap` directly, you are responsible to // either ensure that no exceptions are thrown from your task, or to manually // call `rawAsap.requestFlush` if an exception is thrown. module.exports = rawAsap; function rawAsap(task) { if (!queue.length) { requestFlush(); flushing = true; } // Equivalent to push, but avoids a function call. queue[queue.length] = task; } var queue = []; // Once a flush has been requested, no further calls to `requestFlush` are // necessary until the next `flush` completes. var flushing = false; // `requestFlush` is an implementation-specific method that attempts to kick // off a `flush` event as quickly as possible. `flush` will attempt to exhaust // the event queue before yielding to the browser's own event loop. var requestFlush; // The position of the next task to execute in the task queue. This is // preserved between calls to `flush` so that it can be resumed if // a task throws an exception. var index = 0; // If a task schedules additional tasks recursively, the task queue can grow // unbounded. To prevent memory exhaustion, the task queue will periodically // truncate already-completed tasks. var capacity = 1024; // The flush function processes all tasks that have been scheduled with // `rawAsap` unless and until one of those tasks throws an exception. // If a task throws an exception, `flush` ensures that its state will remain // consistent and will resume where it left off when called again. // However, `flush` does not make any arrangements to be called again if an // exception is thrown. function flush() { while (index < queue.length) { var currentIndex = index; // Advance the index before calling the task. This ensures that we will // begin flushing on the next task the task throws an error. index = index + 1; queue[currentIndex].call(); // Prevent leaking memory for long chains of recursive calls to `asap`. // If we call `asap` within tasks scheduled by `asap`, the queue will // grow, but to avoid an O(n) walk for every task we execute, we don't // shift tasks off the queue after they have been executed. // Instead, we periodically shift 1024 tasks off the queue. if (index > capacity) { // Manually shift all values starting at the index back to the // beginning of the queue. for (var scan = 0, newLength = queue.length - index; scan < newLength; scan++) { queue[scan] = queue[scan + index]; } queue.length -= index; index = 0; } } queue.length = 0; index = 0; flushing = false; } // `requestFlush` is implemented using a strategy based on data collected from // every available SauceLabs Selenium web driver worker at time of writing. // https://docs.google.com/spreadsheets/d/1mG-5UYGup5qxGdEMWkhP6BWCz053NUb2E1QoUTU16uA/edit#gid=783724593 // Safari 6 and 6.1 for desktop, iPad, and iPhone are the only browsers that // have WebKitMutationObserver but not un-prefixed MutationObserver. // Must use `global` or `self` instead of `window` to work in both frames and web // workers. `global` is a provision of Browserify, Mr, Mrs, or Mop. /* globals self */ var scope = typeof global !== "undefined" ? global : self; var BrowserMutationObserver = scope.MutationObserver || scope.WebKitMutationObserver; // MutationObservers are desirable because they have high priority and work // reliably everywhere they are implemented. // They are implemented in all modern browsers. // // - Android 4-4.3 // - Chrome 26-34 // - Firefox 14-29 // - Internet Explorer 11 // - iPad Safari 6-7.1 // - iPhone Safari 7-7.1 // - Safari 6-7 if (typeof BrowserMutationObserver === "function") { requestFlush = makeRequestCallFromMutationObserver(flush); // MessageChannels are desirable because they give direct access to the HTML // task queue, are implemented in Internet Explorer 10, Safari 5.0-1, and Opera // 11-12, and in web workers in many engines. // Although message channels yield to any queued rendering and IO tasks, they // would be better than imposing the 4ms delay of timers. // However, they do not work reliably in Internet Explorer or Safari. // Internet Explorer 10 is the only browser that has setImmediate but does // not have MutationObservers. // Although setImmediate yields to the browser's renderer, it would be // preferrable to falling back to setTimeout since it does not have // the minimum 4ms penalty. // Unfortunately there appears to be a bug in Internet Explorer 10 Mobile (and // Desktop to a lesser extent) that renders both setImmediate and // MessageChannel useless for the purposes of ASAP. // https://github.com/kriskowal/q/issues/396 // Timers are implemented universally. // We fall back to timers in workers in most engines, and in foreground // contexts in the following browsers. // However, note that even this simple case requires nuances to operate in a // broad spectrum of browsers. // // - Firefox 3-13 // - Internet Explorer 6-9 // - iPad Safari 4.3 // - Lynx 2.8.7 } else { requestFlush = makeRequestCallFromTimer(flush); } // `requestFlush` requests that the high priority event queue be flushed as // soon as possible. // This is useful to prevent an error thrown in a task from stalling the event // queue if the exception handled by Node.js’s // `process.on("uncaughtException")` or by a domain. rawAsap.requestFlush = requestFlush; // To request a high priority event, we induce a mutation observer by toggling // the text of a text node between "1" and "-1". function makeRequestCallFromMutationObserver(callback) { var toggle = 1; var observer = new BrowserMutationObserver(callback); var node = document.createTextNode(""); observer.observe(node, {characterData: true}); return function requestCall() { toggle = -toggle; node.data = toggle; }; } // The message channel technique was discovered by Malte Ubl and was the // original foundation for this library. // http://www.nonblocking.io/2011/06/windownexttick.html // Safari 6.0.5 (at least) intermittently fails to create message ports on a // page's first load. Thankfully, this version of Safari supports // MutationObservers, so we don't need to fall back in that case. // function makeRequestCallFromMessageChannel(callback) { // var channel = new MessageChannel(); // channel.port1.onmessage = callback; // return function requestCall() { // channel.port2.postMessage(0); // }; // } // For reasons explained above, we are also unable to use `setImmediate` // under any circumstances. // Even if we were, there is another bug in Internet Explorer 10. // It is not sufficient to assign `setImmediate` to `requestFlush` because // `setImmediate` must be called *by name* and therefore must be wrapped in a // closure. // Never forget. // function makeRequestCallFromSetImmediate(callback) { // return function requestCall() { // setImmediate(callback); // }; // } // Safari 6.0 has a problem where timers will get lost while the user is // scrolling. This problem does not impact ASAP because Safari 6.0 supports // mutation observers, so that implementation is used instead. // However, if we ever elect to use timers in Safari, the prevalent work-around // is to add a scroll event listener that calls for a flush. // `setTimeout` does not call the passed callback if the delay is less than // approximately 7 in web workers in Firefox 8 through 18, and sometimes not // even then. function makeRequestCallFromTimer(callback) { return function requestCall() { // We dispatch a timeout with a specified delay of 0 for engines that // can reliably accommodate that request. This will usually be snapped // to a 4 milisecond delay, but once we're flushing, there's no delay // between events. var timeoutHandle = setTimeout(handleTimer, 0); // However, since this timer gets frequently dropped in Firefox // workers, we enlist an interval handle that will try to fire // an event 20 times per second until it succeeds. var intervalHandle = setInterval(handleTimer, 50); function handleTimer() { // Whichever timer succeeds will cancel both timers and // execute the callback. clearTimeout(timeoutHandle); clearInterval(intervalHandle); callback(); } }; } // This is for `asap.js` only. // Its name will be periodically randomized to break any code that depends on // its existence. rawAsap.makeRequestCallFromTimer = makeRequestCallFromTimer; // ASAP was originally a nextTick shim included in Q. This was factored out // into this ASAP package. It was later adapted to RSVP which made further // amendments. These decisions, particularly to marginalize MessageChannel and // to capture the MutationObserver implementation in a closure, were integrated // back into ASAP proper. // https://github.com/tildeio/rsvp.js/blob/cddf7232546a9cf858524b75cde6f9edf72620a7/lib/rsvp/asap.js /* WEBPACK VAR INJECTION */}.call(exports, __webpack_require__(14))) /***/ }), /* 14 */ /***/ (function(module, exports) { var g; // This works in non-strict mode g = (function() { return this; })(); try { // This works if eval is allowed (see CSP) g = g || Function("return this")() || (1,eval)("this"); } catch(e) { // This works if the window reference is available if(typeof window === "object") g = window; } // g can still be undefined, but nothing to do about it... // We return undefined, instead of nothing here, so it's // easier to handle this case. if(!global) { ...} module.exports = g; /***/ }), /* 15 */ /***/ (function(module, exports, __webpack_require__) { var __WEBPACK_AMD_DEFINE_ARRAY__, __WEBPACK_AMD_DEFINE_RESULT__;// MIT license (by Elan Shanker). (function(globals) { 'use strict'; var executeSync = function(){ var args = Array.prototype.slice.call(arguments); if (typeof args[0] === 'function'){ args[0].apply(null, args.splice(1)); } }; var executeAsync = function(fn){ if (typeof setImmediate === 'function') { setImmediate(fn); } else if (typeof process !== 'undefined' && process.nextTick) { process.nextTick(fn); } else { setTimeout(fn, 0); } }; var makeIterator = function (tasks) { var makeCallback = function (index) { var fn = function () { if (tasks.length) { tasks[index].apply(null, arguments); } return fn.next(); }; fn.next = function () { return (index < tasks.length - 1) ? makeCallback(index + 1): null; }; return fn; }; return makeCallback(0); }; var _isArray = Array.isArray || function(maybeArray){ return Object.prototype.toString.call(maybeArray) === '[object Array]'; }; var waterfall = function (tasks, callback, forceAsync) { var nextTick = forceAsync ? executeAsync : executeSync; callback = callback || function () {}; if (!_isArray(tasks)) { var err = new Error('First argument to waterfall must be an array of functions'); return callback(err); } if (!tasks.length) { return callback(); } var wrapIterator = function (iterator) { return function (err) { if (err) { callback.apply(null, arguments); callback = function () {}; } else { var args = Array.prototype.slice.call(arguments, 1); var next = iterator.next(); if (next) { args.push(wrapIterator(next)); } else { args.push(callback); } nextTick(function () { iterator.apply(null, args); }); } }; }; wrapIterator(makeIterator(tasks))(); }; if (true) { !(__WEBPACK_AMD_DEFINE_ARRAY__ = [], __WEBPACK_AMD_DEFINE_RESULT__ = (function () { return waterfall; }).apply(exports, __WEBPACK_AMD_DEFINE_ARRAY__), __WEBPACK_AMD_DEFINE_RESULT__ !== undefined && (module.exports = __WEBPACK_AMD_DEFINE_RESULT__)); // RequireJS } else if (typeof module !== 'undefined' && module.exports) { module.exports = waterfall; // CommonJS } else { globals.waterfall = waterfall; //