/******/ (function() { // webpackBootstrap /******/ var __webpack_modules__ = ({ /***/ 89: /*!*****************************************!*\ !*** ./node_modules/process/browser.js ***! \*****************************************/ /***/ (function(module) { // shim for using process in browser var process = module.exports = {}; // cached from whatever global is present so that test runners that stub it // don't break things. But we need to wrap it in a try catch in case it is // wrapped in strict mode code which doesn't define any globals. It's inside a // function because try/catches deoptimize in certain engines. var cachedSetTimeout; var cachedClearTimeout; function defaultSetTimout() { throw new Error('setTimeout has not been defined'); } function defaultClearTimeout() { throw new Error('clearTimeout has not been defined'); } (function () { try { if (typeof setTimeout === 'function') { cachedSetTimeout = setTimeout; } else { cachedSetTimeout = defaultSetTimout; } } catch (e) { cachedSetTimeout = defaultSetTimout; } try { if (typeof clearTimeout === 'function') { cachedClearTimeout = clearTimeout; } else { cachedClearTimeout = defaultClearTimeout; } } catch (e) { cachedClearTimeout = defaultClearTimeout; } })(); function runTimeout(fun) { if (cachedSetTimeout === setTimeout) { //normal enviroments in sane situations return setTimeout(fun, 0); } // if setTimeout wasn't available but was latter defined if ((cachedSetTimeout === defaultSetTimout || !cachedSetTimeout) && setTimeout) { cachedSetTimeout = setTimeout; return setTimeout(fun, 0); } try { // when when somebody has screwed with setTimeout but no I.E. maddness return cachedSetTimeout(fun, 0); } catch (e) { try { // When we are in I.E. but the script has been evaled so I.E. doesn't trust the global object when called normally return cachedSetTimeout.call(null, fun, 0); } catch (e) { // same as above but when it's a version of I.E. that must have the global object for 'this', hopfully our context correct otherwise it will throw a global error return cachedSetTimeout.call(this, fun, 0); } } } function runClearTimeout(marker) { if (cachedClearTimeout === clearTimeout) { //normal enviroments in sane situations return clearTimeout(marker); } // if clearTimeout wasn't available but was latter defined if ((cachedClearTimeout === defaultClearTimeout || !cachedClearTimeout) && clearTimeout) { cachedClearTimeout = clearTimeout; return clearTimeout(marker); } try { // when when somebody has screwed with setTimeout but no I.E. maddness return cachedClearTimeout(marker); } catch (e) { try { // When we are in I.E. but the script has been evaled so I.E. doesn't trust the global object when called normally return cachedClearTimeout.call(null, marker); } catch (e) { // same as above but when it's a version of I.E. that must have the global object for 'this', hopfully our context correct otherwise it will throw a global error. // Some versions of I.E. have different rules for clearTimeout vs setTimeout return cachedClearTimeout.call(this, marker); } } } var queue = []; var draining = false; var currentQueue; var queueIndex = -1; function cleanUpNextTick() { if (!draining || !currentQueue) { return; } draining = false; if (currentQueue.length) { queue = currentQueue.concat(queue); } else { queueIndex = -1; } if (queue.length) { drainQueue(); } } function drainQueue() { if (draining) { return; } var timeout = runTimeout(cleanUpNextTick); draining = true; var len = queue.length; while (len) { currentQueue = queue; queue = []; while (++queueIndex < len) { if (currentQueue) { currentQueue[queueIndex].run(); } } queueIndex = -1; len = queue.length; } currentQueue = null; draining = false; runClearTimeout(timeout); } process.nextTick = function (fun) { var args = new Array(arguments.length - 1); if (arguments.length > 1) { for (var i = 1; i < arguments.length; i++) { args[i - 1] = arguments[i]; } } queue.push(new Item(fun, args)); if (queue.length === 1 && !draining) { runTimeout(drainQueue); } }; // v8 likes predictible objects function Item(fun, array) { this.fun = fun; this.array = array; } Item.prototype.run = function () { this.fun.apply(null, this.array); }; process.title = 'browser'; process.browser = true; process.env = {}; process.argv = []; process.version = ''; // empty string to avoid regexp issues process.versions = {}; function noop() {} process.on = noop; process.addListener = noop; process.once = noop; process.off = noop; process.removeListener = noop; process.removeAllListeners = noop; process.emit = noop; process.prependListener = noop; process.prependOnceListener = noop; process.listeners = function (name) { return []; }; process.binding = function (name) { throw new Error('process.binding is not supported'); }; process.cwd = function () { return '/'; }; process.chdir = function (dir) { throw new Error('process.chdir is not supported'); }; process.umask = function () { return 0; }; /***/ }), /***/ 154: /*!*****************************************************************!*\ !*** ./node_modules/@babel/runtime/helpers/arrayLikeToArray.js ***! \*****************************************************************/ /***/ (function(module) { function _arrayLikeToArray(arr, len) { if (len == null || len > arr.length) len = arr.length; for (var i = 0, arr2 = new Array(len); i < len; i++) arr2[i] = arr[i]; return arr2; } module.exports = _arrayLikeToArray, module.exports.__esModule = true, module.exports["default"] = module.exports; /***/ }), /***/ 462: /*!***************************************************************!*\ !*** ./node_modules/@babel/runtime/helpers/arrayWithHoles.js ***! \***************************************************************/ /***/ (function(module) { function _arrayWithHoles(arr) { if (Array.isArray(arr)) return arr; } module.exports = _arrayWithHoles, module.exports.__esModule = true, module.exports["default"] = module.exports; /***/ }), /***/ 177: /*!******************************************************************!*\ !*** ./node_modules/@babel/runtime/helpers/arrayWithoutHoles.js ***! \******************************************************************/ /***/ (function(module, __unused_webpack_exports, __webpack_require__) { var arrayLikeToArray = __webpack_require__(/*! ./arrayLikeToArray.js */ 154); function _arrayWithoutHoles(arr) { if (Array.isArray(arr)) return arrayLikeToArray(arr); } module.exports = _arrayWithoutHoles, module.exports.__esModule = true, module.exports["default"] = module.exports; /***/ }), /***/ 760: /*!**********************************************************************!*\ !*** ./node_modules/@babel/runtime/helpers/assertThisInitialized.js ***! \**********************************************************************/ /***/ (function(module) { function _assertThisInitialized(self) { if (self === void 0) { throw new ReferenceError("this hasn't been initialised - super() hasn't been called"); } return self; } module.exports = _assertThisInitialized, module.exports.__esModule = true, module.exports["default"] = module.exports; /***/ }), /***/ 608: /*!***************************************************************!*\ !*** ./node_modules/@babel/runtime/helpers/classCallCheck.js ***! \***************************************************************/ /***/ (function(module) { function _classCallCheck(instance, Constructor) { if (!(instance instanceof Constructor)) { throw new TypeError("Cannot call a class as a function"); } } module.exports = _classCallCheck, module.exports.__esModule = true, module.exports["default"] = module.exports; /***/ }), /***/ 702: /*!**********************************************************!*\ !*** ./node_modules/@babel/runtime/helpers/construct.js ***! \**********************************************************/ /***/ (function(module, __unused_webpack_exports, __webpack_require__) { var setPrototypeOf = __webpack_require__(/*! ./setPrototypeOf.js */ 857); var isNativeReflectConstruct = __webpack_require__(/*! ./isNativeReflectConstruct.js */ 856); function _construct(Parent, args, Class) { if (isNativeReflectConstruct()) { module.exports = _construct = Reflect.construct.bind(), module.exports.__esModule = true, module.exports["default"] = module.exports; } else { module.exports = _construct = function _construct(Parent, args, Class) { var a = [null]; a.push.apply(a, args); var Constructor = Function.bind.apply(Parent, a); var instance = new Constructor(); if (Class) setPrototypeOf(instance, Class.prototype); return instance; }, module.exports.__esModule = true, module.exports["default"] = module.exports; } return _construct.apply(null, arguments); } module.exports = _construct, module.exports.__esModule = true, module.exports["default"] = module.exports; /***/ }), /***/ 218: /*!************************************************************!*\ !*** ./node_modules/@babel/runtime/helpers/createClass.js ***! \************************************************************/ /***/ (function(module, __unused_webpack_exports, __webpack_require__) { var toPropertyKey = __webpack_require__(/*! ./toPropertyKey.js */ 108); 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; } module.exports = _createClass, module.exports.__esModule = true, module.exports["default"] = module.exports; /***/ }), /***/ 706: /*!**************************************************************************!*\ !*** ./node_modules/@babel/runtime/helpers/createForOfIteratorHelper.js ***! \**************************************************************************/ /***/ (function(module, __unused_webpack_exports, __webpack_require__) { var unsupportedIterableToArray = __webpack_require__(/*! ./unsupportedIterableToArray.js */ 237); function _createForOfIteratorHelper(o, allowArrayLike) { var it = typeof Symbol !== "undefined" && o[Symbol.iterator] || o["@@iterator"]; if (!it) { if (Array.isArray(o) || (it = unsupportedIterableToArray(o)) || allowArrayLike && o && typeof o.length === "number") { if (it) o = it; var i = 0; var F = function F() {}; return { s: F, n: function n() { if (i >= o.length) return { done: true }; return { done: false, value: o[i++] }; }, e: function e(_e) { throw _e; }, f: F }; } throw new TypeError("Invalid attempt to iterate non-iterable instance.\nIn order to be iterable, non-array objects must have a [Symbol.iterator]() method."); } var normalCompletion = true, didErr = false, err; return { s: function s() { it = it.call(o); }, n: function n() { var step = it.next(); normalCompletion = step.done; return step; }, e: function e(_e2) { didErr = true; err = _e2; }, f: function f() { try { if (!normalCompletion && it["return"] != null) it["return"](); } finally { if (didErr) throw err; } } }; } module.exports = _createForOfIteratorHelper, module.exports.__esModule = true, module.exports["default"] = module.exports; /***/ }), /***/ 680: /*!************************************************************!*\ !*** ./node_modules/@babel/runtime/helpers/createSuper.js ***! \************************************************************/ /***/ (function(module, __unused_webpack_exports, __webpack_require__) { var getPrototypeOf = __webpack_require__(/*! ./getPrototypeOf.js */ 569); var isNativeReflectConstruct = __webpack_require__(/*! ./isNativeReflectConstruct.js */ 856); var possibleConstructorReturn = __webpack_require__(/*! ./possibleConstructorReturn.js */ 460); function _createSuper(Derived) { var hasNativeReflectConstruct = isNativeReflectConstruct(); return function _createSuperInternal() { var Super = getPrototypeOf(Derived), result; if (hasNativeReflectConstruct) { var NewTarget = getPrototypeOf(this).constructor; result = Reflect.construct(Super, arguments, NewTarget); } else { result = Super.apply(this, arguments); } return possibleConstructorReturn(this, result); }; } module.exports = _createSuper, module.exports.__esModule = true, module.exports["default"] = module.exports; /***/ }), /***/ 51: /*!***************************************************************!*\ !*** ./node_modules/@babel/runtime/helpers/defineProperty.js ***! \***************************************************************/ /***/ (function(module, __unused_webpack_exports, __webpack_require__) { var toPropertyKey = __webpack_require__(/*! ./toPropertyKey.js */ 108); function _defineProperty(obj, key, value) { key = toPropertyKey(key); if (key in obj) { Object.defineProperty(obj, key, { value: value, enumerable: true, configurable: true, writable: true }); } else { obj[key] = value; } return obj; } module.exports = _defineProperty, module.exports.__esModule = true, module.exports["default"] = module.exports; /***/ }), /***/ 315: /*!****************************************************!*\ !*** ./node_modules/@babel/runtime/helpers/get.js ***! \****************************************************/ /***/ (function(module, __unused_webpack_exports, __webpack_require__) { var superPropBase = __webpack_require__(/*! ./superPropBase.js */ 78); function _get() { if (typeof Reflect !== "undefined" && Reflect.get) { module.exports = _get = Reflect.get.bind(), module.exports.__esModule = true, module.exports["default"] = module.exports; } else { module.exports = _get = function _get(target, property, receiver) { var base = superPropBase(target, property); if (!base) return; var desc = Object.getOwnPropertyDescriptor(base, property); if (desc.get) { return desc.get.call(arguments.length < 3 ? target : receiver); } return desc.value; }, module.exports.__esModule = true, module.exports["default"] = module.exports; } return _get.apply(this, arguments); } module.exports = _get, module.exports.__esModule = true, module.exports["default"] = module.exports; /***/ }), /***/ 569: /*!***************************************************************!*\ !*** ./node_modules/@babel/runtime/helpers/getPrototypeOf.js ***! \***************************************************************/ /***/ (function(module) { function _getPrototypeOf(o) { module.exports = _getPrototypeOf = Object.setPrototypeOf ? Object.getPrototypeOf.bind() : function _getPrototypeOf(o) { return o.__proto__ || Object.getPrototypeOf(o); }, module.exports.__esModule = true, module.exports["default"] = module.exports; return _getPrototypeOf(o); } module.exports = _getPrototypeOf, module.exports.__esModule = true, module.exports["default"] = module.exports; /***/ }), /***/ 590: /*!*********************************************************!*\ !*** ./node_modules/@babel/runtime/helpers/inherits.js ***! \*********************************************************/ /***/ (function(module, __unused_webpack_exports, __webpack_require__) { var setPrototypeOf = __webpack_require__(/*! ./setPrototypeOf.js */ 857); function _inherits(subClass, superClass) { if (typeof superClass !== "function" && superClass !== null) { throw new TypeError("Super expression must either be null or a function"); } subClass.prototype = Object.create(superClass && superClass.prototype, { constructor: { value: subClass, writable: true, configurable: true } }); Object.defineProperty(subClass, "prototype", { writable: false }); if (superClass) setPrototypeOf(subClass, superClass); } module.exports = _inherits, module.exports.__esModule = true, module.exports["default"] = module.exports; /***/ }), /***/ 494: /*!*****************************************************************!*\ !*** ./node_modules/@babel/runtime/helpers/isNativeFunction.js ***! \*****************************************************************/ /***/ (function(module) { function _isNativeFunction(fn) { return Function.toString.call(fn).indexOf("[native code]") !== -1; } module.exports = _isNativeFunction, module.exports.__esModule = true, module.exports["default"] = module.exports; /***/ }), /***/ 856: /*!*************************************************************************!*\ !*** ./node_modules/@babel/runtime/helpers/isNativeReflectConstruct.js ***! \*************************************************************************/ /***/ (function(module) { function _isNativeReflectConstruct() { if (typeof Reflect === "undefined" || !Reflect.construct) return false; if (Reflect.construct.sham) return false; if (typeof Proxy === "function") return true; try { Boolean.prototype.valueOf.call(Reflect.construct(Boolean, [], function () {})); return true; } catch (e) { return false; } } module.exports = _isNativeReflectConstruct, module.exports.__esModule = true, module.exports["default"] = module.exports; /***/ }), /***/ 311: /*!****************************************************************!*\ !*** ./node_modules/@babel/runtime/helpers/iterableToArray.js ***! \****************************************************************/ /***/ (function(module) { function _iterableToArray(iter) { if (typeof Symbol !== "undefined" && iter[Symbol.iterator] != null || iter["@@iterator"] != null) return Array.from(iter); } module.exports = _iterableToArray, module.exports.__esModule = true, module.exports["default"] = module.exports; /***/ }), /***/ 449: /*!*********************************************************************!*\ !*** ./node_modules/@babel/runtime/helpers/iterableToArrayLimit.js ***! \*********************************************************************/ /***/ (function(module) { function _iterableToArrayLimit(arr, i) { var _i = null == arr ? null : "undefined" != typeof Symbol && arr[Symbol.iterator] || arr["@@iterator"]; if (null != _i) { var _s, _e, _x, _r, _arr = [], _n = !0, _d = !1; try { if (_x = (_i = _i.call(arr)).next, 0 === i) { if (Object(_i) !== _i) return; _n = !1; } else for (; !(_n = (_s = _x.call(_i)).done) && (_arr.push(_s.value), _arr.length !== i); _n = !0); } catch (err) { _d = !0, _e = err; } finally { try { if (!_n && null != _i["return"] && (_r = _i["return"](), Object(_r) !== _r)) return; } finally { if (_d) throw _e; } } return _arr; } } module.exports = _iterableToArrayLimit, module.exports.__esModule = true, module.exports["default"] = module.exports; /***/ }), /***/ 431: /*!****************************************************************!*\ !*** ./node_modules/@babel/runtime/helpers/nonIterableRest.js ***! \****************************************************************/ /***/ (function(module) { function _nonIterableRest() { throw new TypeError("Invalid attempt to destructure non-iterable instance.\nIn order to be iterable, non-array objects must have a [Symbol.iterator]() method."); } module.exports = _nonIterableRest, module.exports.__esModule = true, module.exports["default"] = module.exports; /***/ }), /***/ 757: /*!******************************************************************!*\ !*** ./node_modules/@babel/runtime/helpers/nonIterableSpread.js ***! \******************************************************************/ /***/ (function(module) { function _nonIterableSpread() { throw new TypeError("Invalid attempt to spread non-iterable instance.\nIn order to be iterable, non-array objects must have a [Symbol.iterator]() method."); } module.exports = _nonIterableSpread, module.exports.__esModule = true, module.exports["default"] = module.exports; /***/ }), /***/ 460: /*!**************************************************************************!*\ !*** ./node_modules/@babel/runtime/helpers/possibleConstructorReturn.js ***! \**************************************************************************/ /***/ (function(module, __unused_webpack_exports, __webpack_require__) { var _typeof = (__webpack_require__(/*! ./typeof.js */ 191)["default"]); var assertThisInitialized = __webpack_require__(/*! ./assertThisInitialized.js */ 760); function _possibleConstructorReturn(self, call) { if (call && (_typeof(call) === "object" || typeof call === "function")) { return call; } else if (call !== void 0) { throw new TypeError("Derived constructors may only return object or undefined"); } return assertThisInitialized(self); } module.exports = _possibleConstructorReturn, module.exports.__esModule = true, module.exports["default"] = module.exports; /***/ }), /***/ 15: /*!*******************************************************************!*\ !*** ./node_modules/@babel/runtime/helpers/regeneratorRuntime.js ***! \*******************************************************************/ /***/ (function(module, __unused_webpack_exports, __webpack_require__) { var _typeof = (__webpack_require__(/*! ./typeof.js */ 191)["default"]); function _regeneratorRuntime() { "use strict"; /*! regenerator-runtime -- Copyright (c) 2014-present, Facebook, Inc. -- license (MIT): https://github.com/facebook/regenerator/blob/main/LICENSE */ module.exports = _regeneratorRuntime = function _regeneratorRuntime() { return exports; }, module.exports.__esModule = true, module.exports["default"] = module.exports; var exports = {}, Op = Object.prototype, hasOwn = Op.hasOwnProperty, defineProperty = Object.defineProperty || function (obj, key, desc) { obj[key] = desc.value; }, $Symbol = "function" == typeof Symbol ? Symbol : {}, iteratorSymbol = $Symbol.iterator || "@@iterator", asyncIteratorSymbol = $Symbol.asyncIterator || "@@asyncIterator", toStringTagSymbol = $Symbol.toStringTag || "@@toStringTag"; function define(obj, key, value) { return Object.defineProperty(obj, key, { value: value, enumerable: !0, configurable: !0, writable: !0 }), obj[key]; } try { define({}, ""); } catch (err) { define = function define(obj, key, value) { return obj[key] = value; }; } function wrap(innerFn, outerFn, self, tryLocsList) { var protoGenerator = outerFn && outerFn.prototype instanceof Generator ? outerFn : Generator, generator = Object.create(protoGenerator.prototype), context = new Context(tryLocsList || []); return defineProperty(generator, "_invoke", { value: makeInvokeMethod(innerFn, self, context) }), generator; } function tryCatch(fn, obj, arg) { try { return { type: "normal", arg: fn.call(obj, arg) }; } catch (err) { return { type: "throw", arg: err }; } } exports.wrap = wrap; var ContinueSentinel = {}; function Generator() {} function GeneratorFunction() {} function GeneratorFunctionPrototype() {} var IteratorPrototype = {}; define(IteratorPrototype, iteratorSymbol, function () { return this; }); var getProto = Object.getPrototypeOf, NativeIteratorPrototype = getProto && getProto(getProto(values([]))); NativeIteratorPrototype && NativeIteratorPrototype !== Op && hasOwn.call(NativeIteratorPrototype, iteratorSymbol) && (IteratorPrototype = NativeIteratorPrototype); var Gp = GeneratorFunctionPrototype.prototype = Generator.prototype = Object.create(IteratorPrototype); function defineIteratorMethods(prototype) { ["next", "throw", "return"].forEach(function (method) { define(prototype, method, function (arg) { return this._invoke(method, arg); }); }); } function AsyncIterator(generator, PromiseImpl) { function invoke(method, arg, resolve, reject) { var record = tryCatch(generator[method], generator, arg); if ("throw" !== record.type) { var result = record.arg, value = result.value; return value && "object" == _typeof(value) && hasOwn.call(value, "__await") ? PromiseImpl.resolve(value.__await).then(function (value) { invoke("next", value, resolve, reject); }, function (err) { invoke("throw", err, resolve, reject); }) : PromiseImpl.resolve(value).then(function (unwrapped) { result.value = unwrapped, resolve(result); }, function (error) { return invoke("throw", error, resolve, reject); }); } reject(record.arg); } var previousPromise; defineProperty(this, "_invoke", { value: function value(method, arg) { function callInvokeWithMethodAndArg() { return new PromiseImpl(function (resolve, reject) { invoke(method, arg, resolve, reject); }); } return previousPromise = previousPromise ? previousPromise.then(callInvokeWithMethodAndArg, callInvokeWithMethodAndArg) : callInvokeWithMethodAndArg(); } }); } function makeInvokeMethod(innerFn, self, context) { var state = "suspendedStart"; return function (method, arg) { if ("executing" === state) throw new Error("Generator is already running"); if ("completed" === state) { if ("throw" === method) throw arg; return doneResult(); } for (context.method = method, context.arg = arg;;) { var delegate = context.delegate; if (delegate) { var delegateResult = maybeInvokeDelegate(delegate, context); if (delegateResult) { if (delegateResult === ContinueSentinel) continue; return delegateResult; } } if ("next" === context.method) context.sent = context._sent = context.arg;else if ("throw" === context.method) { if ("suspendedStart" === state) throw state = "completed", context.arg; context.dispatchException(context.arg); } else "return" === context.method && context.abrupt("return", context.arg); state = "executing"; var record = tryCatch(innerFn, self, context); if ("normal" === record.type) { if (state = context.done ? "completed" : "suspendedYield", record.arg === ContinueSentinel) continue; return { value: record.arg, done: context.done }; } "throw" === record.type && (state = "completed", context.method = "throw", context.arg = record.arg); } }; } function maybeInvokeDelegate(delegate, context) { var methodName = context.method, method = delegate.iterator[methodName]; if (undefined === method) return context.delegate = null, "throw" === methodName && delegate.iterator["return"] && (context.method = "return", context.arg = undefined, maybeInvokeDelegate(delegate, context), "throw" === context.method) || "return" !== methodName && (context.method = "throw", context.arg = new TypeError("The iterator does not provide a '" + methodName + "' method")), ContinueSentinel; var record = tryCatch(method, delegate.iterator, context.arg); if ("throw" === record.type) return context.method = "throw", context.arg = record.arg, context.delegate = null, ContinueSentinel; var info = record.arg; return info ? info.done ? (context[delegate.resultName] = info.value, context.next = delegate.nextLoc, "return" !== context.method && (context.method = "next", context.arg = undefined), context.delegate = null, ContinueSentinel) : info : (context.method = "throw", context.arg = new TypeError("iterator result is not an object"), context.delegate = null, ContinueSentinel); } function pushTryEntry(locs) { var entry = { tryLoc: locs[0] }; 1 in locs && (entry.catchLoc = locs[1]), 2 in locs && (entry.finallyLoc = locs[2], entry.afterLoc = locs[3]), this.tryEntries.push(entry); } function resetTryEntry(entry) { var record = entry.completion || {}; record.type = "normal", delete record.arg, entry.completion = record; } function Context(tryLocsList) { this.tryEntries = [{ tryLoc: "root" }], tryLocsList.forEach(pushTryEntry, this), this.reset(!0); } function values(iterable) { if (iterable) { var iteratorMethod = iterable[iteratorSymbol]; if (iteratorMethod) return iteratorMethod.call(iterable); if ("function" == typeof iterable.next) return iterable; if (!isNaN(iterable.length)) { var i = -1, next = function next() { for (; ++i < iterable.length;) if (hasOwn.call(iterable, i)) return next.value = iterable[i], next.done = !1, next; return next.value = undefined, next.done = !0, next; }; return next.next = next; } } return { next: doneResult }; } function doneResult() { return { value: undefined, done: !0 }; } return GeneratorFunction.prototype = GeneratorFunctionPrototype, defineProperty(Gp, "constructor", { value: GeneratorFunctionPrototype, configurable: !0 }), defineProperty(GeneratorFunctionPrototype, "constructor", { value: GeneratorFunction, configurable: !0 }), GeneratorFunction.displayName = define(GeneratorFunctionPrototype, toStringTagSymbol, "GeneratorFunction"), exports.isGeneratorFunction = function (genFun) { var ctor = "function" == typeof genFun && genFun.constructor; return !!ctor && (ctor === GeneratorFunction || "GeneratorFunction" === (ctor.displayName || ctor.name)); }, exports.mark = function (genFun) { return Object.setPrototypeOf ? Object.setPrototypeOf(genFun, GeneratorFunctionPrototype) : (genFun.__proto__ = GeneratorFunctionPrototype, define(genFun, toStringTagSymbol, "GeneratorFunction")), genFun.prototype = Object.create(Gp), genFun; }, exports.awrap = function (arg) { return { __await: arg }; }, defineIteratorMethods(AsyncIterator.prototype), define(AsyncIterator.prototype, asyncIteratorSymbol, function () { return this; }), exports.AsyncIterator = AsyncIterator, exports.async = function (innerFn, outerFn, self, tryLocsList, PromiseImpl) { void 0 === PromiseImpl && (PromiseImpl = Promise); var iter = new AsyncIterator(wrap(innerFn, outerFn, self, tryLocsList), PromiseImpl); return exports.isGeneratorFunction(outerFn) ? iter : iter.next().then(function (result) { return result.done ? result.value : iter.next(); }); }, defineIteratorMethods(Gp), define(Gp, toStringTagSymbol, "Generator"), define(Gp, iteratorSymbol, function () { return this; }), define(Gp, "toString", function () { return "[object Generator]"; }), exports.keys = function (val) { var object = Object(val), keys = []; for (var key in object) keys.push(key); return keys.reverse(), function next() { for (; keys.length;) { var key = keys.pop(); if (key in object) return next.value = key, next.done = !1, next; } return next.done = !0, next; }; }, exports.values = values, Context.prototype = { constructor: Context, reset: function reset(skipTempReset) { if (this.prev = 0, this.next = 0, this.sent = this._sent = undefined, this.done = !1, this.delegate = null, this.method = "next", this.arg = undefined, this.tryEntries.forEach(resetTryEntry), !skipTempReset) for (var name in this) "t" === name.charAt(0) && hasOwn.call(this, name) && !isNaN(+name.slice(1)) && (this[name] = undefined); }, stop: function stop() { this.done = !0; var rootRecord = this.tryEntries[0].completion; if ("throw" === rootRecord.type) throw rootRecord.arg; return this.rval; }, dispatchException: function dispatchException(exception) { if (this.done) throw exception; var context = this; function handle(loc, caught) { return record.type = "throw", record.arg = exception, context.next = loc, caught && (context.method = "next", context.arg = undefined), !!caught; } for (var i = this.tryEntries.length - 1; i >= 0; --i) { var entry = this.tryEntries[i], record = entry.completion; if ("root" === entry.tryLoc) return handle("end"); if (entry.tryLoc <= this.prev) { var hasCatch = hasOwn.call(entry, "catchLoc"), hasFinally = hasOwn.call(entry, "finallyLoc"); if (hasCatch && hasFinally) { if (this.prev < entry.catchLoc) return handle(entry.catchLoc, !0); if (this.prev < entry.finallyLoc) return handle(entry.finallyLoc); } else if (hasCatch) { if (this.prev < entry.catchLoc) return handle(entry.catchLoc, !0); } else { if (!hasFinally) throw new Error("try statement without catch or finally"); if (this.prev < entry.finallyLoc) return handle(entry.finallyLoc); } } } }, abrupt: function abrupt(type, arg) { for (var i = this.tryEntries.length - 1; i >= 0; --i) { var entry = this.tryEntries[i]; if (entry.tryLoc <= this.prev && hasOwn.call(entry, "finallyLoc") && this.prev < entry.finallyLoc) { var finallyEntry = entry; break; } } finallyEntry && ("break" === type || "continue" === type) && finallyEntry.tryLoc <= arg && arg <= finallyEntry.finallyLoc && (finallyEntry = null); var record = finallyEntry ? finallyEntry.completion : {}; return record.type = type, record.arg = arg, finallyEntry ? (this.method = "next", this.next = finallyEntry.finallyLoc, ContinueSentinel) : this.complete(record); }, complete: function complete(record, afterLoc) { if ("throw" === record.type) throw record.arg; return "break" === record.type || "continue" === record.type ? this.next = record.arg : "return" === record.type ? (this.rval = this.arg = record.arg, this.method = "return", this.next = "end") : "normal" === record.type && afterLoc && (this.next = afterLoc), ContinueSentinel; }, finish: function finish(finallyLoc) { for (var i = this.tryEntries.length - 1; i >= 0; --i) { var entry = this.tryEntries[i]; if (entry.finallyLoc === finallyLoc) return this.complete(entry.completion, entry.afterLoc), resetTryEntry(entry), ContinueSentinel; } }, "catch": function _catch(tryLoc) { for (var i = this.tryEntries.length - 1; i >= 0; --i) { var entry = this.tryEntries[i]; if (entry.tryLoc === tryLoc) { var record = entry.completion; if ("throw" === record.type) { var thrown = record.arg; resetTryEntry(entry); } return thrown; } } throw new Error("illegal catch attempt"); }, delegateYield: function delegateYield(iterable, resultName, nextLoc) { return this.delegate = { iterator: values(iterable), resultName: resultName, nextLoc: nextLoc }, "next" === this.method && (this.arg = undefined), ContinueSentinel; } }, exports; } module.exports = _regeneratorRuntime, module.exports.__esModule = true, module.exports["default"] = module.exports; /***/ }), /***/ 857: /*!***************************************************************!*\ !*** ./node_modules/@babel/runtime/helpers/setPrototypeOf.js ***! \***************************************************************/ /***/ (function(module) { function _setPrototypeOf(o, p) { module.exports = _setPrototypeOf = Object.setPrototypeOf ? 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} /******/ }(); /******/ /************************************************************************/ var __webpack_exports__ = {}; // This entry need to be wrapped in an IIFE because it need to be in strict mode. !function() { "use strict"; /*!***********************************************************************************!*\ !*** ./node_modules/monaco-editor/esm/vs/language/css/css.worker.js + 78 modules ***! \***********************************************************************************/ // EXTERNAL MODULE: ./node_modules/@babel/runtime/helpers/typeof.js var helpers_typeof = __webpack_require__(191); var typeof_default = /*#__PURE__*/__webpack_require__.n(helpers_typeof); // EXTERNAL MODULE: ./node_modules/@babel/runtime/helpers/createForOfIteratorHelper.js var createForOfIteratorHelper = __webpack_require__(706); var createForOfIteratorHelper_default = /*#__PURE__*/__webpack_require__.n(createForOfIteratorHelper); // EXTERNAL MODULE: ./node_modules/@babel/runtime/helpers/inherits.js var inherits = __webpack_require__(590); var inherits_default = /*#__PURE__*/__webpack_require__.n(inherits); // EXTERNAL MODULE: ./node_modules/@babel/runtime/helpers/createSuper.js var createSuper = __webpack_require__(680); var createSuper_default = /*#__PURE__*/__webpack_require__.n(createSuper); // EXTERNAL MODULE: ./node_modules/@babel/runtime/helpers/createClass.js var createClass = __webpack_require__(218); var createClass_default = /*#__PURE__*/__webpack_require__.n(createClass); // EXTERNAL MODULE: ./node_modules/@babel/runtime/helpers/classCallCheck.js var classCallCheck = __webpack_require__(608); var classCallCheck_default = /*#__PURE__*/__webpack_require__.n(classCallCheck); // EXTERNAL MODULE: ./node_modules/@babel/runtime/helpers/wrapNativeSuper.js var wrapNativeSuper = __webpack_require__(929); var wrapNativeSuper_default = /*#__PURE__*/__webpack_require__.n(wrapNativeSuper); ;// CONCATENATED MODULE: ./node_modules/monaco-editor/esm/vs/base/common/errors.js // Avoid circular dependency on EventEmitter by implementing a subset of the interface. var ErrorHandler = /*#__PURE__*/function () { function ErrorHandler() { classCallCheck_default()(this, ErrorHandler); this.listeners = []; this.unexpectedErrorHandler = function (e) { setTimeout(function () { if (e.stack) { throw new Error(e.message + '\n\n' + e.stack); } throw e; }, 0); }; } createClass_default()(ErrorHandler, [{ key: "emit", value: function emit(e) { this.listeners.forEach(function (listener) { listener(e); }); } }, { key: "onUnexpectedError", value: function onUnexpectedError(e) { this.unexpectedErrorHandler(e); this.emit(e); } // For external errors, we don't want the listeners to be called }, { key: "onUnexpectedExternalError", value: function onUnexpectedExternalError(e) { this.unexpectedErrorHandler(e); } }]); return ErrorHandler; }(); var errorHandler = new ErrorHandler(); function onUnexpectedError(e) { // ignore errors from cancelled promises if (!isPromiseCanceledError(e)) { errorHandler.onUnexpectedError(e); } return undefined; } function onUnexpectedExternalError(e) { // ignore errors from cancelled promises if (!isPromiseCanceledError(e)) { errorHandler.onUnexpectedExternalError(e); } return undefined; } function transformErrorForSerialization(error) { if (error instanceof Error) { var name = error.name, message = error.message; var stack = error.stacktrace || error.stack; return { $isError: true, name: name, message: message, stack: stack }; } // return as is return error; } var canceledName = 'Canceled'; /** * Checks if the given error is a promise in canceled state */ function isPromiseCanceledError(error) { return error instanceof Error && error.name === canceledName && error.message === canceledName; } /** * Returns an error that signals cancellation. */ function canceled() { var error = new Error(canceledName); error.name = error.message; return error; } function illegalArgument(name) { if (name) { return new Error("Illegal argument: ".concat(name)); } else { return new Error('Illegal argument'); } } function illegalState(name) { if (name) { return new Error("Illegal state: ".concat(name)); } else { return new Error('Illegal state'); } } var NotSupportedError = /*#__PURE__*/function (_Error) { inherits_default()(NotSupportedError, _Error); var _super = createSuper_default()(NotSupportedError); function NotSupportedError(message) { var _this; classCallCheck_default()(this, NotSupportedError); _this = _super.call(this, 'NotSupported'); if (message) { _this.message = message; } return _this; } return createClass_default()(NotSupportedError); }( /*#__PURE__*/wrapNativeSuper_default()(Error)); // EXTERNAL MODULE: ./node_modules/@babel/runtime/helpers/get.js var get = __webpack_require__(315); // EXTERNAL MODULE: ./node_modules/@babel/runtime/helpers/getPrototypeOf.js var getPrototypeOf = __webpack_require__(569); // EXTERNAL MODULE: ./node_modules/@babel/runtime/helpers/slicedToArray.js var slicedToArray = __webpack_require__(488); var slicedToArray_default = /*#__PURE__*/__webpack_require__.n(slicedToArray); // EXTERNAL MODULE: ./node_modules/@babel/runtime/helpers/toConsumableArray.js var toConsumableArray = __webpack_require__(235); var toConsumableArray_default = /*#__PURE__*/__webpack_require__.n(toConsumableArray); ;// CONCATENATED MODULE: ./node_modules/monaco-editor/esm/vs/base/common/functional.js /*--------------------------------------------------------------------------------------------- * Copyright (c) Microsoft Corporation. All rights reserved. * Licensed under the MIT License. See License.txt in the project root for license information. *--------------------------------------------------------------------------------------------*/ function once(fn) { var _this = this; var didCall = false; var result; return function () { if (didCall) { return result; } didCall = true; result = fn.apply(_this, arguments); return result; }; } // EXTERNAL MODULE: ./node_modules/@babel/runtime/helpers/defineProperty.js var defineProperty = __webpack_require__(51); var defineProperty_default = /*#__PURE__*/__webpack_require__.n(defineProperty); // EXTERNAL MODULE: ./node_modules/@babel/runtime/helpers/regeneratorRuntime.js var regeneratorRuntime = __webpack_require__(15); var regeneratorRuntime_default = /*#__PURE__*/__webpack_require__.n(regeneratorRuntime); ;// CONCATENATED MODULE: ./node_modules/monaco-editor/esm/vs/base/common/iterator.js /*--------------------------------------------------------------------------------------------- * Copyright (c) Microsoft Corporation. All rights reserved. * Licensed under the MIT License. See License.txt in the project root for license information. *--------------------------------------------------------------------------------------------*/ var Iterable; (function (Iterable) { var _marked = /*#__PURE__*/regeneratorRuntime_default()().mark(single), _marked2 = /*#__PURE__*/regeneratorRuntime_default()().mark(filter), _marked3 = /*#__PURE__*/regeneratorRuntime_default()().mark(map), _marked4 = /*#__PURE__*/regeneratorRuntime_default()().mark(concat), _marked5 = /*#__PURE__*/regeneratorRuntime_default()().mark(concatNested); function is(thing) { return thing && typeof_default()(thing) === 'object' && typeof thing[Symbol.iterator] === 'function'; } Iterable.is = is; var _empty = Object.freeze([]); function empty() { return _empty; } Iterable.empty = empty; function single(element) { return regeneratorRuntime_default()().wrap(function single$(_context) { while (1) switch (_context.prev = _context.next) { case 0: _context.next = 2; return element; case 2: case "end": return _context.stop(); } }, _marked); } Iterable.single = single; function from(iterable) { return iterable || _empty; } Iterable.from = from; function isEmpty(iterable) { return !iterable || iterable[Symbol.iterator]().next().done === true; } Iterable.isEmpty = isEmpty; function first(iterable) { return iterable[Symbol.iterator]().next().value; } Iterable.first = first; function some(iterable, predicate) { var _iterator = createForOfIteratorHelper_default()(iterable), _step; try { for (_iterator.s(); !(_step = _iterator.n()).done;) { var element = _step.value; if (predicate(element)) { return true; } } } catch (err) { _iterator.e(err); } finally { _iterator.f(); } return false; } Iterable.some = some; function find(iterable, predicate) { var _iterator2 = createForOfIteratorHelper_default()(iterable), _step2; try { for (_iterator2.s(); !(_step2 = _iterator2.n()).done;) { var element = _step2.value; if (predicate(element)) { return element; } } } catch (err) { _iterator2.e(err); } finally { _iterator2.f(); } return undefined; } Iterable.find = find; function filter(iterable, predicate) { var _iterator3, _step3, element; return regeneratorRuntime_default()().wrap(function filter$(_context2) { while (1) switch (_context2.prev = _context2.next) { case 0: _iterator3 = createForOfIteratorHelper_default()(iterable); _context2.prev = 1; _iterator3.s(); case 3: if ((_step3 = _iterator3.n()).done) { _context2.next = 10; break; } element = _step3.value; if (!predicate(element)) { _context2.next = 8; break; } _context2.next = 8; return element; case 8: _context2.next = 3; break; case 10: _context2.next = 15; break; case 12: _context2.prev = 12; _context2.t0 = _context2["catch"](1); _iterator3.e(_context2.t0); case 15: _context2.prev = 15; _iterator3.f(); return _context2.finish(15); case 18: case "end": return _context2.stop(); } }, _marked2, null, [[1, 12, 15, 18]]); } Iterable.filter = filter; function map(iterable, fn) { var index, _iterator4, _step4, element; return regeneratorRuntime_default()().wrap(function map$(_context3) { while (1) switch (_context3.prev = _context3.next) { case 0: index = 0; _iterator4 = createForOfIteratorHelper_default()(iterable); _context3.prev = 2; _iterator4.s(); case 4: if ((_step4 = _iterator4.n()).done) { _context3.next = 10; break; } element = _step4.value; _context3.next = 8; return fn(element, index++); case 8: _context3.next = 4; break; case 10: _context3.next = 15; break; case 12: _context3.prev = 12; _context3.t0 = _context3["catch"](2); _iterator4.e(_context3.t0); case 15: _context3.prev = 15; _iterator4.f(); return _context3.finish(15); case 18: case "end": return _context3.stop(); } }, _marked3, null, [[2, 12, 15, 18]]); } Iterable.map = map; function concat() { var _len, iterables, _key, _i, _iterables, iterable, _iterator5, _step5, element, _args4 = arguments; return regeneratorRuntime_default()().wrap(function concat$(_context4) { while (1) switch (_context4.prev = _context4.next) { case 0: for (_len = _args4.length, iterables = new Array(_len), _key = 0; _key < _len; _key++) { iterables[_key] = _args4[_key]; } _i = 0, _iterables = iterables; case 2: if (!(_i < _iterables.length)) { _context4.next = 24; break; } iterable = _iterables[_i]; _iterator5 = createForOfIteratorHelper_default()(iterable); _context4.prev = 5; _iterator5.s(); case 7: if ((_step5 = _iterator5.n()).done) { _context4.next = 13; break; } element = _step5.value; _context4.next = 11; return element; case 11: _context4.next = 7; break; case 13: _context4.next = 18; break; case 15: _context4.prev = 15; _context4.t0 = _context4["catch"](5); _iterator5.e(_context4.t0); case 18: _context4.prev = 18; _iterator5.f(); return _context4.finish(18); case 21: _i++; _context4.next = 2; break; case 24: case "end": return _context4.stop(); } }, _marked4, null, [[5, 15, 18, 21]]); } Iterable.concat = concat; function concatNested(iterables) { var _iterator6, _step6, iterable, _iterator7, _step7, element; return regeneratorRuntime_default()().wrap(function concatNested$(_context5) { while (1) switch (_context5.prev = _context5.next) { case 0: _iterator6 = createForOfIteratorHelper_default()(iterables); _context5.prev = 1; _iterator6.s(); case 3: if ((_step6 = _iterator6.n()).done) { _context5.next = 24; break; } iterable = _step6.value; _iterator7 = createForOfIteratorHelper_default()(iterable); _context5.prev = 6; _iterator7.s(); case 8: if ((_step7 = _iterator7.n()).done) { _context5.next = 14; break; } element = _step7.value; _context5.next = 12; return element; case 12: _context5.next = 8; break; case 14: _context5.next = 19; break; case 16: _context5.prev = 16; _context5.t0 = _context5["catch"](6); _iterator7.e(_context5.t0); case 19: _context5.prev = 19; _iterator7.f(); return _context5.finish(19); case 22: _context5.next = 3; break; case 24: _context5.next = 29; break; case 26: _context5.prev = 26; _context5.t1 = _context5["catch"](1); _iterator6.e(_context5.t1); case 29: _context5.prev = 29; _iterator6.f(); return _context5.finish(29); case 32: case "end": return _context5.stop(); } }, _marked5, null, [[1, 26, 29, 32], [6, 16, 19, 22]]); } Iterable.concatNested = concatNested; function reduce(iterable, reducer, initialValue) { var value = initialValue; var _iterator8 = createForOfIteratorHelper_default()(iterable), _step8; try { for (_iterator8.s(); !(_step8 = _iterator8.n()).done;) { var element = _step8.value; value = reducer(value, element); } } catch (err) { _iterator8.e(err); } finally { _iterator8.f(); } return value; } Iterable.reduce = reduce; /** * Returns an iterable slice of the array, with the same semantics as `array.slice()`. */ function slice(arr, from) { var to = arguments.length > 2 && arguments[2] !== undefined ? arguments[2] : arr.length; return /*#__PURE__*/regeneratorRuntime_default()().mark(function _callee() { return regeneratorRuntime_default()().wrap(function _callee$(_context6) { while (1) switch (_context6.prev = _context6.next) { case 0: if (from < 0) { from += arr.length; } if (to < 0) { to += arr.length; } else if (to > arr.length) { to = arr.length; } case 2: if (!(from < to)) { _context6.next = 8; break; } _context6.next = 5; return arr[from]; case 5: from++; _context6.next = 2; break; case 8: case "end": return _context6.stop(); } }, _callee); })(); } Iterable.slice = slice; /** * Consumes `atMost` elements from iterable and returns the consumed elements, * and an iterable for the rest of the elements. */ function consume(iterable) { var atMost = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : Number.POSITIVE_INFINITY; var consumed = []; if (atMost === 0) { return [consumed, iterable]; } var iterator = iterable[Symbol.iterator](); for (var i = 0; i < atMost; i++) { var next = iterator.next(); if (next.done) { return [consumed, Iterable.empty()]; } consumed.push(next.value); } return [consumed, defineProperty_default()({}, Symbol.iterator, function () { return iterator; })]; } Iterable.consume = consume; /** * Returns whether the iterables are the same length and all items are * equal using the comparator function. */ function equals(a, b) { var comparator = arguments.length > 2 && arguments[2] !== undefined ? arguments[2] : function (at, bt) { return at === bt; }; var ai = a[Symbol.iterator](); var bi = b[Symbol.iterator](); while (true) { var an = ai.next(); var bn = bi.next(); if (an.done !== bn.done) { return false; } else if (an.done) { return true; } else if (!comparator(an.value, bn.value)) { return false; } } } Iterable.equals = equals; })(Iterable || (Iterable = {})); ;// CONCATENATED MODULE: ./node_modules/monaco-editor/esm/vs/base/common/lifecycle.js /*--------------------------------------------------------------------------------------------- * Copyright (c) Microsoft Corporation. All rights reserved. * Licensed under the MIT License. See License.txt in the project root for license information. *--------------------------------------------------------------------------------------------*/ /** * Enables logging of potentially leaked disposables. * * A disposable is considered leaked if it is not disposed or not registered as the child of * another disposable. This tracking is very simple an only works for classes that either * extend Disposable or use a DisposableStore. This means there are a lot of false positives. */ var TRACK_DISPOSABLES = false; var disposableTracker = null; function setDisposableTracker(tracker) { disposableTracker = tracker; } if (TRACK_DISPOSABLES) { var __is_disposable_tracked__ = '__is_disposable_tracked__'; setDisposableTracker(new ( /*#__PURE__*/function () { function _class() { classCallCheck_default()(this, _class); } createClass_default()(_class, [{ key: "trackDisposable", value: function trackDisposable(x) { var stack = new Error('Potentially leaked disposable').stack; setTimeout(function () { if (!x[__is_disposable_tracked__]) { console.log(stack); } }, 3000); } }, { key: "setParent", value: function setParent(child, parent) { if (child && child !== lifecycle_Disposable.None) { try { child[__is_disposable_tracked__] = true; } catch (_a) { // noop } } } }, { key: "markAsDisposed", value: function markAsDisposed(disposable) { if (disposable && disposable !== lifecycle_Disposable.None) { try { disposable[__is_disposable_tracked__] = true; } catch (_a) { // noop } } } }, { key: "markAsSingleton", value: function markAsSingleton(disposable) {} }]); return _class; }())()); } function trackDisposable(x) { disposableTracker === null || disposableTracker === void 0 ? void 0 : disposableTracker.trackDisposable(x); return x; } function markAsDisposed(disposable) { disposableTracker === null || disposableTracker === void 0 ? void 0 : disposableTracker.markAsDisposed(disposable); } function setParentOfDisposable(child, parent) { disposableTracker === null || disposableTracker === void 0 ? void 0 : disposableTracker.setParent(child, parent); } function setParentOfDisposables(children, parent) { if (!disposableTracker) { return; } var _iterator = createForOfIteratorHelper_default()(children), _step; try { for (_iterator.s(); !(_step = _iterator.n()).done;) { var child = _step.value; disposableTracker.setParent(child, parent); } } catch (err) { _iterator.e(err); } finally { _iterator.f(); } } /** * Indicates that the given object is a singleton which does not need to be disposed. */ function markAsSingleton(singleton) { disposableTracker === null || disposableTracker === void 0 ? void 0 : disposableTracker.markAsSingleton(singleton); return singleton; } var MultiDisposeError = /*#__PURE__*/function (_Error) { inherits_default()(MultiDisposeError, _Error); var _super = createSuper_default()(MultiDisposeError); function MultiDisposeError(errors) { var _this; classCallCheck_default()(this, MultiDisposeError); _this = _super.call(this, "Encountered errors while disposing of store. Errors: [".concat(errors.join(', '), "]")); _this.errors = errors; return _this; } return createClass_default()(MultiDisposeError); }( /*#__PURE__*/wrapNativeSuper_default()(Error)); function isDisposable(thing) { return typeof thing.dispose === 'function' && thing.dispose.length === 0; } function dispose(arg) { if (Iterable.is(arg)) { var errors = []; var _iterator2 = createForOfIteratorHelper_default()(arg), _step2; try { for (_iterator2.s(); !(_step2 = _iterator2.n()).done;) { var d = _step2.value; if (d) { try { d.dispose(); } catch (e) { errors.push(e); } } } } catch (err) { _iterator2.e(err); } finally { _iterator2.f(); } if (errors.length === 1) { throw errors[0]; } else if (errors.length > 1) { throw new MultiDisposeError(errors); } return Array.isArray(arg) ? [] : arg; } else if (arg) { arg.dispose(); return arg; } } function combinedDisposable() { for (var _len = arguments.length, disposables = new Array(_len), _key = 0; _key < _len; _key++) { disposables[_key] = arguments[_key]; } var parent = toDisposable(function () { return dispose(disposables); }); setParentOfDisposables(disposables, parent); return parent; } function toDisposable(fn) { var self = trackDisposable({ dispose: once(function () { markAsDisposed(self); fn(); }) }); return self; } var DisposableStore = /*#__PURE__*/function () { function DisposableStore() { classCallCheck_default()(this, DisposableStore); this._toDispose = new Set(); this._isDisposed = false; trackDisposable(this); } /** * Dispose of all registered disposables and mark this object as disposed. * * Any future disposables added to this object will be disposed of on `add`. */ createClass_default()(DisposableStore, [{ key: "dispose", value: function dispose() { if (this._isDisposed) { return; } markAsDisposed(this); this._isDisposed = true; this.clear(); } /** * Dispose of all registered disposables but do not mark this object as disposed. */ }, { key: "clear", value: function clear() { try { dispose(this._toDispose.values()); } finally { this._toDispose.clear(); } } }, { key: "add", value: function add(o) { if (!o) { return o; } if (o === this) { throw new Error('Cannot register a disposable on itself!'); } setParentOfDisposable(o, this); if (this._isDisposed) { if (!DisposableStore.DISABLE_DISPOSED_WARNING) { console.warn(new Error('Trying to add a disposable to a DisposableStore that has already been disposed of. The added object will be leaked!').stack); } } else { this._toDispose.add(o); } return o; } }]); return DisposableStore; }(); DisposableStore.DISABLE_DISPOSED_WARNING = false; var lifecycle_Disposable = /*#__PURE__*/function () { function Disposable() { classCallCheck_default()(this, Disposable); this._store = new DisposableStore(); trackDisposable(this); setParentOfDisposable(this._store, this); } createClass_default()(Disposable, [{ key: "dispose", value: function dispose() { markAsDisposed(this); this._store.dispose(); } }, { key: "_register", value: function _register(o) { if (o === this) { throw new Error('Cannot register a disposable on itself!'); } return this._store.add(o); } }]); return Disposable; }(); lifecycle_Disposable.None = Object.freeze({ dispose: function dispose() {} }); /** * Manages the lifecycle of a disposable value that may be changed. * * This ensures that when the disposable value is changed, the previously held disposable is disposed of. You can * also register a `MutableDisposable` on a `Disposable` to ensure it is automatically cleaned up. */ var MutableDisposable = /*#__PURE__*/(/* unused pure expression or super */ null && (function () { function MutableDisposable() { _classCallCheck(this, MutableDisposable); this._isDisposed = false; trackDisposable(this); } _createClass(MutableDisposable, [{ key: "value", get: function get() { return this._isDisposed ? undefined : this._value; }, set: function set(value) { var _a; if (this._isDisposed || value === this._value) { return; } (_a = this._value) === null || _a === void 0 ? void 0 : _a.dispose(); if (value) { setParentOfDisposable(value, this); } this._value = value; } }, { key: "clear", value: function clear() { this.value = undefined; } }, { key: "dispose", value: function dispose() { var _a; this._isDisposed = true; markAsDisposed(this); (_a = this._value) === null || _a === void 0 ? void 0 : _a.dispose(); this._value = undefined; } /** * Clears the value, but does not dispose it. * The old value is returned. */ }, { key: "clearAndLeak", value: function clearAndLeak() { var oldValue = this._value; this._value = undefined; if (oldValue) { setParentOfDisposable(oldValue, null); } return oldValue; } }]); return MutableDisposable; }())); var ImmortalReference = /*#__PURE__*/(/* unused pure expression or super */ null && (function () { function ImmortalReference(object) { _classCallCheck(this, ImmortalReference); this.object = object; } _createClass(ImmortalReference, [{ key: "dispose", value: function dispose() {} }]); return ImmortalReference; }())); ;// CONCATENATED MODULE: ./node_modules/monaco-editor/esm/vs/base/common/linkedList.js /*--------------------------------------------------------------------------------------------- * Copyright (c) Microsoft Corporation. All rights reserved. * Licensed under the MIT License. See License.txt in the project root for license information. *--------------------------------------------------------------------------------------------*/ var Node = /*#__PURE__*/createClass_default()(function Node(element) { classCallCheck_default()(this, Node); this.element = element; this.next = Node.Undefined; this.prev = Node.Undefined; }); Node.Undefined = new Node(undefined); var linkedList_LinkedList = /*#__PURE__*/function (_Symbol$iterator) { function LinkedList() { classCallCheck_default()(this, LinkedList); this._first = Node.Undefined; this._last = Node.Undefined; this._size = 0; } createClass_default()(LinkedList, [{ key: "size", get: function get() { return this._size; } }, { key: "isEmpty", value: function isEmpty() { return this._first === Node.Undefined; } }, { key: "clear", value: function clear() { var node = this._first; while (node !== Node.Undefined) { var next = node.next; node.prev = Node.Undefined; node.next = Node.Undefined; node = next; } this._first = Node.Undefined; this._last = Node.Undefined; this._size = 0; } }, { key: "unshift", value: function unshift(element) { return this._insert(element, false); } }, { key: "push", value: function push(element) { return this._insert(element, true); } }, { key: "_insert", value: function _insert(element, atTheEnd) { var _this = this; var newNode = new Node(element); if (this._first === Node.Undefined) { this._first = newNode; this._last = newNode; } else if (atTheEnd) { // push var oldLast = this._last; this._last = newNode; newNode.prev = oldLast; oldLast.next = newNode; } else { // unshift var oldFirst = this._first; this._first = newNode; newNode.next = oldFirst; oldFirst.prev = newNode; } this._size += 1; var didRemove = false; return function () { if (!didRemove) { didRemove = true; _this._remove(newNode); } }; } }, { key: "shift", value: function shift() { if (this._first === Node.Undefined) { return undefined; } else { var res = this._first.element; this._remove(this._first); return res; } } }, { key: "pop", value: function pop() { if (this._last === Node.Undefined) { return undefined; } else { var res = this._last.element; this._remove(this._last); return res; } } }, { key: "_remove", value: function _remove(node) { if (node.prev !== Node.Undefined && node.next !== Node.Undefined) { // middle var anchor = node.prev; anchor.next = node.next; node.next.prev = anchor; } else if (node.prev === Node.Undefined && node.next === Node.Undefined) { // only node this._first = Node.Undefined; this._last = Node.Undefined; } else if (node.next === Node.Undefined) { // last this._last = this._last.prev; this._last.next = Node.Undefined; } else if (node.prev === Node.Undefined) { // first this._first = this._first.next; this._first.prev = Node.Undefined; } // done this._size -= 1; } }, { key: _Symbol$iterator, value: /*#__PURE__*/regeneratorRuntime_default()().mark(function value() { var node; return regeneratorRuntime_default()().wrap(function value$(_context) { while (1) switch (_context.prev = _context.next) { case 0: node = this._first; case 1: if (!(node !== Node.Undefined)) { _context.next = 7; break; } _context.next = 4; return node.element; case 4: node = node.next; _context.next = 1; break; case 7: case "end": return _context.stop(); } }, value, this); }) }]); return LinkedList; }(Symbol.iterator); ;// CONCATENATED MODULE: ./node_modules/monaco-editor/esm/vs/base/common/platform.js /* provided dependency */ var process = __webpack_require__(/*! ./node_modules/process/browser.js */ 89); /*--------------------------------------------------------------------------------------------- * Copyright (c) Microsoft Corporation. All rights reserved. * Licensed under the MIT License. See License.txt in the project root for license information. *--------------------------------------------------------------------------------------------*/ var _a; var LANGUAGE_DEFAULT = 'en'; var _isWindows = false; var _isMacintosh = false; var _isLinux = false; var _isLinuxSnap = false; var _isNative = false; var _isWeb = false; var _isIOS = false; var _locale = undefined; var _language = (/* unused pure expression or super */ null && (LANGUAGE_DEFAULT)); var _translationsConfigFile = (/* unused pure expression or super */ null && (undefined)); var _userAgent = undefined; var platform_globals = (typeof self === "undefined" ? "undefined" : typeof_default()(self)) === 'object' ? self : (typeof __webpack_require__.g === "undefined" ? "undefined" : typeof_default()(__webpack_require__.g)) === 'object' ? __webpack_require__.g : {}; var nodeProcess = undefined; if (typeof platform_globals.vscode !== 'undefined' && typeof platform_globals.vscode.process !== 'undefined') { // Native environment (sandboxed) nodeProcess = platform_globals.vscode.process; } else if (typeof process !== 'undefined') { // Native environment (non-sandboxed) nodeProcess = process; } var isElectronRenderer = typeof ((_a = nodeProcess === null || nodeProcess === void 0 ? void 0 : nodeProcess.versions) === null || _a === void 0 ? void 0 : _a.electron) === 'string' && nodeProcess.type === 'renderer'; // Web environment if ((typeof navigator === "undefined" ? "undefined" : typeof_default()(navigator)) === 'object' && !isElectronRenderer) { _userAgent = navigator.userAgent; _isWindows = _userAgent.indexOf('Windows') >= 0; _isMacintosh = _userAgent.indexOf('Macintosh') >= 0; _isIOS = (_userAgent.indexOf('Macintosh') >= 0 || _userAgent.indexOf('iPad') >= 0 || _userAgent.indexOf('iPhone') >= 0) && !!navigator.maxTouchPoints && navigator.maxTouchPoints > 0; _isLinux = _userAgent.indexOf('Linux') >= 0; _isWeb = true; _locale = navigator.language; _language = _locale; } // Native environment else if (typeof_default()(nodeProcess) === 'object') { _isWindows = nodeProcess.platform === 'win32'; _isMacintosh = nodeProcess.platform === 'darwin'; _isLinux = nodeProcess.platform === 'linux'; _isLinuxSnap = _isLinux && !!nodeProcess.env['SNAP'] && !!nodeProcess.env['SNAP_REVISION']; _locale = LANGUAGE_DEFAULT; _language = LANGUAGE_DEFAULT; var rawNlsConfig = nodeProcess.env['VSCODE_NLS_CONFIG']; if (rawNlsConfig) { try { var nlsConfig = JSON.parse(rawNlsConfig); var resolved = nlsConfig.availableLanguages['*']; _locale = nlsConfig.locale; // VSCode's default language is 'en' _language = resolved ? resolved : LANGUAGE_DEFAULT; _translationsConfigFile = nlsConfig._translationsConfigFile; } catch (e) {} } _isNative = true; } // Unknown environment else { console.error('Unable to resolve platform.'); } var _platform = 0 /* Web */; if (_isMacintosh) { _platform = 1 /* Mac */; } else if (_isWindows) { _platform = 3 /* Windows */; } else if (_isLinux) { _platform = 2 /* Linux */; } var isWindows = _isWindows; var isMacintosh = _isMacintosh; var isLinux = (/* unused pure expression or super */ null && (_isLinux)); var isNative = (/* unused pure expression or super */ null && (_isNative)); var platform_isWeb = (/* unused pure expression or super */ null && (_isWeb)); var isIOS = (/* unused pure expression or super */ null && (_isIOS)); var userAgent = (/* unused pure expression or super */ null && (_userAgent)); var setImmediate = function defineSetImmediate() { if (platform_globals.setImmediate) { return platform_globals.setImmediate.bind(platform_globals); } if (typeof platform_globals.postMessage === 'function' && !platform_globals.importScripts) { var pending = []; platform_globals.addEventListener('message', function (e) { if (e.data && e.data.vscodeSetImmediateId) { for (var i = 0, len = pending.length; i < len; i++) { var candidate = pending[i]; if (candidate.id === e.data.vscodeSetImmediateId) { pending.splice(i, 1); candidate.callback(); return; } } } }); var lastId = 0; return function (callback) { var myId = ++lastId; pending.push({ id: myId, callback: callback }); platform_globals.postMessage({ vscodeSetImmediateId: myId }, '*'); }; } if (typeof (nodeProcess === null || nodeProcess === void 0 ? void 0 : nodeProcess.nextTick) === 'function') { return nodeProcess.nextTick.bind(nodeProcess); } var _promise = Promise.resolve(); return function (callback) { return _promise.then(callback); }; }(); var OS = _isMacintosh || _isIOS ? 2 /* Macintosh */ : _isWindows ? 1 /* Windows */ : 3 /* Linux */; var _isLittleEndian = true; var _isLittleEndianComputed = false; function isLittleEndian() { if (!_isLittleEndianComputed) { _isLittleEndianComputed = true; var test = new Uint8Array(2); test[0] = 1; test[1] = 2; var view = new Uint16Array(test.buffer); _isLittleEndian = view[0] === (2 << 8) + 1; } return _isLittleEndian; } ;// CONCATENATED MODULE: ./node_modules/monaco-editor/esm/vs/base/common/stopwatch.js /*--------------------------------------------------------------------------------------------- * Copyright (c) Microsoft Corporation. All rights reserved. * Licensed under the MIT License. See License.txt in the project root for license information. *--------------------------------------------------------------------------------------------*/ var hasPerformanceNow = platform_globals.performance && typeof platform_globals.performance.now === 'function'; var StopWatch = /*#__PURE__*/function () { function StopWatch(highResolution) { classCallCheck_default()(this, StopWatch); this._highResolution = hasPerformanceNow && highResolution; this._startTime = this._now(); this._stopTime = -1; } createClass_default()(StopWatch, [{ key: "stop", value: function stop() { this._stopTime = this._now(); } }, { key: "elapsed", value: function elapsed() { if (this._stopTime !== -1) { return this._stopTime - this._startTime; } return this._now() - this._startTime; } }, { key: "_now", value: function _now() { return this._highResolution ? platform_globals.performance.now() : Date.now(); } }], [{ key: "create", value: function create() { var highResolution = arguments.length > 0 && arguments[0] !== undefined ? arguments[0] : true; return new StopWatch(highResolution); } }]); return StopWatch; }(); ;// CONCATENATED MODULE: ./node_modules/monaco-editor/esm/vs/base/common/event.js var Event; (function (Event) { Event.None = function () { return lifecycle_Disposable.None; }; /** * Given an event, returns another event which only fires once. */ function _once(event) { return function (listener) { var thisArgs = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : null; var disposables = arguments.length > 2 ? arguments[2] : undefined; // we need this, in case the event fires during the listener call var didFire = false; var result; result = event(function (e) { if (didFire) { return; } else if (result) { result.dispose(); } else { didFire = true; } return listener.call(thisArgs, e); }, null, disposables); if (didFire) { result.dispose(); } return result; }; } Event.once = _once; /** * @deprecated DO NOT use, this leaks memory */ function _map(event, map) { return snapshot(function (listener) { var thisArgs = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : null; var disposables = arguments.length > 2 ? arguments[2] : undefined; return event(function (i) { return listener.call(thisArgs, map(i)); }, null, disposables); }); } Event.map = _map; /** * @deprecated DO NOT use, this leaks memory */ function _forEach(event, each) { return snapshot(function (listener) { var thisArgs = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : null; var disposables = arguments.length > 2 ? arguments[2] : undefined; return event(function (i) { each(i); listener.call(thisArgs, i); }, null, disposables); }); } Event.forEach = _forEach; function _filter(event, filter) { return snapshot(function (listener) { var thisArgs = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : null; var disposables = arguments.length > 2 ? arguments[2] : undefined; return event(function (e) { return filter(e) && listener.call(thisArgs, e); }, null, disposables); }); } Event.filter = _filter; /** * Given an event, returns the same event but typed as `Event`. */ function signal(event) { return event; } Event.signal = signal; function any() { for (var _len = arguments.length, events = new Array(_len), _key = 0; _key < _len; _key++) { events[_key] = arguments[_key]; } return function (listener) { var thisArgs = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : null; var disposables = arguments.length > 2 ? arguments[2] : undefined; return combinedDisposable.apply(void 0, toConsumableArray_default()(events.map(function (event) { return event(function (e) { return listener.call(thisArgs, e); }, null, disposables); }))); }; } Event.any = any; /** * @deprecated DO NOT use, this leaks memory */ function _reduce(event, merge, initial) { var output = initial; return _map(event, function (e) { output = merge(output, e); return output; }); } Event.reduce = _reduce; /** * @deprecated DO NOT use, this leaks memory */ function snapshot(event) { var listener; var emitter = new Emitter({ onFirstListenerAdd: function onFirstListenerAdd() { listener = event(emitter.fire, emitter); }, onLastListenerRemove: function onLastListenerRemove() { listener.dispose(); } }); return emitter.event; } /** * @deprecated DO NOT use, this leaks memory */ function _debounce(event, merge) { var delay = arguments.length > 2 && arguments[2] !== undefined ? arguments[2] : 100; var leading = arguments.length > 3 && arguments[3] !== undefined ? arguments[3] : false; var leakWarningThreshold = arguments.length > 4 ? arguments[4] : undefined; var subscription; var output = undefined; var handle = undefined; var numDebouncedCalls = 0; var emitter = new Emitter({ leakWarningThreshold: leakWarningThreshold, onFirstListenerAdd: function onFirstListenerAdd() { subscription = event(function (cur) { numDebouncedCalls++; output = merge(output, cur); if (leading && !handle) { emitter.fire(output); output = undefined; } clearTimeout(handle); handle = setTimeout(function () { var _output = output; output = undefined; handle = undefined; if (!leading || numDebouncedCalls > 1) { emitter.fire(_output); } numDebouncedCalls = 0; }, delay); }); }, onLastListenerRemove: function onLastListenerRemove() { subscription.dispose(); } }); return emitter.event; } Event.debounce = _debounce; /** * @deprecated DO NOT use, this leaks memory */ function _latch(event) { var equals = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : function (a, b) { return a === b; }; var firstCall = true; var cache; return _filter(event, function (value) { var shouldEmit = firstCall || !equals(value, cache); firstCall = false; cache = value; return shouldEmit; }); } Event.latch = _latch; /** * @deprecated DO NOT use, this leaks memory */ function split(event, isT) { return [Event.filter(event, isT), Event.filter(event, function (e) { return !isT(e); })]; } Event.split = split; /** * @deprecated DO NOT use, this leaks memory */ function buffer(event) { var nextTick = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : false; var _buffer = arguments.length > 2 && arguments[2] !== undefined ? arguments[2] : []; var buffer = _buffer.slice(); var listener = event(function (e) { if (buffer) { buffer.push(e); } else { emitter.fire(e); } }); var flush = function flush() { if (buffer) { buffer.forEach(function (e) { return emitter.fire(e); }); } buffer = null; }; var emitter = new Emitter({ onFirstListenerAdd: function onFirstListenerAdd() { if (!listener) { listener = event(function (e) { return emitter.fire(e); }); } }, onFirstListenerDidAdd: function onFirstListenerDidAdd() { if (buffer) { if (nextTick) { setTimeout(flush); } else { flush(); } } }, onLastListenerRemove: function onLastListenerRemove() { if (listener) { listener.dispose(); } listener = null; } }); return emitter.event; } Event.buffer = buffer; var ChainableEvent = /*#__PURE__*/function () { function ChainableEvent(event) { classCallCheck_default()(this, ChainableEvent); this.event = event; } createClass_default()(ChainableEvent, [{ key: "map", value: function map(fn) { return new ChainableEvent(_map(this.event, fn)); } }, { key: "forEach", value: function forEach(fn) { return new ChainableEvent(_forEach(this.event, fn)); } }, { key: "filter", value: function filter(fn) { return new ChainableEvent(_filter(this.event, fn)); } }, { key: "reduce", value: function reduce(merge, initial) { return new ChainableEvent(_reduce(this.event, merge, initial)); } }, { key: "latch", value: function latch() { return new ChainableEvent(_latch(this.event)); } }, { key: "debounce", value: function debounce(merge) { var delay = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : 100; var leading = arguments.length > 2 && arguments[2] !== undefined ? arguments[2] : false; var leakWarningThreshold = arguments.length > 3 ? arguments[3] : undefined; return new ChainableEvent(_debounce(this.event, merge, delay, leading, leakWarningThreshold)); } }, { key: "on", value: function on(listener, thisArgs, disposables) { return this.event(listener, thisArgs, disposables); } }, { key: "once", value: function once(listener, thisArgs, disposables) { return _once(this.event)(listener, thisArgs, disposables); } }]); return ChainableEvent; }(); /** * @deprecated DO NOT use, this leaks memory */ function chain(event) { return new ChainableEvent(event); } Event.chain = chain; function fromNodeEventEmitter(emitter, eventName) { var map = arguments.length > 2 && arguments[2] !== undefined ? arguments[2] : function (id) { return id; }; var fn = function fn() { return result.fire(map.apply(void 0, arguments)); }; var onFirstListenerAdd = function onFirstListenerAdd() { return emitter.on(eventName, fn); }; var onLastListenerRemove = function onLastListenerRemove() { return emitter.removeListener(eventName, fn); }; var result = new Emitter({ onFirstListenerAdd: onFirstListenerAdd, onLastListenerRemove: onLastListenerRemove }); return result.event; } Event.fromNodeEventEmitter = fromNodeEventEmitter; function fromDOMEventEmitter(emitter, eventName) { var map = arguments.length > 2 && arguments[2] !== undefined ? arguments[2] : function (id) { return id; }; var fn = function fn() { return result.fire(map.apply(void 0, arguments)); }; var onFirstListenerAdd = function onFirstListenerAdd() { return emitter.addEventListener(eventName, fn); }; var onLastListenerRemove = function onLastListenerRemove() { return emitter.removeEventListener(eventName, fn); }; var result = new Emitter({ onFirstListenerAdd: onFirstListenerAdd, onLastListenerRemove: onLastListenerRemove }); return result.event; } Event.fromDOMEventEmitter = fromDOMEventEmitter; function toPromise(event) { return new Promise(function (resolve) { return _once(event)(resolve); }); } Event.toPromise = toPromise; })(Event || (Event = {})); var EventProfiling = /*#__PURE__*/function () { function EventProfiling(name) { classCallCheck_default()(this, EventProfiling); this._listenerCount = 0; this._invocationCount = 0; this._elapsedOverall = 0; this._name = "".concat(name, "_").concat(EventProfiling._idPool++); } createClass_default()(EventProfiling, [{ key: "start", value: function start(listenerCount) { this._stopWatch = new StopWatch(true); this._listenerCount = listenerCount; } }, { key: "stop", value: function stop() { if (this._stopWatch) { var elapsed = this._stopWatch.elapsed(); this._elapsedOverall += elapsed; this._invocationCount += 1; console.info("did FIRE ".concat(this._name, ": elapsed_ms: ").concat(elapsed.toFixed(5), ", listener: ").concat(this._listenerCount, " (elapsed_overall: ").concat(this._elapsedOverall.toFixed(2), ", invocations: ").concat(this._invocationCount, ")")); this._stopWatch = undefined; } } }]); return EventProfiling; }(); EventProfiling._idPool = 0; var _globalLeakWarningThreshold = -1; var LeakageMonitor = /*#__PURE__*/function () { function LeakageMonitor(customThreshold) { var name = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : Math.random().toString(18).slice(2, 5); classCallCheck_default()(this, LeakageMonitor); this.customThreshold = customThreshold; this.name = name; this._warnCountdown = 0; } createClass_default()(LeakageMonitor, [{ key: "dispose", value: function dispose() { if (this._stacks) { this._stacks.clear(); } } }, { key: "check", value: function check(listenerCount) { var _this = this; var threshold = _globalLeakWarningThreshold; if (typeof this.customThreshold === 'number') { threshold = this.customThreshold; } if (threshold <= 0 || listenerCount < threshold) { return undefined; } if (!this._stacks) { this._stacks = new Map(); } var stack = new Error().stack.split('\n').slice(3).join('\n'); var count = this._stacks.get(stack) || 0; this._stacks.set(stack, count + 1); this._warnCountdown -= 1; if (this._warnCountdown <= 0) { // only warn on first exceed and then every time the limit // is exceeded by 50% again this._warnCountdown = threshold * 0.5; // find most frequent listener and print warning var topStack; var topCount = 0; var _iterator = createForOfIteratorHelper_default()(this._stacks), _step; try { for (_iterator.s(); !(_step = _iterator.n()).done;) { var _step$value = slicedToArray_default()(_step.value, 2), _stack = _step$value[0], _count = _step$value[1]; if (!topStack || topCount < _count) { topStack = _stack; topCount = _count; } } } catch (err) { _iterator.e(err); } finally { _iterator.f(); } console.warn("[".concat(this.name, "] potential listener LEAK detected, having ").concat(listenerCount, " listeners already. MOST frequent listener (").concat(topCount, "):")); console.warn(topStack); } return function () { var count = _this._stacks.get(stack) || 0; _this._stacks.set(stack, count - 1); }; } }]); return LeakageMonitor; }(); /** * The Emitter can be used to expose an Event to the public * to fire it from the insides. * Sample: class Document { private readonly _onDidChange = new Emitter<(value:string)=>any>(); public onDidChange = this._onDidChange.event; // getter-style // get onDidChange(): Event<(value:string)=>any> { // return this._onDidChange.event; // } private _doIt() { //... this._onDidChange.fire(value); } } */ var Emitter = /*#__PURE__*/function () { function Emitter(options) { classCallCheck_default()(this, Emitter); var _a; this._disposed = false; this._options = options; this._leakageMon = _globalLeakWarningThreshold > 0 ? new LeakageMonitor(this._options && this._options.leakWarningThreshold) : undefined; this._perfMon = ((_a = this._options) === null || _a === void 0 ? void 0 : _a._profName) ? new EventProfiling(this._options._profName) : undefined; } /** * For the public to allow to subscribe * to events from this Emitter */ createClass_default()(Emitter, [{ key: "event", get: function get() { var _this2 = this; if (!this._event) { this._event = function (listener, thisArgs, disposables) { var _a; if (!_this2._listeners) { _this2._listeners = new linkedList_LinkedList(); } var firstListener = _this2._listeners.isEmpty(); if (firstListener && _this2._options && _this2._options.onFirstListenerAdd) { _this2._options.onFirstListenerAdd(_this2); } var remove = _this2._listeners.push(!thisArgs ? listener : [listener, thisArgs]); if (firstListener && _this2._options && _this2._options.onFirstListenerDidAdd) { _this2._options.onFirstListenerDidAdd(_this2); } if (_this2._options && _this2._options.onListenerDidAdd) { _this2._options.onListenerDidAdd(_this2, listener, thisArgs); } // check and record this emitter for potential leakage var removeMonitor = (_a = _this2._leakageMon) === null || _a === void 0 ? void 0 : _a.check(_this2._listeners.size); var result = toDisposable(function () { if (removeMonitor) { removeMonitor(); } if (!_this2._disposed) { remove(); if (_this2._options && _this2._options.onLastListenerRemove) { var hasListeners = _this2._listeners && !_this2._listeners.isEmpty(); if (!hasListeners) { _this2._options.onLastListenerRemove(_this2); } } } }); if (disposables instanceof DisposableStore) { disposables.add(result); } else if (Array.isArray(disposables)) { disposables.push(result); } return result; }; } return this._event; } /** * To be kept private to fire an event to * subscribers */ }, { key: "fire", value: function fire(event) { var _a, _b; if (this._listeners) { // put all [listener,event]-pairs into delivery queue // then emit all event. an inner/nested event might be // the driver of this if (!this._deliveryQueue) { this._deliveryQueue = new linkedList_LinkedList(); } var _iterator2 = createForOfIteratorHelper_default()(this._listeners), _step2; try { for (_iterator2.s(); !(_step2 = _iterator2.n()).done;) { var _listener = _step2.value; this._deliveryQueue.push([_listener, event]); } // start/stop performance insight collection } catch (err) { _iterator2.e(err); } finally { _iterator2.f(); } (_a = this._perfMon) === null || _a === void 0 ? void 0 : _a.start(this._deliveryQueue.size); while (this._deliveryQueue.size > 0) { var _this$_deliveryQueue$ = this._deliveryQueue.shift(), _this$_deliveryQueue$2 = slicedToArray_default()(_this$_deliveryQueue$, 2), listener = _this$_deliveryQueue$2[0], _event = _this$_deliveryQueue$2[1]; try { if (typeof listener === 'function') { listener.call(undefined, _event); } else { listener[0].call(listener[1], _event); } } catch (e) { onUnexpectedError(e); } } (_b = this._perfMon) === null || _b === void 0 ? void 0 : _b.stop(); } } }, { key: "dispose", value: function dispose() { var _a, _b, _c, _d, _e; if (!this._disposed) { this._disposed = true; (_a = this._listeners) === null || _a === void 0 ? void 0 : _a.clear(); (_b = this._deliveryQueue) === null || _b === void 0 ? void 0 : _b.clear(); (_d = (_c = this._options) === null || _c === void 0 ? void 0 : _c.onLastListenerRemove) === null || _d === void 0 ? void 0 : _d.call(_c); (_e = this._leakageMon) === null || _e === void 0 ? void 0 : _e.dispose(); } } }]); return Emitter; }(); var PauseableEmitter = /*#__PURE__*/(/* unused pure expression or super */ null && (function (_Emitter) { _inherits(PauseableEmitter, _Emitter); var _super = _createSuper(PauseableEmitter); function PauseableEmitter(options) { var _this3; _classCallCheck(this, PauseableEmitter); _this3 = _super.call(this, options); _this3._isPaused = 0; _this3._eventQueue = new LinkedList(); _this3._mergeFn = options === null || options === void 0 ? void 0 : options.merge; return _this3; } _createClass(PauseableEmitter, [{ key: "pause", value: function pause() { this._isPaused++; } }, { key: "resume", value: function resume() { if (this._isPaused !== 0 && --this._isPaused === 0) { if (this._mergeFn) { // use the merge function to create a single composite // event. make a copy in case firing pauses this emitter var events = Array.from(this._eventQueue); this._eventQueue.clear(); _get(_getPrototypeOf(PauseableEmitter.prototype), "fire", this).call(this, this._mergeFn(events)); } else { // no merging, fire each event individually and test // that this emitter isn't paused halfway through while (!this._isPaused && this._eventQueue.size !== 0) { _get(_getPrototypeOf(PauseableEmitter.prototype), "fire", this).call(this, this._eventQueue.shift()); } } } } }, { key: "fire", value: function fire(event) { if (this._listeners) { if (this._isPaused !== 0) { this._eventQueue.push(event); } else { _get(_getPrototypeOf(PauseableEmitter.prototype), "fire", this).call(this, event); } } } }]); return PauseableEmitter; }(Emitter))); var DebounceEmitter = /*#__PURE__*/(/* unused pure expression or super */ null && (function (_PauseableEmitter) { _inherits(DebounceEmitter, _PauseableEmitter); var _super2 = _createSuper(DebounceEmitter); function DebounceEmitter(options) { var _this4; _classCallCheck(this, DebounceEmitter); var _a; _this4 = _super2.call(this, options); _this4._delay = (_a = options.delay) !== null && _a !== void 0 ? _a : 100; return _this4; } _createClass(DebounceEmitter, [{ key: "fire", value: function fire(event) { var _this5 = this; if (!this._handle) { this.pause(); this._handle = setTimeout(function () { _this5._handle = undefined; _this5.resume(); }, this._delay); } _get(_getPrototypeOf(DebounceEmitter.prototype), "fire", this).call(this, event); } }]); return DebounceEmitter; }(PauseableEmitter))); /** * The EventBufferer is useful in situations in which you want * to delay firing your events during some code. * You can wrap that code and be sure that the event will not * be fired during that wrap. * * ``` * const emitter: Emitter; * const delayer = new EventDelayer(); * const delayedEvent = delayer.wrapEvent(emitter.event); * * delayedEvent(console.log); * * delayer.bufferEvents(() => { * emitter.fire(); // event will not be fired yet * }); * * // event will only be fired at this point * ``` */ var EventBufferer = /*#__PURE__*/(/* unused pure expression or super */ null && (function () { function EventBufferer() { _classCallCheck(this, EventBufferer); this.buffers = []; } _createClass(EventBufferer, [{ key: "wrapEvent", value: function wrapEvent(event) { var _this6 = this; return function (listener, thisArgs, disposables) { return event(function (i) { var buffer = _this6.buffers[_this6.buffers.length - 1]; if (buffer) { buffer.push(function () { return listener.call(thisArgs, i); }); } else { listener.call(thisArgs, i); } }, undefined, disposables); }; } }, { key: "bufferEvents", value: function bufferEvents(fn) { var buffer = []; this.buffers.push(buffer); var r = fn(); this.buffers.pop(); buffer.forEach(function (flush) { return flush(); }); return r; } }]); return EventBufferer; }())); /** * A Relay is an event forwarder which functions as a replugabble event pipe. * Once created, you can connect an input event to it and it will simply forward * events from that input event through its own `event` property. The `input` * can be changed at any point in time. */ var Relay = /*#__PURE__*/(/* unused pure expression or super */ null && (function () { function Relay() { var _this7 = this; _classCallCheck(this, Relay); this.listening = false; this.inputEvent = Event.None; this.inputEventListener = Disposable.None; this.emitter = new Emitter({ onFirstListenerDidAdd: function onFirstListenerDidAdd() { _this7.listening = true; _this7.inputEventListener = _this7.inputEvent(_this7.emitter.fire, _this7.emitter); }, onLastListenerRemove: function onLastListenerRemove() { _this7.listening = false; _this7.inputEventListener.dispose(); } }); this.event = this.emitter.event; } _createClass(Relay, [{ key: "input", set: function set(event) { this.inputEvent = event; if (this.listening) { this.inputEventListener.dispose(); this.inputEventListener = event(this.emitter.fire, this.emitter); } } }, { key: "dispose", value: function dispose() { this.inputEventListener.dispose(); this.emitter.dispose(); } }]); return Relay; }())); ;// CONCATENATED MODULE: ./node_modules/monaco-editor/esm/vs/base/common/types.js /** * @returns whether the provided parameter is a JavaScript Array or not. */ function isArray(array) { return Array.isArray(array); } /** * @returns whether the provided parameter is a JavaScript String or not. */ function isString(str) { return typeof str === 'string'; } /** * * @returns whether the provided parameter is of type `object` but **not** * `null`, an `array`, a `regexp`, nor a `date`. */ function isObject(obj) { // The method can't do a type cast since there are type (like strings) which // are subclasses of any put not positvely matched by the function. Hence type // narrowing results in wrong results. return _typeof(obj) === 'object' && obj !== null && !Array.isArray(obj) && !(obj instanceof RegExp) && !(obj instanceof Date); } /** * In **contrast** to just checking `typeof` this will return `false` for `NaN`. * @returns whether the provided parameter is a JavaScript Number or not. */ function isNumber(obj) { return typeof obj === 'number' && !isNaN(obj); } /** * @returns whether the provided parameter is a JavaScript Boolean or not. */ function isBoolean(obj) { return obj === true || obj === false; } /** * @returns whether the provided parameter is undefined. */ function isUndefined(obj) { return typeof obj === 'undefined'; } /** * @returns whether the provided parameter is defined. */ function isDefined(arg) { return !isUndefinedOrNull(arg); } /** * @returns whether the provided parameter is undefined or null. */ function isUndefinedOrNull(obj) { return isUndefined(obj) || obj === null; } function assertType(condition, type) { if (!condition) { throw new Error(type ? "Unexpected type, expected '".concat(type, "'") : 'Unexpected type'); } } /** * Asserts that the argument passed in is neither undefined nor null. */ function assertIsDefined(arg) { if (isUndefinedOrNull(arg)) { throw new Error('Assertion Failed: argument is undefined or null'); } return arg; } /** * @returns whether the provided parameter is a JavaScript Function or not. */ function isFunction(obj) { return typeof obj === 'function'; } function validateConstraints(args, constraints) { var len = Math.min(args.length, constraints.length); for (var i = 0; i < len; i++) { validateConstraint(args[i], constraints[i]); } } function validateConstraint(arg, constraint) { if (isString(constraint)) { if (_typeof(arg) !== constraint) { throw new Error("argument does not match constraint: typeof ".concat(constraint)); } } else if (isFunction(constraint)) { try { if (arg instanceof constraint) { return; } } catch (_a) { // ignore } if (!isUndefinedOrNull(arg) && arg.constructor === constraint) { return; } if (constraint.length === 1 && constraint.call(undefined, arg) === true) { return; } throw new Error("argument does not match one of these constraints: arg instanceof constraint, arg.constructor === constraint, nor constraint(arg) === true"); } } function getAllPropertyNames(obj) { var res = []; var proto = Object.getPrototypeOf(obj); while (Object.prototype !== proto) { res = res.concat(Object.getOwnPropertyNames(proto)); proto = Object.getPrototypeOf(proto); } return res; } function getAllMethodNames(obj) { var methods = []; var _iterator = createForOfIteratorHelper_default()(getAllPropertyNames(obj)), _step; try { for (_iterator.s(); !(_step = _iterator.n()).done;) { var prop = _step.value; if (typeof obj[prop] === 'function') { methods.push(prop); } } } catch (err) { _iterator.e(err); } finally { _iterator.f(); } return methods; } function createProxyObject(methodNames, invoke) { var createProxyMethod = function createProxyMethod(method) { return function () { var args = Array.prototype.slice.call(arguments, 0); return invoke(method, args); }; }; var result = {}; var _iterator2 = createForOfIteratorHelper_default()(methodNames), _step2; try { for (_iterator2.s(); !(_step2 = _iterator2.n()).done;) { var methodName = _step2.value; result[methodName] = createProxyMethod(methodName); } } catch (err) { _iterator2.e(err); } finally { _iterator2.f(); } return result; } /** * Converts null to undefined, passes all other values through. */ function withNullAsUndefined(x) { return x === null ? undefined : x; } function assertNever(value) { var message = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : 'Unreachable'; throw new Error(message); } ;// CONCATENATED MODULE: ./node_modules/monaco-editor/esm/vs/base/common/strings.js /*--------------------------------------------------------------------------------------------- * Copyright (c) Microsoft Corporation. All rights reserved. * Licensed under the MIT License. See License.txt in the project root for license information. *--------------------------------------------------------------------------------------------*/ function isFalsyOrWhitespace(str) { if (!str || typeof str !== 'string') { return true; } return str.trim().length === 0; } var _formatRegexp = /{(\d+)}/g; /** * Helper to produce a string with a variable number of arguments. Insert variable segments * into the string using the {n} notation where N is the index of the argument following the string. * @param value string to which formatting is applied * @param args replacements for {n}-entries */ function format(value) { for (var _len = arguments.length, args = new Array(_len > 1 ? _len - 1 : 0), _key = 1; _key < _len; _key++) { args[_key - 1] = arguments[_key]; } if (args.length === 0) { return value; } return value.replace(_formatRegexp, function (match, group) { var idx = parseInt(group, 10); return isNaN(idx) || idx < 0 || idx >= args.length ? match : args[idx]; }); } /** * Converts HTML characters inside the string to use entities instead. Makes the string safe from * being used e.g. in HTMLElement.innerHTML. */ function strings_escape(html) { return html.replace(/[<>&]/g, function (match) { switch (match) { case '<': return '<'; case '>': return '>'; case '&': return '&'; default: return match; } }); } /** * Escapes regular expression characters in a given string */ function escapeRegExpCharacters(value) { return value.replace(/[\\\{\}\*\+\?\|\^\$\.\[\]\(\)]/g, '\\$&'); } /** * Removes all occurrences of needle from the beginning and end of haystack. * @param haystack string to trim * @param needle the thing to trim (default is a blank) */ function trim(haystack) { var needle = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : ' '; var trimmed = ltrim(haystack, needle); return rtrim(trimmed, needle); } /** * Removes all occurrences of needle from the beginning of haystack. * @param haystack string to trim * @param needle the thing to trim */ function ltrim(haystack, needle) { if (!haystack || !needle) { return haystack; } var needleLen = needle.length; if (needleLen === 0 || haystack.length === 0) { return haystack; } var offset = 0; while (haystack.indexOf(needle, offset) === offset) { offset = offset + needleLen; } return haystack.substring(offset); } /** * Removes all occurrences of needle from the end of haystack. * @param haystack string to trim * @param needle the thing to trim */ function rtrim(haystack, needle) { if (!haystack || !needle) { return haystack; } var needleLen = needle.length, haystackLen = haystack.length; if (needleLen === 0 || haystackLen === 0) { return haystack; } var offset = haystackLen, idx = -1; while (true) { idx = haystack.lastIndexOf(needle, offset - 1); if (idx === -1 || idx + needleLen !== offset) { break; } if (idx === 0) { return ''; } offset = idx; } return haystack.substring(0, offset); } function convertSimple2RegExpPattern(pattern) { return pattern.replace(/[\-\\\{\}\+\?\|\^\$\.\,\[\]\(\)\#\s]/g, '\\$&').replace(/[\*]/g, '.*'); } function stripWildcards(pattern) { return pattern.replace(/\*/g, ''); } function createRegExp(searchString, isRegex) { var options = arguments.length > 2 && arguments[2] !== undefined ? arguments[2] : {}; if (!searchString) { throw new Error('Cannot create regex from empty string'); } if (!isRegex) { searchString = escapeRegExpCharacters(searchString); } if (options.wholeWord) { if (!/\B/.test(searchString.charAt(0))) { searchString = '\\b' + searchString; } if (!/\B/.test(searchString.charAt(searchString.length - 1))) { searchString = searchString + '\\b'; } } var modifiers = ''; if (options.global) { modifiers += 'g'; } if (!options.matchCase) { modifiers += 'i'; } if (options.multiline) { modifiers += 'm'; } if (options.unicode) { modifiers += 'u'; } return new RegExp(searchString, modifiers); } function regExpLeadsToEndlessLoop(regexp) { // Exit early if it's one of these special cases which are meant to match // against an empty string if (regexp.source === '^' || regexp.source === '^$' || regexp.source === '$' || regexp.source === '^\\s*$') { return false; } // We check against an empty string. If the regular expression doesn't advance // (e.g. ends in an endless loop) it will match an empty string. var match = regexp.exec(''); return !!(match && regexp.lastIndex === 0); } function regExpFlags(regexp) { return (regexp.global ? 'g' : '') + (regexp.ignoreCase ? 'i' : '') + (regexp.multiline ? 'm' : '') + (regexp /* standalone editor compilation */.unicode ? 'u' : ''); } function splitLines(str) { return str.split(/\r\n|\r|\n/); } /** * Returns first index of the string that is not whitespace. * If string is empty or contains only whitespaces, returns -1 */ function firstNonWhitespaceIndex(str) { for (var i = 0, len = str.length; i < len; i++) { var chCode = str.charCodeAt(i); if (chCode !== 32 /* Space */ && chCode !== 9 /* Tab */) { return i; } } return -1; } /** * Returns the leading whitespace of the string. * If the string contains only whitespaces, returns entire string */ function getLeadingWhitespace(str) { var start = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : 0; var end = arguments.length > 2 && arguments[2] !== undefined ? arguments[2] : str.length; for (var i = start; i < end; i++) { var chCode = str.charCodeAt(i); if (chCode !== 32 /* Space */ && chCode !== 9 /* Tab */) { return str.substring(start, i); } } return str.substring(start, end); } /** * Returns last index of the string that is not whitespace. * If string is empty or contains only whitespaces, returns -1 */ function lastNonWhitespaceIndex(str) { var startIndex = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : str.length - 1; for (var i = startIndex; i >= 0; i--) { var chCode = str.charCodeAt(i); if (chCode !== 32 /* Space */ && chCode !== 9 /* Tab */) { return i; } } return -1; } function compare(a, b) { if (a < b) { return -1; } else if (a > b) { return 1; } else { return 0; } } function compareSubstring(a, b) { var aStart = arguments.length > 2 && arguments[2] !== undefined ? arguments[2] : 0; var aEnd = arguments.length > 3 && arguments[3] !== undefined ? arguments[3] : a.length; var bStart = arguments.length > 4 && arguments[4] !== undefined ? arguments[4] : 0; var bEnd = arguments.length > 5 && arguments[5] !== undefined ? arguments[5] : b.length; for (; aStart < aEnd && bStart < bEnd; aStart++, bStart++) { var codeA = a.charCodeAt(aStart); var codeB = b.charCodeAt(bStart); if (codeA < codeB) { return -1; } else if (codeA > codeB) { return 1; } } var aLen = aEnd - aStart; var bLen = bEnd - bStart; if (aLen < bLen) { return -1; } else if (aLen > bLen) { return 1; } return 0; } function compareIgnoreCase(a, b) { return compareSubstringIgnoreCase(a, b, 0, a.length, 0, b.length); } function compareSubstringIgnoreCase(a, b) { var aStart = arguments.length > 2 && arguments[2] !== undefined ? arguments[2] : 0; var aEnd = arguments.length > 3 && arguments[3] !== undefined ? arguments[3] : a.length; var bStart = arguments.length > 4 && arguments[4] !== undefined ? arguments[4] : 0; var bEnd = arguments.length > 5 && arguments[5] !== undefined ? arguments[5] : b.length; for (; aStart < aEnd && bStart < bEnd; aStart++, bStart++) { var codeA = a.charCodeAt(aStart); var codeB = b.charCodeAt(bStart); if (codeA === codeB) { // equal continue; } if (codeA >= 128 || codeB >= 128) { // not ASCII letters -> fallback to lower-casing strings return compareSubstring(a.toLowerCase(), b.toLowerCase(), aStart, aEnd, bStart, bEnd); } // mapper lower-case ascii letter onto upper-case varinats // [97-122] (lower ascii) --> [65-90] (upper ascii) if (isLowerAsciiLetter(codeA)) { codeA -= 32; } if (isLowerAsciiLetter(codeB)) { codeB -= 32; } // compare both code points var diff = codeA - codeB; if (diff === 0) { continue; } return diff; } var aLen = aEnd - aStart; var bLen = bEnd - bStart; if (aLen < bLen) { return -1; } else if (aLen > bLen) { return 1; } return 0; } function isLowerAsciiLetter(code) { return code >= 97 /* a */ && code <= 122 /* z */; } function isUpperAsciiLetter(code) { return code >= 65 /* A */ && code <= 90 /* Z */; } function equalsIgnoreCase(a, b) { return a.length === b.length && compareSubstringIgnoreCase(a, b) === 0; } function startsWithIgnoreCase(str, candidate) { var candidateLength = candidate.length; if (candidate.length > str.length) { return false; } return compareSubstringIgnoreCase(str, candidate, 0, candidateLength) === 0; } /** * @returns the length of the common prefix of the two strings. */ function commonPrefixLength(a, b) { var i, len = Math.min(a.length, b.length); for (i = 0; i < len; i++) { if (a.charCodeAt(i) !== b.charCodeAt(i)) { return i; } } return len; } /** * @returns the length of the common suffix of the two strings. */ function commonSuffixLength(a, b) { var i, len = Math.min(a.length, b.length); var aLastIndex = a.length - 1; var bLastIndex = b.length - 1; for (i = 0; i < len; i++) { if (a.charCodeAt(aLastIndex - i) !== b.charCodeAt(bLastIndex - i)) { return i; } } return len; } /** * See http://en.wikipedia.org/wiki/Surrogate_pair */ function isHighSurrogate(charCode) { return 0xD800 <= charCode && charCode <= 0xDBFF; } /** * See http://en.wikipedia.org/wiki/Surrogate_pair */ function isLowSurrogate(charCode) { return 0xDC00 <= charCode && charCode <= 0xDFFF; } /** * See http://en.wikipedia.org/wiki/Surrogate_pair */ function computeCodePoint(highSurrogate, lowSurrogate) { return (highSurrogate - 0xD800 << 10) + (lowSurrogate - 0xDC00) + 0x10000; } /** * get the code point that begins at offset `offset` */ function getNextCodePoint(str, len, offset) { var charCode = str.charCodeAt(offset); if (isHighSurrogate(charCode) && offset + 1 < len) { var nextCharCode = str.charCodeAt(offset + 1); if (isLowSurrogate(nextCharCode)) { return computeCodePoint(charCode, nextCharCode); } } return charCode; } /** * get the code point that ends right before offset `offset` */ function getPrevCodePoint(str, offset) { var charCode = str.charCodeAt(offset - 1); if (isLowSurrogate(charCode) && offset > 1) { var prevCharCode = str.charCodeAt(offset - 2); if (isHighSurrogate(prevCharCode)) { return computeCodePoint(prevCharCode, charCode); } } return charCode; } function nextCharLength(str, offset) { var graphemeBreakTree = GraphemeBreakTree.getInstance(); var initialOffset = offset; var len = str.length; var initialCodePoint = getNextCodePoint(str, len, offset); offset += initialCodePoint >= 65536 /* UNICODE_SUPPLEMENTARY_PLANE_BEGIN */ ? 2 : 1; var graphemeBreakType = graphemeBreakTree.getGraphemeBreakType(initialCodePoint); while (offset < len) { var nextCodePoint = getNextCodePoint(str, len, offset); var nextGraphemeBreakType = graphemeBreakTree.getGraphemeBreakType(nextCodePoint); if (breakBetweenGraphemeBreakType(graphemeBreakType, nextGraphemeBreakType)) { break; } offset += nextCodePoint >= 65536 /* UNICODE_SUPPLEMENTARY_PLANE_BEGIN */ ? 2 : 1; graphemeBreakType = nextGraphemeBreakType; } return offset - initialOffset; } function prevCharLength(str, offset) { var graphemeBreakTree = GraphemeBreakTree.getInstance(); var initialOffset = offset; var initialCodePoint = getPrevCodePoint(str, offset); offset -= initialCodePoint >= 65536 /* UNICODE_SUPPLEMENTARY_PLANE_BEGIN */ ? 2 : 1; var graphemeBreakType = graphemeBreakTree.getGraphemeBreakType(initialCodePoint); while (offset > 0) { var prevCodePoint = getPrevCodePoint(str, offset); var prevGraphemeBreakType = graphemeBreakTree.getGraphemeBreakType(prevCodePoint); if (breakBetweenGraphemeBreakType(prevGraphemeBreakType, graphemeBreakType)) { break; } offset -= prevCodePoint >= 65536 /* UNICODE_SUPPLEMENTARY_PLANE_BEGIN */ ? 2 : 1; graphemeBreakType = prevGraphemeBreakType; } return initialOffset - offset; } /** * Generated using https://github.com/alexdima/unicode-utils/blob/master/generate-rtl-test.js */ var CONTAINS_RTL = /(?:[\u05BE\u05C0\u05C3\u05C6\u05D0-\u05F4\u0608\u060B\u060D\u061B-\u064A\u066D-\u066F\u0671-\u06D5\u06E5\u06E6\u06EE\u06EF\u06FA-\u0710\u0712-\u072F\u074D-\u07A5\u07B1-\u07EA\u07F4\u07F5\u07FA-\u0815\u081A\u0824\u0828\u0830-\u0858\u085E-\u08BD\u200F\uFB1D\uFB1F-\uFB28\uFB2A-\uFD3D\uFD50-\uFDFC\uFE70-\uFEFC]|\uD802[\uDC00-\uDD1B\uDD20-\uDE00\uDE10-\uDE33\uDE40-\uDEE4\uDEEB-\uDF35\uDF40-\uDFFF]|\uD803[\uDC00-\uDCFF]|\uD83A[\uDC00-\uDCCF\uDD00-\uDD43\uDD50-\uDFFF]|\uD83B[\uDC00-\uDEBB])/; /** * Returns true if `str` contains any Unicode character that is classified as "R" or "AL". */ function containsRTL(str) { return CONTAINS_RTL.test(str); } /** * Generated using https://github.com/alexdima/unicode-utils/blob/master/generate-emoji-test.js */ var CONTAINS_EMOJI = /(?:[\u231A\u231B\u23F0\u23F3\u2600-\u27BF\u2B50\u2B55]|\uD83C[\uDDE6-\uDDFF\uDF00-\uDFFF]|\uD83D[\uDC00-\uDE4F\uDE80-\uDEFC\uDFE0-\uDFEB]|\uD83E[\uDD00-\uDDFF\uDE70-\uDED6])/; function containsEmoji(str) { return CONTAINS_EMOJI.test(str); } var IS_BASIC_ASCII = /^[\t\n\r\x20-\x7E]*$/; /** * Returns true if `str` contains only basic ASCII characters in the range 32 - 126 (including 32 and 126) or \n, \r, \t */ function isBasicASCII(str) { return IS_BASIC_ASCII.test(str); } var UNUSUAL_LINE_TERMINATORS = /[\u2028\u2029]/; // LINE SEPARATOR (LS) or PARAGRAPH SEPARATOR (PS) /** * Returns true if `str` contains unusual line terminators, like LS or PS */ function containsUnusualLineTerminators(str) { return UNUSUAL_LINE_TERMINATORS.test(str); } function containsFullWidthCharacter(str) { for (var i = 0, len = str.length; i < len; i++) { if (isFullWidthCharacter(str.charCodeAt(i))) { return true; } } return false; } function isFullWidthCharacter(charCode) { // Do a cheap trick to better support wrapping of wide characters, treat them as 2 columns // http://jrgraphix.net/research/unicode_blocks.php // 2E80 — 2EFF CJK Radicals Supplement // 2F00 — 2FDF Kangxi Radicals // 2FF0 — 2FFF Ideographic Description Characters // 3000 — 303F CJK Symbols and Punctuation // 3040 — 309F Hiragana // 30A0 — 30FF Katakana // 3100 — 312F Bopomofo // 3130 — 318F Hangul Compatibility Jamo // 3190 — 319F Kanbun // 31A0 — 31BF Bopomofo Extended // 31F0 — 31FF Katakana Phonetic Extensions // 3200 — 32FF Enclosed CJK Letters and Months // 3300 — 33FF CJK Compatibility // 3400 — 4DBF CJK Unified Ideographs Extension A // 4DC0 — 4DFF Yijing Hexagram Symbols // 4E00 — 9FFF CJK Unified Ideographs // A000 — A48F Yi Syllables // A490 — A4CF Yi Radicals // AC00 — D7AF Hangul Syllables // [IGNORE] D800 — DB7F High Surrogates // [IGNORE] DB80 — DBFF High Private Use Surrogates // [IGNORE] DC00 — DFFF Low Surrogates // [IGNORE] E000 — F8FF Private Use Area // F900 — FAFF CJK Compatibility Ideographs // [IGNORE] FB00 — FB4F Alphabetic Presentation Forms // [IGNORE] FB50 — FDFF Arabic Presentation Forms-A // [IGNORE] FE00 — FE0F Variation Selectors // [IGNORE] FE20 — FE2F Combining Half Marks // [IGNORE] FE30 — FE4F CJK Compatibility Forms // [IGNORE] FE50 — FE6F Small Form Variants // [IGNORE] FE70 — FEFF Arabic Presentation Forms-B // FF00 — FFEF Halfwidth and Fullwidth Forms // [https://en.wikipedia.org/wiki/Halfwidth_and_fullwidth_forms] // of which FF01 - FF5E fullwidth ASCII of 21 to 7E // [IGNORE] and FF65 - FFDC halfwidth of Katakana and Hangul // [IGNORE] FFF0 — FFFF Specials charCode = +charCode; // @perf return charCode >= 0x2E80 && charCode <= 0xD7AF || charCode >= 0xF900 && charCode <= 0xFAFF || charCode >= 0xFF01 && charCode <= 0xFF5E; } /** * A fast function (therefore imprecise) to check if code points are emojis. * Generated using https://github.com/alexdima/unicode-utils/blob/master/generate-emoji-test.js */ function isEmojiImprecise(x) { return x >= 0x1F1E6 && x <= 0x1F1FF || x === 8986 || x === 8987 || x === 9200 || x === 9203 || x >= 9728 && x <= 10175 || x === 11088 || x === 11093 || x >= 127744 && x <= 128591 || x >= 128640 && x <= 128764 || x >= 128992 && x <= 129003 || x >= 129280 && x <= 129535 || x >= 129648 && x <= 129750; } // -- UTF-8 BOM var UTF8_BOM_CHARACTER = String.fromCharCode(65279 /* UTF8_BOM */); function startsWithUTF8BOM(str) { return !!(str && str.length > 0 && str.charCodeAt(0) === 65279 /* UTF8_BOM */); } function containsUppercaseCharacter(target) { var ignoreEscapedChars = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : false; if (!target) { return false; } if (ignoreEscapedChars) { target = target.replace(/\\./g, ''); } return target.toLowerCase() !== target; } /** * Produces 'a'-'z', followed by 'A'-'Z'... followed by 'a'-'z', etc. */ function singleLetterHash(n) { var LETTERS_CNT = 90 /* Z */ - 65 /* A */ + 1; n = n % (2 * LETTERS_CNT); if (n < LETTERS_CNT) { return String.fromCharCode(97 /* a */ + n); } return String.fromCharCode(65 /* A */ + n - LETTERS_CNT); } //#region Unicode Grapheme Break function getGraphemeBreakType(codePoint) { var graphemeBreakTree = GraphemeBreakTree.getInstance(); return graphemeBreakTree.getGraphemeBreakType(codePoint); } function breakBetweenGraphemeBreakType(breakTypeA, breakTypeB) { // http://www.unicode.org/reports/tr29/#Grapheme_Cluster_Boundary_Rules // !!! Let's make the common case a bit faster if (breakTypeA === 0 /* Other */) { // see https://www.unicode.org/Public/13.0.0/ucd/auxiliary/GraphemeBreakTest-13.0.0d10.html#table return breakTypeB !== 5 /* Extend */ && breakTypeB !== 7 /* SpacingMark */; } // Do not break between a CR and LF. Otherwise, break before and after controls. // GB3 CR × LF // GB4 (Control | CR | LF) ÷ // GB5 ÷ (Control | CR | LF) if (breakTypeA === 2 /* CR */) { if (breakTypeB === 3 /* LF */) { return false; // GB3 } } if (breakTypeA === 4 /* Control */ || breakTypeA === 2 /* CR */ || breakTypeA === 3 /* LF */) { return true; // GB4 } if (breakTypeB === 4 /* Control */ || breakTypeB === 2 /* CR */ || breakTypeB === 3 /* LF */) { return true; // GB5 } // Do not break Hangul syllable sequences. // GB6 L × (L | V | LV | LVT) // GB7 (LV | V) × (V | T) // GB8 (LVT | T) × T if (breakTypeA === 8 /* L */) { if (breakTypeB === 8 /* L */ || breakTypeB === 9 /* V */ || breakTypeB === 11 /* LV */ || breakTypeB === 12 /* LVT */) { return false; // GB6 } } if (breakTypeA === 11 /* LV */ || breakTypeA === 9 /* V */) { if (breakTypeB === 9 /* V */ || breakTypeB === 10 /* T */) { return false; // GB7 } } if (breakTypeA === 12 /* LVT */ || breakTypeA === 10 /* T */) { if (breakTypeB === 10 /* T */) { return false; // GB8 } } // Do not break before extending characters or ZWJ. // GB9 × (Extend | ZWJ) if (breakTypeB === 5 /* Extend */ || breakTypeB === 13 /* ZWJ */) { return false; // GB9 } // The GB9a and GB9b rules only apply to extended grapheme clusters: // Do not break before SpacingMarks, or after Prepend characters. // GB9a × SpacingMark // GB9b Prepend × if (breakTypeB === 7 /* SpacingMark */) { return false; // GB9a } if (breakTypeA === 1 /* Prepend */) { return false; // GB9b } // Do not break within emoji modifier sequences or emoji zwj sequences. // GB11 \p{Extended_Pictographic} Extend* ZWJ × \p{Extended_Pictographic} if (breakTypeA === 13 /* ZWJ */ && breakTypeB === 14 /* Extended_Pictographic */) { // Note: we are not implementing the rule entirely here to avoid introducing states return false; // GB11 } // GB12 sot (RI RI)* RI × RI // GB13 [^RI] (RI RI)* RI × RI if (breakTypeA === 6 /* Regional_Indicator */ && breakTypeB === 6 /* Regional_Indicator */) { // Note: we are not implementing the rule entirely here to avoid introducing states return false; // GB12 & GB13 } // GB999 Any ÷ Any return true; } var GraphemeBreakTree = /*#__PURE__*/function () { function GraphemeBreakTree() { classCallCheck_default()(this, GraphemeBreakTree); this._data = getGraphemeBreakRawData(); } createClass_default()(GraphemeBreakTree, [{ key: "getGraphemeBreakType", value: function getGraphemeBreakType(codePoint) { // !!! Let's make 7bit ASCII a bit faster: 0..31 if (codePoint < 32) { if (codePoint === 10 /* LineFeed */) { return 3 /* LF */; } if (codePoint === 13 /* CarriageReturn */) { return 2 /* CR */; } return 4 /* Control */; } // !!! Let's make 7bit ASCII a bit faster: 32..126 if (codePoint < 127) { return 0 /* Other */; } var data = this._data; var nodeCount = data.length / 3; var nodeIndex = 1; while (nodeIndex <= nodeCount) { if (codePoint < data[3 * nodeIndex]) { // go left nodeIndex = 2 * nodeIndex; } else if (codePoint > data[3 * nodeIndex + 1]) { // go right nodeIndex = 2 * nodeIndex + 1; } else { // hit return data[3 * nodeIndex + 2]; } } return 0 /* Other */; } }], [{ key: "getInstance", value: function getInstance() { if (!GraphemeBreakTree._INSTANCE) { GraphemeBreakTree._INSTANCE = new GraphemeBreakTree(); } return GraphemeBreakTree._INSTANCE; } }]); return GraphemeBreakTree; }(); GraphemeBreakTree._INSTANCE = null; function getGraphemeBreakRawData() { // generated using https://github.com/alexdima/unicode-utils/blob/master/generate-grapheme-break.js return 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} //#endregion /** * Computes the offset after performing a left delete on the given string, * while considering unicode grapheme/emoji rules. */ function getLeftDeleteOffset(offset, str) { if (offset === 0) { return 0; } // Try to delete emoji part. var emojiOffset = getOffsetBeforeLastEmojiComponent(offset, str); if (emojiOffset !== undefined) { return emojiOffset; } // Otherwise, just skip a single code point. var codePoint = getPrevCodePoint(str, offset); offset -= getUTF16Length(codePoint); return offset; } function getOffsetBeforeLastEmojiComponent(offset, str) { // See https://www.unicode.org/reports/tr51/tr51-14.html#EBNF_and_Regex for the // structure of emojis. var codePoint = getPrevCodePoint(str, offset); offset -= getUTF16Length(codePoint); // Skip modifiers while (isEmojiModifier(codePoint) || codePoint === 65039 /* emojiVariantSelector */ || codePoint === 8419 /* enclosingKeyCap */) { if (offset === 0) { // Cannot skip modifier, no preceding emoji base. return undefined; } codePoint = getPrevCodePoint(str, offset); offset -= getUTF16Length(codePoint); } // Expect base emoji if (!isEmojiImprecise(codePoint)) { // Unexpected code point, not a valid emoji. return undefined; } if (offset >= 0) { // Skip optional ZWJ code points that combine multiple emojis. // In theory, we should check if that ZWJ actually combines multiple emojis // to prevent deleting ZWJs in situations we didn't account for. var optionalZwjCodePoint = getPrevCodePoint(str, offset); if (optionalZwjCodePoint === 8205 /* zwj */) { offset -= getUTF16Length(optionalZwjCodePoint); } } return offset; } function getUTF16Length(codePoint) { return codePoint >= 65536 /* UNICODE_SUPPLEMENTARY_PLANE_BEGIN */ ? 2 : 1; } function isEmojiModifier(codePoint) { return 0x1F3FB <= codePoint && codePoint <= 0x1F3FF; } ;// CONCATENATED MODULE: ./node_modules/monaco-editor/esm/vs/base/common/worker/simpleWorker.js /*--------------------------------------------------------------------------------------------- * Copyright (c) Microsoft Corporation. All rights reserved. * Licensed under the MIT License. See License.txt in the project root for license information. *--------------------------------------------------------------------------------------------*/ var INITIALIZE = '$initialize'; var webWorkerWarningLogged = false; function logOnceWebWorkerWarning(err) { if (!isWeb) { // running tests return; } if (!webWorkerWarningLogged) { webWorkerWarningLogged = true; console.warn('Could not create web worker(s). Falling back to loading web worker code in main thread, which might cause UI freezes. Please see https://github.com/microsoft/monaco-editor#faq'); } console.warn(err.message); } var RequestMessage = /*#__PURE__*/createClass_default()(function RequestMessage(vsWorker, req, method, args) { classCallCheck_default()(this, RequestMessage); this.vsWorker = vsWorker; this.req = req; this.method = method; this.args = args; this.type = 0 /* Request */; }); var ReplyMessage = /*#__PURE__*/createClass_default()(function ReplyMessage(vsWorker, seq, res, err) { classCallCheck_default()(this, ReplyMessage); this.vsWorker = vsWorker; this.seq = seq; this.res = res; this.err = err; this.type = 1 /* Reply */; }); var SubscribeEventMessage = /*#__PURE__*/createClass_default()(function SubscribeEventMessage(vsWorker, req, eventName, arg) { classCallCheck_default()(this, SubscribeEventMessage); this.vsWorker = vsWorker; this.req = req; this.eventName = eventName; this.arg = arg; this.type = 2 /* SubscribeEvent */; }); var EventMessage = /*#__PURE__*/createClass_default()(function EventMessage(vsWorker, req, event) { classCallCheck_default()(this, EventMessage); this.vsWorker = vsWorker; this.req = req; this.event = event; this.type = 3 /* Event */; }); var UnsubscribeEventMessage = /*#__PURE__*/createClass_default()(function UnsubscribeEventMessage(vsWorker, req) { classCallCheck_default()(this, UnsubscribeEventMessage); this.vsWorker = vsWorker; this.req = req; this.type = 4 /* UnsubscribeEvent */; }); var SimpleWorkerProtocol = /*#__PURE__*/function () { function SimpleWorkerProtocol(handler) { classCallCheck_default()(this, SimpleWorkerProtocol); this._workerId = -1; this._handler = handler; this._lastSentReq = 0; this._pendingReplies = Object.create(null); this._pendingEmitters = new Map(); this._pendingEvents = new Map(); } createClass_default()(SimpleWorkerProtocol, [{ key: "setWorkerId", value: function setWorkerId(workerId) { this._workerId = workerId; } }, { key: "sendMessage", value: function sendMessage(method, args) { var _this = this; var req = String(++this._lastSentReq); return new Promise(function (resolve, reject) { _this._pendingReplies[req] = { resolve: resolve, reject: reject }; _this._send(new RequestMessage(_this._workerId, req, method, args)); }); } }, { key: "listen", value: function listen(eventName, arg) { var _this2 = this; var req = null; var emitter = new Emitter({ onFirstListenerAdd: function onFirstListenerAdd() { req = String(++_this2._lastSentReq); _this2._pendingEmitters.set(req, emitter); _this2._send(new SubscribeEventMessage(_this2._workerId, req, eventName, arg)); }, onLastListenerRemove: function onLastListenerRemove() { _this2._pendingEmitters["delete"](req); _this2._send(new UnsubscribeEventMessage(_this2._workerId, req)); req = null; } }); return emitter.event; } }, { key: "handleMessage", value: function handleMessage(message) { if (!message || !message.vsWorker) { return; } if (this._workerId !== -1 && message.vsWorker !== this._workerId) { return; } this._handleMessage(message); } }, { key: "_handleMessage", value: function _handleMessage(msg) { switch (msg.type) { case 1 /* Reply */: return this._handleReplyMessage(msg); case 0 /* Request */: return this._handleRequestMessage(msg); case 2 /* SubscribeEvent */: return this._handleSubscribeEventMessage(msg); case 3 /* Event */: return this._handleEventMessage(msg); case 4 /* UnsubscribeEvent */: return this._handleUnsubscribeEventMessage(msg); } } }, { key: "_handleReplyMessage", value: function _handleReplyMessage(replyMessage) { if (!this._pendingReplies[replyMessage.seq]) { console.warn('Got reply to unknown seq'); return; } var reply = this._pendingReplies[replyMessage.seq]; delete this._pendingReplies[replyMessage.seq]; if (replyMessage.err) { var err = replyMessage.err; if (replyMessage.err.$isError) { err = new Error(); err.name = replyMessage.err.name; err.message = replyMessage.err.message; err.stack = replyMessage.err.stack; } reply.reject(err); return; } reply.resolve(replyMessage.res); } }, { key: "_handleRequestMessage", value: function _handleRequestMessage(requestMessage) { var _this3 = this; var req = requestMessage.req; var result = this._handler.handleMessage(requestMessage.method, requestMessage.args); result.then(function (r) { _this3._send(new ReplyMessage(_this3._workerId, req, r, undefined)); }, function (e) { if (e.detail instanceof Error) { // Loading errors have a detail property that points to the actual error e.detail = transformErrorForSerialization(e.detail); } _this3._send(new ReplyMessage(_this3._workerId, req, undefined, transformErrorForSerialization(e))); }); } }, { key: "_handleSubscribeEventMessage", value: function _handleSubscribeEventMessage(msg) { var _this4 = this; var req = msg.req; var disposable = this._handler.handleEvent(msg.eventName, msg.arg)(function (event) { _this4._send(new EventMessage(_this4._workerId, req, event)); }); this._pendingEvents.set(req, disposable); } }, { key: "_handleEventMessage", value: function _handleEventMessage(msg) { if (!this._pendingEmitters.has(msg.req)) { console.warn('Got event for unknown req'); return; } this._pendingEmitters.get(msg.req).fire(msg.event); } }, { key: "_handleUnsubscribeEventMessage", value: function _handleUnsubscribeEventMessage(msg) { if (!this._pendingEvents.has(msg.req)) { console.warn('Got unsubscribe for unknown req'); return; } this._pendingEvents.get(msg.req).dispose(); this._pendingEvents["delete"](msg.req); } }, { key: "_send", value: function _send(msg) { var transfer = []; if (msg.type === 0 /* Request */) { for (var i = 0; i < msg.args.length; i++) { if (msg.args[i] instanceof ArrayBuffer) { transfer.push(msg.args[i]); } } } else if (msg.type === 1 /* Reply */) { if (msg.res instanceof ArrayBuffer) { transfer.push(msg.res); } } this._handler.sendMessage(msg, transfer); } }]); return SimpleWorkerProtocol; }(); /** * Main thread side */ var SimpleWorkerClient = /*#__PURE__*/(/* unused pure expression or super */ null && (function (_Disposable) { _inherits(SimpleWorkerClient, _Disposable); var _super = _createSuper(SimpleWorkerClient); function SimpleWorkerClient(workerFactory, moduleId, host) { var _this5; _classCallCheck(this, SimpleWorkerClient); _this5 = _super.call(this); var lazyProxyReject = null; _this5._worker = _this5._register(workerFactory.create('vs/base/common/worker/simpleWorker', function (msg) { _this5._protocol.handleMessage(msg); }, function (err) { // in Firefox, web workers fail lazily :( // we will reject the proxy if (lazyProxyReject) { lazyProxyReject(err); } })); _this5._protocol = new SimpleWorkerProtocol({ sendMessage: function sendMessage(msg, transfer) { _this5._worker.postMessage(msg, transfer); }, handleMessage: function handleMessage(method, args) { if (typeof host[method] !== 'function') { return Promise.reject(new Error('Missing method ' + method + ' on main thread host.')); } try { return Promise.resolve(host[method].apply(host, args)); } catch (e) { return Promise.reject(e); } }, handleEvent: function handleEvent(eventName, arg) { if (propertyIsDynamicEvent(eventName)) { var event = host[eventName].call(host, arg); if (typeof event !== 'function') { throw new Error("Missing dynamic event ".concat(eventName, " on main thread host.")); } return event; } if (propertyIsEvent(eventName)) { var _event = host[eventName]; if (typeof _event !== 'function') { throw new Error("Missing event ".concat(eventName, " on main thread host.")); } return _event; } throw new Error("Malformed event name ".concat(eventName)); } }); _this5._protocol.setWorkerId(_this5._worker.getId()); // Gather loader configuration var loaderConfiguration = null; if (typeof globals.require !== 'undefined' && typeof globals.require.getConfig === 'function') { // Get the configuration from the Monaco AMD Loader loaderConfiguration = globals.require.getConfig(); } else if (typeof globals.requirejs !== 'undefined') { // Get the configuration from requirejs loaderConfiguration = globals.requirejs.s.contexts._.config; } var hostMethods = types.getAllMethodNames(host); // Send initialize message _this5._onModuleLoaded = _this5._protocol.sendMessage(INITIALIZE, [_this5._worker.getId(), JSON.parse(JSON.stringify(loaderConfiguration)), moduleId, hostMethods]); // Create proxy to loaded code var proxyMethodRequest = function proxyMethodRequest(method, args) { return _this5._request(method, args); }; var proxyListen = function proxyListen(eventName, arg) { return _this5._protocol.listen(eventName, arg); }; _this5._lazyProxy = new Promise(function (resolve, reject) { lazyProxyReject = reject; _this5._onModuleLoaded.then(function (availableMethods) { resolve(simpleWorker_createProxyObject(availableMethods, proxyMethodRequest, proxyListen)); }, function (e) { reject(e); _this5._onError('Worker failed to load ' + moduleId, e); }); }); return _this5; } _createClass(SimpleWorkerClient, [{ key: "getProxyObject", value: function getProxyObject() { return this._lazyProxy; } }, { key: "_request", value: function _request(method, args) { var _this6 = this; return new Promise(function (resolve, reject) { _this6._onModuleLoaded.then(function () { _this6._protocol.sendMessage(method, args).then(resolve, reject); }, reject); }); } }, { key: "_onError", value: function _onError(message, error) { console.error(message); console.info(error); } }]); return SimpleWorkerClient; }(Disposable))); function propertyIsEvent(name) { // Assume a property is an event if it has a form of "onSomething" return name[0] === 'o' && name[1] === 'n' && isUpperAsciiLetter(name.charCodeAt(2)); } function propertyIsDynamicEvent(name) { // Assume a property is a dynamic event (a method that returns an event) if it has a form of "onDynamicSomething" return /^onDynamic/.test(name) && isUpperAsciiLetter(name.charCodeAt(9)); } function simpleWorker_createProxyObject(methodNames, invoke, proxyListen) { var createProxyMethod = function createProxyMethod(method) { return function () { var args = Array.prototype.slice.call(arguments, 0); return invoke(method, args); }; }; var createProxyDynamicEvent = function createProxyDynamicEvent(eventName) { return function (arg) { return proxyListen(eventName, arg); }; }; var result = {}; var _iterator = createForOfIteratorHelper_default()(methodNames), _step; try { for (_iterator.s(); !(_step = _iterator.n()).done;) { var methodName = _step.value; if (propertyIsDynamicEvent(methodName)) { result[methodName] = createProxyDynamicEvent(methodName); continue; } if (propertyIsEvent(methodName)) { result[methodName] = proxyListen(methodName, undefined); continue; } result[methodName] = createProxyMethod(methodName); } } catch (err) { _iterator.e(err); } finally { _iterator.f(); } return result; } /** * Worker side */ var SimpleWorkerServer = /*#__PURE__*/function () { function SimpleWorkerServer(postMessage, requestHandlerFactory) { var _this7 = this; classCallCheck_default()(this, SimpleWorkerServer); this._requestHandlerFactory = requestHandlerFactory; this._requestHandler = null; this._protocol = new SimpleWorkerProtocol({ sendMessage: function sendMessage(msg, transfer) { postMessage(msg, transfer); }, handleMessage: function handleMessage(method, args) { return _this7._handleMessage(method, args); }, handleEvent: function handleEvent(eventName, arg) { return _this7._handleEvent(eventName, arg); } }); } createClass_default()(SimpleWorkerServer, [{ key: "onmessage", value: function onmessage(msg) { this._protocol.handleMessage(msg); } }, { key: "_handleMessage", value: function _handleMessage(method, args) { if (method === INITIALIZE) { return this.initialize(args[0], args[1], args[2], args[3]); } if (!this._requestHandler || typeof this._requestHandler[method] !== 'function') { return Promise.reject(new Error('Missing requestHandler or method: ' + method)); } try { return Promise.resolve(this._requestHandler[method].apply(this._requestHandler, args)); } catch (e) { return Promise.reject(e); } } }, { key: "_handleEvent", value: function _handleEvent(eventName, arg) { if (!this._requestHandler) { throw new Error("Missing requestHandler"); } if (propertyIsDynamicEvent(eventName)) { var event = this._requestHandler[eventName].call(this._requestHandler, arg); if (typeof event !== 'function') { throw new Error("Missing dynamic event ".concat(eventName, " on request handler.")); } return event; } if (propertyIsEvent(eventName)) { var _event2 = this._requestHandler[eventName]; if (typeof _event2 !== 'function') { throw new Error("Missing event ".concat(eventName, " on request handler.")); } return _event2; } throw new Error("Malformed event name ".concat(eventName)); } }, { key: "initialize", value: function initialize(workerId, loaderConfig, moduleId, hostMethods) { var _this8 = this; this._protocol.setWorkerId(workerId); var proxyMethodRequest = function proxyMethodRequest(method, args) { return _this8._protocol.sendMessage(method, args); }; var proxyListen = function proxyListen(eventName, arg) { return _this8._protocol.listen(eventName, arg); }; var hostProxy = simpleWorker_createProxyObject(hostMethods, proxyMethodRequest, proxyListen); if (this._requestHandlerFactory) { // static request handler this._requestHandler = this._requestHandlerFactory(hostProxy); return Promise.resolve(getAllMethodNames(this._requestHandler)); } if (loaderConfig) { // Remove 'baseUrl', handling it is beyond scope for now if (typeof loaderConfig.baseUrl !== 'undefined') { delete loaderConfig['baseUrl']; } if (typeof loaderConfig.paths !== 'undefined') { if (typeof loaderConfig.paths.vs !== 'undefined') { delete loaderConfig.paths['vs']; } } if (typeof_default()(loaderConfig.trustedTypesPolicy) !== undefined) { // don't use, it has been destroyed during serialize delete loaderConfig['trustedTypesPolicy']; } // Since this is in a web worker, enable catching errors loaderConfig.catchError = true; platform_globals.require.config(loaderConfig); } return new Promise(function (resolve, reject) { // Use the global require to be sure to get the global config // ESM-comment-begin // const req = (globals.require || require); // ESM-comment-end // ESM-uncomment-begin var req = platform_globals.require; // ESM-uncomment-end req([moduleId], function (module) { _this8._requestHandler = module.create(hostProxy); if (!_this8._requestHandler) { reject(new Error("No RequestHandler!")); return; } resolve(getAllMethodNames(_this8._requestHandler)); }, reject); }); } }]); return SimpleWorkerServer; }(); /** * Called on the worker side */ function create(postMessage) { return new SimpleWorkerServer(postMessage, null); } ;// CONCATENATED MODULE: ./node_modules/monaco-editor/esm/vs/base/common/diff/diffChange.js /*--------------------------------------------------------------------------------------------- * Copyright (c) Microsoft Corporation. All rights reserved. * Licensed under the MIT License. See License.txt in the project root for license information. *--------------------------------------------------------------------------------------------*/ /** * Represents information about a specific difference between two sequences. */ var DiffChange = /*#__PURE__*/function () { /** * Constructs a new DiffChange with the given sequence information * and content. */ function DiffChange(originalStart, originalLength, modifiedStart, modifiedLength) { classCallCheck_default()(this, DiffChange); //Debug.Assert(originalLength > 0 || modifiedLength > 0, "originalLength and modifiedLength cannot both be <= 0"); this.originalStart = originalStart; this.originalLength = originalLength; this.modifiedStart = modifiedStart; this.modifiedLength = modifiedLength; } /** * The end point (exclusive) of the change in the original sequence. */ createClass_default()(DiffChange, [{ key: "getOriginalEnd", value: function getOriginalEnd() { return this.originalStart + this.originalLength; } /** * The end point (exclusive) of the change in the modified sequence. */ }, { key: "getModifiedEnd", value: function getModifiedEnd() { return this.modifiedStart + this.modifiedLength; } }]); return DiffChange; }(); ;// CONCATENATED MODULE: ./node_modules/monaco-editor/esm/vs/base/common/hash.js /*--------------------------------------------------------------------------------------------- * Copyright (c) Microsoft Corporation. All rights reserved. * Licensed under the MIT License. See License.txt in the project root for license information. *--------------------------------------------------------------------------------------------*/ /** * Return a hash value for an object. */ function hash(obj) { return doHash(obj, 0); } function doHash(obj, hashVal) { switch (_typeof(obj)) { case 'object': if (obj === null) { return numberHash(349, hashVal); } else if (Array.isArray(obj)) { return arrayHash(obj, hashVal); } return objectHash(obj, hashVal); case 'string': return stringHash(obj, hashVal); case 'boolean': return booleanHash(obj, hashVal); case 'number': return numberHash(obj, hashVal); case 'undefined': return numberHash(937, hashVal); default: return numberHash(617, hashVal); } } function numberHash(val, initialHashVal) { return (initialHashVal << 5) - initialHashVal + val | 0; // hashVal * 31 + ch, keep as int32 } function booleanHash(b, initialHashVal) { return numberHash(b ? 433 : 863, initialHashVal); } function stringHash(s, hashVal) { hashVal = numberHash(149417, hashVal); for (var i = 0, length = s.length; i < length; i++) { hashVal = numberHash(s.charCodeAt(i), hashVal); } return hashVal; } function arrayHash(arr, initialHashVal) { initialHashVal = numberHash(104579, initialHashVal); return arr.reduce(function (hashVal, item) { return doHash(item, hashVal); }, initialHashVal); } function objectHash(obj, initialHashVal) { initialHashVal = numberHash(181387, initialHashVal); return Object.keys(obj).sort().reduce(function (hashVal, key) { hashVal = stringHash(key, hashVal); return doHash(obj[key], hashVal); }, initialHashVal); } function leftRotate(value, bits) { var totalBits = arguments.length > 2 && arguments[2] !== undefined ? arguments[2] : 32; // delta + bits = totalBits var delta = totalBits - bits; // All ones, expect `delta` zeros aligned to the right var mask = ~((1 << delta) - 1); // Join (value left-shifted `bits` bits) with (masked value right-shifted `delta` bits) return (value << bits | (mask & value) >>> delta) >>> 0; } function fill(dest) { var index = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : 0; var count = arguments.length > 2 && arguments[2] !== undefined ? arguments[2] : dest.byteLength; var value = arguments.length > 3 && arguments[3] !== undefined ? arguments[3] : 0; for (var i = 0; i < count; i++) { dest[index + i] = value; } } function leftPad(value, length) { var _char = arguments.length > 2 && arguments[2] !== undefined ? arguments[2] : '0'; while (value.length < length) { value = _char + value; } return value; } function toHexString(bufferOrValue) { var bitsize = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : 32; if (bufferOrValue instanceof ArrayBuffer) { return Array.from(new Uint8Array(bufferOrValue)).map(function (b) { return b.toString(16).padStart(2, '0'); }).join(''); } return leftPad((bufferOrValue >>> 0).toString(16), bitsize / 4); } /** * A SHA1 implementation that works with strings and does not allocate. */ var StringSHA1 = /*#__PURE__*/function () { function StringSHA1() { classCallCheck_default()(this, StringSHA1); this._h0 = 0x67452301; this._h1 = 0xEFCDAB89; this._h2 = 0x98BADCFE; this._h3 = 0x10325476; this._h4 = 0xC3D2E1F0; this._buff = new Uint8Array(64 /* BLOCK_SIZE */ + 3 /* to fit any utf-8 */); this._buffDV = new DataView(this._buff.buffer); this._buffLen = 0; this._totalLen = 0; this._leftoverHighSurrogate = 0; this._finished = false; } createClass_default()(StringSHA1, [{ key: "update", value: function update(str) { var strLen = str.length; if (strLen === 0) { return; } var buff = this._buff; var buffLen = this._buffLen; var leftoverHighSurrogate = this._leftoverHighSurrogate; var charCode; var offset; if (leftoverHighSurrogate !== 0) { charCode = leftoverHighSurrogate; offset = -1; leftoverHighSurrogate = 0; } else { charCode = str.charCodeAt(0); offset = 0; } while (true) { var codePoint = charCode; if (isHighSurrogate(charCode)) { if (offset + 1 < strLen) { var nextCharCode = str.charCodeAt(offset + 1); if (isLowSurrogate(nextCharCode)) { offset++; codePoint = computeCodePoint(charCode, nextCharCode); } else { // illegal => unicode replacement character codePoint = 65533 /* UNICODE_REPLACEMENT */; } } else { // last character is a surrogate pair leftoverHighSurrogate = charCode; break; } } else if (isLowSurrogate(charCode)) { // illegal => unicode replacement character codePoint = 65533 /* UNICODE_REPLACEMENT */; } buffLen = this._push(buff, buffLen, codePoint); offset++; if (offset < strLen) { charCode = str.charCodeAt(offset); } else { break; } } this._buffLen = buffLen; this._leftoverHighSurrogate = leftoverHighSurrogate; } }, { key: "_push", value: function _push(buff, buffLen, codePoint) { if (codePoint < 0x0080) { buff[buffLen++] = codePoint; } else if (codePoint < 0x0800) { buff[buffLen++] = 192 | (codePoint & 1984) >>> 6; buff[buffLen++] = 128 | (codePoint & 63) >>> 0; } else if (codePoint < 0x10000) { buff[buffLen++] = 224 | (codePoint & 61440) >>> 12; buff[buffLen++] = 128 | (codePoint & 4032) >>> 6; buff[buffLen++] = 128 | (codePoint & 63) >>> 0; } else { buff[buffLen++] = 240 | (codePoint & 1835008) >>> 18; buff[buffLen++] = 128 | (codePoint & 258048) >>> 12; buff[buffLen++] = 128 | (codePoint & 4032) >>> 6; buff[buffLen++] = 128 | (codePoint & 63) >>> 0; } if (buffLen >= 64 /* BLOCK_SIZE */) { this._step(); buffLen -= 64 /* BLOCK_SIZE */; this._totalLen += 64 /* BLOCK_SIZE */; // take last 3 in case of UTF8 overflow buff[0] = buff[64 /* BLOCK_SIZE */ + 0]; buff[1] = buff[64 /* BLOCK_SIZE */ + 1]; buff[2] = buff[64 /* BLOCK_SIZE */ + 2]; } return buffLen; } }, { key: "digest", value: function digest() { if (!this._finished) { this._finished = true; if (this._leftoverHighSurrogate) { // illegal => unicode replacement character this._leftoverHighSurrogate = 0; this._buffLen = this._push(this._buff, this._buffLen, 65533 /* UNICODE_REPLACEMENT */); } this._totalLen += this._buffLen; this._wrapUp(); } return toHexString(this._h0) + toHexString(this._h1) + toHexString(this._h2) + toHexString(this._h3) + toHexString(this._h4); } }, { key: "_wrapUp", value: function _wrapUp() { this._buff[this._buffLen++] = 0x80; fill(this._buff, this._buffLen); if (this._buffLen > 56) { this._step(); fill(this._buff); } // this will fit because the mantissa can cover up to 52 bits var ml = 8 * this._totalLen; this._buffDV.setUint32(56, Math.floor(ml / 4294967296), false); this._buffDV.setUint32(60, ml % 4294967296, false); this._step(); } }, { key: "_step", value: function _step() { var bigBlock32 = StringSHA1._bigBlock32; var data = this._buffDV; for (var j = 0; j < 64 /* 16*4 */; j += 4) { bigBlock32.setUint32(j, data.getUint32(j, false), false); } for (var _j = 64; _j < 320 /* 80*4 */; _j += 4) { bigBlock32.setUint32(_j, leftRotate(bigBlock32.getUint32(_j - 12, false) ^ bigBlock32.getUint32(_j - 32, false) ^ bigBlock32.getUint32(_j - 56, false) ^ bigBlock32.getUint32(_j - 64, false), 1), false); } var a = this._h0; var b = this._h1; var c = this._h2; var d = this._h3; var e = this._h4; var f, k; var temp; for (var _j2 = 0; _j2 < 80; _j2++) { if (_j2 < 20) { f = b & c | ~b & d; k = 0x5A827999; } else if (_j2 < 40) { f = b ^ c ^ d; k = 0x6ED9EBA1; } else if (_j2 < 60) { f = b & c | b & d | c & d; k = 0x8F1BBCDC; } else { f = b ^ c ^ d; k = 0xCA62C1D6; } temp = leftRotate(a, 5) + f + e + k + bigBlock32.getUint32(_j2 * 4, false) & 0xffffffff; e = d; d = c; c = leftRotate(b, 30); b = a; a = temp; } this._h0 = this._h0 + a & 0xffffffff; this._h1 = this._h1 + b & 0xffffffff; this._h2 = this._h2 + c & 0xffffffff; this._h3 = this._h3 + d & 0xffffffff; this._h4 = this._h4 + e & 0xffffffff; } }]); return StringSHA1; }(); StringSHA1._bigBlock32 = new DataView(new ArrayBuffer(320)); // 80 * 4 = 320 ;// CONCATENATED MODULE: ./node_modules/monaco-editor/esm/vs/base/common/diff/diff.js /*--------------------------------------------------------------------------------------------- * Copyright (c) Microsoft Corporation. All rights reserved. * Licensed under the MIT License. See License.txt in the project root for license information. *--------------------------------------------------------------------------------------------*/ var StringDiffSequence = /*#__PURE__*/function () { function StringDiffSequence(source) { classCallCheck_default()(this, StringDiffSequence); this.source = source; } createClass_default()(StringDiffSequence, [{ key: "getElements", value: function getElements() { var source = this.source; var characters = new Int32Array(source.length); for (var i = 0, len = source.length; i < len; i++) { characters[i] = source.charCodeAt(i); } return characters; } }]); return StringDiffSequence; }(); function stringDiff(original, modified, pretty) { return new LcsDiff(new StringDiffSequence(original), new StringDiffSequence(modified)).ComputeDiff(pretty).changes; } // // The code below has been ported from a C# implementation in VS // var Debug = /*#__PURE__*/function () { function Debug() { classCallCheck_default()(this, Debug); } createClass_default()(Debug, null, [{ key: "Assert", value: function Assert(condition, message) { if (!condition) { throw new Error(message); } } }]); return Debug; }(); var MyArray = /*#__PURE__*/function () { function MyArray() { classCallCheck_default()(this, MyArray); } createClass_default()(MyArray, null, [{ key: "Copy", value: /** * Copies a range of elements from an Array starting at the specified source index and pastes * them to another Array starting at the specified destination index. The length and the indexes * are specified as 64-bit integers. * sourceArray: * The Array that contains the data to copy. * sourceIndex: * A 64-bit integer that represents the index in the sourceArray at which copying begins. * destinationArray: * The Array that receives the data. * destinationIndex: * A 64-bit integer that represents the index in the destinationArray at which storing begins. * length: * A 64-bit integer that represents the number of elements to copy. */ function Copy(sourceArray, sourceIndex, destinationArray, destinationIndex, length) { for (var i = 0; i < length; i++) { destinationArray[destinationIndex + i] = sourceArray[sourceIndex + i]; } } }, { key: "Copy2", value: function Copy2(sourceArray, sourceIndex, destinationArray, destinationIndex, length) { for (var i = 0; i < length; i++) { destinationArray[destinationIndex + i] = sourceArray[sourceIndex + i]; } } }]); return MyArray; }(); /** * A utility class which helps to create the set of DiffChanges from * a difference operation. This class accepts original DiffElements and * modified DiffElements that are involved in a particular change. The * MarkNextChange() method can be called to mark the separation between * distinct changes. At the end, the Changes property can be called to retrieve * the constructed changes. */ var DiffChangeHelper = /*#__PURE__*/function () { /** * Constructs a new DiffChangeHelper for the given DiffSequences. */ function DiffChangeHelper() { classCallCheck_default()(this, DiffChangeHelper); this.m_changes = []; this.m_originalStart = 1073741824 /* MAX_SAFE_SMALL_INTEGER */; this.m_modifiedStart = 1073741824 /* MAX_SAFE_SMALL_INTEGER */; this.m_originalCount = 0; this.m_modifiedCount = 0; } /** * Marks the beginning of the next change in the set of differences. */ createClass_default()(DiffChangeHelper, [{ key: "MarkNextChange", value: function MarkNextChange() { // Only add to the list if there is something to add if (this.m_originalCount > 0 || this.m_modifiedCount > 0) { // Add the new change to our list this.m_changes.push(new DiffChange(this.m_originalStart, this.m_originalCount, this.m_modifiedStart, this.m_modifiedCount)); } // Reset for the next change this.m_originalCount = 0; this.m_modifiedCount = 0; this.m_originalStart = 1073741824 /* MAX_SAFE_SMALL_INTEGER */; this.m_modifiedStart = 1073741824 /* MAX_SAFE_SMALL_INTEGER */; } /** * Adds the original element at the given position to the elements * affected by the current change. The modified index gives context * to the change position with respect to the original sequence. * @param originalIndex The index of the original element to add. * @param modifiedIndex The index of the modified element that provides corresponding position in the modified sequence. */ }, { key: "AddOriginalElement", value: function AddOriginalElement(originalIndex, modifiedIndex) { // The 'true' start index is the smallest of the ones we've seen this.m_originalStart = Math.min(this.m_originalStart, originalIndex); this.m_modifiedStart = Math.min(this.m_modifiedStart, modifiedIndex); this.m_originalCount++; } /** * Adds the modified element at the given position to the elements * affected by the current change. The original index gives context * to the change position with respect to the modified sequence. * @param originalIndex The index of the original element that provides corresponding position in the original sequence. * @param modifiedIndex The index of the modified element to add. */ }, { key: "AddModifiedElement", value: function AddModifiedElement(originalIndex, modifiedIndex) { // The 'true' start index is the smallest of the ones we've seen this.m_originalStart = Math.min(this.m_originalStart, originalIndex); this.m_modifiedStart = Math.min(this.m_modifiedStart, modifiedIndex); this.m_modifiedCount++; } /** * Retrieves all of the changes marked by the class. */ }, { key: "getChanges", value: function getChanges() { if (this.m_originalCount > 0 || this.m_modifiedCount > 0) { // Finish up on whatever is left this.MarkNextChange(); } return this.m_changes; } /** * Retrieves all of the changes marked by the class in the reverse order */ }, { key: "getReverseChanges", value: function getReverseChanges() { if (this.m_originalCount > 0 || this.m_modifiedCount > 0) { // Finish up on whatever is left this.MarkNextChange(); } this.m_changes.reverse(); return this.m_changes; } }]); return DiffChangeHelper; }(); /** * An implementation of the difference algorithm described in * "An O(ND) Difference Algorithm and its variations" by Eugene W. Myers */ var LcsDiff = /*#__PURE__*/function () { /** * Constructs the DiffFinder */ function LcsDiff(originalSequence, modifiedSequence) { var continueProcessingPredicate = arguments.length > 2 && arguments[2] !== undefined ? arguments[2] : null; classCallCheck_default()(this, LcsDiff); this.ContinueProcessingPredicate = continueProcessingPredicate; this._originalSequence = originalSequence; this._modifiedSequence = modifiedSequence; var _LcsDiff$_getElements = LcsDiff._getElements(originalSequence), _LcsDiff$_getElements2 = slicedToArray_default()(_LcsDiff$_getElements, 3), originalStringElements = _LcsDiff$_getElements2[0], originalElementsOrHash = _LcsDiff$_getElements2[1], originalHasStrings = _LcsDiff$_getElements2[2]; var _LcsDiff$_getElements3 = LcsDiff._getElements(modifiedSequence), _LcsDiff$_getElements4 = slicedToArray_default()(_LcsDiff$_getElements3, 3), modifiedStringElements = _LcsDiff$_getElements4[0], modifiedElementsOrHash = _LcsDiff$_getElements4[1], modifiedHasStrings = _LcsDiff$_getElements4[2]; this._hasStrings = originalHasStrings && modifiedHasStrings; this._originalStringElements = originalStringElements; this._originalElementsOrHash = originalElementsOrHash; this._modifiedStringElements = modifiedStringElements; this._modifiedElementsOrHash = modifiedElementsOrHash; this.m_forwardHistory = []; this.m_reverseHistory = []; } createClass_default()(LcsDiff, [{ key: "ElementsAreEqual", value: function ElementsAreEqual(originalIndex, newIndex) { if (this._originalElementsOrHash[originalIndex] !== this._modifiedElementsOrHash[newIndex]) { return false; } return this._hasStrings ? this._originalStringElements[originalIndex] === this._modifiedStringElements[newIndex] : true; } }, { key: "ElementsAreStrictEqual", value: function ElementsAreStrictEqual(originalIndex, newIndex) { if (!this.ElementsAreEqual(originalIndex, newIndex)) { return false; } var originalElement = LcsDiff._getStrictElement(this._originalSequence, originalIndex); var modifiedElement = LcsDiff._getStrictElement(this._modifiedSequence, newIndex); return originalElement === modifiedElement; } }, { key: "OriginalElementsAreEqual", value: function OriginalElementsAreEqual(index1, index2) { if (this._originalElementsOrHash[index1] !== this._originalElementsOrHash[index2]) { return false; } return this._hasStrings ? this._originalStringElements[index1] === this._originalStringElements[index2] : true; } }, { key: "ModifiedElementsAreEqual", value: function ModifiedElementsAreEqual(index1, index2) { if (this._modifiedElementsOrHash[index1] !== this._modifiedElementsOrHash[index2]) { return false; } return this._hasStrings ? this._modifiedStringElements[index1] === this._modifiedStringElements[index2] : true; } }, { key: "ComputeDiff", value: function ComputeDiff(pretty) { return this._ComputeDiff(0, this._originalElementsOrHash.length - 1, 0, this._modifiedElementsOrHash.length - 1, pretty); } /** * Computes the differences between the original and modified input * sequences on the bounded range. * @returns An array of the differences between the two input sequences. */ }, { key: "_ComputeDiff", value: function _ComputeDiff(originalStart, originalEnd, modifiedStart, modifiedEnd, pretty) { var quitEarlyArr = [false]; var changes = this.ComputeDiffRecursive(originalStart, originalEnd, modifiedStart, modifiedEnd, quitEarlyArr); if (pretty) { // We have to clean up the computed diff to be more intuitive // but it turns out this cannot be done correctly until the entire set // of diffs have been computed changes = this.PrettifyChanges(changes); } return { quitEarly: quitEarlyArr[0], changes: changes }; } /** * Private helper method which computes the differences on the bounded range * recursively. * @returns An array of the differences between the two input sequences. */ }, { key: "ComputeDiffRecursive", value: function ComputeDiffRecursive(originalStart, originalEnd, modifiedStart, modifiedEnd, quitEarlyArr) { quitEarlyArr[0] = false; // Find the start of the differences while (originalStart <= originalEnd && modifiedStart <= modifiedEnd && this.ElementsAreEqual(originalStart, modifiedStart)) { originalStart++; modifiedStart++; } // Find the end of the differences while (originalEnd >= originalStart && modifiedEnd >= modifiedStart && this.ElementsAreEqual(originalEnd, modifiedEnd)) { originalEnd--; modifiedEnd--; } // In the special case where we either have all insertions or all deletions or the sequences are identical if (originalStart > originalEnd || modifiedStart > modifiedEnd) { var changes; if (modifiedStart <= modifiedEnd) { Debug.Assert(originalStart === originalEnd + 1, 'originalStart should only be one more than originalEnd'); // All insertions changes = [new DiffChange(originalStart, 0, modifiedStart, modifiedEnd - modifiedStart + 1)]; } else if (originalStart <= originalEnd) { Debug.Assert(modifiedStart === modifiedEnd + 1, 'modifiedStart should only be one more than modifiedEnd'); // All deletions changes = [new DiffChange(originalStart, originalEnd - originalStart + 1, modifiedStart, 0)]; } else { Debug.Assert(originalStart === originalEnd + 1, 'originalStart should only be one more than originalEnd'); Debug.Assert(modifiedStart === modifiedEnd + 1, 'modifiedStart should only be one more than modifiedEnd'); // Identical sequences - No differences changes = []; } return changes; } // This problem can be solved using the Divide-And-Conquer technique. var midOriginalArr = [0]; var midModifiedArr = [0]; var result = this.ComputeRecursionPoint(originalStart, originalEnd, modifiedStart, modifiedEnd, midOriginalArr, midModifiedArr, quitEarlyArr); var midOriginal = midOriginalArr[0]; var midModified = midModifiedArr[0]; if (result !== null) { // Result is not-null when there was enough memory to compute the changes while // searching for the recursion point return result; } else if (!quitEarlyArr[0]) { // We can break the problem down recursively by finding the changes in the // First Half: (originalStart, modifiedStart) to (midOriginal, midModified) // Second Half: (midOriginal + 1, minModified + 1) to (originalEnd, modifiedEnd) // NOTE: ComputeDiff() is inclusive, therefore the second range starts on the next point var leftChanges = this.ComputeDiffRecursive(originalStart, midOriginal, modifiedStart, midModified, quitEarlyArr); var rightChanges = []; if (!quitEarlyArr[0]) { rightChanges = this.ComputeDiffRecursive(midOriginal + 1, originalEnd, midModified + 1, modifiedEnd, quitEarlyArr); } else { // We didn't have time to finish the first half, so we don't have time to compute this half. // Consider the entire rest of the sequence different. rightChanges = [new DiffChange(midOriginal + 1, originalEnd - (midOriginal + 1) + 1, midModified + 1, modifiedEnd - (midModified + 1) + 1)]; } return this.ConcatenateChanges(leftChanges, rightChanges); } // If we hit here, we quit early, and so can't return anything meaningful return [new DiffChange(originalStart, originalEnd - originalStart + 1, modifiedStart, modifiedEnd - modifiedStart + 1)]; } }, { key: "WALKTRACE", value: function WALKTRACE(diagonalForwardBase, diagonalForwardStart, diagonalForwardEnd, diagonalForwardOffset, diagonalReverseBase, diagonalReverseStart, diagonalReverseEnd, diagonalReverseOffset, forwardPoints, reversePoints, originalIndex, originalEnd, midOriginalArr, modifiedIndex, modifiedEnd, midModifiedArr, deltaIsEven, quitEarlyArr) { var forwardChanges = null; var reverseChanges = null; // First, walk backward through the forward diagonals history var changeHelper = new DiffChangeHelper(); var diagonalMin = diagonalForwardStart; var diagonalMax = diagonalForwardEnd; var diagonalRelative = midOriginalArr[0] - midModifiedArr[0] - diagonalForwardOffset; var lastOriginalIndex = -1073741824 /* MIN_SAFE_SMALL_INTEGER */; var historyIndex = this.m_forwardHistory.length - 1; do { // Get the diagonal index from the relative diagonal number var diagonal = diagonalRelative + diagonalForwardBase; // Figure out where we came from if (diagonal === diagonalMin || diagonal < diagonalMax && forwardPoints[diagonal - 1] < forwardPoints[diagonal + 1]) { // Vertical line (the element is an insert) originalIndex = forwardPoints[diagonal + 1]; modifiedIndex = originalIndex - diagonalRelative - diagonalForwardOffset; if (originalIndex < lastOriginalIndex) { changeHelper.MarkNextChange(); } lastOriginalIndex = originalIndex; changeHelper.AddModifiedElement(originalIndex + 1, modifiedIndex); diagonalRelative = diagonal + 1 - diagonalForwardBase; //Setup for the next iteration } else { // Horizontal line (the element is a deletion) originalIndex = forwardPoints[diagonal - 1] + 1; modifiedIndex = originalIndex - diagonalRelative - diagonalForwardOffset; if (originalIndex < lastOriginalIndex) { changeHelper.MarkNextChange(); } lastOriginalIndex = originalIndex - 1; changeHelper.AddOriginalElement(originalIndex, modifiedIndex + 1); diagonalRelative = diagonal - 1 - diagonalForwardBase; //Setup for the next iteration } if (historyIndex >= 0) { forwardPoints = this.m_forwardHistory[historyIndex]; diagonalForwardBase = forwardPoints[0]; //We stored this in the first spot diagonalMin = 1; diagonalMax = forwardPoints.length - 1; } } while (--historyIndex >= -1); // Ironically, we get the forward changes as the reverse of the // order we added them since we technically added them backwards forwardChanges = changeHelper.getReverseChanges(); if (quitEarlyArr[0]) { // TODO: Calculate a partial from the reverse diagonals. // For now, just assume everything after the midOriginal/midModified point is a diff var originalStartPoint = midOriginalArr[0] + 1; var modifiedStartPoint = midModifiedArr[0] + 1; if (forwardChanges !== null && forwardChanges.length > 0) { var lastForwardChange = forwardChanges[forwardChanges.length - 1]; originalStartPoint = Math.max(originalStartPoint, lastForwardChange.getOriginalEnd()); modifiedStartPoint = Math.max(modifiedStartPoint, lastForwardChange.getModifiedEnd()); } reverseChanges = [new DiffChange(originalStartPoint, originalEnd - originalStartPoint + 1, modifiedStartPoint, modifiedEnd - modifiedStartPoint + 1)]; } else { // Now walk backward through the reverse diagonals history changeHelper = new DiffChangeHelper(); diagonalMin = diagonalReverseStart; diagonalMax = diagonalReverseEnd; diagonalRelative = midOriginalArr[0] - midModifiedArr[0] - diagonalReverseOffset; lastOriginalIndex = 1073741824 /* MAX_SAFE_SMALL_INTEGER */; historyIndex = deltaIsEven ? this.m_reverseHistory.length - 1 : this.m_reverseHistory.length - 2; do { // Get the diagonal index from the relative diagonal number var _diagonal = diagonalRelative + diagonalReverseBase; // Figure out where we came from if (_diagonal === diagonalMin || _diagonal < diagonalMax && reversePoints[_diagonal - 1] >= reversePoints[_diagonal + 1]) { // Horizontal line (the element is a deletion)) originalIndex = reversePoints[_diagonal + 1] - 1; modifiedIndex = originalIndex - diagonalRelative - diagonalReverseOffset; if (originalIndex > lastOriginalIndex) { changeHelper.MarkNextChange(); } lastOriginalIndex = originalIndex + 1; changeHelper.AddOriginalElement(originalIndex + 1, modifiedIndex + 1); diagonalRelative = _diagonal + 1 - diagonalReverseBase; //Setup for the next iteration } else { // Vertical line (the element is an insertion) originalIndex = reversePoints[_diagonal - 1]; modifiedIndex = originalIndex - diagonalRelative - diagonalReverseOffset; if (originalIndex > lastOriginalIndex) { changeHelper.MarkNextChange(); } lastOriginalIndex = originalIndex; changeHelper.AddModifiedElement(originalIndex + 1, modifiedIndex + 1); diagonalRelative = _diagonal - 1 - diagonalReverseBase; //Setup for the next iteration } if (historyIndex >= 0) { reversePoints = this.m_reverseHistory[historyIndex]; diagonalReverseBase = reversePoints[0]; //We stored this in the first spot diagonalMin = 1; diagonalMax = reversePoints.length - 1; } } while (--historyIndex >= -1); // There are cases where the reverse history will find diffs that // are correct, but not intuitive, so we need shift them. reverseChanges = changeHelper.getChanges(); } return this.ConcatenateChanges(forwardChanges, reverseChanges); } /** * Given the range to compute the diff on, this method finds the point: * (midOriginal, midModified) * that exists in the middle of the LCS of the two sequences and * is the point at which the LCS problem may be broken down recursively. * This method will try to keep the LCS trace in memory. If the LCS recursion * point is calculated and the full trace is available in memory, then this method * will return the change list. * @param originalStart The start bound of the original sequence range * @param originalEnd The end bound of the original sequence range * @param modifiedStart The start bound of the modified sequence range * @param modifiedEnd The end bound of the modified sequence range * @param midOriginal The middle point of the original sequence range * @param midModified The middle point of the modified sequence range * @returns The diff changes, if available, otherwise null */ }, { key: "ComputeRecursionPoint", value: function ComputeRecursionPoint(originalStart, originalEnd, modifiedStart, modifiedEnd, midOriginalArr, midModifiedArr, quitEarlyArr) { var originalIndex = 0, modifiedIndex = 0; var diagonalForwardStart = 0, diagonalForwardEnd = 0; var diagonalReverseStart = 0, diagonalReverseEnd = 0; // To traverse the edit graph and produce the proper LCS, our actual // start position is just outside the given boundary originalStart--; modifiedStart--; // We set these up to make the compiler happy, but they will // be replaced before we return with the actual recursion point midOriginalArr[0] = 0; midModifiedArr[0] = 0; // Clear out the history this.m_forwardHistory = []; this.m_reverseHistory = []; // Each cell in the two arrays corresponds to a diagonal in the edit graph. // The integer value in the cell represents the originalIndex of the furthest // reaching point found so far that ends in that diagonal. // The modifiedIndex can be computed mathematically from the originalIndex and the diagonal number. var maxDifferences = originalEnd - originalStart + (modifiedEnd - modifiedStart); var numDiagonals = maxDifferences + 1; var forwardPoints = new Int32Array(numDiagonals); var reversePoints = new Int32Array(numDiagonals); // diagonalForwardBase: Index into forwardPoints of the diagonal which passes through (originalStart, modifiedStart) // diagonalReverseBase: Index into reversePoints of the diagonal which passes through (originalEnd, modifiedEnd) var diagonalForwardBase = modifiedEnd - modifiedStart; var diagonalReverseBase = originalEnd - originalStart; // diagonalForwardOffset: Geometric offset which allows modifiedIndex to be computed from originalIndex and the // diagonal number (relative to diagonalForwardBase) // diagonalReverseOffset: Geometric offset which allows modifiedIndex to be computed from originalIndex and the // diagonal number (relative to diagonalReverseBase) var diagonalForwardOffset = originalStart - modifiedStart; var diagonalReverseOffset = originalEnd - modifiedEnd; // delta: The difference between the end diagonal and the start diagonal. This is used to relate diagonal numbers // relative to the start diagonal with diagonal numbers relative to the end diagonal. // The Even/Oddn-ness of this delta is important for determining when we should check for overlap var delta = diagonalReverseBase - diagonalForwardBase; var deltaIsEven = delta % 2 === 0; // Here we set up the start and end points as the furthest points found so far // in both the forward and reverse directions, respectively forwardPoints[diagonalForwardBase] = originalStart; reversePoints[diagonalReverseBase] = originalEnd; // Remember if we quit early, and thus need to do a best-effort result instead of a real result. quitEarlyArr[0] = false; // A couple of points: // --With this method, we iterate on the number of differences between the two sequences. // The more differences there actually are, the longer this will take. // --Also, as the number of differences increases, we have to search on diagonals further // away from the reference diagonal (which is diagonalForwardBase for forward, diagonalReverseBase for reverse). // --We extend on even diagonals (relative to the reference diagonal) only when numDifferences // is even and odd diagonals only when numDifferences is odd. for (var numDifferences = 1; numDifferences <= maxDifferences / 2 + 1; numDifferences++) { var furthestOriginalIndex = 0; var furthestModifiedIndex = 0; // Run the algorithm in the forward direction diagonalForwardStart = this.ClipDiagonalBound(diagonalForwardBase - numDifferences, numDifferences, diagonalForwardBase, numDiagonals); diagonalForwardEnd = this.ClipDiagonalBound(diagonalForwardBase + numDifferences, numDifferences, diagonalForwardBase, numDiagonals); for (var diagonal = diagonalForwardStart; diagonal <= diagonalForwardEnd; diagonal += 2) { // STEP 1: We extend the furthest reaching point in the present diagonal // by looking at the diagonals above and below and picking the one whose point // is further away from the start point (originalStart, modifiedStart) if (diagonal === diagonalForwardStart || diagonal < diagonalForwardEnd && forwardPoints[diagonal - 1] < forwardPoints[diagonal + 1]) { originalIndex = forwardPoints[diagonal + 1]; } else { originalIndex = forwardPoints[diagonal - 1] + 1; } modifiedIndex = originalIndex - (diagonal - diagonalForwardBase) - diagonalForwardOffset; // Save the current originalIndex so we can test for false overlap in step 3 var tempOriginalIndex = originalIndex; // STEP 2: We can continue to extend the furthest reaching point in the present diagonal // so long as the elements are equal. while (originalIndex < originalEnd && modifiedIndex < modifiedEnd && this.ElementsAreEqual(originalIndex + 1, modifiedIndex + 1)) { originalIndex++; modifiedIndex++; } forwardPoints[diagonal] = originalIndex; if (originalIndex + modifiedIndex > furthestOriginalIndex + furthestModifiedIndex) { furthestOriginalIndex = originalIndex; furthestModifiedIndex = modifiedIndex; } // STEP 3: If delta is odd (overlap first happens on forward when delta is odd) // and diagonal is in the range of reverse diagonals computed for numDifferences-1 // (the previous iteration; we haven't computed reverse diagonals for numDifferences yet) // then check for overlap. if (!deltaIsEven && Math.abs(diagonal - diagonalReverseBase) <= numDifferences - 1) { if (originalIndex >= reversePoints[diagonal]) { midOriginalArr[0] = originalIndex; midModifiedArr[0] = modifiedIndex; if (tempOriginalIndex <= reversePoints[diagonal] && 1447 /* MaxDifferencesHistory */ > 0 && numDifferences <= 1447 /* MaxDifferencesHistory */ + 1) { // BINGO! We overlapped, and we have the full trace in memory! return this.WALKTRACE(diagonalForwardBase, diagonalForwardStart, diagonalForwardEnd, diagonalForwardOffset, diagonalReverseBase, diagonalReverseStart, diagonalReverseEnd, diagonalReverseOffset, forwardPoints, reversePoints, originalIndex, originalEnd, midOriginalArr, modifiedIndex, modifiedEnd, midModifiedArr, deltaIsEven, quitEarlyArr); } else { // Either false overlap, or we didn't have enough memory for the full trace // Just return the recursion point return null; } } } } // Check to see if we should be quitting early, before moving on to the next iteration. var matchLengthOfLongest = (furthestOriginalIndex - originalStart + (furthestModifiedIndex - modifiedStart) - numDifferences) / 2; if (this.ContinueProcessingPredicate !== null && !this.ContinueProcessingPredicate(furthestOriginalIndex, matchLengthOfLongest)) { // We can't finish, so skip ahead to generating a result from what we have. quitEarlyArr[0] = true; // Use the furthest distance we got in the forward direction. midOriginalArr[0] = furthestOriginalIndex; midModifiedArr[0] = furthestModifiedIndex; if (matchLengthOfLongest > 0 && 1447 /* MaxDifferencesHistory */ > 0 && numDifferences <= 1447 /* MaxDifferencesHistory */ + 1) { // Enough of the history is in memory to walk it backwards return this.WALKTRACE(diagonalForwardBase, diagonalForwardStart, diagonalForwardEnd, diagonalForwardOffset, diagonalReverseBase, diagonalReverseStart, diagonalReverseEnd, diagonalReverseOffset, forwardPoints, reversePoints, originalIndex, originalEnd, midOriginalArr, modifiedIndex, modifiedEnd, midModifiedArr, deltaIsEven, quitEarlyArr); } else { // We didn't actually remember enough of the history. //Since we are quitting the diff early, we need to shift back the originalStart and modified start //back into the boundary limits since we decremented their value above beyond the boundary limit. originalStart++; modifiedStart++; return [new DiffChange(originalStart, originalEnd - originalStart + 1, modifiedStart, modifiedEnd - modifiedStart + 1)]; } } // Run the algorithm in the reverse direction diagonalReverseStart = this.ClipDiagonalBound(diagonalReverseBase - numDifferences, numDifferences, diagonalReverseBase, numDiagonals); diagonalReverseEnd = this.ClipDiagonalBound(diagonalReverseBase + numDifferences, numDifferences, diagonalReverseBase, numDiagonals); for (var _diagonal2 = diagonalReverseStart; _diagonal2 <= diagonalReverseEnd; _diagonal2 += 2) { // STEP 1: We extend the furthest reaching point in the present diagonal // by looking at the diagonals above and below and picking the one whose point // is further away from the start point (originalEnd, modifiedEnd) if (_diagonal2 === diagonalReverseStart || _diagonal2 < diagonalReverseEnd && reversePoints[_diagonal2 - 1] >= reversePoints[_diagonal2 + 1]) { originalIndex = reversePoints[_diagonal2 + 1] - 1; } else { originalIndex = reversePoints[_diagonal2 - 1]; } modifiedIndex = originalIndex - (_diagonal2 - diagonalReverseBase) - diagonalReverseOffset; // Save the current originalIndex so we can test for false overlap var _tempOriginalIndex = originalIndex; // STEP 2: We can continue to extend the furthest reaching point in the present diagonal // as long as the elements are equal. while (originalIndex > originalStart && modifiedIndex > modifiedStart && this.ElementsAreEqual(originalIndex, modifiedIndex)) { originalIndex--; modifiedIndex--; } reversePoints[_diagonal2] = originalIndex; // STEP 4: If delta is even (overlap first happens on reverse when delta is even) // and diagonal is in the range of forward diagonals computed for numDifferences // then check for overlap. if (deltaIsEven && Math.abs(_diagonal2 - diagonalForwardBase) <= numDifferences) { if (originalIndex <= forwardPoints[_diagonal2]) { midOriginalArr[0] = originalIndex; midModifiedArr[0] = modifiedIndex; if (_tempOriginalIndex >= forwardPoints[_diagonal2] && 1447 /* MaxDifferencesHistory */ > 0 && numDifferences <= 1447 /* MaxDifferencesHistory */ + 1) { // BINGO! We overlapped, and we have the full trace in memory! return this.WALKTRACE(diagonalForwardBase, diagonalForwardStart, diagonalForwardEnd, diagonalForwardOffset, diagonalReverseBase, diagonalReverseStart, diagonalReverseEnd, diagonalReverseOffset, forwardPoints, reversePoints, originalIndex, originalEnd, midOriginalArr, modifiedIndex, modifiedEnd, midModifiedArr, deltaIsEven, quitEarlyArr); } else { // Either false overlap, or we didn't have enough memory for the full trace // Just return the recursion point return null; } } } } // Save current vectors to history before the next iteration if (numDifferences <= 1447 /* MaxDifferencesHistory */) { // We are allocating space for one extra int, which we fill with // the index of the diagonal base index var temp = new Int32Array(diagonalForwardEnd - diagonalForwardStart + 2); temp[0] = diagonalForwardBase - diagonalForwardStart + 1; MyArray.Copy2(forwardPoints, diagonalForwardStart, temp, 1, diagonalForwardEnd - diagonalForwardStart + 1); this.m_forwardHistory.push(temp); temp = new Int32Array(diagonalReverseEnd - diagonalReverseStart + 2); temp[0] = diagonalReverseBase - diagonalReverseStart + 1; MyArray.Copy2(reversePoints, diagonalReverseStart, temp, 1, diagonalReverseEnd - diagonalReverseStart + 1); this.m_reverseHistory.push(temp); } } // If we got here, then we have the full trace in history. We just have to convert it to a change list // NOTE: This part is a bit messy return this.WALKTRACE(diagonalForwardBase, diagonalForwardStart, diagonalForwardEnd, diagonalForwardOffset, diagonalReverseBase, diagonalReverseStart, diagonalReverseEnd, diagonalReverseOffset, forwardPoints, reversePoints, originalIndex, originalEnd, midOriginalArr, modifiedIndex, modifiedEnd, midModifiedArr, deltaIsEven, quitEarlyArr); } /** * Shifts the given changes to provide a more intuitive diff. * While the first element in a diff matches the first element after the diff, * we shift the diff down. * * @param changes The list of changes to shift * @returns The shifted changes */ }, { key: "PrettifyChanges", value: function PrettifyChanges(changes) { // Shift all the changes down first for (var i = 0; i < changes.length; i++) { var change = changes[i]; var originalStop = i < changes.length - 1 ? changes[i + 1].originalStart : this._originalElementsOrHash.length; var modifiedStop = i < changes.length - 1 ? changes[i + 1].modifiedStart : this._modifiedElementsOrHash.length; var checkOriginal = change.originalLength > 0; var checkModified = change.modifiedLength > 0; while (change.originalStart + change.originalLength < originalStop && change.modifiedStart + change.modifiedLength < modifiedStop && (!checkOriginal || this.OriginalElementsAreEqual(change.originalStart, change.originalStart + change.originalLength)) && (!checkModified || this.ModifiedElementsAreEqual(change.modifiedStart, change.modifiedStart + change.modifiedLength))) { var startStrictEqual = this.ElementsAreStrictEqual(change.originalStart, change.modifiedStart); var endStrictEqual = this.ElementsAreStrictEqual(change.originalStart + change.originalLength, change.modifiedStart + change.modifiedLength); if (endStrictEqual && !startStrictEqual) { // moving the change down would create an equal change, but the elements are not strict equal break; } change.originalStart++; change.modifiedStart++; } var mergedChangeArr = [null]; if (i < changes.length - 1 && this.ChangesOverlap(changes[i], changes[i + 1], mergedChangeArr)) { changes[i] = mergedChangeArr[0]; changes.splice(i + 1, 1); i--; continue; } } // Shift changes back up until we hit empty or whitespace-only lines for (var _i = changes.length - 1; _i >= 0; _i--) { var _change = changes[_i]; var _originalStop = 0; var _modifiedStop = 0; if (_i > 0) { var prevChange = changes[_i - 1]; _originalStop = prevChange.originalStart + prevChange.originalLength; _modifiedStop = prevChange.modifiedStart + prevChange.modifiedLength; } var _checkOriginal = _change.originalLength > 0; var _checkModified = _change.modifiedLength > 0; var bestDelta = 0; var bestScore = this._boundaryScore(_change.originalStart, _change.originalLength, _change.modifiedStart, _change.modifiedLength); for (var delta = 1;; delta++) { var originalStart = _change.originalStart - delta; var modifiedStart = _change.modifiedStart - delta; if (originalStart < _originalStop || modifiedStart < _modifiedStop) { break; } if (_checkOriginal && !this.OriginalElementsAreEqual(originalStart, originalStart + _change.originalLength)) { break; } if (_checkModified && !this.ModifiedElementsAreEqual(modifiedStart, modifiedStart + _change.modifiedLength)) { break; } var touchingPreviousChange = originalStart === _originalStop && modifiedStart === _modifiedStop; var score = (touchingPreviousChange ? 5 : 0) + this._boundaryScore(originalStart, _change.originalLength, modifiedStart, _change.modifiedLength); if (score > bestScore) { bestScore = score; bestDelta = delta; } } _change.originalStart -= bestDelta; _change.modifiedStart -= bestDelta; var _mergedChangeArr = [null]; if (_i > 0 && this.ChangesOverlap(changes[_i - 1], changes[_i], _mergedChangeArr)) { changes[_i - 1] = _mergedChangeArr[0]; changes.splice(_i, 1); _i++; continue; } } // There could be multiple longest common substrings. // Give preference to the ones containing longer lines if (this._hasStrings) { for (var _i2 = 1, len = changes.length; _i2 < len; _i2++) { var aChange = changes[_i2 - 1]; var bChange = changes[_i2]; var matchedLength = bChange.originalStart - aChange.originalStart - aChange.originalLength; var aOriginalStart = aChange.originalStart; var bOriginalEnd = bChange.originalStart + bChange.originalLength; var abOriginalLength = bOriginalEnd - aOriginalStart; var aModifiedStart = aChange.modifiedStart; var bModifiedEnd = bChange.modifiedStart + bChange.modifiedLength; var abModifiedLength = bModifiedEnd - aModifiedStart; // Avoid wasting a lot of time with these searches if (matchedLength < 5 && abOriginalLength < 20 && abModifiedLength < 20) { var t = this._findBetterContiguousSequence(aOriginalStart, abOriginalLength, aModifiedStart, abModifiedLength, matchedLength); if (t) { var _t = slicedToArray_default()(t, 2), originalMatchStart = _t[0], modifiedMatchStart = _t[1]; if (originalMatchStart !== aChange.originalStart + aChange.originalLength || modifiedMatchStart !== aChange.modifiedStart + aChange.modifiedLength) { // switch to another sequence that has a better score aChange.originalLength = originalMatchStart - aChange.originalStart; aChange.modifiedLength = modifiedMatchStart - aChange.modifiedStart; bChange.originalStart = originalMatchStart + matchedLength; bChange.modifiedStart = modifiedMatchStart + matchedLength; bChange.originalLength = bOriginalEnd - bChange.originalStart; bChange.modifiedLength = bModifiedEnd - bChange.modifiedStart; } } } } } return changes; } }, { key: "_findBetterContiguousSequence", value: function _findBetterContiguousSequence(originalStart, originalLength, modifiedStart, modifiedLength, desiredLength) { if (originalLength < desiredLength || modifiedLength < desiredLength) { return null; } var originalMax = originalStart + originalLength - desiredLength + 1; var modifiedMax = modifiedStart + modifiedLength - desiredLength + 1; var bestScore = 0; var bestOriginalStart = 0; var bestModifiedStart = 0; for (var i = originalStart; i < originalMax; i++) { for (var j = modifiedStart; j < modifiedMax; j++) { var score = this._contiguousSequenceScore(i, j, desiredLength); if (score > 0 && score > bestScore) { bestScore = score; bestOriginalStart = i; bestModifiedStart = j; } } } if (bestScore > 0) { return [bestOriginalStart, bestModifiedStart]; } return null; } }, { key: "_contiguousSequenceScore", value: function _contiguousSequenceScore(originalStart, modifiedStart, length) { var score = 0; for (var l = 0; l < length; l++) { if (!this.ElementsAreEqual(originalStart + l, modifiedStart + l)) { return 0; } score += this._originalStringElements[originalStart + l].length; } return score; } }, { key: "_OriginalIsBoundary", value: function _OriginalIsBoundary(index) { if (index <= 0 || index >= this._originalElementsOrHash.length - 1) { return true; } return this._hasStrings && /^\s*$/.test(this._originalStringElements[index]); } }, { key: "_OriginalRegionIsBoundary", value: function _OriginalRegionIsBoundary(originalStart, originalLength) { if (this._OriginalIsBoundary(originalStart) || this._OriginalIsBoundary(originalStart - 1)) { return true; } if (originalLength > 0) { var originalEnd = originalStart + originalLength; if (this._OriginalIsBoundary(originalEnd - 1) || this._OriginalIsBoundary(originalEnd)) { return true; } } return false; } }, { key: "_ModifiedIsBoundary", value: function _ModifiedIsBoundary(index) { if (index <= 0 || index >= this._modifiedElementsOrHash.length - 1) { return true; } return this._hasStrings && /^\s*$/.test(this._modifiedStringElements[index]); } }, { key: "_ModifiedRegionIsBoundary", value: function _ModifiedRegionIsBoundary(modifiedStart, modifiedLength) { if (this._ModifiedIsBoundary(modifiedStart) || this._ModifiedIsBoundary(modifiedStart - 1)) { return true; } if (modifiedLength > 0) { var modifiedEnd = modifiedStart + modifiedLength; if (this._ModifiedIsBoundary(modifiedEnd - 1) || this._ModifiedIsBoundary(modifiedEnd)) { return true; } } return false; } }, { key: "_boundaryScore", value: function _boundaryScore(originalStart, originalLength, modifiedStart, modifiedLength) { var originalScore = this._OriginalRegionIsBoundary(originalStart, originalLength) ? 1 : 0; var modifiedScore = this._ModifiedRegionIsBoundary(modifiedStart, modifiedLength) ? 1 : 0; return originalScore + modifiedScore; } /** * Concatenates the two input DiffChange lists and returns the resulting * list. * @param The left changes * @param The right changes * @returns The concatenated list */ }, { key: "ConcatenateChanges", value: function ConcatenateChanges(left, right) { var mergedChangeArr = []; if (left.length === 0 || right.length === 0) { return right.length > 0 ? right : left; } else if (this.ChangesOverlap(left[left.length - 1], right[0], mergedChangeArr)) { // Since we break the problem down recursively, it is possible that we // might recurse in the middle of a change thereby splitting it into // two changes. Here in the combining stage, we detect and fuse those // changes back together var result = new Array(left.length + right.length - 1); MyArray.Copy(left, 0, result, 0, left.length - 1); result[left.length - 1] = mergedChangeArr[0]; MyArray.Copy(right, 1, result, left.length, right.length - 1); return result; } else { var _result = new Array(left.length + right.length); MyArray.Copy(left, 0, _result, 0, left.length); MyArray.Copy(right, 0, _result, left.length, right.length); return _result; } } /** * Returns true if the two changes overlap and can be merged into a single * change * @param left The left change * @param right The right change * @param mergedChange The merged change if the two overlap, null otherwise * @returns True if the two changes overlap */ }, { key: "ChangesOverlap", value: function ChangesOverlap(left, right, mergedChangeArr) { Debug.Assert(left.originalStart <= right.originalStart, 'Left change is not less than or equal to right change'); Debug.Assert(left.modifiedStart <= right.modifiedStart, 'Left change is not less than or equal to right change'); if (left.originalStart + left.originalLength >= right.originalStart || left.modifiedStart + left.modifiedLength >= right.modifiedStart) { var originalStart = left.originalStart; var originalLength = left.originalLength; var modifiedStart = left.modifiedStart; var modifiedLength = left.modifiedLength; if (left.originalStart + left.originalLength >= right.originalStart) { originalLength = right.originalStart + right.originalLength - left.originalStart; } if (left.modifiedStart + left.modifiedLength >= right.modifiedStart) { modifiedLength = right.modifiedStart + right.modifiedLength - left.modifiedStart; } mergedChangeArr[0] = new DiffChange(originalStart, originalLength, modifiedStart, modifiedLength); return true; } else { mergedChangeArr[0] = null; return false; } } /** * Helper method used to clip a diagonal index to the range of valid * diagonals. This also decides whether or not the diagonal index, * if it exceeds the boundary, should be clipped to the boundary or clipped * one inside the boundary depending on the Even/Odd status of the boundary * and numDifferences. * @param diagonal The index of the diagonal to clip. * @param numDifferences The current number of differences being iterated upon. * @param diagonalBaseIndex The base reference diagonal. * @param numDiagonals The total number of diagonals. * @returns The clipped diagonal index. */ }, { key: "ClipDiagonalBound", value: function ClipDiagonalBound(diagonal, numDifferences, diagonalBaseIndex, numDiagonals) { if (diagonal >= 0 && diagonal < numDiagonals) { // Nothing to clip, its in range return diagonal; } // diagonalsBelow: The number of diagonals below the reference diagonal // diagonalsAbove: The number of diagonals above the reference diagonal var diagonalsBelow = diagonalBaseIndex; var diagonalsAbove = numDiagonals - diagonalBaseIndex - 1; var diffEven = numDifferences % 2 === 0; if (diagonal < 0) { var lowerBoundEven = diagonalsBelow % 2 === 0; return diffEven === lowerBoundEven ? 0 : 1; } else { var upperBoundEven = diagonalsAbove % 2 === 0; return diffEven === upperBoundEven ? numDiagonals - 1 : numDiagonals - 2; } } }], [{ key: "_isStringArray", value: function _isStringArray(arr) { return arr.length > 0 && typeof arr[0] === 'string'; } }, { key: "_getElements", value: function _getElements(sequence) { var elements = sequence.getElements(); if (LcsDiff._isStringArray(elements)) { var hashes = new Int32Array(elements.length); for (var i = 0, len = elements.length; i < len; i++) { hashes[i] = stringHash(elements[i], 0); } return [elements, hashes, true]; } if (elements instanceof Int32Array) { return [[], elements, false]; } return [[], new Int32Array(elements), false]; } }, { key: "_getStrictElement", value: function _getStrictElement(sequence, index) { if (typeof sequence.getStrictElement === 'function') { return sequence.getStrictElement(index); } return null; } }]); return LcsDiff; }(); ;// CONCATENATED MODULE: ./node_modules/monaco-editor/esm/vs/base/common/process.js /* provided dependency */ var process_process = __webpack_require__(/*! ./node_modules/process/browser.js */ 89); /*--------------------------------------------------------------------------------------------- * Copyright (c) Microsoft Corporation. All rights reserved. * Licensed under the MIT License. See License.txt in the project root for license information. *--------------------------------------------------------------------------------------------*/ var safeProcess; // Native sandbox environment if (typeof platform_globals.vscode !== 'undefined' && typeof platform_globals.vscode.process !== 'undefined') { var sandboxProcess = platform_globals.vscode.process; safeProcess = { get platform() { return sandboxProcess.platform; }, get arch() { return sandboxProcess.arch; }, get env() { return sandboxProcess.env; }, cwd: function cwd() { return sandboxProcess.cwd(); }, nextTick: function nextTick(callback) { return setImmediate(callback); } }; } // Native node.js environment else if (typeof process_process !== 'undefined') { safeProcess = { get platform() { return process_process.platform; }, get arch() { return process_process.arch; }, get env() { return ({"NODE_ENV":"production","PUBLIC_PATH":"https://www-cdn.educoder.net/"}); }, cwd: function cwd() { return ({"NODE_ENV":"production","PUBLIC_PATH":"https://www-cdn.educoder.net/"})['VSCODE_CWD'] || process_process.cwd(); }, nextTick: function nextTick(callback) { return process_process.nextTick(callback); } }; } // Web environment else { safeProcess = { // Supported get platform() { return isWindows ? 'win32' : isMacintosh ? 'darwin' : 'linux'; }, get arch() { return undefined; /* arch is undefined in web */ }, nextTick: function nextTick(callback) { return setImmediate(callback); }, // Unsupported get env() { return {}; }, cwd: function cwd() { return '/'; } }; } /** * Provides safe access to the `cwd` property in node.js, sandboxed or web * environments. * * Note: in web, this property is hardcoded to be `/`. */ var cwd = safeProcess.cwd; /** * Provides safe access to the `env` property in node.js, sandboxed or web * environments. * * Note: in web, this property is hardcoded to be `{}`. */ var env = safeProcess.env; /** * Provides safe access to the `platform` property in node.js, sandboxed or web * environments. */ var platform = safeProcess.platform; ;// CONCATENATED MODULE: ./node_modules/monaco-editor/esm/vs/base/common/path.js /*--------------------------------------------------------------------------------------------- * Copyright (c) Microsoft Corporation. All rights reserved. * Licensed under the MIT License. See License.txt in the project root for license information. *--------------------------------------------------------------------------------------------*/ // NOTE: VSCode's copy of nodejs path library to be usable in common (non-node) namespace // Copied from: https://github.com/nodejs/node/blob/v14.16.0/lib/path.js /** * Copyright Joyent, Inc. and other Node contributors. * * Permission is hereby granted, free of charge, to any person obtaining a * copy of this software and associated documentation files (the * "Software"), to deal in the Software without restriction, including * without limitation the rights to use, copy, modify, merge, publish, * distribute, sublicense, and/or sell copies of the Software, and to permit * persons to whom the Software is furnished to do so, subject to the * following conditions: * * The above copyright notice and this permission notice shall be included * in all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS * OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN * NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, * DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR * OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE * USE OR OTHER DEALINGS IN THE SOFTWARE. */ var CHAR_UPPERCASE_A = 65; /* A */ var CHAR_LOWERCASE_A = 97; /* a */ var CHAR_UPPERCASE_Z = 90; /* Z */ var CHAR_LOWERCASE_Z = 122; /* z */ var CHAR_DOT = 46; /* . */ var CHAR_FORWARD_SLASH = 47; /* / */ var CHAR_BACKWARD_SLASH = 92; /* \ */ var CHAR_COLON = 58; /* : */ var CHAR_QUESTION_MARK = 63; /* ? */ var ErrorInvalidArgType = /*#__PURE__*/function (_Error) { inherits_default()(ErrorInvalidArgType, _Error); var _super = createSuper_default()(ErrorInvalidArgType); function ErrorInvalidArgType(name, expected, actual) { var _this; classCallCheck_default()(this, ErrorInvalidArgType); // determiner: 'must be' or 'must not be' var determiner; if (typeof expected === 'string' && expected.indexOf('not ') === 0) { determiner = 'must not be'; expected = expected.replace(/^not /, ''); } else { determiner = 'must be'; } var type = name.indexOf('.') !== -1 ? 'property' : 'argument'; var msg = "The \"".concat(name, "\" ").concat(type, " ").concat(determiner, " of type ").concat(expected); msg += ". Received type ".concat(typeof_default()(actual)); _this = _super.call(this, msg); _this.code = 'ERR_INVALID_ARG_TYPE'; return _this; } return createClass_default()(ErrorInvalidArgType); }( /*#__PURE__*/wrapNativeSuper_default()(Error)); function validateString(value, name) { if (typeof value !== 'string') { throw new ErrorInvalidArgType(name, 'string', value); } } function isPathSeparator(code) { return code === CHAR_FORWARD_SLASH || code === CHAR_BACKWARD_SLASH; } function isPosixPathSeparator(code) { return code === CHAR_FORWARD_SLASH; } function isWindowsDeviceRoot(code) { return code >= CHAR_UPPERCASE_A && code <= CHAR_UPPERCASE_Z || code >= CHAR_LOWERCASE_A && code <= CHAR_LOWERCASE_Z; } // Resolves . and .. elements in a path with directory names function normalizeString(path, allowAboveRoot, separator, isPathSeparator) { var res = ''; var lastSegmentLength = 0; var lastSlash = -1; var dots = 0; var code = 0; for (var i = 0; i <= path.length; ++i) { if (i < path.length) { code = path.charCodeAt(i); } else if (isPathSeparator(code)) { break; } else { code = CHAR_FORWARD_SLASH; } if (isPathSeparator(code)) { if (lastSlash === i - 1 || dots === 1) { // NOOP } else if (dots === 2) { if (res.length < 2 || lastSegmentLength !== 2 || res.charCodeAt(res.length - 1) !== CHAR_DOT || res.charCodeAt(res.length - 2) !== CHAR_DOT) { if (res.length > 2) { var lastSlashIndex = res.lastIndexOf(separator); if (lastSlashIndex === -1) { res = ''; lastSegmentLength = 0; } else { res = res.slice(0, lastSlashIndex); lastSegmentLength = res.length - 1 - res.lastIndexOf(separator); } lastSlash = i; dots = 0; continue; } else if (res.length !== 0) { res = ''; lastSegmentLength = 0; lastSlash = i; dots = 0; continue; } } if (allowAboveRoot) { res += res.length > 0 ? "".concat(separator, "..") : '..'; lastSegmentLength = 2; } } else { if (res.length > 0) { res += "".concat(separator).concat(path.slice(lastSlash + 1, i)); } else { res = path.slice(lastSlash + 1, i); } lastSegmentLength = i - lastSlash - 1; } lastSlash = i; dots = 0; } else if (code === CHAR_DOT && dots !== -1) { ++dots; } else { dots = -1; } } return res; } function _format(sep, pathObject) { if (pathObject === null || typeof_default()(pathObject) !== 'object') { throw new ErrorInvalidArgType('pathObject', 'Object', pathObject); } var dir = pathObject.dir || pathObject.root; var base = pathObject.base || "".concat(pathObject.name || '').concat(pathObject.ext || ''); if (!dir) { return base; } return dir === pathObject.root ? "".concat(dir).concat(base) : "".concat(dir).concat(sep).concat(base); } var win32 = { // path.resolve([from ...], to) resolve: function resolve() { var resolvedDevice = ''; var resolvedTail = ''; var resolvedAbsolute = false; for (var i = arguments.length - 1; i >= -1; i--) { var path = void 0; if (i >= 0) { path = i < 0 || arguments.length <= i ? undefined : arguments[i]; validateString(path, 'path'); // Skip empty entries if (path.length === 0) { continue; } } else if (resolvedDevice.length === 0) { path = cwd(); } else { // Windows has the concept of drive-specific current working // directories. If we've resolved a drive letter but not yet an // absolute path, get cwd for that drive, or the process cwd if // the drive cwd is not available. We're sure the device is not // a UNC path at this points, because UNC paths are always absolute. path = ({"NODE_ENV":"production","PUBLIC_PATH":"https://www-cdn.educoder.net/"})["=".concat(resolvedDevice)] || cwd(); // Verify that a cwd was found and that it actually points // to our drive. If not, default to the drive's root. if (path === undefined || path.slice(0, 2).toLowerCase() !== resolvedDevice.toLowerCase() && path.charCodeAt(2) === CHAR_BACKWARD_SLASH) { path = "".concat(resolvedDevice, "\\"); } } var len = path.length; var rootEnd = 0; var device = ''; var isAbsolute = false; var code = path.charCodeAt(0); // Try to match a root if (len === 1) { if (isPathSeparator(code)) { // `path` contains just a path separator rootEnd = 1; isAbsolute = true; } } else if (isPathSeparator(code)) { // Possible UNC root // If we started with a separator, we know we at least have an // absolute path of some kind (UNC or otherwise) isAbsolute = true; if (isPathSeparator(path.charCodeAt(1))) { // Matched double path separator at beginning var j = 2; var last = j; // Match 1 or more non-path separators while (j < len && !isPathSeparator(path.charCodeAt(j))) { j++; } if (j < len && j !== last) { var firstPart = path.slice(last, j); // Matched! last = j; // Match 1 or more path separators while (j < len && isPathSeparator(path.charCodeAt(j))) { j++; } if (j < len && j !== last) { // Matched! last = j; // Match 1 or more non-path separators while (j < len && !isPathSeparator(path.charCodeAt(j))) { j++; } if (j === len || j !== last) { // We matched a UNC root device = "\\\\".concat(firstPart, "\\").concat(path.slice(last, j)); rootEnd = j; } } } } else { rootEnd = 1; } } else if (isWindowsDeviceRoot(code) && path.charCodeAt(1) === CHAR_COLON) { // Possible device root device = path.slice(0, 2); rootEnd = 2; if (len > 2 && isPathSeparator(path.charCodeAt(2))) { // Treat separator following drive name as an absolute path // indicator isAbsolute = true; rootEnd = 3; } } if (device.length > 0) { if (resolvedDevice.length > 0) { if (device.toLowerCase() !== resolvedDevice.toLowerCase()) { // This path points to another device so it is not applicable continue; } } else { resolvedDevice = device; } } if (resolvedAbsolute) { if (resolvedDevice.length > 0) { break; } } else { resolvedTail = "".concat(path.slice(rootEnd), "\\").concat(resolvedTail); resolvedAbsolute = isAbsolute; if (isAbsolute && resolvedDevice.length > 0) { break; } } } // At this point the path should be resolved to a full absolute path, // but handle relative paths to be safe (might happen when process.cwd() // fails) // Normalize the tail path resolvedTail = normalizeString(resolvedTail, !resolvedAbsolute, '\\', isPathSeparator); return resolvedAbsolute ? "".concat(resolvedDevice, "\\").concat(resolvedTail) : "".concat(resolvedDevice).concat(resolvedTail) || '.'; }, normalize: function normalize(path) { validateString(path, 'path'); var len = path.length; if (len === 0) { return '.'; } var rootEnd = 0; var device; var isAbsolute = false; var code = path.charCodeAt(0); // Try to match a root if (len === 1) { // `path` contains just a single char, exit early to avoid // unnecessary work return isPosixPathSeparator(code) ? '\\' : path; } if (isPathSeparator(code)) { // Possible UNC root // If we started with a separator, we know we at least have an absolute // path of some kind (UNC or otherwise) isAbsolute = true; if (isPathSeparator(path.charCodeAt(1))) { // Matched double path separator at beginning var j = 2; var last = j; // Match 1 or more non-path separators while (j < len && !isPathSeparator(path.charCodeAt(j))) { j++; } if (j < len && j !== last) { var firstPart = path.slice(last, j); // Matched! last = j; // Match 1 or more path separators while (j < len && isPathSeparator(path.charCodeAt(j))) { j++; } if (j < len && j !== last) { // Matched! last = j; // Match 1 or more non-path separators while (j < len && !isPathSeparator(path.charCodeAt(j))) { j++; } if (j === len) { // We matched a UNC root only // Return the normalized version of the UNC root since there // is nothing left to process return "\\\\".concat(firstPart, "\\").concat(path.slice(last), "\\"); } if (j !== last) { // We matched a UNC root with leftovers device = "\\\\".concat(firstPart, "\\").concat(path.slice(last, j)); rootEnd = j; } } } } else { rootEnd = 1; } } else if (isWindowsDeviceRoot(code) && path.charCodeAt(1) === CHAR_COLON) { // Possible device root device = path.slice(0, 2); rootEnd = 2; if (len > 2 && isPathSeparator(path.charCodeAt(2))) { // Treat separator following drive name as an absolute path // indicator isAbsolute = true; rootEnd = 3; } } var tail = rootEnd < len ? normalizeString(path.slice(rootEnd), !isAbsolute, '\\', isPathSeparator) : ''; if (tail.length === 0 && !isAbsolute) { tail = '.'; } if (tail.length > 0 && isPathSeparator(path.charCodeAt(len - 1))) { tail += '\\'; } if (device === undefined) { return isAbsolute ? "\\".concat(tail) : tail; } return isAbsolute ? "".concat(device, "\\").concat(tail) : "".concat(device).concat(tail); }, isAbsolute: function isAbsolute(path) { validateString(path, 'path'); var len = path.length; if (len === 0) { return false; } var code = path.charCodeAt(0); return isPathSeparator(code) || // Possible device root len > 2 && isWindowsDeviceRoot(code) && path.charCodeAt(1) === CHAR_COLON && isPathSeparator(path.charCodeAt(2)); }, join: function join() { if (arguments.length === 0) { return '.'; } var joined; var firstPart; for (var i = 0; i < arguments.length; ++i) { var arg = i < 0 || arguments.length <= i ? undefined : arguments[i]; validateString(arg, 'path'); if (arg.length > 0) { if (joined === undefined) { joined = firstPart = arg; } else { joined += "\\".concat(arg); } } } if (joined === undefined) { return '.'; } // Make sure that the joined path doesn't start with two slashes, because // normalize() will mistake it for a UNC path then. // // This step is skipped when it is very clear that the user actually // intended to point at a UNC path. This is assumed when the first // non-empty string arguments starts with exactly two slashes followed by // at least one more non-slash character. // // Note that for normalize() to treat a path as a UNC path it needs to // have at least 2 components, so we don't filter for that here. // This means that the user can use join to construct UNC paths from // a server name and a share name; for example: // path.join('//server', 'share') -> '\\\\server\\share\\') var needsReplace = true; var slashCount = 0; if (typeof firstPart === 'string' && isPathSeparator(firstPart.charCodeAt(0))) { ++slashCount; var firstLen = firstPart.length; if (firstLen > 1 && isPathSeparator(firstPart.charCodeAt(1))) { ++slashCount; if (firstLen > 2) { if (isPathSeparator(firstPart.charCodeAt(2))) { ++slashCount; } else { // We matched a UNC path in the first part needsReplace = false; } } } } if (needsReplace) { // Find any more consecutive slashes we need to replace while (slashCount < joined.length && isPathSeparator(joined.charCodeAt(slashCount))) { slashCount++; } // Replace the slashes if needed if (slashCount >= 2) { joined = "\\".concat(joined.slice(slashCount)); } } return win32.normalize(joined); }, // It will solve the relative path from `from` to `to`, for instance: // from = 'C:\\orandea\\test\\aaa' // to = 'C:\\orandea\\impl\\bbb' // The output of the function should be: '..\\..\\impl\\bbb' relative: function relative(from, to) { validateString(from, 'from'); validateString(to, 'to'); if (from === to) { return ''; } var fromOrig = win32.resolve(from); var toOrig = win32.resolve(to); if (fromOrig === toOrig) { return ''; } from = fromOrig.toLowerCase(); to = toOrig.toLowerCase(); if (from === to) { return ''; } // Trim any leading backslashes var fromStart = 0; while (fromStart < from.length && from.charCodeAt(fromStart) === CHAR_BACKWARD_SLASH) { fromStart++; } // Trim trailing backslashes (applicable to UNC paths only) var fromEnd = from.length; while (fromEnd - 1 > fromStart && from.charCodeAt(fromEnd - 1) === CHAR_BACKWARD_SLASH) { fromEnd--; } var fromLen = fromEnd - fromStart; // Trim any leading backslashes var toStart = 0; while (toStart < to.length && to.charCodeAt(toStart) === CHAR_BACKWARD_SLASH) { toStart++; } // Trim trailing backslashes (applicable to UNC paths only) var toEnd = to.length; while (toEnd - 1 > toStart && to.charCodeAt(toEnd - 1) === CHAR_BACKWARD_SLASH) { toEnd--; } var toLen = toEnd - toStart; // Compare paths to find the longest common path from root var length = fromLen < toLen ? fromLen : toLen; var lastCommonSep = -1; var i = 0; for (; i < length; i++) { var fromCode = from.charCodeAt(fromStart + i); if (fromCode !== to.charCodeAt(toStart + i)) { break; } else if (fromCode === CHAR_BACKWARD_SLASH) { lastCommonSep = i; } } // We found a mismatch before the first common path separator was seen, so // return the original `to`. if (i !== length) { if (lastCommonSep === -1) { return toOrig; } } else { if (toLen > length) { if (to.charCodeAt(toStart + i) === CHAR_BACKWARD_SLASH) { // We get here if `from` is the exact base path for `to`. // For example: from='C:\\foo\\bar'; to='C:\\foo\\bar\\baz' return toOrig.slice(toStart + i + 1); } if (i === 2) { // We get here if `from` is the device root. // For example: from='C:\\'; to='C:\\foo' return toOrig.slice(toStart + i); } } if (fromLen > length) { if (from.charCodeAt(fromStart + i) === CHAR_BACKWARD_SLASH) { // We get here if `to` is the exact base path for `from`. // For example: from='C:\\foo\\bar'; to='C:\\foo' lastCommonSep = i; } else if (i === 2) { // We get here if `to` is the device root. // For example: from='C:\\foo\\bar'; to='C:\\' lastCommonSep = 3; } } if (lastCommonSep === -1) { lastCommonSep = 0; } } var out = ''; // Generate the relative path based on the path difference between `to` and // `from` for (i = fromStart + lastCommonSep + 1; i <= fromEnd; ++i) { if (i === fromEnd || from.charCodeAt(i) === CHAR_BACKWARD_SLASH) { out += out.length === 0 ? '..' : '\\..'; } } toStart += lastCommonSep; // Lastly, append the rest of the destination (`to`) path that comes after // the common path parts if (out.length > 0) { return "".concat(out).concat(toOrig.slice(toStart, toEnd)); } if (toOrig.charCodeAt(toStart) === CHAR_BACKWARD_SLASH) { ++toStart; } return toOrig.slice(toStart, toEnd); }, toNamespacedPath: function toNamespacedPath(path) { // Note: this will *probably* throw somewhere. if (typeof path !== 'string') { return path; } if (path.length === 0) { return ''; } var resolvedPath = win32.resolve(path); if (resolvedPath.length <= 2) { return path; } if (resolvedPath.charCodeAt(0) === CHAR_BACKWARD_SLASH) { // Possible UNC root if (resolvedPath.charCodeAt(1) === CHAR_BACKWARD_SLASH) { var code = resolvedPath.charCodeAt(2); if (code !== CHAR_QUESTION_MARK && code !== CHAR_DOT) { // Matched non-long UNC root, convert the path to a long UNC path return "\\\\?\\UNC\\".concat(resolvedPath.slice(2)); } } } else if (isWindowsDeviceRoot(resolvedPath.charCodeAt(0)) && resolvedPath.charCodeAt(1) === CHAR_COLON && resolvedPath.charCodeAt(2) === CHAR_BACKWARD_SLASH) { // Matched device root, convert the path to a long UNC path return "\\\\?\\".concat(resolvedPath); } return path; }, dirname: function dirname(path) { validateString(path, 'path'); var len = path.length; if (len === 0) { return '.'; } var rootEnd = -1; var offset = 0; var code = path.charCodeAt(0); if (len === 1) { // `path` contains just a path separator, exit early to avoid // unnecessary work or a dot. return isPathSeparator(code) ? path : '.'; } // Try to match a root if (isPathSeparator(code)) { // Possible UNC root rootEnd = offset = 1; if (isPathSeparator(path.charCodeAt(1))) { // Matched double path separator at beginning var j = 2; var last = j; // Match 1 or more non-path separators while (j < len && !isPathSeparator(path.charCodeAt(j))) { j++; } if (j < len && j !== last) { // Matched! last = j; // Match 1 or more path separators while (j < len && isPathSeparator(path.charCodeAt(j))) { j++; } if (j < len && j !== last) { // Matched! last = j; // Match 1 or more non-path separators while (j < len && !isPathSeparator(path.charCodeAt(j))) { j++; } if (j === len) { // We matched a UNC root only return path; } if (j !== last) { // We matched a UNC root with leftovers // Offset by 1 to include the separator after the UNC root to // treat it as a "normal root" on top of a (UNC) root rootEnd = offset = j + 1; } } } } // Possible device root } else if (isWindowsDeviceRoot(code) && path.charCodeAt(1) === CHAR_COLON) { rootEnd = len > 2 && isPathSeparator(path.charCodeAt(2)) ? 3 : 2; offset = rootEnd; } var end = -1; var matchedSlash = true; for (var i = len - 1; i >= offset; --i) { if (isPathSeparator(path.charCodeAt(i))) { if (!matchedSlash) { end = i; break; } } else { // We saw the first non-path separator matchedSlash = false; } } if (end === -1) { if (rootEnd === -1) { return '.'; } end = rootEnd; } return path.slice(0, end); }, basename: function basename(path, ext) { if (ext !== undefined) { validateString(ext, 'ext'); } validateString(path, 'path'); var start = 0; var end = -1; var matchedSlash = true; var i; // Check for a drive letter prefix so as not to mistake the following // path separator as an extra separator at the end of the path that can be // disregarded if (path.length >= 2 && isWindowsDeviceRoot(path.charCodeAt(0)) && path.charCodeAt(1) === CHAR_COLON) { start = 2; } if (ext !== undefined && ext.length > 0 && ext.length <= path.length) { if (ext === path) { return ''; } var extIdx = ext.length - 1; var firstNonSlashEnd = -1; for (i = path.length - 1; i >= start; --i) { var code = path.charCodeAt(i); if (isPathSeparator(code)) { // If we reached a path separator that was not part of a set of path // separators at the end of the string, stop now if (!matchedSlash) { start = i + 1; break; } } else { if (firstNonSlashEnd === -1) { // We saw the first non-path separator, remember this index in case // we need it if the extension ends up not matching matchedSlash = false; firstNonSlashEnd = i + 1; } if (extIdx >= 0) { // Try to match the explicit extension if (code === ext.charCodeAt(extIdx)) { if (--extIdx === -1) { // We matched the extension, so mark this as the end of our path // component end = i; } } else { // Extension does not match, so our result is the entire path // component extIdx = -1; end = firstNonSlashEnd; } } } } if (start === end) { end = firstNonSlashEnd; } else if (end === -1) { end = path.length; } return path.slice(start, end); } for (i = path.length - 1; i >= start; --i) { if (isPathSeparator(path.charCodeAt(i))) { // If we reached a path separator that was not part of a set of path // separators at the end of the string, stop now if (!matchedSlash) { start = i + 1; break; } } else if (end === -1) { // We saw the first non-path separator, mark this as the end of our // path component matchedSlash = false; end = i + 1; } } if (end === -1) { return ''; } return path.slice(start, end); }, extname: function extname(path) { validateString(path, 'path'); var start = 0; var startDot = -1; var startPart = 0; var end = -1; var matchedSlash = true; // Track the state of characters (if any) we see before our first dot and // after any path separator we find var preDotState = 0; // Check for a drive letter prefix so as not to mistake the following // path separator as an extra separator at the end of the path that can be // disregarded if (path.length >= 2 && path.charCodeAt(1) === CHAR_COLON && isWindowsDeviceRoot(path.charCodeAt(0))) { start = startPart = 2; } for (var i = path.length - 1; i >= start; --i) { var code = path.charCodeAt(i); if (isPathSeparator(code)) { // If we reached a path separator that was not part of a set of path // separators at the end of the string, stop now if (!matchedSlash) { startPart = i + 1; break; } continue; } if (end === -1) { // We saw the first non-path separator, mark this as the end of our // extension matchedSlash = false; end = i + 1; } if (code === CHAR_DOT) { // If this is our first dot, mark it as the start of our extension if (startDot === -1) { startDot = i; } else if (preDotState !== 1) { preDotState = 1; } } else if (startDot !== -1) { // We saw a non-dot and non-path separator before our dot, so we should // have a good chance at having a non-empty extension preDotState = -1; } } if (startDot === -1 || end === -1 || // We saw a non-dot character immediately before the dot preDotState === 0 || // The (right-most) trimmed path component is exactly '..' preDotState === 1 && startDot === end - 1 && startDot === startPart + 1) { return ''; } return path.slice(startDot, end); }, format: _format.bind(null, '\\'), parse: function parse(path) { validateString(path, 'path'); var ret = { root: '', dir: '', base: '', ext: '', name: '' }; if (path.length === 0) { return ret; } var len = path.length; var rootEnd = 0; var code = path.charCodeAt(0); if (len === 1) { if (isPathSeparator(code)) { // `path` contains just a path separator, exit early to avoid // unnecessary work ret.root = ret.dir = path; return ret; } ret.base = ret.name = path; return ret; } // Try to match a root if (isPathSeparator(code)) { // Possible UNC root rootEnd = 1; if (isPathSeparator(path.charCodeAt(1))) { // Matched double path separator at beginning var j = 2; var last = j; // Match 1 or more non-path separators while (j < len && !isPathSeparator(path.charCodeAt(j))) { j++; } if (j < len && j !== last) { // Matched! last = j; // Match 1 or more path separators while (j < len && isPathSeparator(path.charCodeAt(j))) { j++; } if (j < len && j !== last) { // Matched! last = j; // Match 1 or more non-path separators while (j < len && !isPathSeparator(path.charCodeAt(j))) { j++; } if (j === len) { // We matched a UNC root only rootEnd = j; } else if (j !== last) { // We matched a UNC root with leftovers rootEnd = j + 1; } } } } } else if (isWindowsDeviceRoot(code) && path.charCodeAt(1) === CHAR_COLON) { // Possible device root if (len <= 2) { // `path` contains just a drive root, exit early to avoid // unnecessary work ret.root = ret.dir = path; return ret; } rootEnd = 2; if (isPathSeparator(path.charCodeAt(2))) { if (len === 3) { // `path` contains just a drive root, exit early to avoid // unnecessary work ret.root = ret.dir = path; return ret; } rootEnd = 3; } } if (rootEnd > 0) { ret.root = path.slice(0, rootEnd); } var startDot = -1; var startPart = rootEnd; var end = -1; var matchedSlash = true; var i = path.length - 1; // Track the state of characters (if any) we see before our first dot and // after any path separator we find var preDotState = 0; // Get non-dir info for (; i >= rootEnd; --i) { code = path.charCodeAt(i); if (isPathSeparator(code)) { // If we reached a path separator that was not part of a set of path // separators at the end of the string, stop now if (!matchedSlash) { startPart = i + 1; break; } continue; } if (end === -1) { // We saw the first non-path separator, mark this as the end of our // extension matchedSlash = false; end = i + 1; } if (code === CHAR_DOT) { // If this is our first dot, mark it as the start of our extension if (startDot === -1) { startDot = i; } else if (preDotState !== 1) { preDotState = 1; } } else if (startDot !== -1) { // We saw a non-dot and non-path separator before our dot, so we should // have a good chance at having a non-empty extension preDotState = -1; } } if (end !== -1) { if (startDot === -1 || // We saw a non-dot character immediately before the dot preDotState === 0 || // The (right-most) trimmed path component is exactly '..' preDotState === 1 && startDot === end - 1 && startDot === startPart + 1) { ret.base = ret.name = path.slice(startPart, end); } else { ret.name = path.slice(startPart, startDot); ret.base = path.slice(startPart, end); ret.ext = path.slice(startDot, end); } } // If the directory is the root, use the entire root as the `dir` including // the trailing slash if any (`C:\abc` -> `C:\`). Otherwise, strip out the // trailing slash (`C:\abc\def` -> `C:\abc`). if (startPart > 0 && startPart !== rootEnd) { ret.dir = path.slice(0, startPart - 1); } else { ret.dir = ret.root; } return ret; }, sep: '\\', delimiter: ';', win32: null, posix: null }; var posix = { // path.resolve([from ...], to) resolve: function resolve() { var resolvedPath = ''; var resolvedAbsolute = false; for (var i = arguments.length - 1; i >= -1 && !resolvedAbsolute; i--) { var path = i >= 0 ? i < 0 || arguments.length <= i ? undefined : arguments[i] : cwd(); validateString(path, 'path'); // Skip empty entries if (path.length === 0) { continue; } resolvedPath = "".concat(path, "/").concat(resolvedPath); resolvedAbsolute = path.charCodeAt(0) === CHAR_FORWARD_SLASH; } // At this point the path should be resolved to a full absolute path, but // handle relative paths to be safe (might happen when process.cwd() fails) // Normalize the path resolvedPath = normalizeString(resolvedPath, !resolvedAbsolute, '/', isPosixPathSeparator); if (resolvedAbsolute) { return "/".concat(resolvedPath); } return resolvedPath.length > 0 ? resolvedPath : '.'; }, normalize: function normalize(path) { validateString(path, 'path'); if (path.length === 0) { return '.'; } var isAbsolute = path.charCodeAt(0) === CHAR_FORWARD_SLASH; var trailingSeparator = path.charCodeAt(path.length - 1) === CHAR_FORWARD_SLASH; // Normalize the path path = normalizeString(path, !isAbsolute, '/', isPosixPathSeparator); if (path.length === 0) { if (isAbsolute) { return '/'; } return trailingSeparator ? './' : '.'; } if (trailingSeparator) { path += '/'; } return isAbsolute ? "/".concat(path) : path; }, isAbsolute: function isAbsolute(path) { validateString(path, 'path'); return path.length > 0 && path.charCodeAt(0) === CHAR_FORWARD_SLASH; }, join: function join() { if (arguments.length === 0) { return '.'; } var joined; for (var i = 0; i < arguments.length; ++i) { var arg = i < 0 || arguments.length <= i ? undefined : arguments[i]; validateString(arg, 'path'); if (arg.length > 0) { if (joined === undefined) { joined = arg; } else { joined += "/".concat(arg); } } } if (joined === undefined) { return '.'; } return posix.normalize(joined); }, relative: function relative(from, to) { validateString(from, 'from'); validateString(to, 'to'); if (from === to) { return ''; } // Trim leading forward slashes. from = posix.resolve(from); to = posix.resolve(to); if (from === to) { return ''; } var fromStart = 1; var fromEnd = from.length; var fromLen = fromEnd - fromStart; var toStart = 1; var toLen = to.length - toStart; // Compare paths to find the longest common path from root var length = fromLen < toLen ? fromLen : toLen; var lastCommonSep = -1; var i = 0; for (; i < length; i++) { var fromCode = from.charCodeAt(fromStart + i); if (fromCode !== to.charCodeAt(toStart + i)) { break; } else if (fromCode === CHAR_FORWARD_SLASH) { lastCommonSep = i; } } if (i === length) { if (toLen > length) { if (to.charCodeAt(toStart + i) === CHAR_FORWARD_SLASH) { // We get here if `from` is the exact base path for `to`. // For example: from='/foo/bar'; to='/foo/bar/baz' return to.slice(toStart + i + 1); } if (i === 0) { // We get here if `from` is the root // For example: from='/'; to='/foo' return to.slice(toStart + i); } } else if (fromLen > length) { if (from.charCodeAt(fromStart + i) === CHAR_FORWARD_SLASH) { // We get here if `to` is the exact base path for `from`. // For example: from='/foo/bar/baz'; to='/foo/bar' lastCommonSep = i; } else if (i === 0) { // We get here if `to` is the root. // For example: from='/foo/bar'; to='/' lastCommonSep = 0; } } } var out = ''; // Generate the relative path based on the path difference between `to` // and `from`. for (i = fromStart + lastCommonSep + 1; i <= fromEnd; ++i) { if (i === fromEnd || from.charCodeAt(i) === CHAR_FORWARD_SLASH) { out += out.length === 0 ? '..' : '/..'; } } // Lastly, append the rest of the destination (`to`) path that comes after // the common path parts. return "".concat(out).concat(to.slice(toStart + lastCommonSep)); }, toNamespacedPath: function toNamespacedPath(path) { // Non-op on posix systems return path; }, dirname: function dirname(path) { validateString(path, 'path'); if (path.length === 0) { return '.'; } var hasRoot = path.charCodeAt(0) === CHAR_FORWARD_SLASH; var end = -1; var matchedSlash = true; for (var i = path.length - 1; i >= 1; --i) { if (path.charCodeAt(i) === CHAR_FORWARD_SLASH) { if (!matchedSlash) { end = i; break; } } else { // We saw the first non-path separator matchedSlash = false; } } if (end === -1) { return hasRoot ? '/' : '.'; } if (hasRoot && end === 1) { return '//'; } return path.slice(0, end); }, basename: function basename(path, ext) { if (ext !== undefined) { validateString(ext, 'ext'); } validateString(path, 'path'); var start = 0; var end = -1; var matchedSlash = true; var i; if (ext !== undefined && ext.length > 0 && ext.length <= path.length) { if (ext === path) { return ''; } var extIdx = ext.length - 1; var firstNonSlashEnd = -1; for (i = path.length - 1; i >= 0; --i) { var code = path.charCodeAt(i); if (code === CHAR_FORWARD_SLASH) { // If we reached a path separator that was not part of a set of path // separators at the end of the string, stop now if (!matchedSlash) { start = i + 1; break; } } else { if (firstNonSlashEnd === -1) { // We saw the first non-path separator, remember this index in case // we need it if the extension ends up not matching matchedSlash = false; firstNonSlashEnd = i + 1; } if (extIdx >= 0) { // Try to match the explicit extension if (code === ext.charCodeAt(extIdx)) { if (--extIdx === -1) { // We matched the extension, so mark this as the end of our path // component end = i; } } else { // Extension does not match, so our result is the entire path // component extIdx = -1; end = firstNonSlashEnd; } } } } if (start === end) { end = firstNonSlashEnd; } else if (end === -1) { end = path.length; } return path.slice(start, end); } for (i = path.length - 1; i >= 0; --i) { if (path.charCodeAt(i) === CHAR_FORWARD_SLASH) { // If we reached a path separator that was not part of a set of path // separators at the end of the string, stop now if (!matchedSlash) { start = i + 1; break; } } else if (end === -1) { // We saw the first non-path separator, mark this as the end of our // path component matchedSlash = false; end = i + 1; } } if (end === -1) { return ''; } return path.slice(start, end); }, extname: function extname(path) { validateString(path, 'path'); var startDot = -1; var startPart = 0; var end = -1; var matchedSlash = true; // Track the state of characters (if any) we see before our first dot and // after any path separator we find var preDotState = 0; for (var i = path.length - 1; i >= 0; --i) { var code = path.charCodeAt(i); if (code === CHAR_FORWARD_SLASH) { // If we reached a path separator that was not part of a set of path // separators at the end of the string, stop now if (!matchedSlash) { startPart = i + 1; break; } continue; } if (end === -1) { // We saw the first non-path separator, mark this as the end of our // extension matchedSlash = false; end = i + 1; } if (code === CHAR_DOT) { // If this is our first dot, mark it as the start of our extension if (startDot === -1) { startDot = i; } else if (preDotState !== 1) { preDotState = 1; } } else if (startDot !== -1) { // We saw a non-dot and non-path separator before our dot, so we should // have a good chance at having a non-empty extension preDotState = -1; } } if (startDot === -1 || end === -1 || // We saw a non-dot character immediately before the dot preDotState === 0 || // The (right-most) trimmed path component is exactly '..' preDotState === 1 && startDot === end - 1 && startDot === startPart + 1) { return ''; } return path.slice(startDot, end); }, format: _format.bind(null, '/'), parse: function parse(path) { validateString(path, 'path'); var ret = { root: '', dir: '', base: '', ext: '', name: '' }; if (path.length === 0) { return ret; } var isAbsolute = path.charCodeAt(0) === CHAR_FORWARD_SLASH; var start; if (isAbsolute) { ret.root = '/'; start = 1; } else { start = 0; } var startDot = -1; var startPart = 0; var end = -1; var matchedSlash = true; var i = path.length - 1; // Track the state of characters (if any) we see before our first dot and // after any path separator we find var preDotState = 0; // Get non-dir info for (; i >= start; --i) { var code = path.charCodeAt(i); if (code === CHAR_FORWARD_SLASH) { // If we reached a path separator that was not part of a set of path // separators at the end of the string, stop now if (!matchedSlash) { startPart = i + 1; break; } continue; } if (end === -1) { // We saw the first non-path separator, mark this as the end of our // extension matchedSlash = false; end = i + 1; } if (code === CHAR_DOT) { // If this is our first dot, mark it as the start of our extension if (startDot === -1) { startDot = i; } else if (preDotState !== 1) { preDotState = 1; } } else if (startDot !== -1) { // We saw a non-dot and non-path separator before our dot, so we should // have a good chance at having a non-empty extension preDotState = -1; } } if (end !== -1) { var _start = startPart === 0 && isAbsolute ? 1 : startPart; if (startDot === -1 || // We saw a non-dot character immediately before the dot preDotState === 0 || // The (right-most) trimmed path component is exactly '..' preDotState === 1 && startDot === end - 1 && startDot === startPart + 1) { ret.base = ret.name = path.slice(_start, end); } else { ret.name = path.slice(_start, startDot); ret.base = path.slice(_start, end); ret.ext = path.slice(startDot, end); } } if (startPart > 0) { ret.dir = path.slice(0, startPart - 1); } else if (isAbsolute) { ret.dir = '/'; } return ret; }, sep: '/', delimiter: ':', win32: null, posix: null }; posix.win32 = win32.win32 = win32; posix.posix = win32.posix = posix; var normalize = platform === 'win32' ? win32.normalize : posix.normalize; var resolve = platform === 'win32' ? win32.resolve : posix.resolve; var relative = platform === 'win32' ? win32.relative : posix.relative; var dirname = platform === 'win32' ? win32.dirname : posix.dirname; var basename = platform === 'win32' ? win32.basename : posix.basename; var extname = platform === 'win32' ? win32.extname : posix.extname; var sep = platform === 'win32' ? win32.sep : posix.sep; ;// CONCATENATED MODULE: ./node_modules/monaco-editor/esm/vs/base/common/uri.js var _encodeTable; /*--------------------------------------------------------------------------------------------- * Copyright (c) Microsoft Corporation. All rights reserved. * Licensed under the MIT License. See License.txt in the project root for license information. *--------------------------------------------------------------------------------------------*/ var _schemePattern = /^\w[\w\d+.-]*$/; var _singleSlashStart = /^\//; var _doubleSlashStart = /^\/\//; function _validateUri(ret, _strict) { // scheme, must be set if (!ret.scheme && _strict) { throw new Error("[UriError]: Scheme is missing: {scheme: \"\", authority: \"".concat(ret.authority, "\", path: \"").concat(ret.path, "\", query: \"").concat(ret.query, "\", fragment: \"").concat(ret.fragment, "\"}")); } // scheme, https://tools.ietf.org/html/rfc3986#section-3.1 // ALPHA *( ALPHA / DIGIT / "+" / "-" / "." ) if (ret.scheme && !_schemePattern.test(ret.scheme)) { throw new Error('[UriError]: Scheme contains illegal characters.'); } // path, http://tools.ietf.org/html/rfc3986#section-3.3 // If a URI contains an authority component, then the path component // must either be empty or begin with a slash ("/") character. If a URI // does not contain an authority component, then the path cannot begin // with two slash characters ("//"). if (ret.path) { if (ret.authority) { if (!_singleSlashStart.test(ret.path)) { throw new Error('[UriError]: If a URI contains an authority component, then the path component must either be empty or begin with a slash ("/") character'); } } else { if (_doubleSlashStart.test(ret.path)) { throw new Error('[UriError]: If a URI does not contain an authority component, then the path cannot begin with two slash characters ("//")'); } } } } // for a while we allowed uris *without* schemes and this is the migration // for them, e.g. an uri without scheme and without strict-mode warns and falls // back to the file-scheme. that should cause the least carnage and still be a // clear warning function _schemeFix(scheme, _strict) { if (!scheme && !_strict) { return 'file'; } return scheme; } // implements a bit of https://tools.ietf.org/html/rfc3986#section-5 function _referenceResolution(scheme, path) { // the slash-character is our 'default base' as we don't // support constructing URIs relative to other URIs. This // also means that we alter and potentially break paths. // see https://tools.ietf.org/html/rfc3986#section-5.1.4 switch (scheme) { case 'https': case 'http': case 'file': if (!path) { path = _slash; } else if (path[0] !== _slash) { path = _slash + path; } break; } return path; } var _empty = ''; var _slash = '/'; var _regexp = /^(([^:/?#]+?):)?(\/\/([^/?#]*))?([^?#]*)(\?([^#]*))?(#(.*))?/; /** * Uniform Resource Identifier (URI) http://tools.ietf.org/html/rfc3986. * This class is a simple parser which creates the basic component parts * (http://tools.ietf.org/html/rfc3986#section-3) with minimal validation * and encoding. * * ```txt * foo://example.com:8042/over/there?name=ferret#nose * \_/ \______________/\_________/ \_________/ \__/ * | | | | | * scheme authority path query fragment * | _____________________|__ * / \ / \ * urn:example:animal:ferret:nose * ``` */ var URI = /*#__PURE__*/function () { /** * @internal */ function URI(schemeOrData, authority, path, query, fragment) { var _strict = arguments.length > 5 && arguments[5] !== undefined ? arguments[5] : false; classCallCheck_default()(this, URI); if (typeof_default()(schemeOrData) === 'object') { this.scheme = schemeOrData.scheme || _empty; this.authority = schemeOrData.authority || _empty; this.path = schemeOrData.path || _empty; this.query = schemeOrData.query || _empty; this.fragment = schemeOrData.fragment || _empty; // no validation because it's this URI // that creates uri components. // _validateUri(this); } else { this.scheme = _schemeFix(schemeOrData, _strict); this.authority = authority || _empty; this.path = _referenceResolution(this.scheme, path || _empty); this.query = query || _empty; this.fragment = fragment || _empty; _validateUri(this, _strict); } } createClass_default()(URI, [{ key: "fsPath", get: // ---- filesystem path ----------------------- /** * Returns a string representing the corresponding file system path of this URI. * Will handle UNC paths, normalizes windows drive letters to lower-case, and uses the * platform specific path separator. * * * Will *not* validate the path for invalid characters and semantics. * * Will *not* look at the scheme of this URI. * * The result shall *not* be used for display purposes but for accessing a file on disk. * * * The *difference* to `URI#path` is the use of the platform specific separator and the handling * of UNC paths. See the below sample of a file-uri with an authority (UNC path). * * ```ts const u = URI.parse('file://server/c$/folder/file.txt') u.authority === 'server' u.path === '/shares/c$/file.txt' u.fsPath === '\\server\c$\folder\file.txt' ``` * * Using `URI#path` to read a file (using fs-apis) would not be enough because parts of the path, * namely the server name, would be missing. Therefore `URI#fsPath` exists - it's sugar to ease working * with URIs that represent files on disk (`file` scheme). */ function get() { // if (this.scheme !== 'file') { // console.warn(`[UriError] calling fsPath with scheme ${this.scheme}`); // } return uriToFsPath(this, false); } // ---- modify to new ------------------------- }, { key: "with", value: function _with(change) { if (!change) { return this; } var scheme = change.scheme, authority = change.authority, path = change.path, query = change.query, fragment = change.fragment; if (scheme === undefined) { scheme = this.scheme; } else if (scheme === null) { scheme = _empty; } if (authority === undefined) { authority = this.authority; } else if (authority === null) { authority = _empty; } if (path === undefined) { path = this.path; } else if (path === null) { path = _empty; } if (query === undefined) { query = this.query; } else if (query === null) { query = _empty; } if (fragment === undefined) { fragment = this.fragment; } else if (fragment === null) { fragment = _empty; } if (scheme === this.scheme && authority === this.authority && path === this.path && query === this.query && fragment === this.fragment) { return this; } return new Uri(scheme, authority, path, query, fragment); } // ---- parse & validate ------------------------ /** * Creates a new URI from a string, e.g. `http://www.msft.com/some/path`, * `file:///usr/home`, or `scheme:with/path`. * * @param value A string which represents an URI (see `URI#toString`). */ }, { key: "toString", value: // ---- printing/externalize --------------------------- /** * Creates a string representation for this URI. It's guaranteed that calling * `URI.parse` with the result of this function creates an URI which is equal * to this URI. * * * The result shall *not* be used for display purposes but for externalization or transport. * * The result will be encoded using the percentage encoding and encoding happens mostly * ignore the scheme-specific encoding rules. * * @param skipEncoding Do not encode the result, default is `false` */ function toString() { var skipEncoding = arguments.length > 0 && arguments[0] !== undefined ? arguments[0] : false; return _asFormatted(this, skipEncoding); } }, { key: "toJSON", value: function toJSON() { return this; } }], [{ key: "isUri", value: function isUri(thing) { if (thing instanceof URI) { return true; } if (!thing) { return false; } return typeof thing.authority === 'string' && typeof thing.fragment === 'string' && typeof thing.path === 'string' && typeof thing.query === 'string' && typeof thing.scheme === 'string' && typeof thing.fsPath === 'string' && typeof thing["with"] === 'function' && typeof thing.toString === 'function'; } }, { key: "parse", value: function parse(value) { var _strict = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : false; var match = _regexp.exec(value); if (!match) { return new Uri(_empty, _empty, _empty, _empty, _empty); } return new Uri(match[2] || _empty, percentDecode(match[4] || _empty), percentDecode(match[5] || _empty), percentDecode(match[7] || _empty), percentDecode(match[9] || _empty), _strict); } /** * Creates a new URI from a file system path, e.g. `c:\my\files`, * `/usr/home`, or `\\server\share\some\path`. * * The *difference* between `URI#parse` and `URI#file` is that the latter treats the argument * as path, not as stringified-uri. E.g. `URI.file(path)` is **not the same as** * `URI.parse('file://' + path)` because the path might contain characters that are * interpreted (# and ?). See the following sample: * ```ts const good = URI.file('/coding/c#/project1'); good.scheme === 'file'; good.path === '/coding/c#/project1'; good.fragment === ''; const bad = URI.parse('file://' + '/coding/c#/project1'); bad.scheme === 'file'; bad.path === '/coding/c'; // path is now broken bad.fragment === '/project1'; ``` * * @param path A file system path (see `URI#fsPath`) */ }, { key: "file", value: function file(path) { var authority = _empty; // normalize to fwd-slashes on windows, // on other systems bwd-slashes are valid // filename character, eg /f\oo/ba\r.txt if (isWindows) { path = path.replace(/\\/g, _slash); } // check for authority as used in UNC shares // or use the path as given if (path[0] === _slash && path[1] === _slash) { var idx = path.indexOf(_slash, 2); if (idx === -1) { authority = path.substring(2); path = _slash; } else { authority = path.substring(2, idx); path = path.substring(idx) || _slash; } } return new Uri('file', authority, path, _empty, _empty); } }, { key: "from", value: function from(components) { var result = new Uri(components.scheme, components.authority, components.path, components.query, components.fragment); _validateUri(result, true); return result; } /** * Join a URI path with path fragments and normalizes the resulting path. * * @param uri The input URI. * @param pathFragment The path fragment to add to the URI path. * @returns The resulting URI. */ }, { key: "joinPath", value: function joinPath(uri) { if (!uri.path) { throw new Error("[UriError]: cannot call joinPath on URI without path"); } var newPath; for (var _len = arguments.length, pathFragment = new Array(_len > 1 ? _len - 1 : 0), _key = 1; _key < _len; _key++) { pathFragment[_key - 1] = arguments[_key]; } if (isWindows && uri.scheme === 'file') { var _paths$win; newPath = URI.file((_paths$win = win32).join.apply(_paths$win, [uriToFsPath(uri, true)].concat(pathFragment))).path; } else { var _paths$posix; newPath = (_paths$posix = posix).join.apply(_paths$posix, [uri.path].concat(pathFragment)); } return uri["with"]({ path: newPath }); } }, { key: "revive", value: function revive(data) { if (!data) { return data; } else if (data instanceof URI) { return data; } else { var result = new Uri(data); result._formatted = data.external; result._fsPath = data._sep === _pathSepMarker ? data.fsPath : null; return result; } } }]); return URI; }(); var _pathSepMarker = isWindows ? 1 : undefined; // This class exists so that URI is compatible with vscode.Uri (API). var Uri = /*#__PURE__*/function (_URI) { inherits_default()(Uri, _URI); var _super = createSuper_default()(Uri); function Uri() { var _this; classCallCheck_default()(this, Uri); _this = _super.apply(this, arguments); _this._formatted = null; _this._fsPath = null; return _this; } createClass_default()(Uri, [{ key: "fsPath", get: function get() { if (!this._fsPath) { this._fsPath = uriToFsPath(this, false); } return this._fsPath; } }, { key: "toString", value: function toString() { var skipEncoding = arguments.length > 0 && arguments[0] !== undefined ? arguments[0] : false; if (!skipEncoding) { if (!this._formatted) { this._formatted = _asFormatted(this, false); } return this._formatted; } else { // we don't cache that return _asFormatted(this, true); } } }, { key: "toJSON", value: function toJSON() { var res = { $mid: 1 /* Uri */ }; // cached state if (this._fsPath) { res.fsPath = this._fsPath; res._sep = _pathSepMarker; } if (this._formatted) { res.external = this._formatted; } // uri components if (this.path) { res.path = this.path; } if (this.scheme) { res.scheme = this.scheme; } if (this.authority) { res.authority = this.authority; } if (this.query) { res.query = this.query; } if (this.fragment) { res.fragment = this.fragment; } return res; } }]); return Uri; }(URI); // reserved characters: https://tools.ietf.org/html/rfc3986#section-2.2 var encodeTable = (_encodeTable = {}, defineProperty_default()(_encodeTable, 58 /* Colon */, '%3A'), defineProperty_default()(_encodeTable, 47 /* Slash */, '%2F'), defineProperty_default()(_encodeTable, 63 /* QuestionMark */, '%3F'), defineProperty_default()(_encodeTable, 35 /* Hash */, '%23'), defineProperty_default()(_encodeTable, 91 /* OpenSquareBracket */, '%5B'), defineProperty_default()(_encodeTable, 93 /* CloseSquareBracket */, '%5D'), defineProperty_default()(_encodeTable, 64 /* AtSign */, '%40'), defineProperty_default()(_encodeTable, 33 /* ExclamationMark */, '%21'), defineProperty_default()(_encodeTable, 36 /* DollarSign */, '%24'), defineProperty_default()(_encodeTable, 38 /* Ampersand */, '%26'), defineProperty_default()(_encodeTable, 39 /* SingleQuote */, '%27'), defineProperty_default()(_encodeTable, 40 /* OpenParen */, '%28'), defineProperty_default()(_encodeTable, 41 /* CloseParen */, '%29'), defineProperty_default()(_encodeTable, 42 /* Asterisk */, '%2A'), defineProperty_default()(_encodeTable, 43 /* Plus */, '%2B'), defineProperty_default()(_encodeTable, 44 /* Comma */, '%2C'), defineProperty_default()(_encodeTable, 59 /* Semicolon */, '%3B'), defineProperty_default()(_encodeTable, 61 /* Equals */, '%3D'), defineProperty_default()(_encodeTable, 32 /* Space */, '%20'), _encodeTable); function encodeURIComponentFast(uriComponent, allowSlash) { var res = undefined; var nativeEncodePos = -1; for (var pos = 0; pos < uriComponent.length; pos++) { var code = uriComponent.charCodeAt(pos); // unreserved characters: https://tools.ietf.org/html/rfc3986#section-2.3 if (code >= 97 /* a */ && code <= 122 /* z */ || code >= 65 /* A */ && code <= 90 /* Z */ || code >= 48 /* Digit0 */ && code <= 57 /* Digit9 */ || code === 45 /* Dash */ || code === 46 /* Period */ || code === 95 /* Underline */ || code === 126 /* Tilde */ || allowSlash && code === 47 /* Slash */) { // check if we are delaying native encode if (nativeEncodePos !== -1) { res += encodeURIComponent(uriComponent.substring(nativeEncodePos, pos)); nativeEncodePos = -1; } // check if we write into a new string (by default we try to return the param) if (res !== undefined) { res += uriComponent.charAt(pos); } } else { // encoding needed, we need to allocate a new string if (res === undefined) { res = uriComponent.substr(0, pos); } // check with default table first var escaped = encodeTable[code]; if (escaped !== undefined) { // check if we are delaying native encode if (nativeEncodePos !== -1) { res += encodeURIComponent(uriComponent.substring(nativeEncodePos, pos)); nativeEncodePos = -1; } // append escaped variant to result res += escaped; } else if (nativeEncodePos === -1) { // use native encode only when needed nativeEncodePos = pos; } } } if (nativeEncodePos !== -1) { res += encodeURIComponent(uriComponent.substring(nativeEncodePos)); } return res !== undefined ? res : uriComponent; } function encodeURIComponentMinimal(path) { var res = undefined; for (var pos = 0; pos < path.length; pos++) { var code = path.charCodeAt(pos); if (code === 35 /* Hash */ || code === 63 /* QuestionMark */) { if (res === undefined) { res = path.substr(0, pos); } res += encodeTable[code]; } else { if (res !== undefined) { res += path[pos]; } } } return res !== undefined ? res : path; } /** * Compute `fsPath` for the given uri */ function uriToFsPath(uri, keepDriveLetterCasing) { var value; if (uri.authority && uri.path.length > 1 && uri.scheme === 'file') { // unc path: file://shares/c$/far/boo value = "//".concat(uri.authority).concat(uri.path); } else if (uri.path.charCodeAt(0) === 47 /* Slash */ && (uri.path.charCodeAt(1) >= 65 /* A */ && uri.path.charCodeAt(1) <= 90 /* Z */ || uri.path.charCodeAt(1) >= 97 /* a */ && uri.path.charCodeAt(1) <= 122 /* z */) && uri.path.charCodeAt(2) === 58 /* Colon */) { if (!keepDriveLetterCasing) { // windows drive letter: file:///c:/far/boo value = uri.path[1].toLowerCase() + uri.path.substr(2); } else { value = uri.path.substr(1); } } else { // other path value = uri.path; } if (isWindows) { value = value.replace(/\//g, '\\'); } return value; } /** * Create the external version of a uri */ function _asFormatted(uri, skipEncoding) { var encoder = !skipEncoding ? encodeURIComponentFast : encodeURIComponentMinimal; var res = ''; var scheme = uri.scheme, authority = uri.authority, path = uri.path, query = uri.query, fragment = uri.fragment; if (scheme) { res += scheme; res += ':'; } if (authority || scheme === 'file') { res += _slash; res += _slash; } if (authority) { var idx = authority.indexOf('@'); if (idx !== -1) { // @ var userinfo = authority.substr(0, idx); authority = authority.substr(idx + 1); idx = userinfo.indexOf(':'); if (idx === -1) { res += encoder(userinfo, false); } else { // :@ res += encoder(userinfo.substr(0, idx), false); res += ':'; res += encoder(userinfo.substr(idx + 1), false); } res += '@'; } authority = authority.toLowerCase(); idx = authority.indexOf(':'); if (idx === -1) { res += encoder(authority, false); } else { // : res += encoder(authority.substr(0, idx), false); res += authority.substr(idx); } } if (path) { // lower-case windows drive letters in /C:/fff or C:/fff if (path.length >= 3 && path.charCodeAt(0) === 47 /* Slash */ && path.charCodeAt(2) === 58 /* Colon */) { var code = path.charCodeAt(1); if (code >= 65 /* A */ && code <= 90 /* Z */) { path = "/".concat(String.fromCharCode(code + 32), ":").concat(path.substr(3)); // "/c:".length === 3 } } else if (path.length >= 2 && path.charCodeAt(1) === 58 /* Colon */) { var _code = path.charCodeAt(0); if (_code >= 65 /* A */ && _code <= 90 /* Z */) { path = "".concat(String.fromCharCode(_code + 32), ":").concat(path.substr(2)); // "/c:".length === 3 } } // encode the rest of the path res += encoder(path, true); } if (query) { res += '?'; res += encoder(query, false); } if (fragment) { res += '#'; res += !skipEncoding ? encodeURIComponentFast(fragment, false) : fragment; } return res; } // --- decode function decodeURIComponentGraceful(str) { try { return decodeURIComponent(str); } catch (_a) { if (str.length > 3) { return str.substr(0, 3) + decodeURIComponentGraceful(str.substr(3)); } else { return str; } } } var _rEncodedAsHex = /(%[0-9A-Za-z][0-9A-Za-z])+/g; function percentDecode(str) { if (!str.match(_rEncodedAsHex)) { return str; } return str.replace(_rEncodedAsHex, function (match) { return decodeURIComponentGraceful(match); }); } ;// CONCATENATED MODULE: ./node_modules/monaco-editor/esm/vs/editor/common/core/position.js /*--------------------------------------------------------------------------------------------- * Copyright (c) Microsoft Corporation. All rights reserved. * Licensed under the MIT License. See License.txt in the project root for license information. *--------------------------------------------------------------------------------------------*/ /** * A position in the editor. */ var Position = /*#__PURE__*/function () { function Position(lineNumber, column) { classCallCheck_default()(this, Position); this.lineNumber = lineNumber; this.column = column; } /** * Create a new position from this position. * * @param newLineNumber new line number * @param newColumn new column */ createClass_default()(Position, [{ key: "with", value: function _with() { var newLineNumber = arguments.length > 0 && arguments[0] !== undefined ? arguments[0] : this.lineNumber; var newColumn = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : this.column; if (newLineNumber === this.lineNumber && newColumn === this.column) { return this; } else { return new Position(newLineNumber, newColumn); } } /** * Derive a new position from this position. * * @param deltaLineNumber line number delta * @param deltaColumn column delta */ }, { key: "delta", value: function delta() { var deltaLineNumber = arguments.length > 0 && arguments[0] !== undefined ? arguments[0] : 0; var deltaColumn = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : 0; return this["with"](this.lineNumber + deltaLineNumber, this.column + deltaColumn); } /** * Test if this position equals other position */ }, { key: "equals", value: function equals(other) { return Position.equals(this, other); } /** * Test if position `a` equals position `b` */ }, { key: "isBefore", value: /** * Test if this position is before other position. * If the two positions are equal, the result will be false. */ function isBefore(other) { return Position.isBefore(this, other); } /** * Test if position `a` is before position `b`. * If the two positions are equal, the result will be false. */ }, { key: "isBeforeOrEqual", value: /** * Test if this position is before other position. * If the two positions are equal, the result will be true. */ function isBeforeOrEqual(other) { return Position.isBeforeOrEqual(this, other); } /** * Test if position `a` is before position `b`. * If the two positions are equal, the result will be true. */ }, { key: "clone", value: /** * Clone this position. */ function clone() { return new Position(this.lineNumber, this.column); } /** * Convert to a human-readable representation. */ }, { key: "toString", value: function toString() { return '(' + this.lineNumber + ',' + this.column + ')'; } // --- /** * Create a `Position` from an `IPosition`. */ }], [{ key: "equals", value: function equals(a, b) { if (!a && !b) { return true; } return !!a && !!b && a.lineNumber === b.lineNumber && a.column === b.column; } }, { key: "isBefore", value: function isBefore(a, b) { if (a.lineNumber < b.lineNumber) { return true; } if (b.lineNumber < a.lineNumber) { return false; } return a.column < b.column; } }, { key: "isBeforeOrEqual", value: function isBeforeOrEqual(a, b) { if (a.lineNumber < b.lineNumber) { return true; } if (b.lineNumber < a.lineNumber) { return false; } return a.column <= b.column; } /** * A function that compares positions, useful for sorting */ }, { key: "compare", value: function compare(a, b) { var aLineNumber = a.lineNumber | 0; var bLineNumber = b.lineNumber | 0; if (aLineNumber === bLineNumber) { var aColumn = a.column | 0; var bColumn = b.column | 0; return aColumn - bColumn; } return aLineNumber - bLineNumber; } }, { key: "lift", value: function lift(pos) { return new Position(pos.lineNumber, pos.column); } /** * Test if `obj` is an `IPosition`. */ }, { key: "isIPosition", value: function isIPosition(obj) { return obj && typeof obj.lineNumber === 'number' && typeof obj.column === 'number'; } }]); return Position; }(); ;// CONCATENATED MODULE: ./node_modules/monaco-editor/esm/vs/editor/common/core/range.js /*--------------------------------------------------------------------------------------------- * Copyright (c) Microsoft Corporation. All rights reserved. * Licensed under the MIT License. See License.txt in the project root for license information. *--------------------------------------------------------------------------------------------*/ /** * A range in the editor. (startLineNumber,startColumn) is <= (endLineNumber,endColumn) */ var Range = /*#__PURE__*/function () { function Range(startLineNumber, startColumn, endLineNumber, endColumn) { classCallCheck_default()(this, Range); if (startLineNumber > endLineNumber || startLineNumber === endLineNumber && startColumn > endColumn) { this.startLineNumber = endLineNumber; this.startColumn = endColumn; this.endLineNumber = startLineNumber; this.endColumn = startColumn; } else { this.startLineNumber = startLineNumber; this.startColumn = startColumn; this.endLineNumber = endLineNumber; this.endColumn = endColumn; } } /** * Test if this range is empty. */ createClass_default()(Range, [{ key: "isEmpty", value: function isEmpty() { return Range.isEmpty(this); } /** * Test if `range` is empty. */ }, { key: "containsPosition", value: /** * Test if position is in this range. If the position is at the edges, will return true. */ function containsPosition(position) { return Range.containsPosition(this, position); } /** * Test if `position` is in `range`. If the position is at the edges, will return true. */ }, { key: "containsRange", value: /** * Test if range is in this range. If the range is equal to this range, will return true. */ function containsRange(range) { return Range.containsRange(this, range); } /** * Test if `otherRange` is in `range`. If the ranges are equal, will return true. */ }, { key: "strictContainsRange", value: /** * Test if `range` is strictly in this range. `range` must start after and end before this range for the result to be true. */ function strictContainsRange(range) { return Range.strictContainsRange(this, range); } /** * Test if `otherRange` is strictly in `range` (must start after, and end before). If the ranges are equal, will return false. */ }, { key: "plusRange", value: /** * A reunion of the two ranges. * The smallest position will be used as the start point, and the largest one as the end point. */ function plusRange(range) { return Range.plusRange(this, range); } /** * A reunion of the two ranges. * The smallest position will be used as the start point, and the largest one as the end point. */ }, { key: "intersectRanges", value: /** * A intersection of the two ranges. */ function intersectRanges(range) { return Range.intersectRanges(this, range); } /** * A intersection of the two ranges. */ }, { key: "equalsRange", value: /** * Test if this range equals other. */ function equalsRange(other) { return Range.equalsRange(this, other); } /** * Test if range `a` equals `b`. */ }, { key: "getEndPosition", value: /** * Return the end position (which will be after or equal to the start position) */ function getEndPosition() { return Range.getEndPosition(this); } /** * Return the end position (which will be after or equal to the start position) */ }, { key: "getStartPosition", value: /** * Return the start position (which will be before or equal to the end position) */ function getStartPosition() { return Range.getStartPosition(this); } /** * Return the start position (which will be before or equal to the end position) */ }, { key: "toString", value: /** * Transform to a user presentable string representation. */ function toString() { return '[' + this.startLineNumber + ',' + this.startColumn + ' -> ' + this.endLineNumber + ',' + this.endColumn + ']'; } /** * Create a new range using this range's start position, and using endLineNumber and endColumn as the end position. */ }, { key: "setEndPosition", value: function setEndPosition(endLineNumber, endColumn) { return new Range(this.startLineNumber, this.startColumn, endLineNumber, endColumn); } /** * Create a new range using this range's end position, and using startLineNumber and startColumn as the start position. */ }, { key: "setStartPosition", value: function setStartPosition(startLineNumber, startColumn) { return new Range(startLineNumber, startColumn, this.endLineNumber, this.endColumn); } /** * Create a new empty range using this range's start position. */ }, { key: "collapseToStart", value: function collapseToStart() { return Range.collapseToStart(this); } /** * Create a new empty range using this range's start position. */ }], [{ key: "isEmpty", value: function isEmpty(range) { return range.startLineNumber === range.endLineNumber && range.startColumn === range.endColumn; } }, { key: "containsPosition", value: function containsPosition(range, position) { if (position.lineNumber < range.startLineNumber || position.lineNumber > range.endLineNumber) { return false; } if (position.lineNumber === range.startLineNumber && position.column < range.startColumn) { return false; } if (position.lineNumber === range.endLineNumber && position.column > range.endColumn) { return false; } return true; } }, { key: "containsRange", value: function containsRange(range, otherRange) { if (otherRange.startLineNumber < range.startLineNumber || otherRange.endLineNumber < range.startLineNumber) { return false; } if (otherRange.startLineNumber > range.endLineNumber || otherRange.endLineNumber > range.endLineNumber) { return false; } if (otherRange.startLineNumber === range.startLineNumber && otherRange.startColumn < range.startColumn) { return false; } if (otherRange.endLineNumber === range.endLineNumber && otherRange.endColumn > range.endColumn) { return false; } return true; } }, { key: "strictContainsRange", value: function strictContainsRange(range, otherRange) { if (otherRange.startLineNumber < range.startLineNumber || otherRange.endLineNumber < range.startLineNumber) { return false; } if (otherRange.startLineNumber > range.endLineNumber || otherRange.endLineNumber > range.endLineNumber) { return false; } if (otherRange.startLineNumber === range.startLineNumber && otherRange.startColumn <= range.startColumn) { return false; } if (otherRange.endLineNumber === range.endLineNumber && otherRange.endColumn >= range.endColumn) { return false; } return true; } }, { key: "plusRange", value: function plusRange(a, b) { var startLineNumber; var startColumn; var endLineNumber; var endColumn; if (b.startLineNumber < a.startLineNumber) { startLineNumber = b.startLineNumber; startColumn = b.startColumn; } else if (b.startLineNumber === a.startLineNumber) { startLineNumber = b.startLineNumber; startColumn = Math.min(b.startColumn, a.startColumn); } else { startLineNumber = a.startLineNumber; startColumn = a.startColumn; } if (b.endLineNumber > a.endLineNumber) { endLineNumber = b.endLineNumber; endColumn = b.endColumn; } else if (b.endLineNumber === a.endLineNumber) { endLineNumber = b.endLineNumber; endColumn = Math.max(b.endColumn, a.endColumn); } else { endLineNumber = a.endLineNumber; endColumn = a.endColumn; } return new Range(startLineNumber, startColumn, endLineNumber, endColumn); } }, { key: "intersectRanges", value: function intersectRanges(a, b) { var resultStartLineNumber = a.startLineNumber; var resultStartColumn = a.startColumn; var resultEndLineNumber = a.endLineNumber; var resultEndColumn = a.endColumn; var otherStartLineNumber = b.startLineNumber; var otherStartColumn = b.startColumn; var otherEndLineNumber = b.endLineNumber; var otherEndColumn = b.endColumn; if (resultStartLineNumber < otherStartLineNumber) { resultStartLineNumber = otherStartLineNumber; resultStartColumn = otherStartColumn; } else if (resultStartLineNumber === otherStartLineNumber) { resultStartColumn = Math.max(resultStartColumn, otherStartColumn); } if (resultEndLineNumber > otherEndLineNumber) { resultEndLineNumber = otherEndLineNumber; resultEndColumn = otherEndColumn; } else if (resultEndLineNumber === otherEndLineNumber) { resultEndColumn = Math.min(resultEndColumn, otherEndColumn); } // Check if selection is now empty if (resultStartLineNumber > resultEndLineNumber) { return null; } if (resultStartLineNumber === resultEndLineNumber && resultStartColumn > resultEndColumn) { return null; } return new Range(resultStartLineNumber, resultStartColumn, resultEndLineNumber, resultEndColumn); } }, { key: "equalsRange", value: function equalsRange(a, b) { return !!a && !!b && a.startLineNumber === b.startLineNumber && a.startColumn === b.startColumn && a.endLineNumber === b.endLineNumber && a.endColumn === b.endColumn; } }, { key: "getEndPosition", value: function getEndPosition(range) { return new Position(range.endLineNumber, range.endColumn); } }, { key: "getStartPosition", value: function getStartPosition(range) { return new Position(range.startLineNumber, range.startColumn); } }, { key: "collapseToStart", value: function collapseToStart(range) { return new Range(range.startLineNumber, range.startColumn, range.startLineNumber, range.startColumn); } // --- }, { key: "fromPositions", value: function fromPositions(start) { var end = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : start; return new Range(start.lineNumber, start.column, end.lineNumber, end.column); } }, { key: "lift", value: function lift(range) { if (!range) { return null; } return new Range(range.startLineNumber, range.startColumn, range.endLineNumber, range.endColumn); } /** * Test if `obj` is an `IRange`. */ }, { key: "isIRange", value: function isIRange(obj) { return obj && typeof obj.startLineNumber === 'number' && typeof obj.startColumn === 'number' && typeof obj.endLineNumber === 'number' && typeof obj.endColumn === 'number'; } /** * Test if the two ranges are touching in any way. */ }, { key: "areIntersectingOrTouching", value: function areIntersectingOrTouching(a, b) { // Check if `a` is before `b` if (a.endLineNumber < b.startLineNumber || a.endLineNumber === b.startLineNumber && a.endColumn < b.startColumn) { return false; } // Check if `b` is before `a` if (b.endLineNumber < a.startLineNumber || b.endLineNumber === a.startLineNumber && b.endColumn < a.startColumn) { return false; } // These ranges must intersect return true; } /** * Test if the two ranges are intersecting. If the ranges are touching it returns true. */ }, { key: "areIntersecting", value: function areIntersecting(a, b) { // Check if `a` is before `b` if (a.endLineNumber < b.startLineNumber || a.endLineNumber === b.startLineNumber && a.endColumn <= b.startColumn) { return false; } // Check if `b` is before `a` if (b.endLineNumber < a.startLineNumber || b.endLineNumber === a.startLineNumber && b.endColumn <= a.startColumn) { return false; } // These ranges must intersect return true; } /** * A function that compares ranges, useful for sorting ranges * It will first compare ranges on the startPosition and then on the endPosition */ }, { key: "compareRangesUsingStarts", value: function compareRangesUsingStarts(a, b) { if (a && b) { var aStartLineNumber = a.startLineNumber | 0; var bStartLineNumber = b.startLineNumber | 0; if (aStartLineNumber === bStartLineNumber) { var aStartColumn = a.startColumn | 0; var bStartColumn = b.startColumn | 0; if (aStartColumn === bStartColumn) { var aEndLineNumber = a.endLineNumber | 0; var bEndLineNumber = b.endLineNumber | 0; if (aEndLineNumber === bEndLineNumber) { var aEndColumn = a.endColumn | 0; var bEndColumn = b.endColumn | 0; return aEndColumn - bEndColumn; } return aEndLineNumber - bEndLineNumber; } return aStartColumn - bStartColumn; } return aStartLineNumber - bStartLineNumber; } var aExists = a ? 1 : 0; var bExists = b ? 1 : 0; return aExists - bExists; } /** * A function that compares ranges, useful for sorting ranges * It will first compare ranges on the endPosition and then on the startPosition */ }, { key: "compareRangesUsingEnds", value: function compareRangesUsingEnds(a, b) { if (a.endLineNumber === b.endLineNumber) { if (a.endColumn === b.endColumn) { if (a.startLineNumber === b.startLineNumber) { return a.startColumn - b.startColumn; } return a.startLineNumber - b.startLineNumber; } return a.endColumn - b.endColumn; } return a.endLineNumber - b.endLineNumber; } /** * Test if the range spans multiple lines. */ }, { key: "spansMultipleLines", value: function spansMultipleLines(range) { return range.endLineNumber > range.startLineNumber; } }]); return Range; }(); ;// CONCATENATED MODULE: ./node_modules/monaco-editor/esm/vs/editor/common/diff/diffComputer.js /*--------------------------------------------------------------------------------------------- * Copyright (c) Microsoft Corporation. All rights reserved. * Licensed under the MIT License. See License.txt in the project root for license information. *--------------------------------------------------------------------------------------------*/ var MINIMUM_MATCHING_CHARACTER_LENGTH = 3; function _computeDiff(originalSequence, modifiedSequence, continueProcessingPredicate, pretty) { var diffAlgo = new LcsDiff(originalSequence, modifiedSequence, continueProcessingPredicate); return diffAlgo.ComputeDiff(pretty); } var LineSequence = /*#__PURE__*/function () { function LineSequence(lines) { classCallCheck_default()(this, LineSequence); var startColumns = []; var endColumns = []; for (var i = 0, length = lines.length; i < length; i++) { startColumns[i] = getFirstNonBlankColumn(lines[i], 1); endColumns[i] = getLastNonBlankColumn(lines[i], 1); } this.lines = lines; this._startColumns = startColumns; this._endColumns = endColumns; } createClass_default()(LineSequence, [{ key: "getElements", value: function getElements() { var elements = []; for (var i = 0, len = this.lines.length; i < len; i++) { elements[i] = this.lines[i].substring(this._startColumns[i] - 1, this._endColumns[i] - 1); } return elements; } }, { key: "getStrictElement", value: function getStrictElement(index) { return this.lines[index]; } }, { key: "getStartLineNumber", value: function getStartLineNumber(i) { return i + 1; } }, { key: "getEndLineNumber", value: function getEndLineNumber(i) { return i + 1; } }, { key: "createCharSequence", value: function createCharSequence(shouldIgnoreTrimWhitespace, startIndex, endIndex) { var charCodes = []; var lineNumbers = []; var columns = []; var len = 0; for (var index = startIndex; index <= endIndex; index++) { var lineContent = this.lines[index]; var startColumn = shouldIgnoreTrimWhitespace ? this._startColumns[index] : 1; var endColumn = shouldIgnoreTrimWhitespace ? this._endColumns[index] : lineContent.length + 1; for (var col = startColumn; col < endColumn; col++) { charCodes[len] = lineContent.charCodeAt(col - 1); lineNumbers[len] = index + 1; columns[len] = col; len++; } } return new CharSequence(charCodes, lineNumbers, columns); } }]); return LineSequence; }(); var CharSequence = /*#__PURE__*/function () { function CharSequence(charCodes, lineNumbers, columns) { classCallCheck_default()(this, CharSequence); this._charCodes = charCodes; this._lineNumbers = lineNumbers; this._columns = columns; } createClass_default()(CharSequence, [{ key: "getElements", value: function getElements() { return this._charCodes; } }, { key: "getStartLineNumber", value: function getStartLineNumber(i) { return this._lineNumbers[i]; } }, { key: "getStartColumn", value: function getStartColumn(i) { return this._columns[i]; } }, { key: "getEndLineNumber", value: function getEndLineNumber(i) { return this._lineNumbers[i]; } }, { key: "getEndColumn", value: function getEndColumn(i) { return this._columns[i] + 1; } }]); return CharSequence; }(); var CharChange = /*#__PURE__*/function () { function CharChange(originalStartLineNumber, originalStartColumn, originalEndLineNumber, originalEndColumn, modifiedStartLineNumber, modifiedStartColumn, modifiedEndLineNumber, modifiedEndColumn) { classCallCheck_default()(this, CharChange); this.originalStartLineNumber = originalStartLineNumber; this.originalStartColumn = originalStartColumn; this.originalEndLineNumber = originalEndLineNumber; this.originalEndColumn = originalEndColumn; this.modifiedStartLineNumber = modifiedStartLineNumber; this.modifiedStartColumn = modifiedStartColumn; this.modifiedEndLineNumber = modifiedEndLineNumber; this.modifiedEndColumn = modifiedEndColumn; } createClass_default()(CharChange, null, [{ key: "createFromDiffChange", value: function createFromDiffChange(diffChange, originalCharSequence, modifiedCharSequence) { var originalStartLineNumber; var originalStartColumn; var originalEndLineNumber; var originalEndColumn; var modifiedStartLineNumber; var modifiedStartColumn; var modifiedEndLineNumber; var modifiedEndColumn; if (diffChange.originalLength === 0) { originalStartLineNumber = 0; originalStartColumn = 0; originalEndLineNumber = 0; originalEndColumn = 0; } else { originalStartLineNumber = originalCharSequence.getStartLineNumber(diffChange.originalStart); originalStartColumn = originalCharSequence.getStartColumn(diffChange.originalStart); originalEndLineNumber = originalCharSequence.getEndLineNumber(diffChange.originalStart + diffChange.originalLength - 1); originalEndColumn = originalCharSequence.getEndColumn(diffChange.originalStart + diffChange.originalLength - 1); } if (diffChange.modifiedLength === 0) { modifiedStartLineNumber = 0; modifiedStartColumn = 0; modifiedEndLineNumber = 0; modifiedEndColumn = 0; } else { modifiedStartLineNumber = modifiedCharSequence.getStartLineNumber(diffChange.modifiedStart); modifiedStartColumn = modifiedCharSequence.getStartColumn(diffChange.modifiedStart); modifiedEndLineNumber = modifiedCharSequence.getEndLineNumber(diffChange.modifiedStart + diffChange.modifiedLength - 1); modifiedEndColumn = modifiedCharSequence.getEndColumn(diffChange.modifiedStart + diffChange.modifiedLength - 1); } return new CharChange(originalStartLineNumber, originalStartColumn, originalEndLineNumber, originalEndColumn, modifiedStartLineNumber, modifiedStartColumn, modifiedEndLineNumber, modifiedEndColumn); } }]); return CharChange; }(); function postProcessCharChanges(rawChanges) { if (rawChanges.length <= 1) { return rawChanges; } var result = [rawChanges[0]]; var prevChange = result[0]; for (var i = 1, len = rawChanges.length; i < len; i++) { var currChange = rawChanges[i]; var originalMatchingLength = currChange.originalStart - (prevChange.originalStart + prevChange.originalLength); var modifiedMatchingLength = currChange.modifiedStart - (prevChange.modifiedStart + prevChange.modifiedLength); // Both of the above should be equal, but the continueProcessingPredicate may prevent this from being true var matchingLength = Math.min(originalMatchingLength, modifiedMatchingLength); if (matchingLength < MINIMUM_MATCHING_CHARACTER_LENGTH) { // Merge the current change into the previous one prevChange.originalLength = currChange.originalStart + currChange.originalLength - prevChange.originalStart; prevChange.modifiedLength = currChange.modifiedStart + currChange.modifiedLength - prevChange.modifiedStart; } else { // Add the current change result.push(currChange); prevChange = currChange; } } return result; } var LineChange = /*#__PURE__*/function () { function LineChange(originalStartLineNumber, originalEndLineNumber, modifiedStartLineNumber, modifiedEndLineNumber, charChanges) { classCallCheck_default()(this, LineChange); this.originalStartLineNumber = originalStartLineNumber; this.originalEndLineNumber = originalEndLineNumber; this.modifiedStartLineNumber = modifiedStartLineNumber; this.modifiedEndLineNumber = modifiedEndLineNumber; this.charChanges = charChanges; } createClass_default()(LineChange, null, [{ key: "createFromDiffResult", value: function createFromDiffResult(shouldIgnoreTrimWhitespace, diffChange, originalLineSequence, modifiedLineSequence, continueCharDiff, shouldComputeCharChanges, shouldPostProcessCharChanges) { var originalStartLineNumber; var originalEndLineNumber; var modifiedStartLineNumber; var modifiedEndLineNumber; var charChanges = undefined; if (diffChange.originalLength === 0) { originalStartLineNumber = originalLineSequence.getStartLineNumber(diffChange.originalStart) - 1; originalEndLineNumber = 0; } else { originalStartLineNumber = originalLineSequence.getStartLineNumber(diffChange.originalStart); originalEndLineNumber = originalLineSequence.getEndLineNumber(diffChange.originalStart + diffChange.originalLength - 1); } if (diffChange.modifiedLength === 0) { modifiedStartLineNumber = modifiedLineSequence.getStartLineNumber(diffChange.modifiedStart) - 1; modifiedEndLineNumber = 0; } else { modifiedStartLineNumber = modifiedLineSequence.getStartLineNumber(diffChange.modifiedStart); modifiedEndLineNumber = modifiedLineSequence.getEndLineNumber(diffChange.modifiedStart + diffChange.modifiedLength - 1); } if (shouldComputeCharChanges && diffChange.originalLength > 0 && diffChange.originalLength < 20 && diffChange.modifiedLength > 0 && diffChange.modifiedLength < 20 && continueCharDiff()) { // Compute character changes for diff chunks of at most 20 lines... var originalCharSequence = originalLineSequence.createCharSequence(shouldIgnoreTrimWhitespace, diffChange.originalStart, diffChange.originalStart + diffChange.originalLength - 1); var modifiedCharSequence = modifiedLineSequence.createCharSequence(shouldIgnoreTrimWhitespace, diffChange.modifiedStart, diffChange.modifiedStart + diffChange.modifiedLength - 1); var rawChanges = _computeDiff(originalCharSequence, modifiedCharSequence, continueCharDiff, true).changes; if (shouldPostProcessCharChanges) { rawChanges = postProcessCharChanges(rawChanges); } charChanges = []; for (var i = 0, length = rawChanges.length; i < length; i++) { charChanges.push(CharChange.createFromDiffChange(rawChanges[i], originalCharSequence, modifiedCharSequence)); } } return new LineChange(originalStartLineNumber, originalEndLineNumber, modifiedStartLineNumber, modifiedEndLineNumber, charChanges); } }]); return LineChange; }(); var DiffComputer = /*#__PURE__*/function () { function DiffComputer(originalLines, modifiedLines, opts) { classCallCheck_default()(this, DiffComputer); this.shouldComputeCharChanges = opts.shouldComputeCharChanges; this.shouldPostProcessCharChanges = opts.shouldPostProcessCharChanges; this.shouldIgnoreTrimWhitespace = opts.shouldIgnoreTrimWhitespace; this.shouldMakePrettyDiff = opts.shouldMakePrettyDiff; this.originalLines = originalLines; this.modifiedLines = modifiedLines; this.original = new LineSequence(originalLines); this.modified = new LineSequence(modifiedLines); this.continueLineDiff = createContinueProcessingPredicate(opts.maxComputationTime); this.continueCharDiff = createContinueProcessingPredicate(opts.maxComputationTime === 0 ? 0 : Math.min(opts.maxComputationTime, 5000)); // never run after 5s for character changes... } createClass_default()(DiffComputer, [{ key: "computeDiff", value: function computeDiff() { if (this.original.lines.length === 1 && this.original.lines[0].length === 0) { // empty original => fast path if (this.modified.lines.length === 1 && this.modified.lines[0].length === 0) { return { quitEarly: false, changes: [] }; } return { quitEarly: false, changes: [{ originalStartLineNumber: 1, originalEndLineNumber: 1, modifiedStartLineNumber: 1, modifiedEndLineNumber: this.modified.lines.length, charChanges: [{ modifiedEndColumn: 0, modifiedEndLineNumber: 0, modifiedStartColumn: 0, modifiedStartLineNumber: 0, originalEndColumn: 0, originalEndLineNumber: 0, originalStartColumn: 0, originalStartLineNumber: 0 }] }] }; } if (this.modified.lines.length === 1 && this.modified.lines[0].length === 0) { // empty modified => fast path return { quitEarly: false, changes: [{ originalStartLineNumber: 1, originalEndLineNumber: this.original.lines.length, modifiedStartLineNumber: 1, modifiedEndLineNumber: 1, charChanges: [{ modifiedEndColumn: 0, modifiedEndLineNumber: 0, modifiedStartColumn: 0, modifiedStartLineNumber: 0, originalEndColumn: 0, originalEndLineNumber: 0, originalStartColumn: 0, originalStartLineNumber: 0 }] }] }; } var diffResult = _computeDiff(this.original, this.modified, this.continueLineDiff, this.shouldMakePrettyDiff); var rawChanges = diffResult.changes; var quitEarly = diffResult.quitEarly; // The diff is always computed with ignoring trim whitespace // This ensures we get the prettiest diff if (this.shouldIgnoreTrimWhitespace) { var lineChanges = []; for (var i = 0, length = rawChanges.length; i < length; i++) { lineChanges.push(LineChange.createFromDiffResult(this.shouldIgnoreTrimWhitespace, rawChanges[i], this.original, this.modified, this.continueCharDiff, this.shouldComputeCharChanges, this.shouldPostProcessCharChanges)); } return { quitEarly: quitEarly, changes: lineChanges }; } // Need to post-process and introduce changes where the trim whitespace is different // Note that we are looping starting at -1 to also cover the lines before the first change var result = []; var originalLineIndex = 0; var modifiedLineIndex = 0; for (var _i = -1 /* !!!! */, len = rawChanges.length; _i < len; _i++) { var nextChange = _i + 1 < len ? rawChanges[_i + 1] : null; var originalStop = nextChange ? nextChange.originalStart : this.originalLines.length; var modifiedStop = nextChange ? nextChange.modifiedStart : this.modifiedLines.length; while (originalLineIndex < originalStop && modifiedLineIndex < modifiedStop) { var originalLine = this.originalLines[originalLineIndex]; var modifiedLine = this.modifiedLines[modifiedLineIndex]; if (originalLine !== modifiedLine) { // These lines differ only in trim whitespace // Check the leading whitespace { var originalStartColumn = getFirstNonBlankColumn(originalLine, 1); var modifiedStartColumn = getFirstNonBlankColumn(modifiedLine, 1); while (originalStartColumn > 1 && modifiedStartColumn > 1) { var originalChar = originalLine.charCodeAt(originalStartColumn - 2); var modifiedChar = modifiedLine.charCodeAt(modifiedStartColumn - 2); if (originalChar !== modifiedChar) { break; } originalStartColumn--; modifiedStartColumn--; } if (originalStartColumn > 1 || modifiedStartColumn > 1) { this._pushTrimWhitespaceCharChange(result, originalLineIndex + 1, 1, originalStartColumn, modifiedLineIndex + 1, 1, modifiedStartColumn); } } // Check the trailing whitespace { var originalEndColumn = getLastNonBlankColumn(originalLine, 1); var modifiedEndColumn = getLastNonBlankColumn(modifiedLine, 1); var originalMaxColumn = originalLine.length + 1; var modifiedMaxColumn = modifiedLine.length + 1; while (originalEndColumn < originalMaxColumn && modifiedEndColumn < modifiedMaxColumn) { var _originalChar = originalLine.charCodeAt(originalEndColumn - 1); var _modifiedChar = originalLine.charCodeAt(modifiedEndColumn - 1); if (_originalChar !== _modifiedChar) { break; } originalEndColumn++; modifiedEndColumn++; } if (originalEndColumn < originalMaxColumn || modifiedEndColumn < modifiedMaxColumn) { this._pushTrimWhitespaceCharChange(result, originalLineIndex + 1, originalEndColumn, originalMaxColumn, modifiedLineIndex + 1, modifiedEndColumn, modifiedMaxColumn); } } } originalLineIndex++; modifiedLineIndex++; } if (nextChange) { // Emit the actual change result.push(LineChange.createFromDiffResult(this.shouldIgnoreTrimWhitespace, nextChange, this.original, this.modified, this.continueCharDiff, this.shouldComputeCharChanges, this.shouldPostProcessCharChanges)); originalLineIndex += nextChange.originalLength; modifiedLineIndex += nextChange.modifiedLength; } } return { quitEarly: quitEarly, changes: result }; } }, { key: "_pushTrimWhitespaceCharChange", value: function _pushTrimWhitespaceCharChange(result, originalLineNumber, originalStartColumn, originalEndColumn, modifiedLineNumber, modifiedStartColumn, modifiedEndColumn) { if (this._mergeTrimWhitespaceCharChange(result, originalLineNumber, originalStartColumn, originalEndColumn, modifiedLineNumber, modifiedStartColumn, modifiedEndColumn)) { // Merged into previous return; } var charChanges = undefined; if (this.shouldComputeCharChanges) { charChanges = [new CharChange(originalLineNumber, originalStartColumn, originalLineNumber, originalEndColumn, modifiedLineNumber, modifiedStartColumn, modifiedLineNumber, modifiedEndColumn)]; } result.push(new LineChange(originalLineNumber, originalLineNumber, modifiedLineNumber, modifiedLineNumber, charChanges)); } }, { key: "_mergeTrimWhitespaceCharChange", value: function _mergeTrimWhitespaceCharChange(result, originalLineNumber, originalStartColumn, originalEndColumn, modifiedLineNumber, modifiedStartColumn, modifiedEndColumn) { var len = result.length; if (len === 0) { return false; } var prevChange = result[len - 1]; if (prevChange.originalEndLineNumber === 0 || prevChange.modifiedEndLineNumber === 0) { // Don't merge with inserts/deletes return false; } if (prevChange.originalEndLineNumber + 1 === originalLineNumber && prevChange.modifiedEndLineNumber + 1 === modifiedLineNumber) { prevChange.originalEndLineNumber = originalLineNumber; prevChange.modifiedEndLineNumber = modifiedLineNumber; if (this.shouldComputeCharChanges && prevChange.charChanges) { prevChange.charChanges.push(new CharChange(originalLineNumber, originalStartColumn, originalLineNumber, originalEndColumn, modifiedLineNumber, modifiedStartColumn, modifiedLineNumber, modifiedEndColumn)); } return true; } return false; } }]); return DiffComputer; }(); function getFirstNonBlankColumn(txt, defaultValue) { var r = firstNonWhitespaceIndex(txt); if (r === -1) { return defaultValue; } return r + 1; } function getLastNonBlankColumn(txt, defaultValue) { var r = lastNonWhitespaceIndex(txt); if (r === -1) { return defaultValue; } return r + 2; } function createContinueProcessingPredicate(maximumRuntime) { if (maximumRuntime === 0) { return function () { return true; }; } var startTime = Date.now(); return function () { return Date.now() - startTime < maximumRuntime; }; } ;// CONCATENATED MODULE: ./node_modules/monaco-editor/esm/vs/base/common/uint.js /*--------------------------------------------------------------------------------------------- * Copyright (c) Microsoft Corporation. All rights reserved. * Licensed under the MIT License. See License.txt in the project root for license information. *--------------------------------------------------------------------------------------------*/ function toUint8(v) { if (v < 0) { return 0; } if (v > 255 /* MAX_UINT_8 */) { return 255 /* MAX_UINT_8 */; } return v | 0; } function toUint32(v) { if (v < 0) { return 0; } if (v > 4294967295 /* MAX_UINT_32 */) { return 4294967295 /* MAX_UINT_32 */; } return v | 0; } ;// CONCATENATED MODULE: ./node_modules/monaco-editor/esm/vs/editor/common/viewModel/prefixSumComputer.js /*--------------------------------------------------------------------------------------------- * Copyright (c) Microsoft Corporation. All rights reserved. * Licensed under the MIT License. See License.txt in the project root for license information. *--------------------------------------------------------------------------------------------*/ var PrefixSumIndexOfResult = /*#__PURE__*/createClass_default()(function PrefixSumIndexOfResult(index, remainder) { classCallCheck_default()(this, PrefixSumIndexOfResult); this._prefixSumIndexOfResultBrand = undefined; this.index = index; this.remainder = remainder; }); var PrefixSumComputer = /*#__PURE__*/function () { function PrefixSumComputer(values) { classCallCheck_default()(this, PrefixSumComputer); this.values = values; this.prefixSum = new Uint32Array(values.length); this.prefixSumValidIndex = new Int32Array(1); this.prefixSumValidIndex[0] = -1; } createClass_default()(PrefixSumComputer, [{ key: "insertValues", value: function insertValues(insertIndex, _insertValues) { insertIndex = toUint32(insertIndex); var oldValues = this.values; var oldPrefixSum = this.prefixSum; var insertValuesLen = _insertValues.length; if (insertValuesLen === 0) { return false; } this.values = new Uint32Array(oldValues.length + insertValuesLen); this.values.set(oldValues.subarray(0, insertIndex), 0); this.values.set(oldValues.subarray(insertIndex), insertIndex + insertValuesLen); this.values.set(_insertValues, insertIndex); if (insertIndex - 1 < this.prefixSumValidIndex[0]) { this.prefixSumValidIndex[0] = insertIndex - 1; } this.prefixSum = new Uint32Array(this.values.length); if (this.prefixSumValidIndex[0] >= 0) { this.prefixSum.set(oldPrefixSum.subarray(0, this.prefixSumValidIndex[0] + 1)); } return true; } }, { key: "changeValue", value: function changeValue(index, value) { index = toUint32(index); value = toUint32(value); if (this.values[index] === value) { return false; } this.values[index] = value; if (index - 1 < this.prefixSumValidIndex[0]) { this.prefixSumValidIndex[0] = index - 1; } return true; } }, { key: "removeValues", value: function removeValues(startIndex, count) { startIndex = toUint32(startIndex); count = toUint32(count); var oldValues = this.values; var oldPrefixSum = this.prefixSum; if (startIndex >= oldValues.length) { return false; } var maxCount = oldValues.length - startIndex; if (count >= maxCount) { count = maxCount; } if (count === 0) { return false; } this.values = new Uint32Array(oldValues.length - count); this.values.set(oldValues.subarray(0, startIndex), 0); this.values.set(oldValues.subarray(startIndex + count), startIndex); this.prefixSum = new Uint32Array(this.values.length); if (startIndex - 1 < this.prefixSumValidIndex[0]) { this.prefixSumValidIndex[0] = startIndex - 1; } if (this.prefixSumValidIndex[0] >= 0) { this.prefixSum.set(oldPrefixSum.subarray(0, this.prefixSumValidIndex[0] + 1)); } return true; } }, { key: "getTotalSum", value: function getTotalSum() { if (this.values.length === 0) { return 0; } return this._getPrefixSum(this.values.length - 1); } }, { key: "getPrefixSum", value: function getPrefixSum(index) { if (index < 0) { return 0; } index = toUint32(index); return this._getPrefixSum(index); } }, { key: "_getPrefixSum", value: function _getPrefixSum(index) { if (index <= this.prefixSumValidIndex[0]) { return this.prefixSum[index]; } var startIndex = this.prefixSumValidIndex[0] + 1; if (startIndex === 0) { this.prefixSum[0] = this.values[0]; startIndex++; } if (index >= this.values.length) { index = this.values.length - 1; } for (var i = startIndex; i <= index; i++) { this.prefixSum[i] = this.prefixSum[i - 1] + this.values[i]; } this.prefixSumValidIndex[0] = Math.max(this.prefixSumValidIndex[0], index); return this.prefixSum[index]; } }, { key: "getIndexOf", value: function getIndexOf(sum) { sum = Math.floor(sum); //@perf // Compute all sums (to get a fully valid prefixSum) this.getTotalSum(); var low = 0; var high = this.values.length - 1; var mid = 0; var midStop = 0; var midStart = 0; while (low <= high) { mid = low + (high - low) / 2 | 0; midStop = this.prefixSum[mid]; midStart = midStop - this.values[mid]; if (sum < midStart) { high = mid - 1; } else if (sum >= midStop) { low = mid + 1; } else { break; } } return new PrefixSumIndexOfResult(mid, sum - midStart); } }]); return PrefixSumComputer; }(); ;// CONCATENATED MODULE: ./node_modules/monaco-editor/esm/vs/editor/common/model/mirrorTextModel.js /*--------------------------------------------------------------------------------------------- * Copyright (c) Microsoft Corporation. All rights reserved. * Licensed under the MIT License. See License.txt in the project root for license information. *--------------------------------------------------------------------------------------------*/ var MirrorTextModel = /*#__PURE__*/function () { function MirrorTextModel(uri, lines, eol, versionId) { classCallCheck_default()(this, MirrorTextModel); this._uri = uri; this._lines = lines; this._eol = eol; this._versionId = versionId; this._lineStarts = null; this._cachedTextValue = null; } createClass_default()(MirrorTextModel, [{ key: "dispose", value: function dispose() { this._lines.length = 0; } }, { key: "version", get: function get() { return this._versionId; } }, { key: "getText", value: function getText() { if (this._cachedTextValue === null) { this._cachedTextValue = this._lines.join(this._eol); } return this._cachedTextValue; } }, { key: "onEvents", value: function onEvents(e) { if (e.eol && e.eol !== this._eol) { this._eol = e.eol; this._lineStarts = null; } // Update my lines var changes = e.changes; var _iterator = createForOfIteratorHelper_default()(changes), _step; try { for (_iterator.s(); !(_step = _iterator.n()).done;) { var change = _step.value; this._acceptDeleteRange(change.range); this._acceptInsertText(new Position(change.range.startLineNumber, change.range.startColumn), change.text); } } catch (err) { _iterator.e(err); } finally { _iterator.f(); } this._versionId = e.versionId; this._cachedTextValue = null; } }, { key: "_ensureLineStarts", value: function _ensureLineStarts() { if (!this._lineStarts) { var eolLength = this._eol.length; var linesLength = this._lines.length; var lineStartValues = new Uint32Array(linesLength); for (var i = 0; i < linesLength; i++) { lineStartValues[i] = this._lines[i].length + eolLength; } this._lineStarts = new PrefixSumComputer(lineStartValues); } } /** * All changes to a line's text go through this method */ }, { key: "_setLineText", value: function _setLineText(lineIndex, newValue) { this._lines[lineIndex] = newValue; if (this._lineStarts) { // update prefix sum this._lineStarts.changeValue(lineIndex, this._lines[lineIndex].length + this._eol.length); } } }, { key: "_acceptDeleteRange", value: function _acceptDeleteRange(range) { if (range.startLineNumber === range.endLineNumber) { if (range.startColumn === range.endColumn) { // Nothing to delete return; } // Delete text on the affected line this._setLineText(range.startLineNumber - 1, this._lines[range.startLineNumber - 1].substring(0, range.startColumn - 1) + this._lines[range.startLineNumber - 1].substring(range.endColumn - 1)); return; } // Take remaining text on last line and append it to remaining text on first line this._setLineText(range.startLineNumber - 1, this._lines[range.startLineNumber - 1].substring(0, range.startColumn - 1) + this._lines[range.endLineNumber - 1].substring(range.endColumn - 1)); // Delete middle lines this._lines.splice(range.startLineNumber, range.endLineNumber - range.startLineNumber); if (this._lineStarts) { // update prefix sum this._lineStarts.removeValues(range.startLineNumber, range.endLineNumber - range.startLineNumber); } } }, { key: "_acceptInsertText", value: function _acceptInsertText(position, insertText) { if (insertText.length === 0) { // Nothing to insert return; } var insertLines = splitLines(insertText); if (insertLines.length === 1) { // Inserting text on one line this._setLineText(position.lineNumber - 1, this._lines[position.lineNumber - 1].substring(0, position.column - 1) + insertLines[0] + this._lines[position.lineNumber - 1].substring(position.column - 1)); return; } // Append overflowing text from first line to the end of text to insert insertLines[insertLines.length - 1] += this._lines[position.lineNumber - 1].substring(position.column - 1); // Delete overflowing text from first line and insert text on first line this._setLineText(position.lineNumber - 1, this._lines[position.lineNumber - 1].substring(0, position.column - 1) + insertLines[0]); // Insert new lines & store lengths var newLengths = new Uint32Array(insertLines.length - 1); for (var i = 1; i < insertLines.length; i++) { this._lines.splice(position.lineNumber + i - 1, 0, insertLines[i]); newLengths[i - 1] = insertLines[i].length + this._eol.length; } if (this._lineStarts) { // update prefix sum this._lineStarts.insertValues(position.lineNumber, newLengths); } } }]); return MirrorTextModel; }(); ;// CONCATENATED MODULE: ./node_modules/monaco-editor/esm/vs/editor/common/model/wordHelper.js /*--------------------------------------------------------------------------------------------- * Copyright (c) Microsoft Corporation. All rights reserved. * Licensed under the MIT License. See License.txt in the project root for license information. *--------------------------------------------------------------------------------------------*/ var USUAL_WORD_SEPARATORS = '`~!@#$%^&*()-=+[{]}\\|;:\'",.<>/?'; /** * Create a word definition regular expression based on default word separators. * Optionally provide allowed separators that should be included in words. * * The default would look like this: * /(-?\d*\.\d\w*)|([^\`\~\!\@\#\$\%\^\&\*\(\)\-\=\+\[\{\]\}\\\|\;\:\'\"\,\.\<\>\/\?\s]+)/g */ function createWordRegExp() { var allowInWords = arguments.length > 0 && arguments[0] !== undefined ? arguments[0] : ''; var source = '(-?\\d*\\.\\d\\w*)|([^'; var _iterator = createForOfIteratorHelper_default()(USUAL_WORD_SEPARATORS), _step; try { for (_iterator.s(); !(_step = _iterator.n()).done;) { var sep = _step.value; if (allowInWords.indexOf(sep) >= 0) { continue; } source += '\\' + sep; } } catch (err) { _iterator.e(err); } finally { _iterator.f(); } source += '\\s]+)'; return new RegExp(source, 'g'); } // catches numbers (including floating numbers) in the first group, and alphanum in the second var DEFAULT_WORD_REGEXP = createWordRegExp(); function ensureValidWordDefinition(wordDefinition) { var result = DEFAULT_WORD_REGEXP; if (wordDefinition && wordDefinition instanceof RegExp) { if (!wordDefinition.global) { var flags = 'g'; if (wordDefinition.ignoreCase) { flags += 'i'; } if (wordDefinition.multiline) { flags += 'm'; } if (wordDefinition.unicode) { flags += 'u'; } result = new RegExp(wordDefinition.source, flags); } else { result = wordDefinition; } } result.lastIndex = 0; return result; } var _defaultConfig = { maxLen: 1000, windowSize: 15, timeBudget: 150 }; function getWordAtText(column, wordDefinition, text, textOffset) { var config = arguments.length > 4 && arguments[4] !== undefined ? arguments[4] : _defaultConfig; if (text.length > config.maxLen) { // don't throw strings that long at the regexp // but use a sub-string in which a word must occur var start = column - config.maxLen / 2; if (start < 0) { start = 0; } else { textOffset += start; } text = text.substring(start, column + config.maxLen / 2); return getWordAtText(column, wordDefinition, text, textOffset, config); } var t1 = Date.now(); var pos = column - 1 - textOffset; var prevRegexIndex = -1; var match = null; for (var i = 1;; i++) { // check time budget if (Date.now() - t1 >= config.timeBudget) { break; } // reset the index at which the regexp should start matching, also know where it // should stop so that subsequent search don't repeat previous searches var regexIndex = pos - config.windowSize * i; wordDefinition.lastIndex = Math.max(0, regexIndex); var thisMatch = _findRegexMatchEnclosingPosition(wordDefinition, text, pos, prevRegexIndex); if (!thisMatch && match) { // stop: we have something break; } match = thisMatch; // stop: searched at start if (regexIndex <= 0) { break; } prevRegexIndex = regexIndex; } if (match) { var result = { word: match[0], startColumn: textOffset + 1 + match.index, endColumn: textOffset + 1 + match.index + match[0].length }; wordDefinition.lastIndex = 0; return result; } return null; } function _findRegexMatchEnclosingPosition(wordDefinition, text, pos, stopPos) { var match; while (match = wordDefinition.exec(text)) { var matchIndex = match.index || 0; if (matchIndex <= pos && wordDefinition.lastIndex >= pos) { return match; } else if (stopPos > 0 && matchIndex > stopPos) { return null; } } return null; } ;// CONCATENATED MODULE: ./node_modules/monaco-editor/esm/vs/editor/common/core/characterClassifier.js /*--------------------------------------------------------------------------------------------- * Copyright (c) Microsoft Corporation. All rights reserved. * Licensed under the MIT License. See License.txt in the project root for license information. *--------------------------------------------------------------------------------------------*/ /** * A fast character classifier that uses a compact array for ASCII values. */ var CharacterClassifier = /*#__PURE__*/function () { function CharacterClassifier(_defaultValue) { classCallCheck_default()(this, CharacterClassifier); var defaultValue = toUint8(_defaultValue); this._defaultValue = defaultValue; this._asciiMap = CharacterClassifier._createAsciiMap(defaultValue); this._map = new Map(); } createClass_default()(CharacterClassifier, [{ key: "set", value: function set(charCode, _value) { var value = toUint8(_value); if (charCode >= 0 && charCode < 256) { this._asciiMap[charCode] = value; } else { this._map.set(charCode, value); } } }, { key: "get", value: function get(charCode) { if (charCode >= 0 && charCode < 256) { return this._asciiMap[charCode]; } else { return this._map.get(charCode) || this._defaultValue; } } }], [{ key: "_createAsciiMap", value: function _createAsciiMap(defaultValue) { var asciiMap = new Uint8Array(256); for (var i = 0; i < 256; i++) { asciiMap[i] = defaultValue; } return asciiMap; } }]); return CharacterClassifier; }(); var CharacterSet = /*#__PURE__*/(/* unused pure expression or super */ null && (function () { function CharacterSet() { _classCallCheck(this, CharacterSet); this._actual = new CharacterClassifier(0 /* False */); } _createClass(CharacterSet, [{ key: "add", value: function add(charCode) { this._actual.set(charCode, 1 /* True */); } }, { key: "has", value: function has(charCode) { return this._actual.get(charCode) === 1 /* True */; } }]); return CharacterSet; }())); ;// CONCATENATED MODULE: ./node_modules/monaco-editor/esm/vs/editor/common/modes/linkComputer.js /*--------------------------------------------------------------------------------------------- * Copyright (c) Microsoft Corporation. All rights reserved. * Licensed under the MIT License. See License.txt in the project root for license information. *--------------------------------------------------------------------------------------------*/ var Uint8Matrix = /*#__PURE__*/function () { function Uint8Matrix(rows, cols, defaultValue) { classCallCheck_default()(this, Uint8Matrix); var data = new Uint8Array(rows * cols); for (var i = 0, len = rows * cols; i < len; i++) { data[i] = defaultValue; } this._data = data; this.rows = rows; this.cols = cols; } createClass_default()(Uint8Matrix, [{ key: "get", value: function get(row, col) { return this._data[row * this.cols + col]; } }, { key: "set", value: function set(row, col, value) { this._data[row * this.cols + col] = value; } }]); return Uint8Matrix; }(); var StateMachine = /*#__PURE__*/function () { function StateMachine(edges) { classCallCheck_default()(this, StateMachine); var maxCharCode = 0; var maxState = 0 /* Invalid */; for (var i = 0, len = edges.length; i < len; i++) { var _edges$i = slicedToArray_default()(edges[i], 3), from = _edges$i[0], chCode = _edges$i[1], to = _edges$i[2]; if (chCode > maxCharCode) { maxCharCode = chCode; } if (from > maxState) { maxState = from; } if (to > maxState) { maxState = to; } } maxCharCode++; maxState++; var states = new Uint8Matrix(maxState, maxCharCode, 0 /* Invalid */); for (var _i = 0, _len = edges.length; _i < _len; _i++) { var _edges$_i = slicedToArray_default()(edges[_i], 3), _from = _edges$_i[0], _chCode = _edges$_i[1], _to = _edges$_i[2]; states.set(_from, _chCode, _to); } this._states = states; this._maxCharCode = maxCharCode; } createClass_default()(StateMachine, [{ key: "nextState", value: function nextState(currentState, chCode) { if (chCode < 0 || chCode >= this._maxCharCode) { return 0 /* Invalid */; } return this._states.get(currentState, chCode); } }]); return StateMachine; }(); // State machine for http:// or https:// or file:// var _stateMachine = null; function getStateMachine() { if (_stateMachine === null) { _stateMachine = new StateMachine([[1 /* Start */, 104 /* h */, 2 /* H */], [1 /* Start */, 72 /* H */, 2 /* H */], [1 /* Start */, 102 /* f */, 6 /* F */], [1 /* Start */, 70 /* F */, 6 /* F */], [2 /* H */, 116 /* t */, 3 /* HT */], [2 /* H */, 84 /* T */, 3 /* HT */], [3 /* HT */, 116 /* t */, 4 /* HTT */], [3 /* HT */, 84 /* T */, 4 /* HTT */], [4 /* HTT */, 112 /* p */, 5 /* HTTP */], [4 /* HTT */, 80 /* P */, 5 /* HTTP */], [5 /* HTTP */, 115 /* s */, 9 /* BeforeColon */], [5 /* HTTP */, 83 /* S */, 9 /* BeforeColon */], [5 /* HTTP */, 58 /* Colon */, 10 /* AfterColon */], [6 /* F */, 105 /* i */, 7 /* FI */], [6 /* F */, 73 /* I */, 7 /* FI */], [7 /* FI */, 108 /* l */, 8 /* FIL */], [7 /* FI */, 76 /* L */, 8 /* FIL */], [8 /* FIL */, 101 /* e */, 9 /* BeforeColon */], [8 /* FIL */, 69 /* E */, 9 /* BeforeColon */], [9 /* BeforeColon */, 58 /* Colon */, 10 /* AfterColon */], [10 /* AfterColon */, 47 /* Slash */, 11 /* AlmostThere */], [11 /* AlmostThere */, 47 /* Slash */, 12 /* End */]]); } return _stateMachine; } var _classifier = null; function getClassifier() { if (_classifier === null) { _classifier = new CharacterClassifier(0 /* None */); var FORCE_TERMINATION_CHARACTERS = ' \t<>\'\"、。。、,.:;‘〈「『〔([{「」}])〕』」〉’`~…'; for (var i = 0; i < FORCE_TERMINATION_CHARACTERS.length; i++) { _classifier.set(FORCE_TERMINATION_CHARACTERS.charCodeAt(i), 1 /* ForceTermination */); } var CANNOT_END_WITH_CHARACTERS = '.,;'; for (var _i2 = 0; _i2 < CANNOT_END_WITH_CHARACTERS.length; _i2++) { _classifier.set(CANNOT_END_WITH_CHARACTERS.charCodeAt(_i2), 2 /* CannotEndIn */); } } return _classifier; } var LinkComputer = /*#__PURE__*/function () { function LinkComputer() { classCallCheck_default()(this, LinkComputer); } createClass_default()(LinkComputer, null, [{ key: "_createLink", value: function _createLink(classifier, line, lineNumber, linkBeginIndex, linkEndIndex) { // Do not allow to end link in certain characters... var lastIncludedCharIndex = linkEndIndex - 1; do { var chCode = line.charCodeAt(lastIncludedCharIndex); var chClass = classifier.get(chCode); if (chClass !== 2 /* CannotEndIn */) { break; } lastIncludedCharIndex--; } while (lastIncludedCharIndex > linkBeginIndex); // Handle links enclosed in parens, square brackets and curlys. if (linkBeginIndex > 0) { var charCodeBeforeLink = line.charCodeAt(linkBeginIndex - 1); var lastCharCodeInLink = line.charCodeAt(lastIncludedCharIndex); if (charCodeBeforeLink === 40 /* OpenParen */ && lastCharCodeInLink === 41 /* CloseParen */ || charCodeBeforeLink === 91 /* OpenSquareBracket */ && lastCharCodeInLink === 93 /* CloseSquareBracket */ || charCodeBeforeLink === 123 /* OpenCurlyBrace */ && lastCharCodeInLink === 125 /* CloseCurlyBrace */) { // Do not end in ) if ( is before the link start // Do not end in ] if [ is before the link start // Do not end in } if { is before the link start lastIncludedCharIndex--; } } return { range: { startLineNumber: lineNumber, startColumn: linkBeginIndex + 1, endLineNumber: lineNumber, endColumn: lastIncludedCharIndex + 2 }, url: line.substring(linkBeginIndex, lastIncludedCharIndex + 1) }; } }, { key: "computeLinks", value: function computeLinks(model) { var stateMachine = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : getStateMachine(); var classifier = getClassifier(); var result = []; for (var i = 1, lineCount = model.getLineCount(); i <= lineCount; i++) { var line = model.getLineContent(i); var len = line.length; var j = 0; var linkBeginIndex = 0; var linkBeginChCode = 0; var state = 1 /* Start */; var hasOpenParens = false; var hasOpenSquareBracket = false; var inSquareBrackets = false; var hasOpenCurlyBracket = false; while (j < len) { var resetStateMachine = false; var chCode = line.charCodeAt(j); if (state === 13 /* Accept */) { var chClass = void 0; switch (chCode) { case 40 /* OpenParen */: hasOpenParens = true; chClass = 0 /* None */; break; case 41 /* CloseParen */: chClass = hasOpenParens ? 0 /* None */ : 1 /* ForceTermination */; break; case 91 /* OpenSquareBracket */: inSquareBrackets = true; hasOpenSquareBracket = true; chClass = 0 /* None */; break; case 93 /* CloseSquareBracket */: inSquareBrackets = false; chClass = hasOpenSquareBracket ? 0 /* None */ : 1 /* ForceTermination */; break; case 123 /* OpenCurlyBrace */: hasOpenCurlyBracket = true; chClass = 0 /* None */; break; case 125 /* CloseCurlyBrace */: chClass = hasOpenCurlyBracket ? 0 /* None */ : 1 /* ForceTermination */; break; /* The following three rules make it that ' or " or ` are allowed inside links if the link began with a different one */ case 39 /* SingleQuote */: chClass = linkBeginChCode === 34 /* DoubleQuote */ || linkBeginChCode === 96 /* BackTick */ ? 0 /* None */ : 1 /* ForceTermination */; break; case 34 /* DoubleQuote */: chClass = linkBeginChCode === 39 /* SingleQuote */ || linkBeginChCode === 96 /* BackTick */ ? 0 /* None */ : 1 /* ForceTermination */; break; case 96 /* BackTick */: chClass = linkBeginChCode === 39 /* SingleQuote */ || linkBeginChCode === 34 /* DoubleQuote */ ? 0 /* None */ : 1 /* ForceTermination */; break; case 42 /* Asterisk */: // `*` terminates a link if the link began with `*` chClass = linkBeginChCode === 42 /* Asterisk */ ? 1 /* ForceTermination */ : 0 /* None */; break; case 124 /* Pipe */: // `|` terminates a link if the link began with `|` chClass = linkBeginChCode === 124 /* Pipe */ ? 1 /* ForceTermination */ : 0 /* None */; break; case 32 /* Space */: // ` ` allow space in between [ and ] chClass = inSquareBrackets ? 0 /* None */ : 1 /* ForceTermination */; break; default: chClass = classifier.get(chCode); } // Check if character terminates link if (chClass === 1 /* ForceTermination */) { result.push(LinkComputer._createLink(classifier, line, i, linkBeginIndex, j)); resetStateMachine = true; } } else if (state === 12 /* End */) { var _chClass = void 0; if (chCode === 91 /* OpenSquareBracket */) { // Allow for the authority part to contain ipv6 addresses which contain [ and ] hasOpenSquareBracket = true; _chClass = 0 /* None */; } else { _chClass = classifier.get(chCode); } // Check if character terminates link if (_chClass === 1 /* ForceTermination */) { resetStateMachine = true; } else { state = 13 /* Accept */; } } else { state = stateMachine.nextState(state, chCode); if (state === 0 /* Invalid */) { resetStateMachine = true; } } if (resetStateMachine) { state = 1 /* Start */; hasOpenParens = false; hasOpenSquareBracket = false; hasOpenCurlyBracket = false; // Record where the link started linkBeginIndex = j + 1; linkBeginChCode = chCode; } j++; } if (state === 13 /* Accept */) { result.push(LinkComputer._createLink(classifier, line, i, linkBeginIndex, len)); } } return result; } }]); return LinkComputer; }(); /** * Returns an array of all links contains in the provided * document. *Note* that this operation is computational * expensive and should not run in the UI thread. */ function linkComputer_computeLinks(model) { if (!model || typeof model.getLineCount !== 'function' || typeof model.getLineContent !== 'function') { // Unknown caller! return []; } return LinkComputer.computeLinks(model); } ;// CONCATENATED MODULE: ./node_modules/monaco-editor/esm/vs/editor/common/modes/supports/inplaceReplaceSupport.js /*--------------------------------------------------------------------------------------------- * Copyright (c) Microsoft Corporation. All rights reserved. * Licensed under the MIT License. See License.txt in the project root for license information. *--------------------------------------------------------------------------------------------*/ var BasicInplaceReplace = /*#__PURE__*/function () { function BasicInplaceReplace() { classCallCheck_default()(this, BasicInplaceReplace); this._defaultValueSet = [['true', 'false'], ['True', 'False'], ['Private', 'Public', 'Friend', 'ReadOnly', 'Partial', 'Protected', 'WriteOnly'], ['public', 'protected', 'private']]; } createClass_default()(BasicInplaceReplace, [{ key: "navigateValueSet", value: function navigateValueSet(range1, text1, range2, text2, up) { if (range1 && text1) { var result = this.doNavigateValueSet(text1, up); if (result) { return { range: range1, value: result }; } } if (range2 && text2) { var _result = this.doNavigateValueSet(text2, up); if (_result) { return { range: range2, value: _result }; } } return null; } }, { key: "doNavigateValueSet", value: function doNavigateValueSet(text, up) { var numberResult = this.numberReplace(text, up); if (numberResult !== null) { return numberResult; } return this.textReplace(text, up); } }, { key: "numberReplace", value: function numberReplace(value, up) { var precision = Math.pow(10, value.length - (value.lastIndexOf('.') + 1)); var n1 = Number(value); var n2 = parseFloat(value); if (!isNaN(n1) && !isNaN(n2) && n1 === n2) { if (n1 === 0 && !up) { return null; // don't do negative // } else if(n1 === 9 && up) { // return null; // don't insert 10 into a number } else { n1 = Math.floor(n1 * precision); n1 += up ? precision : -precision; return String(n1 / precision); } } return null; } }, { key: "textReplace", value: function textReplace(value, up) { return this.valueSetsReplace(this._defaultValueSet, value, up); } }, { key: "valueSetsReplace", value: function valueSetsReplace(valueSets, value, up) { var result = null; for (var i = 0, len = valueSets.length; result === null && i < len; i++) { result = this.valueSetReplace(valueSets[i], value, up); } return result; } }, { key: "valueSetReplace", value: function valueSetReplace(valueSet, value, up) { var idx = valueSet.indexOf(value); if (idx >= 0) { idx += up ? +1 : -1; if (idx < 0) { idx = valueSet.length - 1; } else { idx %= valueSet.length; } return valueSet[idx]; } return null; } }]); return BasicInplaceReplace; }(); BasicInplaceReplace.INSTANCE = new BasicInplaceReplace(); ;// CONCATENATED MODULE: ./node_modules/monaco-editor/esm/vs/base/common/cancellation.js /*--------------------------------------------------------------------------------------------- * Copyright (c) Microsoft Corporation. All rights reserved. * Licensed under the MIT License. See License.txt in the project root for license information. *--------------------------------------------------------------------------------------------*/ var shortcutEvent = Object.freeze(function (callback, context) { var handle = setTimeout(callback.bind(context), 0); return { dispose: function dispose() { clearTimeout(handle); } }; }); var CancellationToken; (function (CancellationToken) { function isCancellationToken(thing) { if (thing === CancellationToken.None || thing === CancellationToken.Cancelled) { return true; } if (thing instanceof MutableToken) { return true; } if (!thing || typeof_default()(thing) !== 'object') { return false; } return typeof thing.isCancellationRequested === 'boolean' && typeof thing.onCancellationRequested === 'function'; } CancellationToken.isCancellationToken = isCancellationToken; CancellationToken.None = Object.freeze({ isCancellationRequested: false, onCancellationRequested: Event.None }); CancellationToken.Cancelled = Object.freeze({ isCancellationRequested: true, onCancellationRequested: shortcutEvent }); })(CancellationToken || (CancellationToken = {})); var MutableToken = /*#__PURE__*/function () { function MutableToken() { classCallCheck_default()(this, MutableToken); this._isCancelled = false; this._emitter = null; } createClass_default()(MutableToken, [{ key: "cancel", value: function cancel() { if (!this._isCancelled) { this._isCancelled = true; if (this._emitter) { this._emitter.fire(undefined); this.dispose(); } } } }, { key: "isCancellationRequested", get: function get() { return this._isCancelled; } }, { key: "onCancellationRequested", get: function get() { if (this._isCancelled) { return shortcutEvent; } if (!this._emitter) { this._emitter = new Emitter(); } return this._emitter.event; } }, { key: "dispose", value: function dispose() { if (this._emitter) { this._emitter.dispose(); this._emitter = null; } } }]); return MutableToken; }(); var CancellationTokenSource = /*#__PURE__*/function () { function CancellationTokenSource(parent) { classCallCheck_default()(this, CancellationTokenSource); this._token = undefined; this._parentListener = undefined; this._parentListener = parent && parent.onCancellationRequested(this.cancel, this); } createClass_default()(CancellationTokenSource, [{ key: "token", get: function get() { if (!this._token) { // be lazy and create the token only when // actually needed this._token = new MutableToken(); } return this._token; } }, { key: "cancel", value: function cancel() { if (!this._token) { // save an object by returning the default // cancelled token when cancellation happens // before someone asks for the token this._token = CancellationToken.Cancelled; } else if (this._token instanceof MutableToken) { // actually cancel this._token.cancel(); } } }, { key: "dispose", value: function dispose() { var cancel = arguments.length > 0 && arguments[0] !== undefined ? arguments[0] : false; if (cancel) { this.cancel(); } if (this._parentListener) { this._parentListener.dispose(); } if (!this._token) { // ensure to initialize with an empty token if we had none this._token = CancellationToken.None; } else if (this._token instanceof MutableToken) { // actually dispose this._token.dispose(); } } }]); return CancellationTokenSource; }(); ;// CONCATENATED MODULE: ./node_modules/monaco-editor/esm/vs/base/common/keyCodes.js /*--------------------------------------------------------------------------------------------- * Copyright (c) Microsoft Corporation. All rights reserved. * Licensed under the MIT License. See License.txt in the project root for license information. *--------------------------------------------------------------------------------------------*/ var KeyCodeStrMap = /*#__PURE__*/function () { function KeyCodeStrMap() { classCallCheck_default()(this, KeyCodeStrMap); this._keyCodeToStr = []; this._strToKeyCode = Object.create(null); } createClass_default()(KeyCodeStrMap, [{ key: "define", value: function define(keyCode, str) { this._keyCodeToStr[keyCode] = str; this._strToKeyCode[str.toLowerCase()] = keyCode; } }, { key: "keyCodeToStr", value: function keyCodeToStr(keyCode) { return this._keyCodeToStr[keyCode]; } }, { key: "strToKeyCode", value: function strToKeyCode(str) { return this._strToKeyCode[str.toLowerCase()] || 0 /* Unknown */; } }]); return KeyCodeStrMap; }(); var uiMap = new KeyCodeStrMap(); var userSettingsUSMap = new KeyCodeStrMap(); var userSettingsGeneralMap = new KeyCodeStrMap(); var EVENT_KEY_CODE_MAP = new Array(230); var NATIVE_WINDOWS_KEY_CODE_TO_KEY_CODE = {}; var scanCodeIntToStr = []; var scanCodeStrToInt = Object.create(null); var scanCodeLowerCaseStrToInt = Object.create(null); /** * -1 if a ScanCode => KeyCode mapping depends on kb layout. */ var IMMUTABLE_CODE_TO_KEY_CODE = []; /** * -1 if a KeyCode => ScanCode mapping depends on kb layout. */ var IMMUTABLE_KEY_CODE_TO_CODE = []; for (var i = 0; i <= 193 /* MAX_VALUE */; i++) { IMMUTABLE_CODE_TO_KEY_CODE[i] = -1 /* DependsOnKbLayout */; } for (var _i = 0; _i <= 126 /* MAX_VALUE */; _i++) { IMMUTABLE_KEY_CODE_TO_CODE[_i] = -1 /* DependsOnKbLayout */; } (function () { // See https://msdn.microsoft.com/en-us/library/windows/desktop/dd375731(v=vs.85).aspx // See https://github.com/microsoft/node-native-keymap/blob/master/deps/chromium/keyboard_codes_win.h var empty = ''; var mappings = [ // keyCodeOrd, immutable, scanCode, scanCodeStr, keyCode, keyCodeStr, eventKeyCode, vkey, usUserSettingsLabel, generalUserSettingsLabel [0, 1, 0 /* None */, 'None', 0 /* Unknown */, 'unknown', 0, 'VK_UNKNOWN', empty, empty], [0, 1, 1 /* Hyper */, 'Hyper', 0 /* Unknown */, empty, 0, empty, empty, empty], [0, 1, 2 /* Super */, 'Super', 0 /* Unknown */, empty, 0, empty, empty, empty], [0, 1, 3 /* Fn */, 'Fn', 0 /* Unknown */, empty, 0, empty, empty, empty], [0, 1, 4 /* FnLock */, 'FnLock', 0 /* Unknown */, empty, 0, empty, empty, empty], [0, 1, 5 /* Suspend */, 'Suspend', 0 /* Unknown */, empty, 0, empty, empty, empty], [0, 1, 6 /* Resume */, 'Resume', 0 /* Unknown */, empty, 0, empty, empty, empty], [0, 1, 7 /* Turbo */, 'Turbo', 0 /* Unknown */, empty, 0, empty, empty, empty], [0, 1, 8 /* Sleep */, 'Sleep', 0 /* Unknown */, empty, 0, 'VK_SLEEP', empty, empty], [0, 1, 9 /* WakeUp */, 'WakeUp', 0 /* Unknown */, empty, 0, empty, empty, empty], [31, 0, 10 /* KeyA */, 'KeyA', 31 /* KeyA */, 'A', 65, 'VK_A', empty, empty], [32, 0, 11 /* KeyB */, 'KeyB', 32 /* KeyB */, 'B', 66, 'VK_B', empty, empty], [33, 0, 12 /* KeyC */, 'KeyC', 33 /* KeyC */, 'C', 67, 'VK_C', empty, empty], [34, 0, 13 /* KeyD */, 'KeyD', 34 /* KeyD */, 'D', 68, 'VK_D', empty, empty], [35, 0, 14 /* KeyE */, 'KeyE', 35 /* KeyE */, 'E', 69, 'VK_E', empty, empty], [36, 0, 15 /* KeyF */, 'KeyF', 36 /* KeyF */, 'F', 70, 'VK_F', empty, empty], [37, 0, 16 /* KeyG */, 'KeyG', 37 /* KeyG */, 'G', 71, 'VK_G', empty, empty], [38, 0, 17 /* KeyH */, 'KeyH', 38 /* KeyH */, 'H', 72, 'VK_H', empty, empty], [39, 0, 18 /* KeyI */, 'KeyI', 39 /* KeyI */, 'I', 73, 'VK_I', empty, empty], [40, 0, 19 /* KeyJ */, 'KeyJ', 40 /* KeyJ */, 'J', 74, 'VK_J', empty, empty], [41, 0, 20 /* KeyK */, 'KeyK', 41 /* KeyK */, 'K', 75, 'VK_K', empty, empty], [42, 0, 21 /* KeyL */, 'KeyL', 42 /* KeyL */, 'L', 76, 'VK_L', empty, empty], [43, 0, 22 /* KeyM */, 'KeyM', 43 /* KeyM */, 'M', 77, 'VK_M', empty, empty], [44, 0, 23 /* KeyN */, 'KeyN', 44 /* KeyN */, 'N', 78, 'VK_N', empty, empty], [45, 0, 24 /* KeyO */, 'KeyO', 45 /* KeyO */, 'O', 79, 'VK_O', empty, empty], [46, 0, 25 /* KeyP */, 'KeyP', 46 /* KeyP */, 'P', 80, 'VK_P', empty, empty], [47, 0, 26 /* KeyQ */, 'KeyQ', 47 /* KeyQ */, 'Q', 81, 'VK_Q', empty, empty], [48, 0, 27 /* KeyR */, 'KeyR', 48 /* KeyR */, 'R', 82, 'VK_R', empty, empty], [49, 0, 28 /* KeyS */, 'KeyS', 49 /* KeyS */, 'S', 83, 'VK_S', empty, empty], [50, 0, 29 /* KeyT */, 'KeyT', 50 /* KeyT */, 'T', 84, 'VK_T', empty, empty], [51, 0, 30 /* KeyU */, 'KeyU', 51 /* KeyU */, 'U', 85, 'VK_U', empty, empty], [52, 0, 31 /* KeyV */, 'KeyV', 52 /* KeyV */, 'V', 86, 'VK_V', empty, empty], [53, 0, 32 /* KeyW */, 'KeyW', 53 /* KeyW */, 'W', 87, 'VK_W', empty, empty], [54, 0, 33 /* KeyX */, 'KeyX', 54 /* KeyX */, 'X', 88, 'VK_X', empty, empty], [55, 0, 34 /* KeyY */, 'KeyY', 55 /* KeyY */, 'Y', 89, 'VK_Y', empty, empty], [56, 0, 35 /* KeyZ */, 'KeyZ', 56 /* KeyZ */, 'Z', 90, 'VK_Z', empty, empty], [22, 0, 36 /* Digit1 */, 'Digit1', 22 /* Digit1 */, '1', 49, 'VK_1', empty, empty], [23, 0, 37 /* Digit2 */, 'Digit2', 23 /* Digit2 */, '2', 50, 'VK_2', empty, empty], [24, 0, 38 /* Digit3 */, 'Digit3', 24 /* Digit3 */, '3', 51, 'VK_3', empty, empty], [25, 0, 39 /* Digit4 */, 'Digit4', 25 /* Digit4 */, '4', 52, 'VK_4', empty, empty], [26, 0, 40 /* Digit5 */, 'Digit5', 26 /* Digit5 */, '5', 53, 'VK_5', empty, empty], [27, 0, 41 /* Digit6 */, 'Digit6', 27 /* Digit6 */, '6', 54, 'VK_6', empty, empty], [28, 0, 42 /* Digit7 */, 'Digit7', 28 /* Digit7 */, '7', 55, 'VK_7', empty, empty], [29, 0, 43 /* Digit8 */, 'Digit8', 29 /* Digit8 */, '8', 56, 'VK_8', empty, empty], [30, 0, 44 /* Digit9 */, 'Digit9', 30 /* Digit9 */, '9', 57, 'VK_9', empty, empty], [21, 0, 45 /* Digit0 */, 'Digit0', 21 /* Digit0 */, '0', 48, 'VK_0', empty, empty], [3, 1, 46 /* Enter */, 'Enter', 3 /* Enter */, 'Enter', 13, 'VK_RETURN', empty, empty], [9, 1, 47 /* Escape */, 'Escape', 9 /* Escape */, 'Escape', 27, 'VK_ESCAPE', empty, empty], [1, 1, 48 /* Backspace */, 'Backspace', 1 /* Backspace */, 'Backspace', 8, 'VK_BACK', empty, empty], [2, 1, 49 /* Tab */, 'Tab', 2 /* Tab */, 'Tab', 9, 'VK_TAB', empty, empty], [10, 1, 50 /* Space */, 'Space', 10 /* Space */, 'Space', 32, 'VK_SPACE', empty, empty], [83, 0, 51 /* Minus */, 'Minus', 83 /* Minus */, '-', 189, 'VK_OEM_MINUS', '-', 'OEM_MINUS'], [81, 0, 52 /* Equal */, 'Equal', 81 /* Equal */, '=', 187, 'VK_OEM_PLUS', '=', 'OEM_PLUS'], [87, 0, 53 /* BracketLeft */, 'BracketLeft', 87 /* BracketLeft */, '[', 219, 'VK_OEM_4', '[', 'OEM_4'], [89, 0, 54 /* BracketRight */, 'BracketRight', 89 /* BracketRight */, ']', 221, 'VK_OEM_6', ']', 'OEM_6'], [88, 0, 55 /* Backslash */, 'Backslash', 88 /* Backslash */, '\\', 220, 'VK_OEM_5', '\\', 'OEM_5'], [0, 0, 56 /* IntlHash */, 'IntlHash', 0 /* Unknown */, empty, 0, empty, empty, empty], [80, 0, 57 /* Semicolon */, 'Semicolon', 80 /* Semicolon */, ';', 186, 'VK_OEM_1', ';', 'OEM_1'], [90, 0, 58 /* Quote */, 'Quote', 90 /* Quote */, '\'', 222, 'VK_OEM_7', '\'', 'OEM_7'], [86, 0, 59 /* Backquote */, 'Backquote', 86 /* Backquote */, '`', 192, 'VK_OEM_3', '`', 'OEM_3'], [82, 0, 60 /* Comma */, 'Comma', 82 /* Comma */, ',', 188, 'VK_OEM_COMMA', ',', 'OEM_COMMA'], [84, 0, 61 /* Period */, 'Period', 84 /* Period */, '.', 190, 'VK_OEM_PERIOD', '.', 'OEM_PERIOD'], [85, 0, 62 /* Slash */, 'Slash', 85 /* Slash */, '/', 191, 'VK_OEM_2', '/', 'OEM_2'], [8, 1, 63 /* CapsLock */, 'CapsLock', 8 /* CapsLock */, 'CapsLock', 20, 'VK_CAPITAL', empty, empty], [59, 1, 64 /* F1 */, 'F1', 59 /* F1 */, 'F1', 112, 'VK_F1', empty, empty], [60, 1, 65 /* F2 */, 'F2', 60 /* F2 */, 'F2', 113, 'VK_F2', empty, empty], [61, 1, 66 /* F3 */, 'F3', 61 /* F3 */, 'F3', 114, 'VK_F3', empty, empty], [62, 1, 67 /* F4 */, 'F4', 62 /* F4 */, 'F4', 115, 'VK_F4', empty, empty], [63, 1, 68 /* F5 */, 'F5', 63 /* F5 */, 'F5', 116, 'VK_F5', empty, empty], [64, 1, 69 /* F6 */, 'F6', 64 /* F6 */, 'F6', 117, 'VK_F6', empty, empty], [65, 1, 70 /* F7 */, 'F7', 65 /* F7 */, 'F7', 118, 'VK_F7', empty, empty], [66, 1, 71 /* F8 */, 'F8', 66 /* F8 */, 'F8', 119, 'VK_F8', empty, empty], [67, 1, 72 /* F9 */, 'F9', 67 /* F9 */, 'F9', 120, 'VK_F9', empty, empty], [68, 1, 73 /* F10 */, 'F10', 68 /* F10 */, 'F10', 121, 'VK_F10', empty, empty], [69, 1, 74 /* F11 */, 'F11', 69 /* F11 */, 'F11', 122, 'VK_F11', empty, empty], [70, 1, 75 /* F12 */, 'F12', 70 /* F12 */, 'F12', 123, 'VK_F12', empty, empty], [0, 1, 76 /* PrintScreen */, 'PrintScreen', 0 /* Unknown */, empty, 0, empty, empty, empty], [79, 1, 77 /* ScrollLock */, 'ScrollLock', 79 /* ScrollLock */, 'ScrollLock', 145, 'VK_SCROLL', empty, empty], [7, 1, 78 /* Pause */, 'Pause', 7 /* PauseBreak */, 'PauseBreak', 19, 'VK_PAUSE', empty, empty], [19, 1, 79 /* Insert */, 'Insert', 19 /* Insert */, 'Insert', 45, 'VK_INSERT', empty, empty], [14, 1, 80 /* Home */, 'Home', 14 /* Home */, 'Home', 36, 'VK_HOME', empty, empty], [11, 1, 81 /* PageUp */, 'PageUp', 11 /* PageUp */, 'PageUp', 33, 'VK_PRIOR', empty, empty], [20, 1, 82 /* Delete */, 'Delete', 20 /* Delete */, 'Delete', 46, 'VK_DELETE', empty, empty], [13, 1, 83 /* End */, 'End', 13 /* End */, 'End', 35, 'VK_END', empty, empty], [12, 1, 84 /* PageDown */, 'PageDown', 12 /* PageDown */, 'PageDown', 34, 'VK_NEXT', empty, empty], [17, 1, 85 /* ArrowRight */, 'ArrowRight', 17 /* RightArrow */, 'RightArrow', 39, 'VK_RIGHT', 'Right', empty], [15, 1, 86 /* ArrowLeft */, 'ArrowLeft', 15 /* LeftArrow */, 'LeftArrow', 37, 'VK_LEFT', 'Left', empty], [18, 1, 87 /* ArrowDown */, 'ArrowDown', 18 /* DownArrow */, 'DownArrow', 40, 'VK_DOWN', 'Down', empty], [16, 1, 88 /* ArrowUp */, 'ArrowUp', 16 /* UpArrow */, 'UpArrow', 38, 'VK_UP', 'Up', empty], [78, 1, 89 /* NumLock */, 'NumLock', 78 /* NumLock */, 'NumLock', 144, 'VK_NUMLOCK', empty, empty], [108, 1, 90 /* NumpadDivide */, 'NumpadDivide', 108 /* NumpadDivide */, 'NumPad_Divide', 111, 'VK_DIVIDE', empty, empty], [103, 1, 91 /* NumpadMultiply */, 'NumpadMultiply', 103 /* NumpadMultiply */, 'NumPad_Multiply', 106, 'VK_MULTIPLY', empty, empty], [106, 1, 92 /* NumpadSubtract */, 'NumpadSubtract', 106 /* NumpadSubtract */, 'NumPad_Subtract', 109, 'VK_SUBTRACT', empty, empty], [104, 1, 93 /* NumpadAdd */, 'NumpadAdd', 104 /* NumpadAdd */, 'NumPad_Add', 107, 'VK_ADD', empty, empty], [3, 1, 94 /* NumpadEnter */, 'NumpadEnter', 3 /* Enter */, empty, 0, empty, empty, empty], [94, 1, 95 /* Numpad1 */, 'Numpad1', 94 /* Numpad1 */, 'NumPad1', 97, 'VK_NUMPAD1', empty, empty], [95, 1, 96 /* Numpad2 */, 'Numpad2', 95 /* Numpad2 */, 'NumPad2', 98, 'VK_NUMPAD2', empty, empty], [96, 1, 97 /* Numpad3 */, 'Numpad3', 96 /* Numpad3 */, 'NumPad3', 99, 'VK_NUMPAD3', empty, empty], [97, 1, 98 /* Numpad4 */, 'Numpad4', 97 /* Numpad4 */, 'NumPad4', 100, 'VK_NUMPAD4', empty, empty], [98, 1, 99 /* Numpad5 */, 'Numpad5', 98 /* Numpad5 */, 'NumPad5', 101, 'VK_NUMPAD5', empty, empty], [99, 1, 100 /* Numpad6 */, 'Numpad6', 99 /* Numpad6 */, 'NumPad6', 102, 'VK_NUMPAD6', empty, empty], [100, 1, 101 /* Numpad7 */, 'Numpad7', 100 /* Numpad7 */, 'NumPad7', 103, 'VK_NUMPAD7', empty, empty], [101, 1, 102 /* Numpad8 */, 'Numpad8', 101 /* Numpad8 */, 'NumPad8', 104, 'VK_NUMPAD8', empty, empty], [102, 1, 103 /* Numpad9 */, 'Numpad9', 102 /* Numpad9 */, 'NumPad9', 105, 'VK_NUMPAD9', empty, empty], [93, 1, 104 /* Numpad0 */, 'Numpad0', 93 /* Numpad0 */, 'NumPad0', 96, 'VK_NUMPAD0', empty, empty], [107, 1, 105 /* NumpadDecimal */, 'NumpadDecimal', 107 /* NumpadDecimal */, 'NumPad_Decimal', 110, 'VK_DECIMAL', empty, empty], [92, 0, 106 /* IntlBackslash */, 'IntlBackslash', 92 /* IntlBackslash */, 'OEM_102', 226, 'VK_OEM_102', empty, empty], [58, 1, 107 /* ContextMenu */, 'ContextMenu', 58 /* ContextMenu */, 'ContextMenu', 93, empty, empty, empty], [0, 1, 108 /* Power */, 'Power', 0 /* Unknown */, empty, 0, empty, empty, empty], [0, 1, 109 /* NumpadEqual */, 'NumpadEqual', 0 /* Unknown */, empty, 0, empty, empty, empty], [71, 1, 110 /* F13 */, 'F13', 71 /* F13 */, 'F13', 124, 'VK_F13', empty, empty], [72, 1, 111 /* F14 */, 'F14', 72 /* F14 */, 'F14', 125, 'VK_F14', empty, empty], [73, 1, 112 /* F15 */, 'F15', 73 /* F15 */, 'F15', 126, 'VK_F15', empty, empty], [74, 1, 113 /* F16 */, 'F16', 74 /* F16 */, 'F16', 127, 'VK_F16', empty, empty], [75, 1, 114 /* F17 */, 'F17', 75 /* F17 */, 'F17', 128, 'VK_F17', empty, empty], [76, 1, 115 /* F18 */, 'F18', 76 /* F18 */, 'F18', 129, 'VK_F18', empty, empty], [77, 1, 116 /* F19 */, 'F19', 77 /* F19 */, 'F19', 130, 'VK_F19', empty, empty], [0, 1, 117 /* F20 */, 'F20', 0 /* Unknown */, empty, 0, 'VK_F20', empty, empty], [0, 1, 118 /* F21 */, 'F21', 0 /* Unknown */, empty, 0, 'VK_F21', empty, empty], [0, 1, 119 /* F22 */, 'F22', 0 /* Unknown */, empty, 0, 'VK_F22', empty, empty], [0, 1, 120 /* F23 */, 'F23', 0 /* Unknown */, empty, 0, 'VK_F23', empty, empty], [0, 1, 121 /* F24 */, 'F24', 0 /* Unknown */, empty, 0, 'VK_F24', empty, empty], [0, 1, 122 /* Open */, 'Open', 0 /* Unknown */, empty, 0, empty, empty, empty], [0, 1, 123 /* Help */, 'Help', 0 /* Unknown */, empty, 0, empty, empty, empty], [0, 1, 124 /* Select */, 'Select', 0 /* Unknown */, empty, 0, empty, empty, empty], [0, 1, 125 /* Again */, 'Again', 0 /* Unknown */, empty, 0, empty, empty, empty], [0, 1, 126 /* Undo */, 'Undo', 0 /* Unknown */, empty, 0, empty, empty, empty], [0, 1, 127 /* Cut */, 'Cut', 0 /* Unknown */, empty, 0, empty, empty, empty], [0, 1, 128 /* Copy */, 'Copy', 0 /* Unknown */, empty, 0, empty, empty, empty], [0, 1, 129 /* Paste */, 'Paste', 0 /* Unknown */, empty, 0, empty, empty, empty], [0, 1, 130 /* Find */, 'Find', 0 /* Unknown */, empty, 0, empty, empty, empty], [0, 1, 131 /* AudioVolumeMute */, 'AudioVolumeMute', 112 /* AudioVolumeMute */, 'AudioVolumeMute', 173, 'VK_VOLUME_MUTE', empty, empty], [0, 1, 132 /* AudioVolumeUp */, 'AudioVolumeUp', 113 /* AudioVolumeUp */, 'AudioVolumeUp', 175, 'VK_VOLUME_UP', empty, empty], [0, 1, 133 /* AudioVolumeDown */, 'AudioVolumeDown', 114 /* AudioVolumeDown */, 'AudioVolumeDown', 174, 'VK_VOLUME_DOWN', empty, empty], [105, 1, 134 /* NumpadComma */, 'NumpadComma', 105 /* NUMPAD_SEPARATOR */, 'NumPad_Separator', 108, 'VK_SEPARATOR', empty, empty], [110, 0, 135 /* IntlRo */, 'IntlRo', 110 /* ABNT_C1 */, 'ABNT_C1', 193, 'VK_ABNT_C1', empty, empty], [0, 1, 136 /* KanaMode */, 'KanaMode', 0 /* Unknown */, empty, 0, empty, empty, empty], [0, 0, 137 /* IntlYen */, 'IntlYen', 0 /* Unknown */, empty, 0, empty, empty, empty], [0, 1, 138 /* Convert */, 'Convert', 0 /* Unknown */, empty, 0, empty, empty, empty], [0, 1, 139 /* NonConvert */, 'NonConvert', 0 /* Unknown */, empty, 0, empty, empty, empty], [0, 1, 140 /* Lang1 */, 'Lang1', 0 /* Unknown */, empty, 0, empty, empty, empty], [0, 1, 141 /* Lang2 */, 'Lang2', 0 /* Unknown */, empty, 0, empty, empty, empty], [0, 1, 142 /* Lang3 */, 'Lang3', 0 /* Unknown */, empty, 0, empty, empty, empty], [0, 1, 143 /* Lang4 */, 'Lang4', 0 /* Unknown */, empty, 0, empty, empty, empty], [0, 1, 144 /* Lang5 */, 'Lang5', 0 /* Unknown */, empty, 0, empty, empty, empty], [0, 1, 145 /* Abort */, 'Abort', 0 /* Unknown */, empty, 0, empty, empty, empty], [0, 1, 146 /* Props */, 'Props', 0 /* Unknown */, empty, 0, empty, empty, empty], [0, 1, 147 /* NumpadParenLeft */, 'NumpadParenLeft', 0 /* Unknown */, empty, 0, empty, empty, empty], [0, 1, 148 /* NumpadParenRight */, 'NumpadParenRight', 0 /* Unknown */, empty, 0, empty, empty, empty], [0, 1, 149 /* NumpadBackspace */, 'NumpadBackspace', 0 /* Unknown */, empty, 0, empty, empty, empty], [0, 1, 150 /* NumpadMemoryStore */, 'NumpadMemoryStore', 0 /* Unknown */, empty, 0, empty, empty, empty], [0, 1, 151 /* NumpadMemoryRecall */, 'NumpadMemoryRecall', 0 /* Unknown */, empty, 0, empty, empty, empty], [0, 1, 152 /* NumpadMemoryClear */, 'NumpadMemoryClear', 0 /* Unknown */, empty, 0, empty, empty, empty], [0, 1, 153 /* NumpadMemoryAdd */, 'NumpadMemoryAdd', 0 /* Unknown */, empty, 0, empty, empty, empty], [0, 1, 154 /* NumpadMemorySubtract */, 'NumpadMemorySubtract', 0 /* Unknown */, empty, 0, empty, empty, empty], [0, 1, 155 /* NumpadClear */, 'NumpadClear', 0 /* Unknown */, empty, 0, empty, empty, empty], [0, 1, 156 /* NumpadClearEntry */, 'NumpadClearEntry', 0 /* Unknown */, empty, 0, empty, empty, empty], [5, 1, 0 /* None */, empty, 5 /* Ctrl */, 'Ctrl', 17, 'VK_CONTROL', empty, empty], [4, 1, 0 /* None */, empty, 4 /* Shift */, 'Shift', 16, 'VK_SHIFT', empty, empty], [6, 1, 0 /* None */, empty, 6 /* Alt */, 'Alt', 18, 'VK_MENU', empty, empty], [57, 1, 0 /* None */, empty, 57 /* Meta */, 'Meta', 0, 'VK_COMMAND', empty, empty], [5, 1, 157 /* ControlLeft */, 'ControlLeft', 5 /* Ctrl */, empty, 0, 'VK_LCONTROL', empty, empty], [4, 1, 158 /* ShiftLeft */, 'ShiftLeft', 4 /* Shift */, empty, 0, 'VK_LSHIFT', empty, empty], [6, 1, 159 /* AltLeft */, 'AltLeft', 6 /* Alt */, empty, 0, 'VK_LMENU', empty, empty], [57, 1, 160 /* MetaLeft */, 'MetaLeft', 57 /* Meta */, empty, 0, 'VK_LWIN', empty, empty], [5, 1, 161 /* ControlRight */, 'ControlRight', 5 /* Ctrl */, empty, 0, 'VK_RCONTROL', empty, empty], [4, 1, 162 /* ShiftRight */, 'ShiftRight', 4 /* Shift */, empty, 0, 'VK_RSHIFT', empty, empty], [6, 1, 163 /* AltRight */, 'AltRight', 6 /* Alt */, empty, 0, 'VK_RMENU', empty, empty], [57, 1, 164 /* MetaRight */, 'MetaRight', 57 /* Meta */, empty, 0, 'VK_RWIN', empty, empty], [0, 1, 165 /* BrightnessUp */, 'BrightnessUp', 0 /* Unknown */, empty, 0, empty, empty, empty], [0, 1, 166 /* BrightnessDown */, 'BrightnessDown', 0 /* Unknown */, empty, 0, empty, empty, empty], [0, 1, 167 /* MediaPlay */, 'MediaPlay', 0 /* Unknown */, empty, 0, empty, empty, empty], [0, 1, 168 /* MediaRecord */, 'MediaRecord', 0 /* Unknown */, empty, 0, empty, empty, empty], [0, 1, 169 /* MediaFastForward */, 'MediaFastForward', 0 /* Unknown */, empty, 0, empty, empty, empty], [0, 1, 170 /* MediaRewind */, 'MediaRewind', 0 /* Unknown */, empty, 0, empty, empty, empty], [114, 1, 171 /* MediaTrackNext */, 'MediaTrackNext', 119 /* MediaTrackNext */, 'MediaTrackNext', 176, 'VK_MEDIA_NEXT_TRACK', empty, empty], [115, 1, 172 /* MediaTrackPrevious */, 'MediaTrackPrevious', 120 /* MediaTrackPrevious */, 'MediaTrackPrevious', 177, 'VK_MEDIA_PREV_TRACK', empty, empty], [116, 1, 173 /* MediaStop */, 'MediaStop', 121 /* MediaStop */, 'MediaStop', 178, 'VK_MEDIA_STOP', empty, empty], [0, 1, 174 /* Eject */, 'Eject', 0 /* Unknown */, empty, 0, empty, empty, empty], [117, 1, 175 /* MediaPlayPause */, 'MediaPlayPause', 122 /* MediaPlayPause */, 'MediaPlayPause', 179, 'VK_MEDIA_PLAY_PAUSE', empty, empty], [0, 1, 176 /* MediaSelect */, 'MediaSelect', 123 /* LaunchMediaPlayer */, 'LaunchMediaPlayer', 181, 'VK_MEDIA_LAUNCH_MEDIA_SELECT', empty, empty], [0, 1, 177 /* LaunchMail */, 'LaunchMail', 124 /* LaunchMail */, 'LaunchMail', 180, 'VK_MEDIA_LAUNCH_MAIL', empty, empty], [0, 1, 178 /* LaunchApp2 */, 'LaunchApp2', 125 /* LaunchApp2 */, 'LaunchApp2', 183, 'VK_MEDIA_LAUNCH_APP2', empty, empty], [0, 1, 179 /* LaunchApp1 */, 'LaunchApp1', 0 /* Unknown */, empty, 0, 'VK_MEDIA_LAUNCH_APP1', empty, empty], [0, 1, 180 /* SelectTask */, 'SelectTask', 0 /* Unknown */, empty, 0, empty, empty, empty], [0, 1, 181 /* LaunchScreenSaver */, 'LaunchScreenSaver', 0 /* Unknown */, empty, 0, empty, empty, empty], [0, 1, 182 /* BrowserSearch */, 'BrowserSearch', 115 /* BrowserSearch */, 'BrowserSearch', 170, 'VK_BROWSER_SEARCH', empty, empty], [0, 1, 183 /* BrowserHome */, 'BrowserHome', 116 /* BrowserHome */, 'BrowserHome', 172, 'VK_BROWSER_HOME', empty, empty], [112, 1, 184 /* BrowserBack */, 'BrowserBack', 117 /* BrowserBack */, 'BrowserBack', 166, 'VK_BROWSER_BACK', empty, empty], [113, 1, 185 /* BrowserForward */, 'BrowserForward', 118 /* BrowserForward */, 'BrowserForward', 167, 'VK_BROWSER_FORWARD', empty, empty], [0, 1, 186 /* BrowserStop */, 'BrowserStop', 0 /* Unknown */, empty, 0, 'VK_BROWSER_STOP', empty, empty], [0, 1, 187 /* BrowserRefresh */, 'BrowserRefresh', 0 /* Unknown */, empty, 0, 'VK_BROWSER_REFRESH', empty, empty], [0, 1, 188 /* BrowserFavorites */, 'BrowserFavorites', 0 /* Unknown */, empty, 0, 'VK_BROWSER_FAVORITES', empty, empty], [0, 1, 189 /* ZoomToggle */, 'ZoomToggle', 0 /* Unknown */, empty, 0, empty, empty, empty], [0, 1, 190 /* MailReply */, 'MailReply', 0 /* Unknown */, empty, 0, empty, empty, empty], [0, 1, 191 /* MailForward */, 'MailForward', 0 /* Unknown */, empty, 0, empty, empty, empty], [0, 1, 192 /* MailSend */, 'MailSend', 0 /* Unknown */, empty, 0, empty, empty, empty], // See https://lists.w3.org/Archives/Public/www-dom/2010JulSep/att-0182/keyCode-spec.html // If an Input Method Editor is processing key input and the event is keydown, return 229. [109, 1, 0 /* None */, empty, 109 /* KEY_IN_COMPOSITION */, 'KeyInComposition', 229, empty, empty, empty], [111, 1, 0 /* None */, empty, 111 /* ABNT_C2 */, 'ABNT_C2', 194, 'VK_ABNT_C2', empty, empty], [91, 1, 0 /* None */, empty, 91 /* OEM_8 */, 'OEM_8', 223, 'VK_OEM_8', empty, empty], [0, 1, 0 /* None */, empty, 0 /* Unknown */, empty, 0, 'VK_CLEAR', empty, empty], [0, 1, 0 /* None */, empty, 0 /* Unknown */, empty, 0, 'VK_KANA', empty, empty], [0, 1, 0 /* None */, empty, 0 /* Unknown */, empty, 0, 'VK_HANGUL', empty, empty], [0, 1, 0 /* None */, empty, 0 /* Unknown */, empty, 0, 'VK_JUNJA', empty, empty], [0, 1, 0 /* None */, empty, 0 /* Unknown */, empty, 0, 'VK_FINAL', empty, empty], [0, 1, 0 /* None */, empty, 0 /* Unknown */, empty, 0, 'VK_HANJA', empty, empty], [0, 1, 0 /* None */, empty, 0 /* Unknown */, empty, 0, 'VK_KANJI', empty, empty], [0, 1, 0 /* None */, empty, 0 /* Unknown */, empty, 0, 'VK_CONVERT', empty, empty], [0, 1, 0 /* None */, empty, 0 /* Unknown */, empty, 0, 'VK_NONCONVERT', empty, empty], [0, 1, 0 /* None */, empty, 0 /* Unknown */, empty, 0, 'VK_ACCEPT', empty, empty], [0, 1, 0 /* None */, empty, 0 /* Unknown */, empty, 0, 'VK_MODECHANGE', empty, empty], [0, 1, 0 /* None */, empty, 0 /* Unknown */, empty, 0, 'VK_SELECT', empty, empty], [0, 1, 0 /* None */, empty, 0 /* Unknown */, empty, 0, 'VK_PRINT', empty, empty], [0, 1, 0 /* None */, empty, 0 /* Unknown */, empty, 0, 'VK_EXECUTE', empty, empty], [0, 1, 0 /* None */, empty, 0 /* Unknown */, empty, 0, 'VK_SNAPSHOT', empty, empty], [0, 1, 0 /* None */, empty, 0 /* Unknown */, empty, 0, 'VK_HELP', empty, empty], [0, 1, 0 /* None */, empty, 0 /* Unknown */, empty, 0, 'VK_APPS', empty, empty], [0, 1, 0 /* None */, empty, 0 /* Unknown */, empty, 0, 'VK_PROCESSKEY', empty, empty], [0, 1, 0 /* None */, empty, 0 /* Unknown */, empty, 0, 'VK_PACKET', empty, empty], [0, 1, 0 /* None */, empty, 0 /* Unknown */, empty, 0, 'VK_DBE_SBCSCHAR', empty, empty], [0, 1, 0 /* None */, empty, 0 /* Unknown */, empty, 0, 'VK_DBE_DBCSCHAR', empty, empty], [0, 1, 0 /* None */, empty, 0 /* Unknown */, empty, 0, 'VK_ATTN', empty, empty], [0, 1, 0 /* None */, empty, 0 /* Unknown */, empty, 0, 'VK_CRSEL', empty, empty], [0, 1, 0 /* None */, empty, 0 /* Unknown */, empty, 0, 'VK_EXSEL', empty, empty], [0, 1, 0 /* None */, empty, 0 /* Unknown */, empty, 0, 'VK_EREOF', empty, empty], [0, 1, 0 /* None */, empty, 0 /* Unknown */, empty, 0, 'VK_PLAY', empty, empty], [0, 1, 0 /* None */, empty, 0 /* Unknown */, empty, 0, 'VK_ZOOM', empty, empty], [0, 1, 0 /* None */, empty, 0 /* Unknown */, empty, 0, 'VK_NONAME', empty, empty], [0, 1, 0 /* None */, empty, 0 /* Unknown */, empty, 0, 'VK_PA1', empty, empty], [0, 1, 0 /* None */, empty, 0 /* Unknown */, empty, 0, 'VK_OEM_CLEAR', empty, empty]]; var seenKeyCode = []; var seenScanCode = []; for (var _i2 = 0, _mappings = mappings; _i2 < _mappings.length; _i2++) { var mapping = _mappings[_i2]; var _mapping = slicedToArray_default()(mapping, 10), _keyCodeOrd = _mapping[0], immutable = _mapping[1], scanCode = _mapping[2], scanCodeStr = _mapping[3], keyCode = _mapping[4], keyCodeStr = _mapping[5], eventKeyCode = _mapping[6], vkey = _mapping[7], usUserSettingsLabel = _mapping[8], generalUserSettingsLabel = _mapping[9]; if (!seenScanCode[scanCode]) { seenScanCode[scanCode] = true; scanCodeIntToStr[scanCode] = scanCodeStr; scanCodeStrToInt[scanCodeStr] = scanCode; scanCodeLowerCaseStrToInt[scanCodeStr.toLowerCase()] = scanCode; if (immutable) { IMMUTABLE_CODE_TO_KEY_CODE[scanCode] = keyCode; if (keyCode !== 0 /* Unknown */ && keyCode !== 3 /* Enter */ && keyCode !== 5 /* Ctrl */ && keyCode !== 4 /* Shift */ && keyCode !== 6 /* Alt */ && keyCode !== 57 /* Meta */) { IMMUTABLE_KEY_CODE_TO_CODE[keyCode] = scanCode; } } } if (!seenKeyCode[keyCode]) { seenKeyCode[keyCode] = true; if (!keyCodeStr) { throw new Error("String representation missing for key code ".concat(keyCode, " around scan code ").concat(scanCodeStr)); } uiMap.define(keyCode, keyCodeStr); userSettingsUSMap.define(keyCode, usUserSettingsLabel || keyCodeStr); userSettingsGeneralMap.define(keyCode, generalUserSettingsLabel || usUserSettingsLabel || keyCodeStr); } if (eventKeyCode) { EVENT_KEY_CODE_MAP[eventKeyCode] = keyCode; } if (vkey) { NATIVE_WINDOWS_KEY_CODE_TO_KEY_CODE[vkey] = keyCode; } } // Manually added due to the exclusion above (due to duplication with NumpadEnter) IMMUTABLE_KEY_CODE_TO_CODE[3 /* Enter */] = 46 /* Enter */; })(); var KeyCodeUtils; (function (KeyCodeUtils) { function toString(keyCode) { return uiMap.keyCodeToStr(keyCode); } KeyCodeUtils.toString = toString; function fromString(key) { return uiMap.strToKeyCode(key); } KeyCodeUtils.fromString = fromString; function toUserSettingsUS(keyCode) { return userSettingsUSMap.keyCodeToStr(keyCode); } KeyCodeUtils.toUserSettingsUS = toUserSettingsUS; function toUserSettingsGeneral(keyCode) { return userSettingsGeneralMap.keyCodeToStr(keyCode); } KeyCodeUtils.toUserSettingsGeneral = toUserSettingsGeneral; function fromUserSettings(key) { return userSettingsUSMap.strToKeyCode(key) || userSettingsGeneralMap.strToKeyCode(key); } KeyCodeUtils.fromUserSettings = fromUserSettings; function toElectronAccelerator(keyCode) { if (keyCode >= 93 /* Numpad0 */ && keyCode <= 108 /* NumpadDivide */) { // [Electron Accelerators] Electron is able to parse numpad keys, but unfortunately it // renders them just as regular keys in menus. For example, num0 is rendered as "0", // numdiv is rendered as "/", numsub is rendered as "-". // // This can lead to incredible confusion, as it makes numpad based keybindings indistinguishable // from keybindings based on regular keys. // // We therefore need to fall back to custom rendering for numpad keys. return null; } switch (keyCode) { case 16 /* UpArrow */: return 'Up'; case 18 /* DownArrow */: return 'Down'; case 15 /* LeftArrow */: return 'Left'; case 17 /* RightArrow */: return 'Right'; } return uiMap.keyCodeToStr(keyCode); } KeyCodeUtils.toElectronAccelerator = toElectronAccelerator; })(KeyCodeUtils || (KeyCodeUtils = {})); function KeyChord(firstPart, secondPart) { var chordPart = (secondPart & 0x0000FFFF) << 16 >>> 0; return (firstPart | chordPart) >>> 0; } ;// CONCATENATED MODULE: ./node_modules/monaco-editor/esm/vs/editor/common/core/selection.js /*--------------------------------------------------------------------------------------------- * Copyright (c) Microsoft Corporation. All rights reserved. * Licensed under the MIT License. See License.txt in the project root for license information. *--------------------------------------------------------------------------------------------*/ /** * A selection in the editor. * The selection is a range that has an orientation. */ var Selection = /*#__PURE__*/function (_Range) { inherits_default()(Selection, _Range); var _super = createSuper_default()(Selection); function Selection(selectionStartLineNumber, selectionStartColumn, positionLineNumber, positionColumn) { var _this; classCallCheck_default()(this, Selection); _this = _super.call(this, selectionStartLineNumber, selectionStartColumn, positionLineNumber, positionColumn); _this.selectionStartLineNumber = selectionStartLineNumber; _this.selectionStartColumn = selectionStartColumn; _this.positionLineNumber = positionLineNumber; _this.positionColumn = positionColumn; return _this; } /** * Transform to a human-readable representation. */ createClass_default()(Selection, [{ key: "toString", value: function toString() { return '[' + this.selectionStartLineNumber + ',' + this.selectionStartColumn + ' -> ' + this.positionLineNumber + ',' + this.positionColumn + ']'; } /** * Test if equals other selection. */ }, { key: "equalsSelection", value: function equalsSelection(other) { return Selection.selectionsEqual(this, other); } /** * Test if the two selections are equal. */ }, { key: "getDirection", value: /** * Get directions (LTR or RTL). */ function getDirection() { if (this.selectionStartLineNumber === this.startLineNumber && this.selectionStartColumn === this.startColumn) { return 0 /* LTR */; } return 1 /* RTL */; } /** * Create a new selection with a different `positionLineNumber` and `positionColumn`. */ }, { key: "setEndPosition", value: function setEndPosition(endLineNumber, endColumn) { if (this.getDirection() === 0 /* LTR */) { return new Selection(this.startLineNumber, this.startColumn, endLineNumber, endColumn); } return new Selection(endLineNumber, endColumn, this.startLineNumber, this.startColumn); } /** * Get the position at `positionLineNumber` and `positionColumn`. */ }, { key: "getPosition", value: function getPosition() { return new Position(this.positionLineNumber, this.positionColumn); } /** * Create a new selection with a different `selectionStartLineNumber` and `selectionStartColumn`. */ }, { key: "setStartPosition", value: function setStartPosition(startLineNumber, startColumn) { if (this.getDirection() === 0 /* LTR */) { return new Selection(startLineNumber, startColumn, this.endLineNumber, this.endColumn); } return new Selection(this.endLineNumber, this.endColumn, startLineNumber, startColumn); } // ---- /** * Create a `Selection` from one or two positions */ }], [{ key: "selectionsEqual", value: function selectionsEqual(a, b) { return a.selectionStartLineNumber === b.selectionStartLineNumber && a.selectionStartColumn === b.selectionStartColumn && a.positionLineNumber === b.positionLineNumber && a.positionColumn === b.positionColumn; } }, { key: "fromPositions", value: function fromPositions(start) { var end = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : start; return new Selection(start.lineNumber, start.column, end.lineNumber, end.column); } /** * Create a `Selection` from an `ISelection`. */ }, { key: "liftSelection", value: function liftSelection(sel) { return new Selection(sel.selectionStartLineNumber, sel.selectionStartColumn, sel.positionLineNumber, sel.positionColumn); } /** * `a` equals `b`. */ }, { key: "selectionsArrEqual", value: function selectionsArrEqual(a, b) { if (a && !b || !a && b) { return false; } if (!a && !b) { return true; } if (a.length !== b.length) { return false; } for (var i = 0, len = a.length; i < len; i++) { if (!this.selectionsEqual(a[i], b[i])) { return false; } } return true; } /** * Test if `obj` is an `ISelection`. */ }, { key: "isISelection", value: function isISelection(obj) { return obj && typeof obj.selectionStartLineNumber === 'number' && typeof obj.selectionStartColumn === 'number' && typeof obj.positionLineNumber === 'number' && typeof obj.positionColumn === 'number'; } /** * Create with a direction. */ }, { key: "createWithDirection", value: function createWithDirection(startLineNumber, startColumn, endLineNumber, endColumn, direction) { if (direction === 0 /* LTR */) { return new Selection(startLineNumber, startColumn, endLineNumber, endColumn); } return new Selection(endLineNumber, endColumn, startLineNumber, startColumn); } }]); return Selection; }(Range); ;// CONCATENATED MODULE: ./node_modules/monaco-editor/esm/vs/editor/common/core/token.js /*--------------------------------------------------------------------------------------------- * Copyright (c) Microsoft Corporation. All rights reserved. * Licensed under the MIT License. See License.txt in the project root for license information. *--------------------------------------------------------------------------------------------*/ var Token = /*#__PURE__*/function () { function Token(offset, type, language) { classCallCheck_default()(this, Token); this._tokenBrand = undefined; this.offset = offset | 0; // @perf this.type = type; this.language = language; } createClass_default()(Token, [{ key: "toString", value: function toString() { return '(' + this.offset + ', ' + this.type + ')'; } }]); return Token; }(); var TokenizationResult = /*#__PURE__*/(/* unused pure expression or super */ null && (_createClass(function TokenizationResult(tokens, endState) { _classCallCheck(this, TokenizationResult); this._tokenizationResultBrand = undefined; this.tokens = tokens; this.endState = endState; }))); var TokenizationResult2 = /*#__PURE__*/(/* unused pure expression or super */ null && (_createClass(function TokenizationResult2(tokens, endState) { _classCallCheck(this, TokenizationResult2); this._tokenizationResult2Brand = undefined; this.tokens = tokens; this.endState = endState; }))); ;// CONCATENATED MODULE: ./node_modules/monaco-editor/esm/vs/editor/common/standalone/standaloneEnums.js /*--------------------------------------------------------------------------------------------- * Copyright (c) Microsoft Corporation. All rights reserved. * Licensed under the MIT License. See License.txt in the project root for license information. *--------------------------------------------------------------------------------------------*/ // THIS IS A GENERATED FILE. DO NOT EDIT DIRECTLY. var AccessibilitySupport; (function (AccessibilitySupport) { /** * This should be the browser case where it is not known if a screen reader is attached or no. */ AccessibilitySupport[AccessibilitySupport["Unknown"] = 0] = "Unknown"; AccessibilitySupport[AccessibilitySupport["Disabled"] = 1] = "Disabled"; AccessibilitySupport[AccessibilitySupport["Enabled"] = 2] = "Enabled"; })(AccessibilitySupport || (AccessibilitySupport = {})); var CompletionItemInsertTextRule; (function (CompletionItemInsertTextRule) { /** * Adjust whitespace/indentation of multiline insert texts to * match the current line indentation. */ CompletionItemInsertTextRule[CompletionItemInsertTextRule["KeepWhitespace"] = 1] = "KeepWhitespace"; /** * `insertText` is a snippet. */ CompletionItemInsertTextRule[CompletionItemInsertTextRule["InsertAsSnippet"] = 4] = "InsertAsSnippet"; })(CompletionItemInsertTextRule || (CompletionItemInsertTextRule = {})); var CompletionItemKind; (function (CompletionItemKind) { CompletionItemKind[CompletionItemKind["Method"] = 0] = "Method"; CompletionItemKind[CompletionItemKind["Function"] = 1] = "Function"; CompletionItemKind[CompletionItemKind["Constructor"] = 2] = "Constructor"; CompletionItemKind[CompletionItemKind["Field"] = 3] = "Field"; CompletionItemKind[CompletionItemKind["Variable"] = 4] = "Variable"; CompletionItemKind[CompletionItemKind["Class"] = 5] = "Class"; CompletionItemKind[CompletionItemKind["Struct"] = 6] = "Struct"; CompletionItemKind[CompletionItemKind["Interface"] = 7] = "Interface"; CompletionItemKind[CompletionItemKind["Module"] = 8] = "Module"; CompletionItemKind[CompletionItemKind["Property"] = 9] = "Property"; CompletionItemKind[CompletionItemKind["Event"] = 10] = "Event"; CompletionItemKind[CompletionItemKind["Operator"] = 11] = "Operator"; CompletionItemKind[CompletionItemKind["Unit"] = 12] = "Unit"; CompletionItemKind[CompletionItemKind["Value"] = 13] = "Value"; CompletionItemKind[CompletionItemKind["Constant"] = 14] = "Constant"; CompletionItemKind[CompletionItemKind["Enum"] = 15] = "Enum"; CompletionItemKind[CompletionItemKind["EnumMember"] = 16] = "EnumMember"; CompletionItemKind[CompletionItemKind["Keyword"] = 17] = "Keyword"; CompletionItemKind[CompletionItemKind["Text"] = 18] = "Text"; CompletionItemKind[CompletionItemKind["Color"] = 19] = "Color"; CompletionItemKind[CompletionItemKind["File"] = 20] = "File"; CompletionItemKind[CompletionItemKind["Reference"] = 21] = "Reference"; CompletionItemKind[CompletionItemKind["Customcolor"] = 22] = "Customcolor"; CompletionItemKind[CompletionItemKind["Folder"] = 23] = "Folder"; CompletionItemKind[CompletionItemKind["TypeParameter"] = 24] = "TypeParameter"; CompletionItemKind[CompletionItemKind["User"] = 25] = "User"; CompletionItemKind[CompletionItemKind["Issue"] = 26] = "Issue"; CompletionItemKind[CompletionItemKind["Snippet"] = 27] = "Snippet"; })(CompletionItemKind || (CompletionItemKind = {})); var CompletionItemTag; (function (CompletionItemTag) { CompletionItemTag[CompletionItemTag["Deprecated"] = 1] = "Deprecated"; })(CompletionItemTag || (CompletionItemTag = {})); /** * How a suggest provider was triggered. */ var CompletionTriggerKind; (function (CompletionTriggerKind) { CompletionTriggerKind[CompletionTriggerKind["Invoke"] = 0] = "Invoke"; CompletionTriggerKind[CompletionTriggerKind["TriggerCharacter"] = 1] = "TriggerCharacter"; CompletionTriggerKind[CompletionTriggerKind["TriggerForIncompleteCompletions"] = 2] = "TriggerForIncompleteCompletions"; })(CompletionTriggerKind || (CompletionTriggerKind = {})); /** * A positioning preference for rendering content widgets. */ var ContentWidgetPositionPreference; (function (ContentWidgetPositionPreference) { /** * Place the content widget exactly at a position */ ContentWidgetPositionPreference[ContentWidgetPositionPreference["EXACT"] = 0] = "EXACT"; /** * Place the content widget above a position */ ContentWidgetPositionPreference[ContentWidgetPositionPreference["ABOVE"] = 1] = "ABOVE"; /** * Place the content widget below a position */ ContentWidgetPositionPreference[ContentWidgetPositionPreference["BELOW"] = 2] = "BELOW"; })(ContentWidgetPositionPreference || (ContentWidgetPositionPreference = {})); /** * Describes the reason the cursor has changed its position. */ var CursorChangeReason; (function (CursorChangeReason) { /** * Unknown or not set. */ CursorChangeReason[CursorChangeReason["NotSet"] = 0] = "NotSet"; /** * A `model.setValue()` was called. */ CursorChangeReason[CursorChangeReason["ContentFlush"] = 1] = "ContentFlush"; /** * The `model` has been changed outside of this cursor and the cursor recovers its position from associated markers. */ CursorChangeReason[CursorChangeReason["RecoverFromMarkers"] = 2] = "RecoverFromMarkers"; /** * There was an explicit user gesture. */ CursorChangeReason[CursorChangeReason["Explicit"] = 3] = "Explicit"; /** * There was a Paste. */ CursorChangeReason[CursorChangeReason["Paste"] = 4] = "Paste"; /** * There was an Undo. */ CursorChangeReason[CursorChangeReason["Undo"] = 5] = "Undo"; /** * There was a Redo. */ CursorChangeReason[CursorChangeReason["Redo"] = 6] = "Redo"; })(CursorChangeReason || (CursorChangeReason = {})); /** * The default end of line to use when instantiating models. */ var DefaultEndOfLine; (function (DefaultEndOfLine) { /** * Use line feed (\n) as the end of line character. */ DefaultEndOfLine[DefaultEndOfLine["LF"] = 1] = "LF"; /** * Use carriage return and line feed (\r\n) as the end of line character. */ DefaultEndOfLine[DefaultEndOfLine["CRLF"] = 2] = "CRLF"; })(DefaultEndOfLine || (DefaultEndOfLine = {})); /** * A document highlight kind. */ var DocumentHighlightKind; (function (DocumentHighlightKind) { /** * A textual occurrence. */ DocumentHighlightKind[DocumentHighlightKind["Text"] = 0] = "Text"; /** * Read-access of a symbol, like reading a variable. */ DocumentHighlightKind[DocumentHighlightKind["Read"] = 1] = "Read"; /** * Write-access of a symbol, like writing to a variable. */ DocumentHighlightKind[DocumentHighlightKind["Write"] = 2] = "Write"; })(DocumentHighlightKind || (DocumentHighlightKind = {})); /** * Configuration options for auto indentation in the editor */ var EditorAutoIndentStrategy; (function (EditorAutoIndentStrategy) { EditorAutoIndentStrategy[EditorAutoIndentStrategy["None"] = 0] = "None"; EditorAutoIndentStrategy[EditorAutoIndentStrategy["Keep"] = 1] = "Keep"; EditorAutoIndentStrategy[EditorAutoIndentStrategy["Brackets"] = 2] = "Brackets"; EditorAutoIndentStrategy[EditorAutoIndentStrategy["Advanced"] = 3] = "Advanced"; EditorAutoIndentStrategy[EditorAutoIndentStrategy["Full"] = 4] = "Full"; })(EditorAutoIndentStrategy || (EditorAutoIndentStrategy = {})); var EditorOption; (function (EditorOption) { EditorOption[EditorOption["acceptSuggestionOnCommitCharacter"] = 0] = "acceptSuggestionOnCommitCharacter"; EditorOption[EditorOption["acceptSuggestionOnEnter"] = 1] = "acceptSuggestionOnEnter"; EditorOption[EditorOption["accessibilitySupport"] = 2] = "accessibilitySupport"; EditorOption[EditorOption["accessibilityPageSize"] = 3] = "accessibilityPageSize"; EditorOption[EditorOption["ariaLabel"] = 4] = "ariaLabel"; EditorOption[EditorOption["autoClosingBrackets"] = 5] = "autoClosingBrackets"; EditorOption[EditorOption["autoClosingDelete"] = 6] = "autoClosingDelete"; EditorOption[EditorOption["autoClosingOvertype"] = 7] = "autoClosingOvertype"; EditorOption[EditorOption["autoClosingQuotes"] = 8] = "autoClosingQuotes"; EditorOption[EditorOption["autoIndent"] = 9] = "autoIndent"; EditorOption[EditorOption["automaticLayout"] = 10] = "automaticLayout"; EditorOption[EditorOption["autoSurround"] = 11] = "autoSurround"; EditorOption[EditorOption["bracketPairColorization"] = 12] = "bracketPairColorization"; EditorOption[EditorOption["guides"] = 13] = "guides"; EditorOption[EditorOption["codeLens"] = 14] = "codeLens"; EditorOption[EditorOption["codeLensFontFamily"] = 15] = "codeLensFontFamily"; EditorOption[EditorOption["codeLensFontSize"] = 16] = "codeLensFontSize"; EditorOption[EditorOption["colorDecorators"] = 17] = "colorDecorators"; EditorOption[EditorOption["columnSelection"] = 18] = "columnSelection"; EditorOption[EditorOption["comments"] = 19] = "comments"; EditorOption[EditorOption["contextmenu"] = 20] = "contextmenu"; EditorOption[EditorOption["copyWithSyntaxHighlighting"] = 21] = "copyWithSyntaxHighlighting"; EditorOption[EditorOption["cursorBlinking"] = 22] = "cursorBlinking"; EditorOption[EditorOption["cursorSmoothCaretAnimation"] = 23] = "cursorSmoothCaretAnimation"; EditorOption[EditorOption["cursorStyle"] = 24] = "cursorStyle"; EditorOption[EditorOption["cursorSurroundingLines"] = 25] = "cursorSurroundingLines"; EditorOption[EditorOption["cursorSurroundingLinesStyle"] = 26] = "cursorSurroundingLinesStyle"; EditorOption[EditorOption["cursorWidth"] = 27] = "cursorWidth"; EditorOption[EditorOption["disableLayerHinting"] = 28] = "disableLayerHinting"; EditorOption[EditorOption["disableMonospaceOptimizations"] = 29] = "disableMonospaceOptimizations"; EditorOption[EditorOption["domReadOnly"] = 30] = "domReadOnly"; EditorOption[EditorOption["dragAndDrop"] = 31] = "dragAndDrop"; EditorOption[EditorOption["emptySelectionClipboard"] = 32] = "emptySelectionClipboard"; EditorOption[EditorOption["extraEditorClassName"] = 33] = "extraEditorClassName"; EditorOption[EditorOption["fastScrollSensitivity"] = 34] = "fastScrollSensitivity"; EditorOption[EditorOption["find"] = 35] = "find"; EditorOption[EditorOption["fixedOverflowWidgets"] = 36] = "fixedOverflowWidgets"; EditorOption[EditorOption["folding"] = 37] = "folding"; EditorOption[EditorOption["foldingStrategy"] = 38] = "foldingStrategy"; EditorOption[EditorOption["foldingHighlight"] = 39] = "foldingHighlight"; EditorOption[EditorOption["foldingImportsByDefault"] = 40] = "foldingImportsByDefault"; EditorOption[EditorOption["unfoldOnClickAfterEndOfLine"] = 41] = "unfoldOnClickAfterEndOfLine"; EditorOption[EditorOption["fontFamily"] = 42] = "fontFamily"; EditorOption[EditorOption["fontInfo"] = 43] = "fontInfo"; EditorOption[EditorOption["fontLigatures"] = 44] = "fontLigatures"; EditorOption[EditorOption["fontSize"] = 45] = "fontSize"; EditorOption[EditorOption["fontWeight"] = 46] = "fontWeight"; EditorOption[EditorOption["formatOnPaste"] = 47] = "formatOnPaste"; EditorOption[EditorOption["formatOnType"] = 48] = "formatOnType"; EditorOption[EditorOption["glyphMargin"] = 49] = "glyphMargin"; EditorOption[EditorOption["gotoLocation"] = 50] = "gotoLocation"; EditorOption[EditorOption["hideCursorInOverviewRuler"] = 51] = "hideCursorInOverviewRuler"; EditorOption[EditorOption["hover"] = 52] = "hover"; EditorOption[EditorOption["inDiffEditor"] = 53] = "inDiffEditor"; EditorOption[EditorOption["inlineSuggest"] = 54] = "inlineSuggest"; EditorOption[EditorOption["letterSpacing"] = 55] = "letterSpacing"; EditorOption[EditorOption["lightbulb"] = 56] = "lightbulb"; EditorOption[EditorOption["lineDecorationsWidth"] = 57] = "lineDecorationsWidth"; EditorOption[EditorOption["lineHeight"] = 58] = "lineHeight"; EditorOption[EditorOption["lineNumbers"] = 59] = "lineNumbers"; EditorOption[EditorOption["lineNumbersMinChars"] = 60] = "lineNumbersMinChars"; EditorOption[EditorOption["linkedEditing"] = 61] = "linkedEditing"; EditorOption[EditorOption["links"] = 62] = "links"; EditorOption[EditorOption["matchBrackets"] = 63] = "matchBrackets"; EditorOption[EditorOption["minimap"] = 64] = "minimap"; EditorOption[EditorOption["mouseStyle"] = 65] = "mouseStyle"; EditorOption[EditorOption["mouseWheelScrollSensitivity"] = 66] = "mouseWheelScrollSensitivity"; EditorOption[EditorOption["mouseWheelZoom"] = 67] = "mouseWheelZoom"; EditorOption[EditorOption["multiCursorMergeOverlapping"] = 68] = "multiCursorMergeOverlapping"; EditorOption[EditorOption["multiCursorModifier"] = 69] = "multiCursorModifier"; EditorOption[EditorOption["multiCursorPaste"] = 70] = "multiCursorPaste"; EditorOption[EditorOption["occurrencesHighlight"] = 71] = "occurrencesHighlight"; EditorOption[EditorOption["overviewRulerBorder"] = 72] = "overviewRulerBorder"; EditorOption[EditorOption["overviewRulerLanes"] = 73] = "overviewRulerLanes"; EditorOption[EditorOption["padding"] = 74] = "padding"; EditorOption[EditorOption["parameterHints"] = 75] = "parameterHints"; EditorOption[EditorOption["peekWidgetDefaultFocus"] = 76] = "peekWidgetDefaultFocus"; EditorOption[EditorOption["definitionLinkOpensInPeek"] = 77] = "definitionLinkOpensInPeek"; EditorOption[EditorOption["quickSuggestions"] = 78] = "quickSuggestions"; EditorOption[EditorOption["quickSuggestionsDelay"] = 79] = "quickSuggestionsDelay"; EditorOption[EditorOption["readOnly"] = 80] = "readOnly"; EditorOption[EditorOption["renameOnType"] = 81] = "renameOnType"; EditorOption[EditorOption["renderControlCharacters"] = 82] = "renderControlCharacters"; EditorOption[EditorOption["renderFinalNewline"] = 83] = "renderFinalNewline"; EditorOption[EditorOption["renderLineHighlight"] = 84] = "renderLineHighlight"; EditorOption[EditorOption["renderLineHighlightOnlyWhenFocus"] = 85] = "renderLineHighlightOnlyWhenFocus"; EditorOption[EditorOption["renderValidationDecorations"] = 86] = "renderValidationDecorations"; EditorOption[EditorOption["renderWhitespace"] = 87] = "renderWhitespace"; EditorOption[EditorOption["revealHorizontalRightPadding"] = 88] = "revealHorizontalRightPadding"; EditorOption[EditorOption["roundedSelection"] = 89] = "roundedSelection"; EditorOption[EditorOption["rulers"] = 90] = "rulers"; EditorOption[EditorOption["scrollbar"] = 91] = "scrollbar"; EditorOption[EditorOption["scrollBeyondLastColumn"] = 92] = "scrollBeyondLastColumn"; EditorOption[EditorOption["scrollBeyondLastLine"] = 93] = "scrollBeyondLastLine"; EditorOption[EditorOption["scrollPredominantAxis"] = 94] = "scrollPredominantAxis"; EditorOption[EditorOption["selectionClipboard"] = 95] = "selectionClipboard"; EditorOption[EditorOption["selectionHighlight"] = 96] = "selectionHighlight"; EditorOption[EditorOption["selectOnLineNumbers"] = 97] = "selectOnLineNumbers"; EditorOption[EditorOption["showFoldingControls"] = 98] = "showFoldingControls"; EditorOption[EditorOption["showUnused"] = 99] = "showUnused"; EditorOption[EditorOption["snippetSuggestions"] = 100] = "snippetSuggestions"; EditorOption[EditorOption["smartSelect"] = 101] = "smartSelect"; EditorOption[EditorOption["smoothScrolling"] = 102] = "smoothScrolling"; EditorOption[EditorOption["stickyTabStops"] = 103] = "stickyTabStops"; EditorOption[EditorOption["stopRenderingLineAfter"] = 104] = "stopRenderingLineAfter"; EditorOption[EditorOption["suggest"] = 105] = "suggest"; EditorOption[EditorOption["suggestFontSize"] = 106] = "suggestFontSize"; EditorOption[EditorOption["suggestLineHeight"] = 107] = "suggestLineHeight"; EditorOption[EditorOption["suggestOnTriggerCharacters"] = 108] = "suggestOnTriggerCharacters"; EditorOption[EditorOption["suggestSelection"] = 109] = "suggestSelection"; EditorOption[EditorOption["tabCompletion"] = 110] = "tabCompletion"; EditorOption[EditorOption["tabIndex"] = 111] = "tabIndex"; EditorOption[EditorOption["unusualLineTerminators"] = 112] = "unusualLineTerminators"; EditorOption[EditorOption["useShadowDOM"] = 113] = "useShadowDOM"; EditorOption[EditorOption["useTabStops"] = 114] = "useTabStops"; EditorOption[EditorOption["wordSeparators"] = 115] = "wordSeparators"; EditorOption[EditorOption["wordWrap"] = 116] = "wordWrap"; EditorOption[EditorOption["wordWrapBreakAfterCharacters"] = 117] = "wordWrapBreakAfterCharacters"; EditorOption[EditorOption["wordWrapBreakBeforeCharacters"] = 118] = "wordWrapBreakBeforeCharacters"; EditorOption[EditorOption["wordWrapColumn"] = 119] = "wordWrapColumn"; EditorOption[EditorOption["wordWrapOverride1"] = 120] = "wordWrapOverride1"; EditorOption[EditorOption["wordWrapOverride2"] = 121] = "wordWrapOverride2"; EditorOption[EditorOption["wrappingIndent"] = 122] = "wrappingIndent"; EditorOption[EditorOption["wrappingStrategy"] = 123] = "wrappingStrategy"; EditorOption[EditorOption["showDeprecated"] = 124] = "showDeprecated"; EditorOption[EditorOption["inlayHints"] = 125] = "inlayHints"; EditorOption[EditorOption["editorClassName"] = 126] = "editorClassName"; EditorOption[EditorOption["pixelRatio"] = 127] = "pixelRatio"; EditorOption[EditorOption["tabFocusMode"] = 128] = "tabFocusMode"; EditorOption[EditorOption["layoutInfo"] = 129] = "layoutInfo"; EditorOption[EditorOption["wrappingInfo"] = 130] = "wrappingInfo"; })(EditorOption || (EditorOption = {})); /** * End of line character preference. */ var EndOfLinePreference; (function (EndOfLinePreference) { /** * Use the end of line character identified in the text buffer. */ EndOfLinePreference[EndOfLinePreference["TextDefined"] = 0] = "TextDefined"; /** * Use line feed (\n) as the end of line character. */ EndOfLinePreference[EndOfLinePreference["LF"] = 1] = "LF"; /** * Use carriage return and line feed (\r\n) as the end of line character. */ EndOfLinePreference[EndOfLinePreference["CRLF"] = 2] = "CRLF"; })(EndOfLinePreference || (EndOfLinePreference = {})); /** * End of line character preference. */ var EndOfLineSequence; (function (EndOfLineSequence) { /** * Use line feed (\n) as the end of line character. */ EndOfLineSequence[EndOfLineSequence["LF"] = 0] = "LF"; /** * Use carriage return and line feed (\r\n) as the end of line character. */ EndOfLineSequence[EndOfLineSequence["CRLF"] = 1] = "CRLF"; })(EndOfLineSequence || (EndOfLineSequence = {})); /** * Describes what to do with the indentation when pressing Enter. */ var IndentAction; (function (IndentAction) { /** * Insert new line and copy the previous line's indentation. */ IndentAction[IndentAction["None"] = 0] = "None"; /** * Insert new line and indent once (relative to the previous line's indentation). */ IndentAction[IndentAction["Indent"] = 1] = "Indent"; /** * Insert two new lines: * - the first one indented which will hold the cursor * - the second one at the same indentation level */ IndentAction[IndentAction["IndentOutdent"] = 2] = "IndentOutdent"; /** * Insert new line and outdent once (relative to the previous line's indentation). */ IndentAction[IndentAction["Outdent"] = 3] = "Outdent"; })(IndentAction || (IndentAction = {})); var InlayHintKind; (function (InlayHintKind) { InlayHintKind[InlayHintKind["Other"] = 0] = "Other"; InlayHintKind[InlayHintKind["Type"] = 1] = "Type"; InlayHintKind[InlayHintKind["Parameter"] = 2] = "Parameter"; })(InlayHintKind || (InlayHintKind = {})); /** * How an {@link InlineCompletionsProvider inline completion provider} was triggered. */ var InlineCompletionTriggerKind; (function (InlineCompletionTriggerKind) { /** * Completion was triggered automatically while editing. * It is sufficient to return a single completion item in this case. */ InlineCompletionTriggerKind[InlineCompletionTriggerKind["Automatic"] = 0] = "Automatic"; /** * Completion was triggered explicitly by a user gesture. * Return multiple completion items to enable cycling through them. */ InlineCompletionTriggerKind[InlineCompletionTriggerKind["Explicit"] = 1] = "Explicit"; })(InlineCompletionTriggerKind || (InlineCompletionTriggerKind = {})); /** * Virtual Key Codes, the value does not hold any inherent meaning. * Inspired somewhat from https://msdn.microsoft.com/en-us/library/windows/desktop/dd375731(v=vs.85).aspx * But these are "more general", as they should work across browsers & OS`s. */ var KeyCode; (function (KeyCode) { KeyCode[KeyCode["DependsOnKbLayout"] = -1] = "DependsOnKbLayout"; /** * Placed first to cover the 0 value of the enum. */ KeyCode[KeyCode["Unknown"] = 0] = "Unknown"; KeyCode[KeyCode["Backspace"] = 1] = "Backspace"; KeyCode[KeyCode["Tab"] = 2] = "Tab"; KeyCode[KeyCode["Enter"] = 3] = "Enter"; KeyCode[KeyCode["Shift"] = 4] = "Shift"; KeyCode[KeyCode["Ctrl"] = 5] = "Ctrl"; KeyCode[KeyCode["Alt"] = 6] = "Alt"; KeyCode[KeyCode["PauseBreak"] = 7] = "PauseBreak"; KeyCode[KeyCode["CapsLock"] = 8] = "CapsLock"; KeyCode[KeyCode["Escape"] = 9] = "Escape"; KeyCode[KeyCode["Space"] = 10] = "Space"; KeyCode[KeyCode["PageUp"] = 11] = "PageUp"; KeyCode[KeyCode["PageDown"] = 12] = "PageDown"; KeyCode[KeyCode["End"] = 13] = "End"; KeyCode[KeyCode["Home"] = 14] = "Home"; KeyCode[KeyCode["LeftArrow"] = 15] = "LeftArrow"; KeyCode[KeyCode["UpArrow"] = 16] = "UpArrow"; KeyCode[KeyCode["RightArrow"] = 17] = "RightArrow"; KeyCode[KeyCode["DownArrow"] = 18] = "DownArrow"; KeyCode[KeyCode["Insert"] = 19] = "Insert"; KeyCode[KeyCode["Delete"] = 20] = "Delete"; KeyCode[KeyCode["Digit0"] = 21] = "Digit0"; KeyCode[KeyCode["Digit1"] = 22] = "Digit1"; KeyCode[KeyCode["Digit2"] = 23] = "Digit2"; KeyCode[KeyCode["Digit3"] = 24] = "Digit3"; KeyCode[KeyCode["Digit4"] = 25] = "Digit4"; KeyCode[KeyCode["Digit5"] = 26] = "Digit5"; KeyCode[KeyCode["Digit6"] = 27] = "Digit6"; KeyCode[KeyCode["Digit7"] = 28] = "Digit7"; KeyCode[KeyCode["Digit8"] = 29] = "Digit8"; KeyCode[KeyCode["Digit9"] = 30] = "Digit9"; KeyCode[KeyCode["KeyA"] = 31] = "KeyA"; KeyCode[KeyCode["KeyB"] = 32] = "KeyB"; KeyCode[KeyCode["KeyC"] = 33] = "KeyC"; KeyCode[KeyCode["KeyD"] = 34] = "KeyD"; KeyCode[KeyCode["KeyE"] = 35] = "KeyE"; KeyCode[KeyCode["KeyF"] = 36] = "KeyF"; KeyCode[KeyCode["KeyG"] = 37] = "KeyG"; KeyCode[KeyCode["KeyH"] = 38] = "KeyH"; KeyCode[KeyCode["KeyI"] = 39] = "KeyI"; KeyCode[KeyCode["KeyJ"] = 40] = "KeyJ"; KeyCode[KeyCode["KeyK"] = 41] = "KeyK"; KeyCode[KeyCode["KeyL"] = 42] = "KeyL"; KeyCode[KeyCode["KeyM"] = 43] = "KeyM"; KeyCode[KeyCode["KeyN"] = 44] = "KeyN"; KeyCode[KeyCode["KeyO"] = 45] = "KeyO"; KeyCode[KeyCode["KeyP"] = 46] = "KeyP"; KeyCode[KeyCode["KeyQ"] = 47] = "KeyQ"; KeyCode[KeyCode["KeyR"] = 48] = "KeyR"; KeyCode[KeyCode["KeyS"] = 49] = "KeyS"; KeyCode[KeyCode["KeyT"] = 50] = "KeyT"; KeyCode[KeyCode["KeyU"] = 51] = "KeyU"; KeyCode[KeyCode["KeyV"] = 52] = "KeyV"; KeyCode[KeyCode["KeyW"] = 53] = "KeyW"; KeyCode[KeyCode["KeyX"] = 54] = "KeyX"; KeyCode[KeyCode["KeyY"] = 55] = "KeyY"; KeyCode[KeyCode["KeyZ"] = 56] = "KeyZ"; KeyCode[KeyCode["Meta"] = 57] = "Meta"; KeyCode[KeyCode["ContextMenu"] = 58] = "ContextMenu"; KeyCode[KeyCode["F1"] = 59] = "F1"; KeyCode[KeyCode["F2"] = 60] = "F2"; KeyCode[KeyCode["F3"] = 61] = "F3"; KeyCode[KeyCode["F4"] = 62] = "F4"; KeyCode[KeyCode["F5"] = 63] = "F5"; KeyCode[KeyCode["F6"] = 64] = "F6"; KeyCode[KeyCode["F7"] = 65] = "F7"; KeyCode[KeyCode["F8"] = 66] = "F8"; KeyCode[KeyCode["F9"] = 67] = "F9"; KeyCode[KeyCode["F10"] = 68] = "F10"; KeyCode[KeyCode["F11"] = 69] = "F11"; KeyCode[KeyCode["F12"] = 70] = "F12"; KeyCode[KeyCode["F13"] = 71] = "F13"; KeyCode[KeyCode["F14"] = 72] = "F14"; KeyCode[KeyCode["F15"] = 73] = "F15"; KeyCode[KeyCode["F16"] = 74] = "F16"; KeyCode[KeyCode["F17"] = 75] = "F17"; KeyCode[KeyCode["F18"] = 76] = "F18"; KeyCode[KeyCode["F19"] = 77] = "F19"; KeyCode[KeyCode["NumLock"] = 78] = "NumLock"; KeyCode[KeyCode["ScrollLock"] = 79] = "ScrollLock"; /** * Used for miscellaneous characters; it can vary by keyboard. * For the US standard keyboard, the ';:' key */ KeyCode[KeyCode["Semicolon"] = 80] = "Semicolon"; /** * For any country/region, the '+' key * For the US standard keyboard, the '=+' key */ KeyCode[KeyCode["Equal"] = 81] = "Equal"; /** * For any country/region, the ',' key * For the US standard keyboard, the ',<' key */ KeyCode[KeyCode["Comma"] = 82] = "Comma"; /** * For any country/region, the '-' key * For the US standard keyboard, the '-_' key */ KeyCode[KeyCode["Minus"] = 83] = "Minus"; /** * For any country/region, the '.' key * For the US standard keyboard, the '.>' key */ KeyCode[KeyCode["Period"] = 84] = "Period"; /** * Used for miscellaneous characters; it can vary by keyboard. * For the US standard keyboard, the '/?' key */ KeyCode[KeyCode["Slash"] = 85] = "Slash"; /** * Used for miscellaneous characters; it can vary by keyboard. * For the US standard keyboard, the '`~' key */ KeyCode[KeyCode["Backquote"] = 86] = "Backquote"; /** * Used for miscellaneous characters; it can vary by keyboard. * For the US standard keyboard, the '[{' key */ KeyCode[KeyCode["BracketLeft"] = 87] = "BracketLeft"; /** * Used for miscellaneous characters; it can vary by keyboard. * For the US standard keyboard, the '\|' key */ KeyCode[KeyCode["Backslash"] = 88] = "Backslash"; /** * Used for miscellaneous characters; it can vary by keyboard. * For the US standard keyboard, the ']}' key */ KeyCode[KeyCode["BracketRight"] = 89] = "BracketRight"; /** * Used for miscellaneous characters; it can vary by keyboard. * For the US standard keyboard, the ''"' key */ KeyCode[KeyCode["Quote"] = 90] = "Quote"; /** * Used for miscellaneous characters; it can vary by keyboard. */ KeyCode[KeyCode["OEM_8"] = 91] = "OEM_8"; /** * Either the angle bracket key or the backslash key on the RT 102-key keyboard. */ KeyCode[KeyCode["IntlBackslash"] = 92] = "IntlBackslash"; KeyCode[KeyCode["Numpad0"] = 93] = "Numpad0"; KeyCode[KeyCode["Numpad1"] = 94] = "Numpad1"; KeyCode[KeyCode["Numpad2"] = 95] = "Numpad2"; KeyCode[KeyCode["Numpad3"] = 96] = "Numpad3"; KeyCode[KeyCode["Numpad4"] = 97] = "Numpad4"; KeyCode[KeyCode["Numpad5"] = 98] = "Numpad5"; KeyCode[KeyCode["Numpad6"] = 99] = "Numpad6"; KeyCode[KeyCode["Numpad7"] = 100] = "Numpad7"; KeyCode[KeyCode["Numpad8"] = 101] = "Numpad8"; KeyCode[KeyCode["Numpad9"] = 102] = "Numpad9"; KeyCode[KeyCode["NumpadMultiply"] = 103] = "NumpadMultiply"; KeyCode[KeyCode["NumpadAdd"] = 104] = "NumpadAdd"; KeyCode[KeyCode["NUMPAD_SEPARATOR"] = 105] = "NUMPAD_SEPARATOR"; KeyCode[KeyCode["NumpadSubtract"] = 106] = "NumpadSubtract"; KeyCode[KeyCode["NumpadDecimal"] = 107] = "NumpadDecimal"; KeyCode[KeyCode["NumpadDivide"] = 108] = "NumpadDivide"; /** * Cover all key codes when IME is processing input. */ KeyCode[KeyCode["KEY_IN_COMPOSITION"] = 109] = "KEY_IN_COMPOSITION"; KeyCode[KeyCode["ABNT_C1"] = 110] = "ABNT_C1"; KeyCode[KeyCode["ABNT_C2"] = 111] = "ABNT_C2"; KeyCode[KeyCode["AudioVolumeMute"] = 112] = "AudioVolumeMute"; KeyCode[KeyCode["AudioVolumeUp"] = 113] = "AudioVolumeUp"; KeyCode[KeyCode["AudioVolumeDown"] = 114] = "AudioVolumeDown"; KeyCode[KeyCode["BrowserSearch"] = 115] = "BrowserSearch"; KeyCode[KeyCode["BrowserHome"] = 116] = "BrowserHome"; KeyCode[KeyCode["BrowserBack"] = 117] = "BrowserBack"; KeyCode[KeyCode["BrowserForward"] = 118] = "BrowserForward"; KeyCode[KeyCode["MediaTrackNext"] = 119] = "MediaTrackNext"; KeyCode[KeyCode["MediaTrackPrevious"] = 120] = "MediaTrackPrevious"; KeyCode[KeyCode["MediaStop"] = 121] = "MediaStop"; KeyCode[KeyCode["MediaPlayPause"] = 122] = "MediaPlayPause"; KeyCode[KeyCode["LaunchMediaPlayer"] = 123] = "LaunchMediaPlayer"; KeyCode[KeyCode["LaunchMail"] = 124] = "LaunchMail"; KeyCode[KeyCode["LaunchApp2"] = 125] = "LaunchApp2"; /** * Placed last to cover the length of the enum. * Please do not depend on this value! */ KeyCode[KeyCode["MAX_VALUE"] = 126] = "MAX_VALUE"; })(KeyCode || (KeyCode = {})); var MarkerSeverity; (function (MarkerSeverity) { MarkerSeverity[MarkerSeverity["Hint"] = 1] = "Hint"; MarkerSeverity[MarkerSeverity["Info"] = 2] = "Info"; MarkerSeverity[MarkerSeverity["Warning"] = 4] = "Warning"; MarkerSeverity[MarkerSeverity["Error"] = 8] = "Error"; })(MarkerSeverity || (MarkerSeverity = {})); var MarkerTag; (function (MarkerTag) { MarkerTag[MarkerTag["Unnecessary"] = 1] = "Unnecessary"; MarkerTag[MarkerTag["Deprecated"] = 2] = "Deprecated"; })(MarkerTag || (MarkerTag = {})); /** * Position in the minimap to render the decoration. */ var MinimapPosition; (function (MinimapPosition) { MinimapPosition[MinimapPosition["Inline"] = 1] = "Inline"; MinimapPosition[MinimapPosition["Gutter"] = 2] = "Gutter"; })(MinimapPosition || (MinimapPosition = {})); /** * Type of hit element with the mouse in the editor. */ var MouseTargetType; (function (MouseTargetType) { /** * Mouse is on top of an unknown element. */ MouseTargetType[MouseTargetType["UNKNOWN"] = 0] = "UNKNOWN"; /** * Mouse is on top of the textarea used for input. */ MouseTargetType[MouseTargetType["TEXTAREA"] = 1] = "TEXTAREA"; /** * Mouse is on top of the glyph margin */ MouseTargetType[MouseTargetType["GUTTER_GLYPH_MARGIN"] = 2] = "GUTTER_GLYPH_MARGIN"; /** * Mouse is on top of the line numbers */ MouseTargetType[MouseTargetType["GUTTER_LINE_NUMBERS"] = 3] = "GUTTER_LINE_NUMBERS"; /** * Mouse is on top of the line decorations */ MouseTargetType[MouseTargetType["GUTTER_LINE_DECORATIONS"] = 4] = "GUTTER_LINE_DECORATIONS"; /** * Mouse is on top of the whitespace left in the gutter by a view zone. */ MouseTargetType[MouseTargetType["GUTTER_VIEW_ZONE"] = 5] = "GUTTER_VIEW_ZONE"; /** * Mouse is on top of text in the content. */ MouseTargetType[MouseTargetType["CONTENT_TEXT"] = 6] = "CONTENT_TEXT"; /** * Mouse is on top of empty space in the content (e.g. after line text or below last line) */ MouseTargetType[MouseTargetType["CONTENT_EMPTY"] = 7] = "CONTENT_EMPTY"; /** * Mouse is on top of a view zone in the content. */ MouseTargetType[MouseTargetType["CONTENT_VIEW_ZONE"] = 8] = "CONTENT_VIEW_ZONE"; /** * Mouse is on top of a content widget. */ MouseTargetType[MouseTargetType["CONTENT_WIDGET"] = 9] = "CONTENT_WIDGET"; /** * Mouse is on top of the decorations overview ruler. */ MouseTargetType[MouseTargetType["OVERVIEW_RULER"] = 10] = "OVERVIEW_RULER"; /** * Mouse is on top of a scrollbar. */ MouseTargetType[MouseTargetType["SCROLLBAR"] = 11] = "SCROLLBAR"; /** * Mouse is on top of an overlay widget. */ MouseTargetType[MouseTargetType["OVERLAY_WIDGET"] = 12] = "OVERLAY_WIDGET"; /** * Mouse is outside of the editor. */ MouseTargetType[MouseTargetType["OUTSIDE_EDITOR"] = 13] = "OUTSIDE_EDITOR"; })(MouseTargetType || (MouseTargetType = {})); /** * A positioning preference for rendering overlay widgets. */ var OverlayWidgetPositionPreference; (function (OverlayWidgetPositionPreference) { /** * Position the overlay widget in the top right corner */ OverlayWidgetPositionPreference[OverlayWidgetPositionPreference["TOP_RIGHT_CORNER"] = 0] = "TOP_RIGHT_CORNER"; /** * Position the overlay widget in the bottom right corner */ OverlayWidgetPositionPreference[OverlayWidgetPositionPreference["BOTTOM_RIGHT_CORNER"] = 1] = "BOTTOM_RIGHT_CORNER"; /** * Position the overlay widget in the top center */ OverlayWidgetPositionPreference[OverlayWidgetPositionPreference["TOP_CENTER"] = 2] = "TOP_CENTER"; })(OverlayWidgetPositionPreference || (OverlayWidgetPositionPreference = {})); /** * Vertical Lane in the overview ruler of the editor. */ var OverviewRulerLane; (function (OverviewRulerLane) { OverviewRulerLane[OverviewRulerLane["Left"] = 1] = "Left"; OverviewRulerLane[OverviewRulerLane["Center"] = 2] = "Center"; OverviewRulerLane[OverviewRulerLane["Right"] = 4] = "Right"; OverviewRulerLane[OverviewRulerLane["Full"] = 7] = "Full"; })(OverviewRulerLane || (OverviewRulerLane = {})); var RenderLineNumbersType; (function (RenderLineNumbersType) { RenderLineNumbersType[RenderLineNumbersType["Off"] = 0] = "Off"; RenderLineNumbersType[RenderLineNumbersType["On"] = 1] = "On"; RenderLineNumbersType[RenderLineNumbersType["Relative"] = 2] = "Relative"; RenderLineNumbersType[RenderLineNumbersType["Interval"] = 3] = "Interval"; RenderLineNumbersType[RenderLineNumbersType["Custom"] = 4] = "Custom"; })(RenderLineNumbersType || (RenderLineNumbersType = {})); var RenderMinimap; (function (RenderMinimap) { RenderMinimap[RenderMinimap["None"] = 0] = "None"; RenderMinimap[RenderMinimap["Text"] = 1] = "Text"; RenderMinimap[RenderMinimap["Blocks"] = 2] = "Blocks"; })(RenderMinimap || (RenderMinimap = {})); var ScrollType; (function (ScrollType) { ScrollType[ScrollType["Smooth"] = 0] = "Smooth"; ScrollType[ScrollType["Immediate"] = 1] = "Immediate"; })(ScrollType || (ScrollType = {})); var ScrollbarVisibility; (function (ScrollbarVisibility) { ScrollbarVisibility[ScrollbarVisibility["Auto"] = 1] = "Auto"; ScrollbarVisibility[ScrollbarVisibility["Hidden"] = 2] = "Hidden"; ScrollbarVisibility[ScrollbarVisibility["Visible"] = 3] = "Visible"; })(ScrollbarVisibility || (ScrollbarVisibility = {})); /** * The direction of a selection. */ var SelectionDirection; (function (SelectionDirection) { /** * The selection starts above where it ends. */ SelectionDirection[SelectionDirection["LTR"] = 0] = "LTR"; /** * The selection starts below where it ends. */ SelectionDirection[SelectionDirection["RTL"] = 1] = "RTL"; })(SelectionDirection || (SelectionDirection = {})); var SignatureHelpTriggerKind; (function (SignatureHelpTriggerKind) { SignatureHelpTriggerKind[SignatureHelpTriggerKind["Invoke"] = 1] = "Invoke"; SignatureHelpTriggerKind[SignatureHelpTriggerKind["TriggerCharacter"] = 2] = "TriggerCharacter"; SignatureHelpTriggerKind[SignatureHelpTriggerKind["ContentChange"] = 3] = "ContentChange"; })(SignatureHelpTriggerKind || (SignatureHelpTriggerKind = {})); /** * A symbol kind. */ var SymbolKind; (function (SymbolKind) { SymbolKind[SymbolKind["File"] = 0] = "File"; SymbolKind[SymbolKind["Module"] = 1] = "Module"; SymbolKind[SymbolKind["Namespace"] = 2] = "Namespace"; SymbolKind[SymbolKind["Package"] = 3] = "Package"; SymbolKind[SymbolKind["Class"] = 4] = "Class"; SymbolKind[SymbolKind["Method"] = 5] = "Method"; SymbolKind[SymbolKind["Property"] = 6] = "Property"; SymbolKind[SymbolKind["Field"] = 7] = "Field"; SymbolKind[SymbolKind["Constructor"] = 8] = "Constructor"; SymbolKind[SymbolKind["Enum"] = 9] = "Enum"; SymbolKind[SymbolKind["Interface"] = 10] = "Interface"; SymbolKind[SymbolKind["Function"] = 11] = "Function"; SymbolKind[SymbolKind["Variable"] = 12] = "Variable"; SymbolKind[SymbolKind["Constant"] = 13] = "Constant"; SymbolKind[SymbolKind["String"] = 14] = "String"; SymbolKind[SymbolKind["Number"] = 15] = "Number"; SymbolKind[SymbolKind["Boolean"] = 16] = "Boolean"; SymbolKind[SymbolKind["Array"] = 17] = "Array"; SymbolKind[SymbolKind["Object"] = 18] = "Object"; SymbolKind[SymbolKind["Key"] = 19] = "Key"; SymbolKind[SymbolKind["Null"] = 20] = "Null"; SymbolKind[SymbolKind["EnumMember"] = 21] = "EnumMember"; SymbolKind[SymbolKind["Struct"] = 22] = "Struct"; SymbolKind[SymbolKind["Event"] = 23] = "Event"; SymbolKind[SymbolKind["Operator"] = 24] = "Operator"; SymbolKind[SymbolKind["TypeParameter"] = 25] = "TypeParameter"; })(SymbolKind || (SymbolKind = {})); var SymbolTag; (function (SymbolTag) { SymbolTag[SymbolTag["Deprecated"] = 1] = "Deprecated"; })(SymbolTag || (SymbolTag = {})); /** * The kind of animation in which the editor's cursor should be rendered. */ var TextEditorCursorBlinkingStyle; (function (TextEditorCursorBlinkingStyle) { /** * Hidden */ TextEditorCursorBlinkingStyle[TextEditorCursorBlinkingStyle["Hidden"] = 0] = "Hidden"; /** * Blinking */ TextEditorCursorBlinkingStyle[TextEditorCursorBlinkingStyle["Blink"] = 1] = "Blink"; /** * Blinking with smooth fading */ TextEditorCursorBlinkingStyle[TextEditorCursorBlinkingStyle["Smooth"] = 2] = "Smooth"; /** * Blinking with prolonged filled state and smooth fading */ TextEditorCursorBlinkingStyle[TextEditorCursorBlinkingStyle["Phase"] = 3] = "Phase"; /** * Expand collapse animation on the y axis */ TextEditorCursorBlinkingStyle[TextEditorCursorBlinkingStyle["Expand"] = 4] = "Expand"; /** * No-Blinking */ TextEditorCursorBlinkingStyle[TextEditorCursorBlinkingStyle["Solid"] = 5] = "Solid"; })(TextEditorCursorBlinkingStyle || (TextEditorCursorBlinkingStyle = {})); /** * The style in which the editor's cursor should be rendered. */ var TextEditorCursorStyle; (function (TextEditorCursorStyle) { /** * As a vertical line (sitting between two characters). */ TextEditorCursorStyle[TextEditorCursorStyle["Line"] = 1] = "Line"; /** * As a block (sitting on top of a character). */ TextEditorCursorStyle[TextEditorCursorStyle["Block"] = 2] = "Block"; /** * As a horizontal line (sitting under a character). */ TextEditorCursorStyle[TextEditorCursorStyle["Underline"] = 3] = "Underline"; /** * As a thin vertical line (sitting between two characters). */ TextEditorCursorStyle[TextEditorCursorStyle["LineThin"] = 4] = "LineThin"; /** * As an outlined block (sitting on top of a character). */ TextEditorCursorStyle[TextEditorCursorStyle["BlockOutline"] = 5] = "BlockOutline"; /** * As a thin horizontal line (sitting under a character). */ TextEditorCursorStyle[TextEditorCursorStyle["UnderlineThin"] = 6] = "UnderlineThin"; })(TextEditorCursorStyle || (TextEditorCursorStyle = {})); /** * Describes the behavior of decorations when typing/editing near their edges. * Note: Please do not edit the values, as they very carefully match `DecorationRangeBehavior` */ var TrackedRangeStickiness; (function (TrackedRangeStickiness) { TrackedRangeStickiness[TrackedRangeStickiness["AlwaysGrowsWhenTypingAtEdges"] = 0] = "AlwaysGrowsWhenTypingAtEdges"; TrackedRangeStickiness[TrackedRangeStickiness["NeverGrowsWhenTypingAtEdges"] = 1] = "NeverGrowsWhenTypingAtEdges"; TrackedRangeStickiness[TrackedRangeStickiness["GrowsOnlyWhenTypingBefore"] = 2] = "GrowsOnlyWhenTypingBefore"; TrackedRangeStickiness[TrackedRangeStickiness["GrowsOnlyWhenTypingAfter"] = 3] = "GrowsOnlyWhenTypingAfter"; })(TrackedRangeStickiness || (TrackedRangeStickiness = {})); /** * Describes how to indent wrapped lines. */ var WrappingIndent; (function (WrappingIndent) { /** * No indentation => wrapped lines begin at column 1. */ WrappingIndent[WrappingIndent["None"] = 0] = "None"; /** * Same => wrapped lines get the same indentation as the parent. */ WrappingIndent[WrappingIndent["Same"] = 1] = "Same"; /** * Indent => wrapped lines get +1 indentation toward the parent. */ WrappingIndent[WrappingIndent["Indent"] = 2] = "Indent"; /** * DeepIndent => wrapped lines get +2 indentation toward the parent. */ WrappingIndent[WrappingIndent["DeepIndent"] = 3] = "DeepIndent"; })(WrappingIndent || (WrappingIndent = {})); ;// CONCATENATED MODULE: ./node_modules/monaco-editor/esm/vs/editor/common/standalone/standaloneBase.js /*--------------------------------------------------------------------------------------------- * Copyright (c) Microsoft Corporation. All rights reserved. * Licensed under the MIT License. See License.txt in the project root for license information. *--------------------------------------------------------------------------------------------*/ var KeyMod = /*#__PURE__*/function () { function KeyMod() { classCallCheck_default()(this, KeyMod); } createClass_default()(KeyMod, null, [{ key: "chord", value: function chord(firstPart, secondPart) { return KeyChord(firstPart, secondPart); } }]); return KeyMod; }(); KeyMod.CtrlCmd = 2048 /* CtrlCmd */; KeyMod.Shift = 1024 /* Shift */; KeyMod.Alt = 512 /* Alt */; KeyMod.WinCtrl = 256 /* WinCtrl */; function createMonacoBaseAPI() { return { editor: undefined, languages: undefined, CancellationTokenSource: CancellationTokenSource, Emitter: Emitter, KeyCode: KeyCode, KeyMod: KeyMod, Position: Position, Range: Range, Selection: Selection, SelectionDirection: SelectionDirection, MarkerSeverity: MarkerSeverity, MarkerTag: MarkerTag, Uri: URI, Token: Token }; } ;// CONCATENATED MODULE: ./node_modules/monaco-editor/esm/vs/editor/common/services/editorSimpleWorker.js /*--------------------------------------------------------------------------------------------- * Copyright (c) Microsoft Corporation. All rights reserved. * Licensed under the MIT License. See License.txt in the project root for license information. *--------------------------------------------------------------------------------------------*/ var __awaiter = undefined && undefined.__awaiter || function (thisArg, _arguments, P, generator) { function adopt(value) { return value instanceof P ? value : new P(function (resolve) { resolve(value); }); } return new (P || (P = Promise))(function (resolve, reject) { function fulfilled(value) { try { step(generator.next(value)); } catch (e) { reject(e); } } function rejected(value) { try { step(generator["throw"](value)); } catch (e) { reject(e); } } function step(result) { result.done ? resolve(result.value) : adopt(result.value).then(fulfilled, rejected); } step((generator = generator.apply(thisArg, _arguments || [])).next()); }); }; /** * @internal */ var MirrorModel = /*#__PURE__*/function (_BaseMirrorModel) { inherits_default()(MirrorModel, _BaseMirrorModel); var _super = createSuper_default()(MirrorModel); function MirrorModel() { classCallCheck_default()(this, MirrorModel); return _super.apply(this, arguments); } createClass_default()(MirrorModel, [{ key: "uri", get: function get() { return this._uri; } }, { key: "eol", get: function get() { return this._eol; } }, { key: "getValue", value: function getValue() { return this.getText(); } }, { key: "getLinesContent", value: function getLinesContent() { return this._lines.slice(0); } }, { key: "getLineCount", value: function getLineCount() { return this._lines.length; } }, { key: "getLineContent", value: function getLineContent(lineNumber) { return this._lines[lineNumber - 1]; } }, { key: "getWordAtPosition", value: function getWordAtPosition(position, wordDefinition) { var wordAtText = getWordAtText(position.column, ensureValidWordDefinition(wordDefinition), this._lines[position.lineNumber - 1], 0); if (wordAtText) { return new Range(position.lineNumber, wordAtText.startColumn, position.lineNumber, wordAtText.endColumn); } return null; } }, { key: "words", value: function words(wordDefinition) { var lines = this._lines; var wordenize = this._wordenize.bind(this); var lineNumber = 0; var lineText = ''; var wordRangesIdx = 0; var wordRanges = []; return defineProperty_default()({}, Symbol.iterator, /*#__PURE__*/regeneratorRuntime_default()().mark(function _callee() { var value; return regeneratorRuntime_default()().wrap(function _callee$(_context) { while (1) switch (_context.prev = _context.next) { case 0: if (false) {} if (!(wordRangesIdx < wordRanges.length)) { _context.next = 8; break; } value = lineText.substring(wordRanges[wordRangesIdx].start, wordRanges[wordRangesIdx].end); wordRangesIdx += 1; _context.next = 6; return value; case 6: _context.next = 16; break; case 8: if (!(lineNumber < lines.length)) { _context.next = 15; break; } lineText = lines[lineNumber]; wordRanges = wordenize(lineText, wordDefinition); wordRangesIdx = 0; lineNumber += 1; _context.next = 16; break; case 15: return _context.abrupt("break", 18); case 16: _context.next = 0; break; case 18: case "end": return _context.stop(); } }, _callee); })); } }, { key: "getLineWords", value: function getLineWords(lineNumber, wordDefinition) { var content = this._lines[lineNumber - 1]; var ranges = this._wordenize(content, wordDefinition); var words = []; var _iterator = createForOfIteratorHelper_default()(ranges), _step; try { for (_iterator.s(); !(_step = _iterator.n()).done;) { var range = _step.value; words.push({ word: content.substring(range.start, range.end), startColumn: range.start + 1, endColumn: range.end + 1 }); } } catch (err) { _iterator.e(err); } finally { _iterator.f(); } return words; } }, { key: "_wordenize", value: function _wordenize(content, wordDefinition) { var result = []; var match; wordDefinition.lastIndex = 0; // reset lastIndex just to be sure while (match = wordDefinition.exec(content)) { if (match[0].length === 0) { // it did match the empty string break; } result.push({ start: match.index, end: match.index + match[0].length }); } return result; } }, { key: "getValueInRange", value: function getValueInRange(range) { range = this._validateRange(range); if (range.startLineNumber === range.endLineNumber) { return this._lines[range.startLineNumber - 1].substring(range.startColumn - 1, range.endColumn - 1); } var lineEnding = this._eol; var startLineIndex = range.startLineNumber - 1; var endLineIndex = range.endLineNumber - 1; var resultLines = []; resultLines.push(this._lines[startLineIndex].substring(range.startColumn - 1)); for (var i = startLineIndex + 1; i < endLineIndex; i++) { resultLines.push(this._lines[i]); } resultLines.push(this._lines[endLineIndex].substring(0, range.endColumn - 1)); return resultLines.join(lineEnding); } }, { key: "offsetAt", value: function offsetAt(position) { position = this._validatePosition(position); this._ensureLineStarts(); return this._lineStarts.getPrefixSum(position.lineNumber - 2) + (position.column - 1); } }, { key: "positionAt", value: function positionAt(offset) { offset = Math.floor(offset); offset = Math.max(0, offset); this._ensureLineStarts(); var out = this._lineStarts.getIndexOf(offset); var lineLength = this._lines[out.index].length; // Ensure we return a valid position return { lineNumber: 1 + out.index, column: 1 + Math.min(out.remainder, lineLength) }; } }, { key: "_validateRange", value: function _validateRange(range) { var start = this._validatePosition({ lineNumber: range.startLineNumber, column: range.startColumn }); var end = this._validatePosition({ lineNumber: range.endLineNumber, column: range.endColumn }); if (start.lineNumber !== range.startLineNumber || start.column !== range.startColumn || end.lineNumber !== range.endLineNumber || end.column !== range.endColumn) { return { startLineNumber: start.lineNumber, startColumn: start.column, endLineNumber: end.lineNumber, endColumn: end.column }; } return range; } }, { key: "_validatePosition", value: function _validatePosition(position) { if (!Position.isIPosition(position)) { throw new Error('bad position'); } var lineNumber = position.lineNumber, column = position.column; var hasChanged = false; if (lineNumber < 1) { lineNumber = 1; column = 1; hasChanged = true; } else if (lineNumber > this._lines.length) { lineNumber = this._lines.length; column = this._lines[lineNumber - 1].length + 1; hasChanged = true; } else { var maxCharacter = this._lines[lineNumber - 1].length + 1; if (column < 1) { column = 1; hasChanged = true; } else if (column > maxCharacter) { column = maxCharacter; hasChanged = true; } } if (!hasChanged) { return position; } else { return { lineNumber: lineNumber, column: column }; } } }]); return MirrorModel; }(MirrorTextModel); /** * @internal */ var EditorSimpleWorker = /*#__PURE__*/function () { function EditorSimpleWorker(host, foreignModuleFactory) { classCallCheck_default()(this, EditorSimpleWorker); this._host = host; this._models = Object.create(null); this._foreignModuleFactory = foreignModuleFactory; this._foreignModule = null; } createClass_default()(EditorSimpleWorker, [{ key: "dispose", value: function dispose() { this._models = Object.create(null); } }, { key: "_getModel", value: function _getModel(uri) { return this._models[uri]; } }, { key: "_getModels", value: function _getModels() { var _this = this; var all = []; Object.keys(this._models).forEach(function (key) { return all.push(_this._models[key]); }); return all; } }, { key: "acceptNewModel", value: function acceptNewModel(data) { this._models[data.url] = new MirrorModel(URI.parse(data.url), data.lines, data.EOL, data.versionId); } }, { key: "acceptModelChanged", value: function acceptModelChanged(strURL, e) { if (!this._models[strURL]) { return; } var model = this._models[strURL]; model.onEvents(e); } }, { key: "acceptRemovedModel", value: function acceptRemovedModel(strURL) { if (!this._models[strURL]) { return; } delete this._models[strURL]; } // ---- BEGIN diff -------------------------------------------------------------------------- }, { key: "computeDiff", value: function computeDiff(originalUrl, modifiedUrl, ignoreTrimWhitespace, maxComputationTime) { return __awaiter(this, void 0, void 0, /*#__PURE__*/regeneratorRuntime_default()().mark(function _callee2() { var original, modified, originalLines, modifiedLines, diffComputer, diffResult, identical; return regeneratorRuntime_default()().wrap(function _callee2$(_context2) { while (1) switch (_context2.prev = _context2.next) { case 0: original = this._getModel(originalUrl); modified = this._getModel(modifiedUrl); if (!(!original || !modified)) { _context2.next = 4; break; } return _context2.abrupt("return", null); case 4: originalLines = original.getLinesContent(); modifiedLines = modified.getLinesContent(); diffComputer = new DiffComputer(originalLines, modifiedLines, { shouldComputeCharChanges: true, shouldPostProcessCharChanges: true, shouldIgnoreTrimWhitespace: ignoreTrimWhitespace, shouldMakePrettyDiff: true, maxComputationTime: maxComputationTime }); diffResult = diffComputer.computeDiff(); identical = diffResult.changes.length > 0 ? false : this._modelsAreIdentical(original, modified); return _context2.abrupt("return", { quitEarly: diffResult.quitEarly, identical: identical, changes: diffResult.changes }); case 10: case "end": return _context2.stop(); } }, _callee2, this); })); } }, { key: "_modelsAreIdentical", value: function _modelsAreIdentical(original, modified) { var originalLineCount = original.getLineCount(); var modifiedLineCount = modified.getLineCount(); if (originalLineCount !== modifiedLineCount) { return false; } for (var line = 1; line <= originalLineCount; line++) { var originalLine = original.getLineContent(line); var modifiedLine = modified.getLineContent(line); if (originalLine !== modifiedLine) { return false; } } return true; } }, { key: "computeMoreMinimalEdits", value: function computeMoreMinimalEdits(modelUrl, edits) { return __awaiter(this, void 0, void 0, /*#__PURE__*/regeneratorRuntime_default()().mark(function _callee3() { var model, result, lastEol, _iterator2, _step2, _step2$value, range, text, eol, original, changes, editOffset, _iterator3, _step3, change, start, end, newEdit; return regeneratorRuntime_default()().wrap(function _callee3$(_context3) { while (1) switch (_context3.prev = _context3.next) { case 0: model = this._getModel(modelUrl); if (model) { _context3.next = 3; break; } return _context3.abrupt("return", edits); case 3: result = []; lastEol = undefined; edits = edits.slice(0).sort(function (a, b) { if (a.range && b.range) { return Range.compareRangesUsingStarts(a.range, b.range); } // eol only changes should go to the end var aRng = a.range ? 0 : 1; var bRng = b.range ? 0 : 1; return aRng - bRng; }); _iterator2 = createForOfIteratorHelper_default()(edits); _context3.prev = 7; _iterator2.s(); case 9: if ((_step2 = _iterator2.n()).done) { _context3.next = 27; break; } _step2$value = _step2.value, range = _step2$value.range, text = _step2$value.text, eol = _step2$value.eol; if (typeof eol === 'number') { lastEol = eol; } if (!(Range.isEmpty(range) && !text)) { _context3.next = 14; break; } return _context3.abrupt("continue", 25); case 14: original = model.getValueInRange(range); text = text.replace(/\r\n|\n|\r/g, model.eol); if (!(original === text)) { _context3.next = 18; break; } return _context3.abrupt("continue", 25); case 18: if (!(Math.max(text.length, original.length) > EditorSimpleWorker._diffLimit)) { _context3.next = 21; break; } result.push({ range: range, text: text }); return _context3.abrupt("continue", 25); case 21: // compute diff between original and edit.text changes = stringDiff(original, text, false); editOffset = model.offsetAt(Range.lift(range).getStartPosition()); _iterator3 = createForOfIteratorHelper_default()(changes); try { for (_iterator3.s(); !(_step3 = _iterator3.n()).done;) { change = _step3.value; start = model.positionAt(editOffset + change.originalStart); end = model.positionAt(editOffset + change.originalStart + change.originalLength); newEdit = { text: text.substr(change.modifiedStart, change.modifiedLength), range: { startLineNumber: start.lineNumber, startColumn: start.column, endLineNumber: end.lineNumber, endColumn: end.column } }; if (model.getValueInRange(newEdit.range) !== newEdit.text) { result.push(newEdit); } } } catch (err) { _iterator3.e(err); } finally { _iterator3.f(); } case 25: _context3.next = 9; break; case 27: _context3.next = 32; break; case 29: _context3.prev = 29; _context3.t0 = _context3["catch"](7); _iterator2.e(_context3.t0); case 32: _context3.prev = 32; _iterator2.f(); return _context3.finish(32); case 35: if (typeof lastEol === 'number') { result.push({ eol: lastEol, text: '', range: { startLineNumber: 0, startColumn: 0, endLineNumber: 0, endColumn: 0 } }); } return _context3.abrupt("return", result); case 37: case "end": return _context3.stop(); } }, _callee3, this, [[7, 29, 32, 35]]); })); } // ---- END minimal edits --------------------------------------------------------------- }, { key: "computeLinks", value: function computeLinks(modelUrl) { return __awaiter(this, void 0, void 0, /*#__PURE__*/regeneratorRuntime_default()().mark(function _callee4() { var model; return regeneratorRuntime_default()().wrap(function _callee4$(_context4) { while (1) switch (_context4.prev = _context4.next) { case 0: model = this._getModel(modelUrl); if (model) { _context4.next = 3; break; } return _context4.abrupt("return", null); case 3: return _context4.abrupt("return", linkComputer_computeLinks(model)); case 4: case "end": return _context4.stop(); } }, _callee4, this); })); } }, { key: "textualSuggest", value: function textualSuggest(modelUrls, leadingWord, wordDef, wordDefFlags) { return __awaiter(this, void 0, void 0, /*#__PURE__*/regeneratorRuntime_default()().mark(function _callee5() { var sw, wordDefRegExp, seen, _iterator4, _step4, url, model, _iterator5, _step5, word; return regeneratorRuntime_default()().wrap(function _callee5$(_context5) { while (1) switch (_context5.prev = _context5.next) { case 0: sw = new StopWatch(true); wordDefRegExp = new RegExp(wordDef, wordDefFlags); seen = new Set(); _iterator4 = createForOfIteratorHelper_default()(modelUrls); _context5.prev = 4; _iterator4.s(); case 6: if ((_step4 = _iterator4.n()).done) { _context5.next = 33; break; } url = _step4.value; model = this._getModel(url); if (model) { _context5.next = 11; break; } return _context5.abrupt("continue", 31); case 11: _iterator5 = createForOfIteratorHelper_default()(model.words(wordDefRegExp)); _context5.prev = 12; _iterator5.s(); case 14: if ((_step5 = _iterator5.n()).done) { _context5.next = 23; break; } word = _step5.value; if (!(word === leadingWord || !isNaN(Number(word)))) { _context5.next = 18; break; } return _context5.abrupt("continue", 21); case 18: seen.add(word); if (!(seen.size > EditorSimpleWorker._suggestionsLimit)) { _context5.next = 21; break; } return _context5.abrupt("break", 33); case 21: _context5.next = 14; break; case 23: _context5.next = 28; break; case 25: _context5.prev = 25; _context5.t0 = _context5["catch"](12); _iterator5.e(_context5.t0); case 28: _context5.prev = 28; _iterator5.f(); return _context5.finish(28); case 31: _context5.next = 6; break; case 33: _context5.next = 38; break; case 35: _context5.prev = 35; _context5.t1 = _context5["catch"](4); _iterator4.e(_context5.t1); case 38: _context5.prev = 38; _iterator4.f(); return _context5.finish(38); case 41: return _context5.abrupt("return", { words: Array.from(seen), duration: sw.elapsed() }); case 42: case "end": return _context5.stop(); } }, _callee5, this, [[4, 35, 38, 41], [12, 25, 28, 31]]); })); } // ---- END suggest -------------------------------------------------------------------------- //#region -- word ranges -- }, { key: "computeWordRanges", value: function computeWordRanges(modelUrl, range, wordDef, wordDefFlags) { return __awaiter(this, void 0, void 0, /*#__PURE__*/regeneratorRuntime_default()().mark(function _callee6() { var model, wordDefRegExp, result, line, words, _iterator6, _step6, word, array; return regeneratorRuntime_default()().wrap(function _callee6$(_context6) { while (1) switch (_context6.prev = _context6.next) { case 0: model = this._getModel(modelUrl); if (model) { _context6.next = 3; break; } return _context6.abrupt("return", Object.create(null)); case 3: wordDefRegExp = new RegExp(wordDef, wordDefFlags); result = Object.create(null); line = range.startLineNumber; case 6: if (!(line < range.endLineNumber)) { _context6.next = 31; break; } words = model.getLineWords(line, wordDefRegExp); _iterator6 = createForOfIteratorHelper_default()(words); _context6.prev = 9; _iterator6.s(); case 11: if ((_step6 = _iterator6.n()).done) { _context6.next = 20; break; } word = _step6.value; if (isNaN(Number(word.word))) { _context6.next = 15; break; } return _context6.abrupt("continue", 18); case 15: array = result[word.word]; if (!array) { array = []; result[word.word] = array; } array.push({ startLineNumber: line, startColumn: word.startColumn, endLineNumber: line, endColumn: word.endColumn }); case 18: _context6.next = 11; break; case 20: _context6.next = 25; break; case 22: _context6.prev = 22; _context6.t0 = _context6["catch"](9); _iterator6.e(_context6.t0); case 25: _context6.prev = 25; _iterator6.f(); return _context6.finish(25); case 28: line++; _context6.next = 6; break; case 31: return _context6.abrupt("return", result); case 32: case "end": return _context6.stop(); } }, _callee6, this, [[9, 22, 25, 28]]); })); } //#endregion }, { key: "navigateValueSet", value: function navigateValueSet(modelUrl, range, up, wordDef, wordDefFlags) { return __awaiter(this, void 0, void 0, /*#__PURE__*/regeneratorRuntime_default()().mark(function _callee7() { var model, wordDefRegExp, selectionText, wordRange, word, result; return regeneratorRuntime_default()().wrap(function _callee7$(_context7) { while (1) switch (_context7.prev = _context7.next) { case 0: model = this._getModel(modelUrl); if (model) { _context7.next = 3; break; } return _context7.abrupt("return", null); case 3: wordDefRegExp = new RegExp(wordDef, wordDefFlags); if (range.startColumn === range.endColumn) { range = { startLineNumber: range.startLineNumber, startColumn: range.startColumn, endLineNumber: range.endLineNumber, endColumn: range.endColumn + 1 }; } selectionText = model.getValueInRange(range); wordRange = model.getWordAtPosition({ lineNumber: range.startLineNumber, column: range.startColumn }, wordDefRegExp); if (wordRange) { _context7.next = 9; break; } return _context7.abrupt("return", null); case 9: word = model.getValueInRange(wordRange); result = BasicInplaceReplace.INSTANCE.navigateValueSet(range, selectionText, wordRange, word, up); return _context7.abrupt("return", result); case 12: case "end": return _context7.stop(); } }, _callee7, this); })); } // ---- BEGIN foreign module support -------------------------------------------------------------------------- }, { key: "loadForeignModule", value: function loadForeignModule(moduleId, createData, foreignHostMethods) { var _this2 = this; var proxyMethodRequest = function proxyMethodRequest(method, args) { return _this2._host.fhr(method, args); }; var foreignHost = createProxyObject(foreignHostMethods, proxyMethodRequest); var ctx = { host: foreignHost, getMirrorModels: function getMirrorModels() { return _this2._getModels(); } }; if (this._foreignModuleFactory) { this._foreignModule = this._foreignModuleFactory(ctx, createData); // static foreing module return Promise.resolve(getAllMethodNames(this._foreignModule)); } // ESM-comment-begin // return new Promise((resolve, reject) => { // require([moduleId], (foreignModule: { create: IForeignModuleFactory }) => { // this._foreignModule = foreignModule.create(ctx, createData); // // resolve(types.getAllMethodNames(this._foreignModule)); // // }, reject); // }); // ESM-comment-end // ESM-uncomment-begin return Promise.reject(new Error("Unexpected usage")); // ESM-uncomment-end } // foreign method request }, { key: "fmr", value: function fmr(method, args) { if (!this._foreignModule || typeof this._foreignModule[method] !== 'function') { return Promise.reject(new Error('Missing requestHandler or method: ' + method)); } try { return Promise.resolve(this._foreignModule[method].apply(this._foreignModule, args)); } catch (e) { return Promise.reject(e); } } }]); return EditorSimpleWorker; }(); // ---- END diff -------------------------------------------------------------------------- // ---- BEGIN minimal edits --------------------------------------------------------------- EditorSimpleWorker._diffLimit = 100000; // ---- BEGIN suggest -------------------------------------------------------------------------- EditorSimpleWorker._suggestionsLimit = 10000; /** * Called on the worker side * @internal */ function editorSimpleWorker_create(host) { return new EditorSimpleWorker(host, null); } if (typeof importScripts === 'function') { // Running in a web worker platform_globals.monaco = createMonacoBaseAPI(); } ;// CONCATENATED MODULE: ./node_modules/monaco-editor/esm/vs/editor/editor.worker.js /*--------------------------------------------------------------------------------------------- * Copyright (c) Microsoft Corporation. All rights reserved. * Licensed under the MIT License. See License.txt in the project root for license information. *--------------------------------------------------------------------------------------------*/ var initialized = false; function initialize(foreignModule) { if (initialized) { return; } initialized = true; var simpleWorker = new SimpleWorkerServer(function (msg) { self.postMessage(msg); }, function (host) { return new EditorSimpleWorker(host, foreignModule); }); self.onmessage = function (e) { simpleWorker.onmessage(e.data); }; } self.onmessage = function (e) { // Ignore first message in this case and initialize if not yet initialized if (!initialized) { initialize(null); } }; ;// CONCATENATED MODULE: ./node_modules/monaco-editor/esm/vs/language/css/_deps/vscode-css-languageservice/parser/cssScanner.js /*--------------------------------------------------------------------------------------------- * Copyright (c) Microsoft Corporation. All rights reserved. * Licensed under the MIT License. See License.txt in the project root for license information. *--------------------------------------------------------------------------------------------*/ var TokenType; (function (TokenType) { TokenType[TokenType["Ident"] = 0] = "Ident"; TokenType[TokenType["AtKeyword"] = 1] = "AtKeyword"; TokenType[TokenType["String"] = 2] = "String"; TokenType[TokenType["BadString"] = 3] = "BadString"; TokenType[TokenType["UnquotedString"] = 4] = "UnquotedString"; TokenType[TokenType["Hash"] = 5] = "Hash"; TokenType[TokenType["Num"] = 6] = "Num"; TokenType[TokenType["Percentage"] = 7] = "Percentage"; TokenType[TokenType["Dimension"] = 8] = "Dimension"; TokenType[TokenType["UnicodeRange"] = 9] = "UnicodeRange"; TokenType[TokenType["CDO"] = 10] = "CDO"; TokenType[TokenType["CDC"] = 11] = "CDC"; TokenType[TokenType["Colon"] = 12] = "Colon"; TokenType[TokenType["SemiColon"] = 13] = "SemiColon"; TokenType[TokenType["CurlyL"] = 14] = "CurlyL"; TokenType[TokenType["CurlyR"] = 15] = "CurlyR"; TokenType[TokenType["ParenthesisL"] = 16] = "ParenthesisL"; TokenType[TokenType["ParenthesisR"] = 17] = "ParenthesisR"; TokenType[TokenType["BracketL"] = 18] = "BracketL"; TokenType[TokenType["BracketR"] = 19] = "BracketR"; TokenType[TokenType["Whitespace"] = 20] = "Whitespace"; TokenType[TokenType["Includes"] = 21] = "Includes"; TokenType[TokenType["Dashmatch"] = 22] = "Dashmatch"; TokenType[TokenType["SubstringOperator"] = 23] = "SubstringOperator"; TokenType[TokenType["PrefixOperator"] = 24] = "PrefixOperator"; TokenType[TokenType["SuffixOperator"] = 25] = "SuffixOperator"; TokenType[TokenType["Delim"] = 26] = "Delim"; TokenType[TokenType["EMS"] = 27] = "EMS"; TokenType[TokenType["EXS"] = 28] = "EXS"; TokenType[TokenType["Length"] = 29] = "Length"; TokenType[TokenType["Angle"] = 30] = "Angle"; TokenType[TokenType["Time"] = 31] = "Time"; TokenType[TokenType["Freq"] = 32] = "Freq"; TokenType[TokenType["Exclamation"] = 33] = "Exclamation"; TokenType[TokenType["Resolution"] = 34] = "Resolution"; TokenType[TokenType["Comma"] = 35] = "Comma"; TokenType[TokenType["Charset"] = 36] = "Charset"; TokenType[TokenType["EscapedJavaScript"] = 37] = "EscapedJavaScript"; TokenType[TokenType["BadEscapedJavaScript"] = 38] = "BadEscapedJavaScript"; TokenType[TokenType["Comment"] = 39] = "Comment"; TokenType[TokenType["SingleLineComment"] = 40] = "SingleLineComment"; TokenType[TokenType["EOF"] = 41] = "EOF"; TokenType[TokenType["CustomToken"] = 42] = "CustomToken"; })(TokenType || (TokenType = {})); var MultiLineStream = /** @class */function () { function MultiLineStream(source) { this.source = source; this.len = source.length; this.position = 0; } MultiLineStream.prototype.substring = function (from, to) { if (to === void 0) { to = this.position; } return this.source.substring(from, to); }; MultiLineStream.prototype.eos = function () { return this.len <= this.position; }; MultiLineStream.prototype.pos = function () { return this.position; }; MultiLineStream.prototype.goBackTo = function (pos) { this.position = pos; }; MultiLineStream.prototype.goBack = function (n) { this.position -= n; }; MultiLineStream.prototype.advance = function (n) { this.position += n; }; MultiLineStream.prototype.nextChar = function () { return this.source.charCodeAt(this.position++) || 0; }; MultiLineStream.prototype.peekChar = function (n) { if (n === void 0) { n = 0; } return this.source.charCodeAt(this.position + n) || 0; }; MultiLineStream.prototype.lookbackChar = function (n) { if (n === void 0) { n = 0; } return this.source.charCodeAt(this.position - n) || 0; }; MultiLineStream.prototype.advanceIfChar = function (ch) { if (ch === this.source.charCodeAt(this.position)) { this.position++; return true; } return false; }; MultiLineStream.prototype.advanceIfChars = function (ch) { if (this.position + ch.length > this.source.length) { return false; } var i = 0; for (; i < ch.length; i++) { if (this.source.charCodeAt(this.position + i) !== ch[i]) { return false; } } this.advance(i); return true; }; MultiLineStream.prototype.advanceWhileChar = function (condition) { var posNow = this.position; while (this.position < this.len && condition(this.source.charCodeAt(this.position))) { this.position++; } return this.position - posNow; }; return MultiLineStream; }(); var cssScanner_a = 'a'.charCodeAt(0); var _f = 'f'.charCodeAt(0); var _z = 'z'.charCodeAt(0); var _A = 'A'.charCodeAt(0); var _F = 'F'.charCodeAt(0); var _Z = 'Z'.charCodeAt(0); var _0 = '0'.charCodeAt(0); var _9 = '9'.charCodeAt(0); var _TLD = '~'.charCodeAt(0); var _HAT = '^'.charCodeAt(0); var _EQS = '='.charCodeAt(0); var _PIP = '|'.charCodeAt(0); var _MIN = '-'.charCodeAt(0); var _USC = '_'.charCodeAt(0); var _PRC = '%'.charCodeAt(0); var _MUL = '*'.charCodeAt(0); var _LPA = '('.charCodeAt(0); var _RPA = ')'.charCodeAt(0); var _LAN = '<'.charCodeAt(0); var _RAN = '>'.charCodeAt(0); var _ATS = '@'.charCodeAt(0); var _HSH = '#'.charCodeAt(0); var _DLR = '$'.charCodeAt(0); var _BSL = '\\'.charCodeAt(0); var _FSL = '/'.charCodeAt(0); var _NWL = '\n'.charCodeAt(0); var _CAR = '\r'.charCodeAt(0); var _LFD = '\f'.charCodeAt(0); var _DQO = '"'.charCodeAt(0); var _SQO = '\''.charCodeAt(0); var _WSP = ' '.charCodeAt(0); var _TAB = '\t'.charCodeAt(0); var _SEM = ';'.charCodeAt(0); var _COL = ':'.charCodeAt(0); var _CUL = '{'.charCodeAt(0); var _CUR = '}'.charCodeAt(0); var _BRL = '['.charCodeAt(0); var _BRR = ']'.charCodeAt(0); var _CMA = ','.charCodeAt(0); var _DOT = '.'.charCodeAt(0); var _BNG = '!'.charCodeAt(0); var staticTokenTable = {}; staticTokenTable[_SEM] = TokenType.SemiColon; staticTokenTable[_COL] = TokenType.Colon; staticTokenTable[_CUL] = TokenType.CurlyL; staticTokenTable[_CUR] = TokenType.CurlyR; staticTokenTable[_BRR] = TokenType.BracketR; staticTokenTable[_BRL] = TokenType.BracketL; staticTokenTable[_LPA] = TokenType.ParenthesisL; staticTokenTable[_RPA] = TokenType.ParenthesisR; staticTokenTable[_CMA] = TokenType.Comma; var staticUnitTable = {}; staticUnitTable['em'] = TokenType.EMS; staticUnitTable['ex'] = TokenType.EXS; staticUnitTable['px'] = TokenType.Length; staticUnitTable['cm'] = TokenType.Length; staticUnitTable['mm'] = TokenType.Length; staticUnitTable['in'] = TokenType.Length; staticUnitTable['pt'] = TokenType.Length; staticUnitTable['pc'] = TokenType.Length; staticUnitTable['deg'] = TokenType.Angle; staticUnitTable['rad'] = TokenType.Angle; staticUnitTable['grad'] = TokenType.Angle; staticUnitTable['ms'] = TokenType.Time; staticUnitTable['s'] = TokenType.Time; staticUnitTable['hz'] = TokenType.Freq; staticUnitTable['khz'] = TokenType.Freq; staticUnitTable['%'] = TokenType.Percentage; staticUnitTable['fr'] = TokenType.Percentage; staticUnitTable['dpi'] = TokenType.Resolution; staticUnitTable['dpcm'] = TokenType.Resolution; var Scanner = /** @class */function () { function Scanner() { this.stream = new MultiLineStream(''); this.ignoreComment = true; this.ignoreWhitespace = true; this.inURL = false; } Scanner.prototype.setSource = function (input) { this.stream = new MultiLineStream(input); }; Scanner.prototype.finishToken = function (offset, type, text) { return { offset: offset, len: this.stream.pos() - offset, type: type, text: text || this.stream.substring(offset) }; }; Scanner.prototype.substring = function (offset, len) { return this.stream.substring(offset, offset + len); }; Scanner.prototype.pos = function () { return this.stream.pos(); }; Scanner.prototype.goBackTo = function (pos) { this.stream.goBackTo(pos); }; Scanner.prototype.scanUnquotedString = function () { var offset = this.stream.pos(); var content = []; if (this._unquotedString(content)) { return this.finishToken(offset, TokenType.UnquotedString, content.join('')); } return null; }; Scanner.prototype.scan = function () { // processes all whitespaces and comments var triviaToken = this.trivia(); if (triviaToken !== null) { return triviaToken; } var offset = this.stream.pos(); // End of file/input if (this.stream.eos()) { return this.finishToken(offset, TokenType.EOF); } return this.scanNext(offset); }; Scanner.prototype.scanNext = function (offset) { // CDO if (this.stream.advanceIfChars([_MIN, _MIN, _RAN])) { return this.finishToken(offset, TokenType.CDC); } var content = []; if (this.ident(content)) { return this.finishToken(offset, TokenType.Ident, content.join('')); } // at-keyword if (this.stream.advanceIfChar(_ATS)) { content = ['@']; if (this._name(content)) { var keywordText = content.join(''); if (keywordText === '@charset') { return this.finishToken(offset, TokenType.Charset, keywordText); } return this.finishToken(offset, TokenType.AtKeyword, keywordText); } else { return this.finishToken(offset, TokenType.Delim); } } // hash if (this.stream.advanceIfChar(_HSH)) { content = ['#']; if (this._name(content)) { return this.finishToken(offset, TokenType.Hash, content.join('')); } else { return this.finishToken(offset, TokenType.Delim); } } // Important if (this.stream.advanceIfChar(_BNG)) { return this.finishToken(offset, TokenType.Exclamation); } // Numbers if (this._number()) { var pos = this.stream.pos(); content = [this.stream.substring(offset, pos)]; if (this.stream.advanceIfChar(_PRC)) { // Percentage 43% return this.finishToken(offset, TokenType.Percentage); } else if (this.ident(content)) { var dim = this.stream.substring(pos).toLowerCase(); var tokenType_1 = staticUnitTable[dim]; if (typeof tokenType_1 !== 'undefined') { // Known dimension 43px return this.finishToken(offset, tokenType_1, content.join('')); } else { // Unknown dimension 43ft return this.finishToken(offset, TokenType.Dimension, content.join('')); } } return this.finishToken(offset, TokenType.Num); } // String, BadString content = []; var tokenType = this._string(content); if (tokenType !== null) { return this.finishToken(offset, tokenType, content.join('')); } // single character tokens tokenType = staticTokenTable[this.stream.peekChar()]; if (typeof tokenType !== 'undefined') { this.stream.advance(1); return this.finishToken(offset, tokenType); } // includes ~= if (this.stream.peekChar(0) === _TLD && this.stream.peekChar(1) === _EQS) { this.stream.advance(2); return this.finishToken(offset, TokenType.Includes); } // DashMatch |= if (this.stream.peekChar(0) === _PIP && this.stream.peekChar(1) === _EQS) { this.stream.advance(2); return this.finishToken(offset, TokenType.Dashmatch); } // Substring operator *= if (this.stream.peekChar(0) === _MUL && this.stream.peekChar(1) === _EQS) { this.stream.advance(2); return this.finishToken(offset, TokenType.SubstringOperator); } // Substring operator ^= if (this.stream.peekChar(0) === _HAT && this.stream.peekChar(1) === _EQS) { this.stream.advance(2); return this.finishToken(offset, TokenType.PrefixOperator); } // Substring operator $= if (this.stream.peekChar(0) === _DLR && this.stream.peekChar(1) === _EQS) { this.stream.advance(2); return this.finishToken(offset, TokenType.SuffixOperator); } // Delim this.stream.nextChar(); return this.finishToken(offset, TokenType.Delim); }; Scanner.prototype.trivia = function () { while (true) { var offset = this.stream.pos(); if (this._whitespace()) { if (!this.ignoreWhitespace) { return this.finishToken(offset, TokenType.Whitespace); } } else if (this.comment()) { if (!this.ignoreComment) { return this.finishToken(offset, TokenType.Comment); } } else { return null; } } }; Scanner.prototype.comment = function () { if (this.stream.advanceIfChars([_FSL, _MUL])) { var success_1 = false, hot_1 = false; this.stream.advanceWhileChar(function (ch) { if (hot_1 && ch === _FSL) { success_1 = true; return false; } hot_1 = ch === _MUL; return true; }); if (success_1) { this.stream.advance(1); } return true; } return false; }; Scanner.prototype._number = function () { var npeek = 0, ch; if (this.stream.peekChar() === _DOT) { npeek = 1; } ch = this.stream.peekChar(npeek); if (ch >= _0 && ch <= _9) { this.stream.advance(npeek + 1); this.stream.advanceWhileChar(function (ch) { return ch >= _0 && ch <= _9 || npeek === 0 && ch === _DOT; }); return true; } return false; }; Scanner.prototype._newline = function (result) { var ch = this.stream.peekChar(); switch (ch) { case _CAR: case _LFD: case _NWL: this.stream.advance(1); result.push(String.fromCharCode(ch)); if (ch === _CAR && this.stream.advanceIfChar(_NWL)) { result.push('\n'); } return true; } return false; }; Scanner.prototype._escape = function (result, includeNewLines) { var ch = this.stream.peekChar(); if (ch === _BSL) { this.stream.advance(1); ch = this.stream.peekChar(); var hexNumCount = 0; while (hexNumCount < 6 && (ch >= _0 && ch <= _9 || ch >= cssScanner_a && ch <= _f || ch >= _A && ch <= _F)) { this.stream.advance(1); ch = this.stream.peekChar(); hexNumCount++; } if (hexNumCount > 0) { try { var hexVal = parseInt(this.stream.substring(this.stream.pos() - hexNumCount), 16); if (hexVal) { result.push(String.fromCharCode(hexVal)); } } catch (e) { // ignore } // optional whitespace or new line, not part of result text if (ch === _WSP || ch === _TAB) { this.stream.advance(1); } else { this._newline([]); } return true; } if (ch !== _CAR && ch !== _LFD && ch !== _NWL) { this.stream.advance(1); result.push(String.fromCharCode(ch)); return true; } else if (includeNewLines) { return this._newline(result); } } return false; }; Scanner.prototype._stringChar = function (closeQuote, result) { // not closeQuote, not backslash, not newline var ch = this.stream.peekChar(); if (ch !== 0 && ch !== closeQuote && ch !== _BSL && ch !== _CAR && ch !== _LFD && ch !== _NWL) { this.stream.advance(1); result.push(String.fromCharCode(ch)); return true; } return false; }; Scanner.prototype._string = function (result) { if (this.stream.peekChar() === _SQO || this.stream.peekChar() === _DQO) { var closeQuote = this.stream.nextChar(); result.push(String.fromCharCode(closeQuote)); while (this._stringChar(closeQuote, result) || this._escape(result, true)) { // loop } if (this.stream.peekChar() === closeQuote) { this.stream.nextChar(); result.push(String.fromCharCode(closeQuote)); return TokenType.String; } else { return TokenType.BadString; } } return null; }; Scanner.prototype._unquotedChar = function (result) { // not closeQuote, not backslash, not newline var ch = this.stream.peekChar(); if (ch !== 0 && ch !== _BSL && ch !== _SQO && ch !== _DQO && ch !== _LPA && ch !== _RPA && ch !== _WSP && ch !== _TAB && ch !== _NWL && ch !== _LFD && ch !== _CAR) { this.stream.advance(1); result.push(String.fromCharCode(ch)); return true; } return false; }; Scanner.prototype._unquotedString = function (result) { var hasContent = false; while (this._unquotedChar(result) || this._escape(result)) { hasContent = true; } return hasContent; }; Scanner.prototype._whitespace = function () { var n = this.stream.advanceWhileChar(function (ch) { return ch === _WSP || ch === _TAB || ch === _NWL || ch === _LFD || ch === _CAR; }); return n > 0; }; Scanner.prototype._name = function (result) { var matched = false; while (this._identChar(result) || this._escape(result)) { matched = true; } return matched; }; Scanner.prototype.ident = function (result) { var pos = this.stream.pos(); var hasMinus = this._minus(result); if (hasMinus) { if (this._minus(result) /* -- */ || this._identFirstChar(result) || this._escape(result)) { while (this._identChar(result) || this._escape(result)) { // loop } return true; } } else if (this._identFirstChar(result) || this._escape(result)) { while (this._identChar(result) || this._escape(result)) { // loop } return true; } this.stream.goBackTo(pos); return false; }; Scanner.prototype._identFirstChar = function (result) { var ch = this.stream.peekChar(); if (ch === _USC || // _ ch >= cssScanner_a && ch <= _z || // a-z ch >= _A && ch <= _Z || // A-Z ch >= 0x80 && ch <= 0xFFFF) { // nonascii this.stream.advance(1); result.push(String.fromCharCode(ch)); return true; } return false; }; Scanner.prototype._minus = function (result) { var ch = this.stream.peekChar(); if (ch === _MIN) { this.stream.advance(1); result.push(String.fromCharCode(ch)); return true; } return false; }; Scanner.prototype._identChar = function (result) { var ch = this.stream.peekChar(); if (ch === _USC || // _ ch === _MIN || // - ch >= cssScanner_a && ch <= _z || // a-z ch >= _A && ch <= _Z || // A-Z ch >= _0 && ch <= _9 || // 0/9 ch >= 0x80 && ch <= 0xFFFF) { // nonascii this.stream.advance(1); result.push(String.fromCharCode(ch)); return true; } return false; }; return Scanner; }(); ;// CONCATENATED MODULE: ./node_modules/monaco-editor/esm/vs/language/css/_deps/vscode-css-languageservice/utils/strings.js /*--------------------------------------------------------------------------------------------- * Copyright (c) Microsoft Corporation. All rights reserved. * Licensed under the MIT License. See License.txt in the project root for license information. *--------------------------------------------------------------------------------------------*/ function startsWith(haystack, needle) { if (haystack.length < needle.length) { return false; } for (var i = 0; i < needle.length; i++) { if (haystack[i] !== needle[i]) { return false; } } return true; } /** * Determines if haystack ends with needle. */ function endsWith(haystack, needle) { var diff = haystack.length - needle.length; if (diff > 0) { return haystack.lastIndexOf(needle) === diff; } else if (diff === 0) { return haystack === needle; } else { return false; } } /** * Computes the difference score for two strings. More similar strings have a higher score. * We use largest common subsequence dynamic programming approach but penalize in the end for length differences. * Strings that have a large length difference will get a bad default score 0. * Complexity - both time and space O(first.length * second.length) * Dynamic programming LCS computation http://en.wikipedia.org/wiki/Longest_common_subsequence_problem * * @param first a string * @param second a string */ function difference(first, second, maxLenDelta) { if (maxLenDelta === void 0) { maxLenDelta = 4; } var lengthDifference = Math.abs(first.length - second.length); // We only compute score if length of the currentWord and length of entry.name are similar. if (lengthDifference > maxLenDelta) { return 0; } // Initialize LCS (largest common subsequence) matrix. var LCS = []; var zeroArray = []; var i, j; for (i = 0; i < second.length + 1; ++i) { zeroArray.push(0); } for (i = 0; i < first.length + 1; ++i) { LCS.push(zeroArray); } for (i = 1; i < first.length + 1; ++i) { for (j = 1; j < second.length + 1; ++j) { if (first[i - 1] === second[j - 1]) { LCS[i][j] = LCS[i - 1][j - 1] + 1; } else { LCS[i][j] = Math.max(LCS[i - 1][j], LCS[i][j - 1]); } } } return LCS[first.length][second.length] - Math.sqrt(lengthDifference); } /** * Limit of string length. */ function getLimitedString(str, ellipsis) { if (ellipsis === void 0) { ellipsis = true; } if (!str) { return ''; } if (str.length < 140) { return str; } return str.slice(0, 140) + (ellipsis ? "\u2026" : ''); } /** * Limit of string length. */ function strings_trim(str, regexp) { var m = regexp.exec(str); if (m && m[0].length) { return str.substr(0, str.length - m[0].length); } return str; } ;// CONCATENATED MODULE: ./node_modules/monaco-editor/esm/vs/language/css/_deps/vscode-css-languageservice/parser/cssNodes.js /*--------------------------------------------------------------------------------------------- * Copyright (c) Microsoft Corporation. All rights reserved. * Licensed under the MIT License. See License.txt in the project root for license information. *--------------------------------------------------------------------------------------------*/ var __extends = undefined && undefined.__extends || function () { var _extendStatics = function extendStatics(d, b) { _extendStatics = Object.setPrototypeOf || { __proto__: [] } instanceof Array && function (d, b) { d.__proto__ = b; } || function (d, b) { for (var p in b) if (Object.prototype.hasOwnProperty.call(b, p)) d[p] = b[p]; }; return _extendStatics(d, b); }; return function (d, b) { if (typeof b !== "function" && b !== null) throw new TypeError("Class extends value " + String(b) + " is not a constructor or null"); _extendStatics(d, b); function __() { this.constructor = d; } d.prototype = b === null ? Object.create(b) : (__.prototype = b.prototype, new __()); }; }(); /// /// Nodes for the css 2.1 specification. See for reference: /// http://www.w3.org/TR/CSS21/grammar.html#grammar /// var NodeType; (function (NodeType) { NodeType[NodeType["Undefined"] = 0] = "Undefined"; NodeType[NodeType["Identifier"] = 1] = "Identifier"; NodeType[NodeType["Stylesheet"] = 2] = "Stylesheet"; NodeType[NodeType["Ruleset"] = 3] = "Ruleset"; NodeType[NodeType["Selector"] = 4] = "Selector"; NodeType[NodeType["SimpleSelector"] = 5] = "SimpleSelector"; NodeType[NodeType["SelectorInterpolation"] = 6] = "SelectorInterpolation"; NodeType[NodeType["SelectorCombinator"] = 7] = "SelectorCombinator"; NodeType[NodeType["SelectorCombinatorParent"] = 8] = "SelectorCombinatorParent"; NodeType[NodeType["SelectorCombinatorSibling"] = 9] = "SelectorCombinatorSibling"; NodeType[NodeType["SelectorCombinatorAllSiblings"] = 10] = "SelectorCombinatorAllSiblings"; NodeType[NodeType["SelectorCombinatorShadowPiercingDescendant"] = 11] = "SelectorCombinatorShadowPiercingDescendant"; NodeType[NodeType["Page"] = 12] = "Page"; NodeType[NodeType["PageBoxMarginBox"] = 13] = "PageBoxMarginBox"; NodeType[NodeType["ClassSelector"] = 14] = "ClassSelector"; NodeType[NodeType["IdentifierSelector"] = 15] = "IdentifierSelector"; NodeType[NodeType["ElementNameSelector"] = 16] = "ElementNameSelector"; NodeType[NodeType["PseudoSelector"] = 17] = "PseudoSelector"; NodeType[NodeType["AttributeSelector"] = 18] = "AttributeSelector"; NodeType[NodeType["Declaration"] = 19] = "Declaration"; NodeType[NodeType["Declarations"] = 20] = "Declarations"; NodeType[NodeType["Property"] = 21] = "Property"; NodeType[NodeType["Expression"] = 22] = "Expression"; NodeType[NodeType["BinaryExpression"] = 23] = "BinaryExpression"; NodeType[NodeType["Term"] = 24] = "Term"; NodeType[NodeType["Operator"] = 25] = "Operator"; NodeType[NodeType["Value"] = 26] = "Value"; NodeType[NodeType["StringLiteral"] = 27] = "StringLiteral"; NodeType[NodeType["URILiteral"] = 28] = "URILiteral"; NodeType[NodeType["EscapedValue"] = 29] = "EscapedValue"; NodeType[NodeType["Function"] = 30] = "Function"; NodeType[NodeType["NumericValue"] = 31] = "NumericValue"; NodeType[NodeType["HexColorValue"] = 32] = "HexColorValue"; NodeType[NodeType["RatioValue"] = 33] = "RatioValue"; NodeType[NodeType["MixinDeclaration"] = 34] = "MixinDeclaration"; NodeType[NodeType["MixinReference"] = 35] = "MixinReference"; NodeType[NodeType["VariableName"] = 36] = "VariableName"; NodeType[NodeType["VariableDeclaration"] = 37] = "VariableDeclaration"; NodeType[NodeType["Prio"] = 38] = "Prio"; NodeType[NodeType["Interpolation"] = 39] = "Interpolation"; NodeType[NodeType["NestedProperties"] = 40] = "NestedProperties"; NodeType[NodeType["ExtendsReference"] = 41] = "ExtendsReference"; NodeType[NodeType["SelectorPlaceholder"] = 42] = "SelectorPlaceholder"; NodeType[NodeType["Debug"] = 43] = "Debug"; NodeType[NodeType["If"] = 44] = "If"; NodeType[NodeType["Else"] = 45] = "Else"; NodeType[NodeType["For"] = 46] = "For"; NodeType[NodeType["Each"] = 47] = "Each"; NodeType[NodeType["While"] = 48] = "While"; NodeType[NodeType["MixinContentReference"] = 49] = "MixinContentReference"; NodeType[NodeType["MixinContentDeclaration"] = 50] = "MixinContentDeclaration"; NodeType[NodeType["Media"] = 51] = "Media"; NodeType[NodeType["Keyframe"] = 52] = "Keyframe"; NodeType[NodeType["FontFace"] = 53] = "FontFace"; NodeType[NodeType["Import"] = 54] = "Import"; NodeType[NodeType["Namespace"] = 55] = "Namespace"; NodeType[NodeType["Invocation"] = 56] = "Invocation"; NodeType[NodeType["FunctionDeclaration"] = 57] = "FunctionDeclaration"; NodeType[NodeType["ReturnStatement"] = 58] = "ReturnStatement"; NodeType[NodeType["MediaQuery"] = 59] = "MediaQuery"; NodeType[NodeType["MediaCondition"] = 60] = "MediaCondition"; NodeType[NodeType["MediaFeature"] = 61] = "MediaFeature"; NodeType[NodeType["FunctionParameter"] = 62] = "FunctionParameter"; NodeType[NodeType["FunctionArgument"] = 63] = "FunctionArgument"; NodeType[NodeType["KeyframeSelector"] = 64] = "KeyframeSelector"; NodeType[NodeType["ViewPort"] = 65] = "ViewPort"; NodeType[NodeType["Document"] = 66] = "Document"; NodeType[NodeType["AtApplyRule"] = 67] = "AtApplyRule"; NodeType[NodeType["CustomPropertyDeclaration"] = 68] = "CustomPropertyDeclaration"; NodeType[NodeType["CustomPropertySet"] = 69] = "CustomPropertySet"; NodeType[NodeType["ListEntry"] = 70] = "ListEntry"; NodeType[NodeType["Supports"] = 71] = "Supports"; NodeType[NodeType["SupportsCondition"] = 72] = "SupportsCondition"; NodeType[NodeType["NamespacePrefix"] = 73] = "NamespacePrefix"; NodeType[NodeType["GridLine"] = 74] = "GridLine"; NodeType[NodeType["Plugin"] = 75] = "Plugin"; NodeType[NodeType["UnknownAtRule"] = 76] = "UnknownAtRule"; NodeType[NodeType["Use"] = 77] = "Use"; NodeType[NodeType["ModuleConfiguration"] = 78] = "ModuleConfiguration"; NodeType[NodeType["Forward"] = 79] = "Forward"; NodeType[NodeType["ForwardVisibility"] = 80] = "ForwardVisibility"; NodeType[NodeType["Module"] = 81] = "Module"; })(NodeType || (NodeType = {})); var ReferenceType; (function (ReferenceType) { ReferenceType[ReferenceType["Mixin"] = 0] = "Mixin"; ReferenceType[ReferenceType["Rule"] = 1] = "Rule"; ReferenceType[ReferenceType["Variable"] = 2] = "Variable"; ReferenceType[ReferenceType["Function"] = 3] = "Function"; ReferenceType[ReferenceType["Keyframe"] = 4] = "Keyframe"; ReferenceType[ReferenceType["Unknown"] = 5] = "Unknown"; ReferenceType[ReferenceType["Module"] = 6] = "Module"; ReferenceType[ReferenceType["Forward"] = 7] = "Forward"; ReferenceType[ReferenceType["ForwardVisibility"] = 8] = "ForwardVisibility"; })(ReferenceType || (ReferenceType = {})); function getNodeAtOffset(node, offset) { var candidate = null; if (!node || offset < node.offset || offset > node.end) { return null; } // Find the shortest node at the position node.accept(function (node) { if (node.offset === -1 && node.length === -1) { return true; } if (node.offset <= offset && node.end >= offset) { if (!candidate) { candidate = node; } else if (node.length <= candidate.length) { candidate = node; } return true; } return false; }); return candidate; } function getNodePath(node, offset) { var candidate = getNodeAtOffset(node, offset); var path = []; while (candidate) { path.unshift(candidate); candidate = candidate.parent; } return path; } function getParentDeclaration(node) { var decl = node.findParent(NodeType.Declaration); var value = decl && decl.getValue(); if (value && value.encloses(node)) { return decl; } return null; } var cssNodes_Node = /** @class */function () { function Node(offset, len, nodeType) { if (offset === void 0) { offset = -1; } if (len === void 0) { len = -1; } this.parent = null; this.offset = offset; this.length = len; if (nodeType) { this.nodeType = nodeType; } } Object.defineProperty(Node.prototype, "end", { get: function get() { return this.offset + this.length; }, enumerable: false, configurable: true }); Object.defineProperty(Node.prototype, "type", { get: function get() { return this.nodeType || NodeType.Undefined; }, set: function set(type) { this.nodeType = type; }, enumerable: false, configurable: true }); Node.prototype.getTextProvider = function () { var node = this; while (node && !node.textProvider) { node = node.parent; } if (node) { return node.textProvider; } return function () { return 'unknown'; }; }; Node.prototype.getText = function () { return this.getTextProvider()(this.offset, this.length); }; Node.prototype.matches = function (str) { return this.length === str.length && this.getTextProvider()(this.offset, this.length) === str; }; Node.prototype.startsWith = function (str) { return this.length >= str.length && this.getTextProvider()(this.offset, str.length) === str; }; Node.prototype.endsWith = function (str) { return this.length >= str.length && this.getTextProvider()(this.end - str.length, str.length) === str; }; Node.prototype.accept = function (visitor) { if (visitor(this) && this.children) { for (var _i = 0, _a = this.children; _i < _a.length; _i++) { var child = _a[_i]; child.accept(visitor); } } }; Node.prototype.acceptVisitor = function (visitor) { this.accept(visitor.visitNode.bind(visitor)); }; Node.prototype.adoptChild = function (node, index) { if (index === void 0) { index = -1; } if (node.parent && node.parent.children) { var idx = node.parent.children.indexOf(node); if (idx >= 0) { node.parent.children.splice(idx, 1); } } node.parent = this; var children = this.children; if (!children) { children = this.children = []; } if (index !== -1) { children.splice(index, 0, node); } else { children.push(node); } return node; }; Node.prototype.attachTo = function (parent, index) { if (index === void 0) { index = -1; } if (parent) { parent.adoptChild(this, index); } return this; }; Node.prototype.collectIssues = function (results) { if (this.issues) { results.push.apply(results, this.issues); } }; Node.prototype.addIssue = function (issue) { if (!this.issues) { this.issues = []; } this.issues.push(issue); }; Node.prototype.hasIssue = function (rule) { return Array.isArray(this.issues) && this.issues.some(function (i) { return i.getRule() === rule; }); }; Node.prototype.isErroneous = function (recursive) { if (recursive === void 0) { recursive = false; } if (this.issues && this.issues.length > 0) { return true; } return recursive && Array.isArray(this.children) && this.children.some(function (c) { return c.isErroneous(true); }); }; Node.prototype.setNode = function (field, node, index) { if (index === void 0) { index = -1; } if (node) { node.attachTo(this, index); this[field] = node; return true; } return false; }; Node.prototype.addChild = function (node) { if (node) { if (!this.children) { this.children = []; } node.attachTo(this); this.updateOffsetAndLength(node); return true; } return false; }; Node.prototype.updateOffsetAndLength = function (node) { if (node.offset < this.offset || this.offset === -1) { this.offset = node.offset; } var nodeEnd = node.end; if (nodeEnd > this.end || this.length === -1) { this.length = nodeEnd - this.offset; } }; Node.prototype.hasChildren = function () { return !!this.children && this.children.length > 0; }; Node.prototype.getChildren = function () { return this.children ? this.children.slice(0) : []; }; Node.prototype.getChild = function (index) { if (this.children && index < this.children.length) { return this.children[index]; } return null; }; Node.prototype.addChildren = function (nodes) { for (var _i = 0, nodes_1 = nodes; _i < nodes_1.length; _i++) { var node = nodes_1[_i]; this.addChild(node); } }; Node.prototype.findFirstChildBeforeOffset = function (offset) { if (this.children) { var current = null; for (var i = this.children.length - 1; i >= 0; i--) { // iterate until we find a child that has a start offset smaller than the input offset current = this.children[i]; if (current.offset <= offset) { return current; } } } return null; }; Node.prototype.findChildAtOffset = function (offset, goDeep) { var current = this.findFirstChildBeforeOffset(offset); if (current && current.end >= offset) { if (goDeep) { return current.findChildAtOffset(offset, true) || current; } return current; } return null; }; Node.prototype.encloses = function (candidate) { return this.offset <= candidate.offset && this.offset + this.length >= candidate.offset + candidate.length; }; Node.prototype.getParent = function () { var result = this.parent; while (result instanceof Nodelist) { result = result.parent; } return result; }; Node.prototype.findParent = function (type) { var result = this; while (result && result.type !== type) { result = result.parent; } return result; }; Node.prototype.findAParent = function () { var types = []; for (var _i = 0; _i < arguments.length; _i++) { types[_i] = arguments[_i]; } var result = this; while (result && !types.some(function (t) { return result.type === t; })) { result = result.parent; } return result; }; Node.prototype.setData = function (key, value) { if (!this.options) { this.options = {}; } this.options[key] = value; }; Node.prototype.getData = function (key) { if (!this.options || !this.options.hasOwnProperty(key)) { return null; } return this.options[key]; }; return Node; }(); var Nodelist = /** @class */function (_super) { __extends(Nodelist, _super); function Nodelist(parent, index) { if (index === void 0) { index = -1; } var _this = _super.call(this, -1, -1) || this; _this.attachTo(parent, index); _this.offset = -1; _this.length = -1; return _this; } return Nodelist; }(cssNodes_Node); var Identifier = /** @class */function (_super) { __extends(Identifier, _super); function Identifier(offset, length) { var _this = _super.call(this, offset, length) || this; _this.isCustomProperty = false; return _this; } Object.defineProperty(Identifier.prototype, "type", { get: function get() { return NodeType.Identifier; }, enumerable: false, configurable: true }); Identifier.prototype.containsInterpolation = function () { return this.hasChildren(); }; return Identifier; }(cssNodes_Node); var Stylesheet = /** @class */function (_super) { __extends(Stylesheet, _super); function Stylesheet(offset, length) { return _super.call(this, offset, length) || this; } Object.defineProperty(Stylesheet.prototype, "type", { get: function get() { return NodeType.Stylesheet; }, enumerable: false, configurable: true }); return Stylesheet; }(cssNodes_Node); var Declarations = /** @class */function (_super) { __extends(Declarations, _super); function Declarations(offset, length) { return _super.call(this, offset, length) || this; } Object.defineProperty(Declarations.prototype, "type", { get: function get() { return NodeType.Declarations; }, enumerable: false, configurable: true }); return Declarations; }(cssNodes_Node); var BodyDeclaration = /** @class */function (_super) { __extends(BodyDeclaration, _super); function BodyDeclaration(offset, length) { return _super.call(this, offset, length) || this; } BodyDeclaration.prototype.getDeclarations = function () { return this.declarations; }; BodyDeclaration.prototype.setDeclarations = function (decls) { return this.setNode('declarations', decls); }; return BodyDeclaration; }(cssNodes_Node); var RuleSet = /** @class */function (_super) { __extends(RuleSet, _super); function RuleSet(offset, length) { return _super.call(this, offset, length) || this; } Object.defineProperty(RuleSet.prototype, "type", { get: function get() { return NodeType.Ruleset; }, enumerable: false, configurable: true }); RuleSet.prototype.getSelectors = function () { if (!this.selectors) { this.selectors = new Nodelist(this); } return this.selectors; }; RuleSet.prototype.isNested = function () { return !!this.parent && this.parent.findParent(NodeType.Declarations) !== null; }; return RuleSet; }(BodyDeclaration); var Selector = /** @class */function (_super) { __extends(Selector, _super); function Selector(offset, length) { return _super.call(this, offset, length) || this; } Object.defineProperty(Selector.prototype, "type", { get: function get() { return NodeType.Selector; }, enumerable: false, configurable: true }); return Selector; }(cssNodes_Node); var SimpleSelector = /** @class */function (_super) { __extends(SimpleSelector, _super); function SimpleSelector(offset, length) { return _super.call(this, offset, length) || this; } Object.defineProperty(SimpleSelector.prototype, "type", { get: function get() { return NodeType.SimpleSelector; }, enumerable: false, configurable: true }); return SimpleSelector; }(cssNodes_Node); var AtApplyRule = /** @class */function (_super) { __extends(AtApplyRule, _super); function AtApplyRule(offset, length) { return _super.call(this, offset, length) || this; } Object.defineProperty(AtApplyRule.prototype, "type", { get: function get() { return NodeType.AtApplyRule; }, enumerable: false, configurable: true }); AtApplyRule.prototype.setIdentifier = function (node) { return this.setNode('identifier', node, 0); }; AtApplyRule.prototype.getIdentifier = function () { return this.identifier; }; AtApplyRule.prototype.getName = function () { return this.identifier ? this.identifier.getText() : ''; }; return AtApplyRule; }(cssNodes_Node); var AbstractDeclaration = /** @class */function (_super) { __extends(AbstractDeclaration, _super); function AbstractDeclaration(offset, length) { return _super.call(this, offset, length) || this; } return AbstractDeclaration; }(cssNodes_Node); var CustomPropertySet = /** @class */function (_super) { __extends(CustomPropertySet, _super); function CustomPropertySet(offset, length) { return _super.call(this, offset, length) || this; } Object.defineProperty(CustomPropertySet.prototype, "type", { get: function get() { return NodeType.CustomPropertySet; }, enumerable: false, configurable: true }); return CustomPropertySet; }(BodyDeclaration); var Declaration = /** @class */function (_super) { __extends(Declaration, _super); function Declaration(offset, length) { var _this = _super.call(this, offset, length) || this; _this.property = null; return _this; } Object.defineProperty(Declaration.prototype, "type", { get: function get() { return NodeType.Declaration; }, enumerable: false, configurable: true }); Declaration.prototype.setProperty = function (node) { return this.setNode('property', node); }; Declaration.prototype.getProperty = function () { return this.property; }; Declaration.prototype.getFullPropertyName = function () { var propertyName = this.property ? this.property.getName() : 'unknown'; if (this.parent instanceof Declarations && this.parent.getParent() instanceof NestedProperties) { var parentDecl = this.parent.getParent().getParent(); if (parentDecl instanceof Declaration) { return parentDecl.getFullPropertyName() + propertyName; } } return propertyName; }; Declaration.prototype.getNonPrefixedPropertyName = function () { var propertyName = this.getFullPropertyName(); if (propertyName && propertyName.charAt(0) === '-') { var vendorPrefixEnd = propertyName.indexOf('-', 1); if (vendorPrefixEnd !== -1) { return propertyName.substring(vendorPrefixEnd + 1); } } return propertyName; }; Declaration.prototype.setValue = function (value) { return this.setNode('value', value); }; Declaration.prototype.getValue = function () { return this.value; }; Declaration.prototype.setNestedProperties = function (value) { return this.setNode('nestedProperties', value); }; Declaration.prototype.getNestedProperties = function () { return this.nestedProperties; }; return Declaration; }(AbstractDeclaration); var CustomPropertyDeclaration = /** @class */function (_super) { __extends(CustomPropertyDeclaration, _super); function CustomPropertyDeclaration(offset, length) { return _super.call(this, offset, length) || this; } Object.defineProperty(CustomPropertyDeclaration.prototype, "type", { get: function get() { return NodeType.CustomPropertyDeclaration; }, enumerable: false, configurable: true }); CustomPropertyDeclaration.prototype.setPropertySet = function (value) { return this.setNode('propertySet', value); }; CustomPropertyDeclaration.prototype.getPropertySet = function () { return this.propertySet; }; return CustomPropertyDeclaration; }(Declaration); var Property = /** @class */function (_super) { __extends(Property, _super); function Property(offset, length) { return _super.call(this, offset, length) || this; } Object.defineProperty(Property.prototype, "type", { get: function get() { return NodeType.Property; }, enumerable: false, configurable: true }); Property.prototype.setIdentifier = function (value) { return this.setNode('identifier', value); }; Property.prototype.getIdentifier = function () { return this.identifier; }; Property.prototype.getName = function () { return strings_trim(this.getText(), /[_\+]+$/); /* +_: less merge */ }; Property.prototype.isCustomProperty = function () { return !!this.identifier && this.identifier.isCustomProperty; }; return Property; }(cssNodes_Node); var Invocation = /** @class */function (_super) { __extends(Invocation, _super); function Invocation(offset, length) { return _super.call(this, offset, length) || this; } Object.defineProperty(Invocation.prototype, "type", { get: function get() { return NodeType.Invocation; }, enumerable: false, configurable: true }); Invocation.prototype.getArguments = function () { if (!this.arguments) { this.arguments = new Nodelist(this); } return this.arguments; }; return Invocation; }(cssNodes_Node); var Function = /** @class */function (_super) { __extends(Function, _super); function Function(offset, length) { return _super.call(this, offset, length) || this; } Object.defineProperty(Function.prototype, "type", { get: function get() { return NodeType.Function; }, enumerable: false, configurable: true }); Function.prototype.setIdentifier = function (node) { return this.setNode('identifier', node, 0); }; Function.prototype.getIdentifier = function () { return this.identifier; }; Function.prototype.getName = function () { return this.identifier ? this.identifier.getText() : ''; }; return Function; }(Invocation); var FunctionParameter = /** @class */function (_super) { __extends(FunctionParameter, _super); function FunctionParameter(offset, length) { return _super.call(this, offset, length) || this; } Object.defineProperty(FunctionParameter.prototype, "type", { get: function get() { return NodeType.FunctionParameter; }, enumerable: false, configurable: true }); FunctionParameter.prototype.setIdentifier = function (node) { return this.setNode('identifier', node, 0); }; FunctionParameter.prototype.getIdentifier = function () { return this.identifier; }; FunctionParameter.prototype.getName = function () { return this.identifier ? this.identifier.getText() : ''; }; FunctionParameter.prototype.setDefaultValue = function (node) { return this.setNode('defaultValue', node, 0); }; FunctionParameter.prototype.getDefaultValue = function () { return this.defaultValue; }; return FunctionParameter; }(cssNodes_Node); var FunctionArgument = /** @class */function (_super) { __extends(FunctionArgument, _super); function FunctionArgument(offset, length) { return _super.call(this, offset, length) || this; } Object.defineProperty(FunctionArgument.prototype, "type", { get: function get() { return NodeType.FunctionArgument; }, enumerable: false, configurable: true }); FunctionArgument.prototype.setIdentifier = function (node) { return this.setNode('identifier', node, 0); }; FunctionArgument.prototype.getIdentifier = function () { return this.identifier; }; FunctionArgument.prototype.getName = function () { return this.identifier ? this.identifier.getText() : ''; }; FunctionArgument.prototype.setValue = function (node) { return this.setNode('value', node, 0); }; FunctionArgument.prototype.getValue = function () { return this.value; }; return FunctionArgument; }(cssNodes_Node); var IfStatement = /** @class */function (_super) { __extends(IfStatement, _super); function IfStatement(offset, length) { return _super.call(this, offset, length) || this; } Object.defineProperty(IfStatement.prototype, "type", { get: function get() { return NodeType.If; }, enumerable: false, configurable: true }); IfStatement.prototype.setExpression = function (node) { return this.setNode('expression', node, 0); }; IfStatement.prototype.setElseClause = function (elseClause) { return this.setNode('elseClause', elseClause); }; return IfStatement; }(BodyDeclaration); var ForStatement = /** @class */function (_super) { __extends(ForStatement, _super); function ForStatement(offset, length) { return _super.call(this, offset, length) || this; } Object.defineProperty(ForStatement.prototype, "type", { get: function get() { return NodeType.For; }, enumerable: false, configurable: true }); ForStatement.prototype.setVariable = function (node) { return this.setNode('variable', node, 0); }; return ForStatement; }(BodyDeclaration); var EachStatement = /** @class */function (_super) { __extends(EachStatement, _super); function EachStatement(offset, length) { return _super.call(this, offset, length) || this; } Object.defineProperty(EachStatement.prototype, "type", { get: function get() { return NodeType.Each; }, enumerable: false, configurable: true }); EachStatement.prototype.getVariables = function () { if (!this.variables) { this.variables = new Nodelist(this); } return this.variables; }; return EachStatement; }(BodyDeclaration); var WhileStatement = /** @class */function (_super) { __extends(WhileStatement, _super); function WhileStatement(offset, length) { return _super.call(this, offset, length) || this; } Object.defineProperty(WhileStatement.prototype, "type", { get: function get() { return NodeType.While; }, enumerable: false, configurable: true }); return WhileStatement; }(BodyDeclaration); var ElseStatement = /** @class */function (_super) { __extends(ElseStatement, _super); function ElseStatement(offset, length) { return _super.call(this, offset, length) || this; } Object.defineProperty(ElseStatement.prototype, "type", { get: function get() { return NodeType.Else; }, enumerable: false, configurable: true }); return ElseStatement; }(BodyDeclaration); var FunctionDeclaration = /** @class */function (_super) { __extends(FunctionDeclaration, _super); function FunctionDeclaration(offset, length) { return _super.call(this, offset, length) || this; } Object.defineProperty(FunctionDeclaration.prototype, "type", { get: function get() { return NodeType.FunctionDeclaration; }, enumerable: false, configurable: true }); FunctionDeclaration.prototype.setIdentifier = function (node) { return this.setNode('identifier', node, 0); }; FunctionDeclaration.prototype.getIdentifier = function () { return this.identifier; }; FunctionDeclaration.prototype.getName = function () { return this.identifier ? this.identifier.getText() : ''; }; FunctionDeclaration.prototype.getParameters = function () { if (!this.parameters) { this.parameters = new Nodelist(this); } return this.parameters; }; return FunctionDeclaration; }(BodyDeclaration); var ViewPort = /** @class */function (_super) { __extends(ViewPort, _super); function ViewPort(offset, length) { return _super.call(this, offset, length) || this; } Object.defineProperty(ViewPort.prototype, "type", { get: function get() { return NodeType.ViewPort; }, enumerable: false, configurable: true }); return ViewPort; }(BodyDeclaration); var FontFace = /** @class */function (_super) { __extends(FontFace, _super); function FontFace(offset, length) { return _super.call(this, offset, length) || this; } Object.defineProperty(FontFace.prototype, "type", { get: function get() { return NodeType.FontFace; }, enumerable: false, configurable: true }); return FontFace; }(BodyDeclaration); var NestedProperties = /** @class */function (_super) { __extends(NestedProperties, _super); function NestedProperties(offset, length) { return _super.call(this, offset, length) || this; } Object.defineProperty(NestedProperties.prototype, "type", { get: function get() { return NodeType.NestedProperties; }, enumerable: false, configurable: true }); return NestedProperties; }(BodyDeclaration); var Keyframe = /** @class */function (_super) { __extends(Keyframe, _super); function Keyframe(offset, length) { return _super.call(this, offset, length) || this; } Object.defineProperty(Keyframe.prototype, "type", { get: function get() { return NodeType.Keyframe; }, enumerable: false, configurable: true }); Keyframe.prototype.setKeyword = function (keyword) { return this.setNode('keyword', keyword, 0); }; Keyframe.prototype.getKeyword = function () { return this.keyword; }; Keyframe.prototype.setIdentifier = function (node) { return this.setNode('identifier', node, 0); }; Keyframe.prototype.getIdentifier = function () { return this.identifier; }; Keyframe.prototype.getName = function () { return this.identifier ? this.identifier.getText() : ''; }; return Keyframe; }(BodyDeclaration); var KeyframeSelector = /** @class */function (_super) { __extends(KeyframeSelector, _super); function KeyframeSelector(offset, length) { return _super.call(this, offset, length) || this; } Object.defineProperty(KeyframeSelector.prototype, "type", { get: function get() { return NodeType.KeyframeSelector; }, enumerable: false, configurable: true }); return KeyframeSelector; }(BodyDeclaration); var Import = /** @class */function (_super) { __extends(Import, _super); function Import(offset, length) { return _super.call(this, offset, length) || this; } Object.defineProperty(Import.prototype, "type", { get: function get() { return NodeType.Import; }, enumerable: false, configurable: true }); Import.prototype.setMedialist = function (node) { if (node) { node.attachTo(this); return true; } return false; }; return Import; }(cssNodes_Node); var Use = /** @class */function (_super) { __extends(Use, _super); function Use() { return _super !== null && _super.apply(this, arguments) || this; } Object.defineProperty(Use.prototype, "type", { get: function get() { return NodeType.Use; }, enumerable: false, configurable: true }); Use.prototype.getParameters = function () { if (!this.parameters) { this.parameters = new Nodelist(this); } return this.parameters; }; Use.prototype.setIdentifier = function (node) { return this.setNode('identifier', node, 0); }; Use.prototype.getIdentifier = function () { return this.identifier; }; return Use; }(cssNodes_Node); var ModuleConfiguration = /** @class */function (_super) { __extends(ModuleConfiguration, _super); function ModuleConfiguration() { return _super !== null && _super.apply(this, arguments) || this; } Object.defineProperty(ModuleConfiguration.prototype, "type", { get: function get() { return NodeType.ModuleConfiguration; }, enumerable: false, configurable: true }); ModuleConfiguration.prototype.setIdentifier = function (node) { return this.setNode('identifier', node, 0); }; ModuleConfiguration.prototype.getIdentifier = function () { return this.identifier; }; ModuleConfiguration.prototype.getName = function () { return this.identifier ? this.identifier.getText() : ''; }; ModuleConfiguration.prototype.setValue = function (node) { return this.setNode('value', node, 0); }; ModuleConfiguration.prototype.getValue = function () { return this.value; }; return ModuleConfiguration; }(cssNodes_Node); var Forward = /** @class */function (_super) { __extends(Forward, _super); function Forward() { return _super !== null && _super.apply(this, arguments) || this; } Object.defineProperty(Forward.prototype, "type", { get: function get() { return NodeType.Forward; }, enumerable: false, configurable: true }); Forward.prototype.setIdentifier = function (node) { return this.setNode('identifier', node, 0); }; Forward.prototype.getIdentifier = function () { return this.identifier; }; Forward.prototype.getMembers = function () { if (!this.members) { this.members = new Nodelist(this); } return this.members; }; Forward.prototype.getParameters = function () { if (!this.parameters) { this.parameters = new Nodelist(this); } return this.parameters; }; return Forward; }(cssNodes_Node); var ForwardVisibility = /** @class */function (_super) { __extends(ForwardVisibility, _super); function ForwardVisibility() { return _super !== null && _super.apply(this, arguments) || this; } Object.defineProperty(ForwardVisibility.prototype, "type", { get: function get() { return NodeType.ForwardVisibility; }, enumerable: false, configurable: true }); ForwardVisibility.prototype.setIdentifier = function (node) { return this.setNode('identifier', node, 0); }; ForwardVisibility.prototype.getIdentifier = function () { return this.identifier; }; return ForwardVisibility; }(cssNodes_Node); var Namespace = /** @class */function (_super) { __extends(Namespace, _super); function Namespace(offset, length) { return _super.call(this, offset, length) || this; } Object.defineProperty(Namespace.prototype, "type", { get: function get() { return NodeType.Namespace; }, enumerable: false, configurable: true }); return Namespace; }(cssNodes_Node); var Media = /** @class */function (_super) { __extends(Media, _super); function Media(offset, length) { return _super.call(this, offset, length) || this; } Object.defineProperty(Media.prototype, "type", { get: function get() { return NodeType.Media; }, enumerable: false, configurable: true }); return Media; }(BodyDeclaration); var Supports = /** @class */function (_super) { __extends(Supports, _super); function Supports(offset, length) { return _super.call(this, offset, length) || this; } Object.defineProperty(Supports.prototype, "type", { get: function get() { return NodeType.Supports; }, enumerable: false, configurable: true }); return Supports; }(BodyDeclaration); var Document = /** @class */function (_super) { __extends(Document, _super); function Document(offset, length) { return _super.call(this, offset, length) || this; } Object.defineProperty(Document.prototype, "type", { get: function get() { return NodeType.Document; }, enumerable: false, configurable: true }); return Document; }(BodyDeclaration); var Medialist = /** @class */function (_super) { __extends(Medialist, _super); function Medialist(offset, length) { return _super.call(this, offset, length) || this; } Medialist.prototype.getMediums = function () { if (!this.mediums) { this.mediums = new Nodelist(this); } return this.mediums; }; return Medialist; }(cssNodes_Node); var MediaQuery = /** @class */function (_super) { __extends(MediaQuery, _super); function MediaQuery(offset, length) { return _super.call(this, offset, length) || this; } Object.defineProperty(MediaQuery.prototype, "type", { get: function get() { return NodeType.MediaQuery; }, enumerable: false, configurable: true }); return MediaQuery; }(cssNodes_Node); var MediaCondition = /** @class */function (_super) { __extends(MediaCondition, _super); function MediaCondition(offset, length) { return _super.call(this, offset, length) || this; } Object.defineProperty(MediaCondition.prototype, "type", { get: function get() { return NodeType.MediaCondition; }, enumerable: false, configurable: true }); return MediaCondition; }(cssNodes_Node); var MediaFeature = /** @class */function (_super) { __extends(MediaFeature, _super); function MediaFeature(offset, length) { return _super.call(this, offset, length) || this; } Object.defineProperty(MediaFeature.prototype, "type", { get: function get() { return NodeType.MediaFeature; }, enumerable: false, configurable: true }); return MediaFeature; }(cssNodes_Node); var SupportsCondition = /** @class */function (_super) { __extends(SupportsCondition, _super); function SupportsCondition(offset, length) { return _super.call(this, offset, length) || this; } Object.defineProperty(SupportsCondition.prototype, "type", { get: function get() { return NodeType.SupportsCondition; }, enumerable: false, configurable: true }); return SupportsCondition; }(cssNodes_Node); var Page = /** @class */function (_super) { __extends(Page, _super); function Page(offset, length) { return _super.call(this, offset, length) || this; } Object.defineProperty(Page.prototype, "type", { get: function get() { return NodeType.Page; }, enumerable: false, configurable: true }); return Page; }(BodyDeclaration); var PageBoxMarginBox = /** @class */function (_super) { __extends(PageBoxMarginBox, _super); function PageBoxMarginBox(offset, length) { return _super.call(this, offset, length) || this; } Object.defineProperty(PageBoxMarginBox.prototype, "type", { get: function get() { return NodeType.PageBoxMarginBox; }, enumerable: false, configurable: true }); return PageBoxMarginBox; }(BodyDeclaration); var Expression = /** @class */function (_super) { __extends(Expression, _super); function Expression(offset, length) { return _super.call(this, offset, length) || this; } Object.defineProperty(Expression.prototype, "type", { get: function get() { return NodeType.Expression; }, enumerable: false, configurable: true }); return Expression; }(cssNodes_Node); var BinaryExpression = /** @class */function (_super) { __extends(BinaryExpression, _super); function BinaryExpression(offset, length) { return _super.call(this, offset, length) || this; } Object.defineProperty(BinaryExpression.prototype, "type", { get: function get() { return NodeType.BinaryExpression; }, enumerable: false, configurable: true }); BinaryExpression.prototype.setLeft = function (left) { return this.setNode('left', left); }; BinaryExpression.prototype.getLeft = function () { return this.left; }; BinaryExpression.prototype.setRight = function (right) { return this.setNode('right', right); }; BinaryExpression.prototype.getRight = function () { return this.right; }; BinaryExpression.prototype.setOperator = function (value) { return this.setNode('operator', value); }; BinaryExpression.prototype.getOperator = function () { return this.operator; }; return BinaryExpression; }(cssNodes_Node); var Term = /** @class */function (_super) { __extends(Term, _super); function Term(offset, length) { return _super.call(this, offset, length) || this; } Object.defineProperty(Term.prototype, "type", { get: function get() { return NodeType.Term; }, enumerable: false, configurable: true }); Term.prototype.setOperator = function (value) { return this.setNode('operator', value); }; Term.prototype.getOperator = function () { return this.operator; }; Term.prototype.setExpression = function (value) { return this.setNode('expression', value); }; Term.prototype.getExpression = function () { return this.expression; }; return Term; }(cssNodes_Node); var AttributeSelector = /** @class */function (_super) { __extends(AttributeSelector, _super); function AttributeSelector(offset, length) { return _super.call(this, offset, length) || this; } Object.defineProperty(AttributeSelector.prototype, "type", { get: function get() { return NodeType.AttributeSelector; }, enumerable: false, configurable: true }); AttributeSelector.prototype.setNamespacePrefix = function (value) { return this.setNode('namespacePrefix', value); }; AttributeSelector.prototype.getNamespacePrefix = function () { return this.namespacePrefix; }; AttributeSelector.prototype.setIdentifier = function (value) { return this.setNode('identifier', value); }; AttributeSelector.prototype.getIdentifier = function () { return this.identifier; }; AttributeSelector.prototype.setOperator = function (operator) { return this.setNode('operator', operator); }; AttributeSelector.prototype.getOperator = function () { return this.operator; }; AttributeSelector.prototype.setValue = function (value) { return this.setNode('value', value); }; AttributeSelector.prototype.getValue = function () { return this.value; }; return AttributeSelector; }(cssNodes_Node); var Operator = /** @class */function (_super) { __extends(Operator, _super); function Operator(offset, length) { return _super.call(this, offset, length) || this; } Object.defineProperty(Operator.prototype, "type", { get: function get() { return NodeType.Operator; }, enumerable: false, configurable: true }); return Operator; }(cssNodes_Node); var HexColorValue = /** @class */function (_super) { __extends(HexColorValue, _super); function HexColorValue(offset, length) { return _super.call(this, offset, length) || this; } Object.defineProperty(HexColorValue.prototype, "type", { get: function get() { return NodeType.HexColorValue; }, enumerable: false, configurable: true }); return HexColorValue; }(cssNodes_Node); var RatioValue = /** @class */function (_super) { __extends(RatioValue, _super); function RatioValue(offset, length) { return _super.call(this, offset, length) || this; } Object.defineProperty(RatioValue.prototype, "type", { get: function get() { return NodeType.RatioValue; }, enumerable: false, configurable: true }); return RatioValue; }(cssNodes_Node); var _dot = '.'.charCodeAt(0), cssNodes_0 = '0'.charCodeAt(0), cssNodes_9 = '9'.charCodeAt(0); var NumericValue = /** @class */function (_super) { __extends(NumericValue, _super); function NumericValue(offset, length) { return _super.call(this, offset, length) || this; } Object.defineProperty(NumericValue.prototype, "type", { get: function get() { return NodeType.NumericValue; }, enumerable: false, configurable: true }); NumericValue.prototype.getValue = function () { var raw = this.getText(); var unitIdx = 0; var code; for (var i = 0, len = raw.length; i < len; i++) { code = raw.charCodeAt(i); if (!(cssNodes_0 <= code && code <= cssNodes_9 || code === _dot)) { break; } unitIdx += 1; } return { value: raw.substring(0, unitIdx), unit: unitIdx < raw.length ? raw.substring(unitIdx) : undefined }; }; return NumericValue; }(cssNodes_Node); var VariableDeclaration = /** @class */function (_super) { __extends(VariableDeclaration, _super); function VariableDeclaration(offset, length) { var _this = _super.call(this, offset, length) || this; _this.variable = null; _this.value = null; _this.needsSemicolon = true; return _this; } Object.defineProperty(VariableDeclaration.prototype, "type", { get: function get() { return NodeType.VariableDeclaration; }, enumerable: false, configurable: true }); VariableDeclaration.prototype.setVariable = function (node) { if (node) { node.attachTo(this); this.variable = node; return true; } return false; }; VariableDeclaration.prototype.getVariable = function () { return this.variable; }; VariableDeclaration.prototype.getName = function () { return this.variable ? this.variable.getName() : ''; }; VariableDeclaration.prototype.setValue = function (node) { if (node) { node.attachTo(this); this.value = node; return true; } return false; }; VariableDeclaration.prototype.getValue = function () { return this.value; }; return VariableDeclaration; }(AbstractDeclaration); var Interpolation = /** @class */function (_super) { __extends(Interpolation, _super); // private _interpolations: void; // workaround for https://github.com/Microsoft/TypeScript/issues/18276 function Interpolation(offset, length) { return _super.call(this, offset, length) || this; } Object.defineProperty(Interpolation.prototype, "type", { get: function get() { return NodeType.Interpolation; }, enumerable: false, configurable: true }); return Interpolation; }(cssNodes_Node); var Variable = /** @class */function (_super) { __extends(Variable, _super); function Variable(offset, length) { return _super.call(this, offset, length) || this; } Object.defineProperty(Variable.prototype, "type", { get: function get() { return NodeType.VariableName; }, enumerable: false, configurable: true }); Variable.prototype.getName = function () { return this.getText(); }; return Variable; }(cssNodes_Node); var ExtendsReference = /** @class */function (_super) { __extends(ExtendsReference, _super); function ExtendsReference(offset, length) { return _super.call(this, offset, length) || this; } Object.defineProperty(ExtendsReference.prototype, "type", { get: function get() { return NodeType.ExtendsReference; }, enumerable: false, configurable: true }); ExtendsReference.prototype.getSelectors = function () { if (!this.selectors) { this.selectors = new Nodelist(this); } return this.selectors; }; return ExtendsReference; }(cssNodes_Node); var MixinContentReference = /** @class */function (_super) { __extends(MixinContentReference, _super); function MixinContentReference(offset, length) { return _super.call(this, offset, length) || this; } Object.defineProperty(MixinContentReference.prototype, "type", { get: function get() { return NodeType.MixinContentReference; }, enumerable: false, configurable: true }); MixinContentReference.prototype.getArguments = function () { if (!this.arguments) { this.arguments = new Nodelist(this); } return this.arguments; }; return MixinContentReference; }(cssNodes_Node); var MixinContentDeclaration = /** @class */function (_super) { __extends(MixinContentDeclaration, _super); function MixinContentDeclaration(offset, length) { return _super.call(this, offset, length) || this; } Object.defineProperty(MixinContentDeclaration.prototype, "type", { get: function get() { return NodeType.MixinContentReference; }, enumerable: false, configurable: true }); MixinContentDeclaration.prototype.getParameters = function () { if (!this.parameters) { this.parameters = new Nodelist(this); } return this.parameters; }; return MixinContentDeclaration; }(BodyDeclaration); var MixinReference = /** @class */function (_super) { __extends(MixinReference, _super); function MixinReference(offset, length) { return _super.call(this, offset, length) || this; } Object.defineProperty(MixinReference.prototype, "type", { get: function get() { return NodeType.MixinReference; }, enumerable: false, configurable: true }); MixinReference.prototype.getNamespaces = function () { if (!this.namespaces) { this.namespaces = new Nodelist(this); } return this.namespaces; }; MixinReference.prototype.setIdentifier = function (node) { return this.setNode('identifier', node, 0); }; MixinReference.prototype.getIdentifier = function () { return this.identifier; }; MixinReference.prototype.getName = function () { return this.identifier ? this.identifier.getText() : ''; }; MixinReference.prototype.getArguments = function () { if (!this.arguments) { this.arguments = new Nodelist(this); } return this.arguments; }; MixinReference.prototype.setContent = function (node) { return this.setNode('content', node); }; MixinReference.prototype.getContent = function () { return this.content; }; return MixinReference; }(cssNodes_Node); var MixinDeclaration = /** @class */function (_super) { __extends(MixinDeclaration, _super); function MixinDeclaration(offset, length) { return _super.call(this, offset, length) || this; } Object.defineProperty(MixinDeclaration.prototype, "type", { get: function get() { return NodeType.MixinDeclaration; }, enumerable: false, configurable: true }); MixinDeclaration.prototype.setIdentifier = function (node) { return this.setNode('identifier', node, 0); }; MixinDeclaration.prototype.getIdentifier = function () { return this.identifier; }; MixinDeclaration.prototype.getName = function () { return this.identifier ? this.identifier.getText() : ''; }; MixinDeclaration.prototype.getParameters = function () { if (!this.parameters) { this.parameters = new Nodelist(this); } return this.parameters; }; MixinDeclaration.prototype.setGuard = function (node) { if (node) { node.attachTo(this); this.guard = node; } return false; }; return MixinDeclaration; }(BodyDeclaration); var UnknownAtRule = /** @class */function (_super) { __extends(UnknownAtRule, _super); function UnknownAtRule(offset, length) { return _super.call(this, offset, length) || this; } Object.defineProperty(UnknownAtRule.prototype, "type", { get: function get() { return NodeType.UnknownAtRule; }, enumerable: false, configurable: true }); UnknownAtRule.prototype.setAtRuleName = function (atRuleName) { this.atRuleName = atRuleName; }; UnknownAtRule.prototype.getAtRuleName = function () { return this.atRuleName; }; return UnknownAtRule; }(BodyDeclaration); var ListEntry = /** @class */function (_super) { __extends(ListEntry, _super); function ListEntry() { return _super !== null && _super.apply(this, arguments) || this; } Object.defineProperty(ListEntry.prototype, "type", { get: function get() { return NodeType.ListEntry; }, enumerable: false, configurable: true }); ListEntry.prototype.setKey = function (node) { return this.setNode('key', node, 0); }; ListEntry.prototype.setValue = function (node) { return this.setNode('value', node, 1); }; return ListEntry; }(cssNodes_Node); var LessGuard = /** @class */function (_super) { __extends(LessGuard, _super); function LessGuard() { return _super !== null && _super.apply(this, arguments) || this; } LessGuard.prototype.getConditions = function () { if (!this.conditions) { this.conditions = new Nodelist(this); } return this.conditions; }; return LessGuard; }(cssNodes_Node); var GuardCondition = /** @class */function (_super) { __extends(GuardCondition, _super); function GuardCondition() { return _super !== null && _super.apply(this, arguments) || this; } GuardCondition.prototype.setVariable = function (node) { return this.setNode('variable', node); }; return GuardCondition; }(cssNodes_Node); var Module = /** @class */function (_super) { __extends(Module, _super); function Module() { return _super !== null && _super.apply(this, arguments) || this; } Object.defineProperty(Module.prototype, "type", { get: function get() { return NodeType.Module; }, enumerable: false, configurable: true }); Module.prototype.setIdentifier = function (node) { return this.setNode('identifier', node, 0); }; Module.prototype.getIdentifier = function () { return this.identifier; }; return Module; }(cssNodes_Node); var Level; (function (Level) { Level[Level["Ignore"] = 1] = "Ignore"; Level[Level["Warning"] = 2] = "Warning"; Level[Level["Error"] = 4] = "Error"; })(Level || (Level = {})); var Marker = /** @class */function () { function Marker(node, rule, level, message, offset, length) { if (offset === void 0) { offset = node.offset; } if (length === void 0) { length = node.length; } this.node = node; this.rule = rule; this.level = level; this.message = message || rule.message; this.offset = offset; this.length = length; } Marker.prototype.getRule = function () { return this.rule; }; Marker.prototype.getLevel = function () { return this.level; }; Marker.prototype.getOffset = function () { return this.offset; }; Marker.prototype.getLength = function () { return this.length; }; Marker.prototype.getNode = function () { return this.node; }; Marker.prototype.getMessage = function () { return this.message; }; return Marker; }(); /* export class DefaultVisitor implements IVisitor { public visitNode(node:Node):boolean { switch (node.type) { case NodeType.Stylesheet: return this.visitStylesheet( node); case NodeType.FontFace: return this.visitFontFace( node); case NodeType.Ruleset: return this.visitRuleSet( node); case NodeType.Selector: return this.visitSelector( node); case NodeType.SimpleSelector: return this.visitSimpleSelector( node); case NodeType.Declaration: return this.visitDeclaration( node); case NodeType.Function: return this.visitFunction( node); case NodeType.FunctionDeclaration: return this.visitFunctionDeclaration( node); case NodeType.FunctionParameter: return this.visitFunctionParameter( node); case NodeType.FunctionArgument: return this.visitFunctionArgument( node); case NodeType.Term: return this.visitTerm( node); case NodeType.Declaration: return this.visitExpression( node); case NodeType.NumericValue: return this.visitNumericValue( node); case NodeType.Page: return this.visitPage( node); case NodeType.PageBoxMarginBox: return this.visitPageBoxMarginBox( node); case NodeType.Property: return this.visitProperty( node); case NodeType.NumericValue: return this.visitNodelist( node); case NodeType.Import: return this.visitImport( node); case NodeType.Namespace: return this.visitNamespace( node); case NodeType.Keyframe: return this.visitKeyframe( node); case NodeType.KeyframeSelector: return this.visitKeyframeSelector( node); case NodeType.MixinDeclaration: return this.visitMixinDeclaration( node); case NodeType.MixinReference: return this.visitMixinReference( node); case NodeType.Variable: return this.visitVariable( node); case NodeType.VariableDeclaration: return this.visitVariableDeclaration( node); } return this.visitUnknownNode(node); } public visitFontFace(node:FontFace):boolean { return true; } public visitKeyframe(node:Keyframe):boolean { return true; } public visitKeyframeSelector(node:KeyframeSelector):boolean { return true; } public visitStylesheet(node:Stylesheet):boolean { return true; } public visitProperty(Node:Property):boolean { return true; } public visitRuleSet(node:RuleSet):boolean { return true; } public visitSelector(node:Selector):boolean { return true; } public visitSimpleSelector(node:SimpleSelector):boolean { return true; } public visitDeclaration(node:Declaration):boolean { return true; } public visitFunction(node:Function):boolean { return true; } public visitFunctionDeclaration(node:FunctionDeclaration):boolean { return true; } public visitInvocation(node:Invocation):boolean { return true; } public visitTerm(node:Term):boolean { return true; } public visitImport(node:Import):boolean { return true; } public visitNamespace(node:Namespace):boolean { return true; } public visitExpression(node:Expression):boolean { return true; } public visitNumericValue(node:NumericValue):boolean { return true; } public visitPage(node:Page):boolean { return true; } public visitPageBoxMarginBox(node:PageBoxMarginBox):boolean { return true; } public visitNodelist(node:Nodelist):boolean { return true; } public visitVariableDeclaration(node:VariableDeclaration):boolean { return true; } public visitVariable(node:Variable):boolean { return true; } public visitMixinDeclaration(node:MixinDeclaration):boolean { return true; } public visitMixinReference(node:MixinReference):boolean { return true; } public visitUnknownNode(node:Node):boolean { return true; } } */ var ParseErrorCollector = /** @class */function () { function ParseErrorCollector() { this.entries = []; } ParseErrorCollector.entries = function (node) { var visitor = new ParseErrorCollector(); node.acceptVisitor(visitor); return visitor.entries; }; ParseErrorCollector.prototype.visitNode = function (node) { if (node.isErroneous()) { node.collectIssues(this.entries); } return true; }; return ParseErrorCollector; }(); ;// CONCATENATED MODULE: ./node_modules/monaco-editor/esm/vs/language/css/fillers/vscode-nls.js /*--------------------------------------------------------------------------------------------- * Copyright (c) Microsoft Corporation. All rights reserved. * Licensed under the MIT License. See License.txt in the project root for license information. *--------------------------------------------------------------------------------------------*/ function vscode_nls_format(message, args) { var result; if (args.length === 0) { result = message; } else { result = message.replace(/\{(\d+)\}/g, function (match, rest) { var index = rest[0]; return typeof args[index] !== 'undefined' ? args[index] : match; }); } return result; } function localize(key, message) { var args = []; for (var _i = 2; _i < arguments.length; _i++) { args[_i - 2] = arguments[_i]; } return vscode_nls_format(message, args); } function loadMessageBundle(file) { return localize; } function config(opt) { return loadMessageBundle; } ;// CONCATENATED MODULE: ./node_modules/monaco-editor/esm/vs/language/css/_deps/vscode-css-languageservice/parser/cssErrors.js /*--------------------------------------------------------------------------------------------- * Copyright (c) Microsoft Corporation. All rights reserved. * Licensed under the MIT License. See License.txt in the project root for license information. *--------------------------------------------------------------------------------------------*/ var cssErrors_localize = loadMessageBundle(); var CSSIssueType = /** @class */function () { function CSSIssueType(id, message) { this.id = id; this.message = message; } return CSSIssueType; }(); var ParseError = { NumberExpected: new CSSIssueType('css-numberexpected', cssErrors_localize('expected.number', "number expected")), ConditionExpected: new CSSIssueType('css-conditionexpected', cssErrors_localize('expected.condt', "condition expected")), RuleOrSelectorExpected: new CSSIssueType('css-ruleorselectorexpected', cssErrors_localize('expected.ruleorselector', "at-rule or selector expected")), DotExpected: new CSSIssueType('css-dotexpected', cssErrors_localize('expected.dot', "dot expected")), ColonExpected: new CSSIssueType('css-colonexpected', cssErrors_localize('expected.colon', "colon expected")), SemiColonExpected: new CSSIssueType('css-semicolonexpected', cssErrors_localize('expected.semicolon', "semi-colon expected")), TermExpected: new CSSIssueType('css-termexpected', cssErrors_localize('expected.term', "term expected")), ExpressionExpected: new CSSIssueType('css-expressionexpected', cssErrors_localize('expected.expression', "expression expected")), OperatorExpected: new CSSIssueType('css-operatorexpected', cssErrors_localize('expected.operator', "operator expected")), IdentifierExpected: new CSSIssueType('css-identifierexpected', cssErrors_localize('expected.ident', "identifier expected")), PercentageExpected: new CSSIssueType('css-percentageexpected', cssErrors_localize('expected.percentage', "percentage expected")), URIOrStringExpected: new CSSIssueType('css-uriorstringexpected', cssErrors_localize('expected.uriorstring', "uri or string expected")), URIExpected: new CSSIssueType('css-uriexpected', cssErrors_localize('expected.uri', "URI expected")), VariableNameExpected: new CSSIssueType('css-varnameexpected', cssErrors_localize('expected.varname', "variable name expected")), VariableValueExpected: new CSSIssueType('css-varvalueexpected', cssErrors_localize('expected.varvalue', "variable value expected")), PropertyValueExpected: new CSSIssueType('css-propertyvalueexpected', cssErrors_localize('expected.propvalue', "property value expected")), LeftCurlyExpected: new CSSIssueType('css-lcurlyexpected', cssErrors_localize('expected.lcurly', "{ expected")), RightCurlyExpected: new CSSIssueType('css-rcurlyexpected', cssErrors_localize('expected.rcurly', "} expected")), LeftSquareBracketExpected: new CSSIssueType('css-rbracketexpected', cssErrors_localize('expected.lsquare', "[ expected")), RightSquareBracketExpected: new CSSIssueType('css-lbracketexpected', cssErrors_localize('expected.rsquare', "] expected")), LeftParenthesisExpected: new CSSIssueType('css-lparentexpected', cssErrors_localize('expected.lparen', "( expected")), RightParenthesisExpected: new CSSIssueType('css-rparentexpected', cssErrors_localize('expected.rparent', ") expected")), CommaExpected: new CSSIssueType('css-commaexpected', cssErrors_localize('expected.comma', "comma expected")), PageDirectiveOrDeclarationExpected: new CSSIssueType('css-pagedirordeclexpected', cssErrors_localize('expected.pagedirordecl', "page directive or declaraton expected")), UnknownAtRule: new CSSIssueType('css-unknownatrule', cssErrors_localize('unknown.atrule', "at-rule unknown")), UnknownKeyword: new CSSIssueType('css-unknownkeyword', cssErrors_localize('unknown.keyword', "unknown keyword")), SelectorExpected: new CSSIssueType('css-selectorexpected', cssErrors_localize('expected.selector', "selector expected")), StringLiteralExpected: new CSSIssueType('css-stringliteralexpected', cssErrors_localize('expected.stringliteral', "string literal expected")), WhitespaceExpected: new CSSIssueType('css-whitespaceexpected', cssErrors_localize('expected.whitespace', "whitespace expected")), MediaQueryExpected: new CSSIssueType('css-mediaqueryexpected', cssErrors_localize('expected.mediaquery', "media query expected")), IdentifierOrWildcardExpected: new CSSIssueType('css-idorwildcardexpected', cssErrors_localize('expected.idorwildcard', "identifier or wildcard expected")), WildcardExpected: new CSSIssueType('css-wildcardexpected', cssErrors_localize('expected.wildcard', "wildcard expected")), IdentifierOrVariableExpected: new CSSIssueType('css-idorvarexpected', cssErrors_localize('expected.idorvar', "identifier or variable expected")) }; ;// CONCATENATED MODULE: ./node_modules/monaco-editor/esm/vs/language/css/_deps/vscode-css-languageservice/languageFacts/entry.js /*--------------------------------------------------------------------------------------------- * Copyright (c) Microsoft Corporation. All rights reserved. * Licensed under the MIT License. See License.txt in the project root for license information. *--------------------------------------------------------------------------------------------*/ var browserNames = { E: 'Edge', FF: 'Firefox', S: 'Safari', C: 'Chrome', IE: 'IE', O: 'Opera' }; function getEntryStatus(status) { switch (status) { case 'experimental': return '⚠️ Property is experimental. Be cautious when using it.️\n\n'; case 'nonstandard': return '🚨️ Property is nonstandard. Avoid using it.\n\n'; case 'obsolete': return '🚨️️️ Property is obsolete. Avoid using it.\n\n'; default: return ''; } } function getEntryDescription(entry, doesSupportMarkdown, settings) { var result; if (doesSupportMarkdown) { result = { kind: 'markdown', value: getEntryMarkdownDescription(entry, settings) }; } else { result = { kind: 'plaintext', value: getEntryStringDescription(entry, settings) }; } if (result.value === '') { return undefined; } return result; } function textToMarkedString(text) { text = text.replace(/[\\`*_{}[\]()#+\-.!]/g, '\\$&'); // escape markdown syntax tokens: http://daringfireball.net/projects/markdown/syntax#backslash return text.replace(//g, '>'); } function getEntryStringDescription(entry, settings) { if (!entry.description || entry.description === '') { return ''; } if (typeof entry.description !== 'string') { return entry.description.value; } var result = ''; if ((settings === null || settings === void 0 ? void 0 : settings.documentation) !== false) { if (entry.status) { result += getEntryStatus(entry.status); } result += entry.description; var browserLabel = getBrowserLabel(entry.browsers); if (browserLabel) { result += '\n(' + browserLabel + ')'; } if ('syntax' in entry) { result += "\n\nSyntax: " + entry.syntax; } } if (entry.references && entry.references.length > 0 && (settings === null || settings === void 0 ? void 0 : settings.references) !== false) { if (result.length > 0) { result += '\n\n'; } result += entry.references.map(function (r) { return r.name + ": " + r.url; }).join(' | '); } return result; } function getEntryMarkdownDescription(entry, settings) { if (!entry.description || entry.description === '') { return ''; } var result = ''; if ((settings === null || settings === void 0 ? void 0 : settings.documentation) !== false) { if (entry.status) { result += getEntryStatus(entry.status); } var description = typeof entry.description === 'string' ? entry.description : entry.description.value; result += textToMarkedString(description); var browserLabel = getBrowserLabel(entry.browsers); if (browserLabel) { result += '\n\n(' + textToMarkedString(browserLabel) + ')'; } if ('syntax' in entry && entry.syntax) { result += "\n\nSyntax: " + textToMarkedString(entry.syntax); } } if (entry.references && entry.references.length > 0 && (settings === null || settings === void 0 ? void 0 : settings.references) !== false) { if (result.length > 0) { result += '\n\n'; } result += entry.references.map(function (r) { return "[" + r.name + "](" + r.url + ")"; }).join(' | '); } return result; } /** * Input is like `["E12","FF49","C47","IE","O"]` * Output is like `Edge 12, Firefox 49, Chrome 47, IE, Opera` */ function getBrowserLabel(browsers) { if (browsers === void 0) { browsers = []; } if (browsers.length === 0) { return null; } return browsers.map(function (b) { var result = ''; var matches = b.match(/([A-Z]+)(\d+)?/); var name = matches[1]; var version = matches[2]; if (name in browserNames) { result += browserNames[name]; } if (version) { result += ' ' + version; } return result; }).join(', '); } ;// CONCATENATED MODULE: ./node_modules/monaco-editor/esm/vs/language/css/_deps/vscode-css-languageservice/languageFacts/colors.js /*--------------------------------------------------------------------------------------------- * Copyright (c) Microsoft Corporation. All rights reserved. * Licensed under the MIT License. See License.txt in the project root for license information. *--------------------------------------------------------------------------------------------*/ var colors_localize = loadMessageBundle(); var colorFunctions = [{ func: 'rgb($red, $green, $blue)', desc: colors_localize('css.builtin.rgb', 'Creates a Color from red, green, and blue values.') }, { func: 'rgba($red, $green, $blue, $alpha)', desc: colors_localize('css.builtin.rgba', 'Creates a Color from red, green, blue, and alpha values.') }, { func: 'hsl($hue, $saturation, $lightness)', desc: colors_localize('css.builtin.hsl', 'Creates a Color from hue, saturation, and lightness values.') }, { func: 'hsla($hue, $saturation, $lightness, $alpha)', desc: colors_localize('css.builtin.hsla', 'Creates a Color from hue, saturation, lightness, and alpha values.') }]; var colors = { aliceblue: '#f0f8ff', antiquewhite: '#faebd7', aqua: '#00ffff', aquamarine: '#7fffd4', azure: '#f0ffff', beige: '#f5f5dc', bisque: '#ffe4c4', black: '#000000', blanchedalmond: '#ffebcd', blue: '#0000ff', blueviolet: '#8a2be2', brown: '#a52a2a', burlywood: '#deb887', cadetblue: '#5f9ea0', chartreuse: '#7fff00', chocolate: '#d2691e', coral: '#ff7f50', cornflowerblue: '#6495ed', cornsilk: '#fff8dc', crimson: '#dc143c', cyan: '#00ffff', darkblue: '#00008b', darkcyan: '#008b8b', darkgoldenrod: '#b8860b', darkgray: '#a9a9a9', darkgrey: '#a9a9a9', darkgreen: '#006400', darkkhaki: '#bdb76b', darkmagenta: '#8b008b', darkolivegreen: '#556b2f', darkorange: '#ff8c00', darkorchid: '#9932cc', darkred: '#8b0000', darksalmon: '#e9967a', darkseagreen: '#8fbc8f', darkslateblue: '#483d8b', darkslategray: '#2f4f4f', darkslategrey: '#2f4f4f', darkturquoise: '#00ced1', darkviolet: '#9400d3', deeppink: '#ff1493', deepskyblue: '#00bfff', dimgray: '#696969', dimgrey: '#696969', dodgerblue: '#1e90ff', firebrick: '#b22222', floralwhite: '#fffaf0', forestgreen: '#228b22', fuchsia: '#ff00ff', gainsboro: '#dcdcdc', ghostwhite: '#f8f8ff', gold: '#ffd700', goldenrod: '#daa520', gray: '#808080', grey: '#808080', green: '#008000', greenyellow: '#adff2f', honeydew: '#f0fff0', hotpink: '#ff69b4', indianred: '#cd5c5c', indigo: '#4b0082', ivory: '#fffff0', khaki: '#f0e68c', lavender: '#e6e6fa', lavenderblush: '#fff0f5', lawngreen: '#7cfc00', lemonchiffon: '#fffacd', lightblue: '#add8e6', lightcoral: '#f08080', lightcyan: '#e0ffff', lightgoldenrodyellow: '#fafad2', lightgray: '#d3d3d3', lightgrey: '#d3d3d3', lightgreen: '#90ee90', lightpink: '#ffb6c1', lightsalmon: '#ffa07a', lightseagreen: '#20b2aa', lightskyblue: '#87cefa', lightslategray: '#778899', lightslategrey: '#778899', lightsteelblue: '#b0c4de', lightyellow: '#ffffe0', lime: '#00ff00', limegreen: '#32cd32', linen: '#faf0e6', magenta: '#ff00ff', maroon: '#800000', mediumaquamarine: '#66cdaa', mediumblue: '#0000cd', mediumorchid: '#ba55d3', mediumpurple: '#9370d8', mediumseagreen: '#3cb371', mediumslateblue: '#7b68ee', mediumspringgreen: '#00fa9a', mediumturquoise: '#48d1cc', mediumvioletred: '#c71585', midnightblue: '#191970', mintcream: '#f5fffa', mistyrose: '#ffe4e1', moccasin: '#ffe4b5', navajowhite: '#ffdead', navy: '#000080', oldlace: '#fdf5e6', olive: '#808000', olivedrab: '#6b8e23', orange: '#ffa500', orangered: '#ff4500', orchid: '#da70d6', palegoldenrod: '#eee8aa', palegreen: '#98fb98', paleturquoise: '#afeeee', palevioletred: '#d87093', papayawhip: '#ffefd5', peachpuff: '#ffdab9', peru: '#cd853f', pink: '#ffc0cb', plum: '#dda0dd', powderblue: '#b0e0e6', purple: '#800080', red: '#ff0000', rebeccapurple: '#663399', rosybrown: '#bc8f8f', royalblue: '#4169e1', saddlebrown: '#8b4513', salmon: '#fa8072', sandybrown: '#f4a460', seagreen: '#2e8b57', seashell: '#fff5ee', sienna: '#a0522d', silver: '#c0c0c0', skyblue: '#87ceeb', slateblue: '#6a5acd', slategray: '#708090', slategrey: '#708090', snow: '#fffafa', springgreen: '#00ff7f', steelblue: '#4682b4', tan: '#d2b48c', teal: '#008080', thistle: '#d8bfd8', tomato: '#ff6347', turquoise: '#40e0d0', violet: '#ee82ee', wheat: '#f5deb3', white: '#ffffff', whitesmoke: '#f5f5f5', yellow: '#ffff00', yellowgreen: '#9acd32' }; var colorKeywords = { 'currentColor': 'The value of the \'color\' property. The computed value of the \'currentColor\' keyword is the computed value of the \'color\' property. If the \'currentColor\' keyword is set on the \'color\' property itself, it is treated as \'color:inherit\' at parse time.', 'transparent': 'Fully transparent. This keyword can be considered a shorthand for rgba(0,0,0,0) which is its computed value.' }; function getNumericValue(node, factor) { var val = node.getText(); var m = val.match(/^([-+]?[0-9]*\.?[0-9]+)(%?)$/); if (m) { if (m[2]) { factor = 100.0; } var result = parseFloat(m[1]) / factor; if (result >= 0 && result <= 1) { return result; } } throw new Error(); } function getAngle(node) { var val = node.getText(); var m = val.match(/^([-+]?[0-9]*\.?[0-9]+)(deg)?$/); if (m) { return parseFloat(val) % 360; } throw new Error(); } function isColorConstructor(node) { var name = node.getName(); if (!name) { return false; } return /^(rgb|rgba|hsl|hsla)$/gi.test(name); } /** * Returns true if the node is a color value - either * defined a hex number, as rgb or rgba function, or * as color name. */ function isColorValue(node) { if (node.type === nodes.NodeType.HexColorValue) { return true; } else if (node.type === nodes.NodeType.Function) { return isColorConstructor(node); } else if (node.type === nodes.NodeType.Identifier) { if (node.parent && node.parent.type !== nodes.NodeType.Term) { return false; } var candidateColor = node.getText().toLowerCase(); if (candidateColor === 'none') { return false; } if (colors[candidateColor]) { return true; } } return false; } var Digit0 = 48; var Digit9 = 57; var A = 65; var F = 70; var a = 97; var f = 102; function hexDigit(charCode) { if (charCode < Digit0) { return 0; } if (charCode <= Digit9) { return charCode - Digit0; } if (charCode < a) { charCode += a - A; } if (charCode >= a && charCode <= f) { return charCode - a + 10; } return 0; } function colorFromHex(text) { if (text[0] !== '#') { return null; } switch (text.length) { case 4: return { red: hexDigit(text.charCodeAt(1)) * 0x11 / 255.0, green: hexDigit(text.charCodeAt(2)) * 0x11 / 255.0, blue: hexDigit(text.charCodeAt(3)) * 0x11 / 255.0, alpha: 1 }; case 5: return { red: hexDigit(text.charCodeAt(1)) * 0x11 / 255.0, green: hexDigit(text.charCodeAt(2)) * 0x11 / 255.0, blue: hexDigit(text.charCodeAt(3)) * 0x11 / 255.0, alpha: hexDigit(text.charCodeAt(4)) * 0x11 / 255.0 }; case 7: return { red: (hexDigit(text.charCodeAt(1)) * 0x10 + hexDigit(text.charCodeAt(2))) / 255.0, green: (hexDigit(text.charCodeAt(3)) * 0x10 + hexDigit(text.charCodeAt(4))) / 255.0, blue: (hexDigit(text.charCodeAt(5)) * 0x10 + hexDigit(text.charCodeAt(6))) / 255.0, alpha: 1 }; case 9: return { red: (hexDigit(text.charCodeAt(1)) * 0x10 + hexDigit(text.charCodeAt(2))) / 255.0, green: (hexDigit(text.charCodeAt(3)) * 0x10 + hexDigit(text.charCodeAt(4))) / 255.0, blue: (hexDigit(text.charCodeAt(5)) * 0x10 + hexDigit(text.charCodeAt(6))) / 255.0, alpha: (hexDigit(text.charCodeAt(7)) * 0x10 + hexDigit(text.charCodeAt(8))) / 255.0 }; } return null; } function colorFrom256RGB(red, green, blue, alpha) { if (alpha === void 0) { alpha = 1.0; } return { red: red / 255.0, green: green / 255.0, blue: blue / 255.0, alpha: alpha }; } function colorFromHSL(hue, sat, light, alpha) { if (alpha === void 0) { alpha = 1.0; } hue = hue / 60.0; if (sat === 0) { return { red: light, green: light, blue: light, alpha: alpha }; } else { var hueToRgb = function hueToRgb(t1, t2, hue) { while (hue < 0) { hue += 6; } while (hue >= 6) { hue -= 6; } if (hue < 1) { return (t2 - t1) * hue + t1; } if (hue < 3) { return t2; } if (hue < 4) { return (t2 - t1) * (4 - hue) + t1; } return t1; }; var t2 = light <= 0.5 ? light * (sat + 1) : light + sat - light * sat; var t1 = light * 2 - t2; return { red: hueToRgb(t1, t2, hue + 2), green: hueToRgb(t1, t2, hue), blue: hueToRgb(t1, t2, hue - 2), alpha: alpha }; } } function hslFromColor(rgba) { var r = rgba.red; var g = rgba.green; var b = rgba.blue; var a = rgba.alpha; var max = Math.max(r, g, b); var min = Math.min(r, g, b); var h = 0; var s = 0; var l = (min + max) / 2; var chroma = max - min; if (chroma > 0) { s = Math.min(l <= 0.5 ? chroma / (2 * l) : chroma / (2 - 2 * l), 1); switch (max) { case r: h = (g - b) / chroma + (g < b ? 6 : 0); break; case g: h = (b - r) / chroma + 2; break; case b: h = (r - g) / chroma + 4; break; } h *= 60; h = Math.round(h); } return { h: h, s: s, l: l, a: a }; } function getColorValue(node) { if (node.type === NodeType.HexColorValue) { var text = node.getText(); return colorFromHex(text); } else if (node.type === NodeType.Function) { var functionNode = node; var name = functionNode.getName(); var colorValues = functionNode.getArguments().getChildren(); if (!name || colorValues.length < 3 || colorValues.length > 4) { return null; } try { var alpha = colorValues.length === 4 ? getNumericValue(colorValues[3], 1) : 1; if (name === 'rgb' || name === 'rgba') { return { red: getNumericValue(colorValues[0], 255.0), green: getNumericValue(colorValues[1], 255.0), blue: getNumericValue(colorValues[2], 255.0), alpha: alpha }; } else if (name === 'hsl' || name === 'hsla') { var h = getAngle(colorValues[0]); var s = getNumericValue(colorValues[1], 100.0); var l = getNumericValue(colorValues[2], 100.0); return colorFromHSL(h, s, l, alpha); } } catch (e) { // parse error on numeric value return null; } } else if (node.type === NodeType.Identifier) { if (node.parent && node.parent.type !== NodeType.Term) { return null; } var term = node.parent; if (term && term.parent && term.parent.type === NodeType.BinaryExpression) { var expression = term.parent; if (expression.parent && expression.parent.type === NodeType.ListEntry && expression.parent.key === expression) { return null; } } var candidateColor = node.getText().toLowerCase(); if (candidateColor === 'none') { return null; } var colorHex = colors[candidateColor]; if (colorHex) { return colorFromHex(colorHex); } } return null; } ;// CONCATENATED MODULE: ./node_modules/monaco-editor/esm/vs/language/css/_deps/vscode-css-languageservice/languageFacts/builtinData.js /*--------------------------------------------------------------------------------------------- * Copyright (c) Microsoft Corporation. All rights reserved. * Licensed under the MIT License. See License.txt in the project root for license information. *--------------------------------------------------------------------------------------------*/ var positionKeywords = { 'bottom': 'Computes to ‘100%’ for the vertical position if one or two values are given, otherwise specifies the bottom edge as the origin for the next offset.', 'center': 'Computes to ‘50%’ (‘left 50%’) for the horizontal position if the horizontal position is not otherwise specified, or ‘50%’ (‘top 50%’) for the vertical position if it is.', 'left': 'Computes to ‘0%’ for the horizontal position if one or two values are given, otherwise specifies the left edge as the origin for the next offset.', 'right': 'Computes to ‘100%’ for the horizontal position if one or two values are given, otherwise specifies the right edge as the origin for the next offset.', 'top': 'Computes to ‘0%’ for the vertical position if one or two values are given, otherwise specifies the top edge as the origin for the next offset.' }; var repeatStyleKeywords = { 'no-repeat': 'Placed once and not repeated in this direction.', 'repeat': 'Repeated in this direction as often as needed to cover the background painting area.', 'repeat-x': 'Computes to ‘repeat no-repeat’.', 'repeat-y': 'Computes to ‘no-repeat repeat’.', 'round': 'Repeated as often as will fit within the background positioning area. If it doesn’t fit a whole number of times, it is rescaled so that it does.', 'space': 'Repeated as often as will fit within the background positioning area without being clipped and then the images are spaced out to fill the area.' }; var lineStyleKeywords = { 'dashed': 'A series of square-ended dashes.', 'dotted': 'A series of round dots.', 'double': 'Two parallel solid lines with some space between them.', 'groove': 'Looks as if it were carved in the canvas.', 'hidden': 'Same as ‘none’, but has different behavior in the border conflict resolution rules for border-collapsed tables.', 'inset': 'Looks as if the content on the inside of the border is sunken into the canvas.', 'none': 'No border. Color and width are ignored.', 'outset': 'Looks as if the content on the inside of the border is coming out of the canvas.', 'ridge': 'Looks as if it were coming out of the canvas.', 'solid': 'A single line segment.' }; var lineWidthKeywords = ['medium', 'thick', 'thin']; var boxKeywords = { 'border-box': 'The background is painted within (clipped to) the border box.', 'content-box': 'The background is painted within (clipped to) the content box.', 'padding-box': 'The background is painted within (clipped to) the padding box.' }; var geometryBoxKeywords = { 'margin-box': 'Uses the margin box as reference box.', 'fill-box': 'Uses the object bounding box as reference box.', 'stroke-box': 'Uses the stroke bounding box as reference box.', 'view-box': 'Uses the nearest SVG viewport as reference box.' }; var cssWideKeywords = { 'initial': 'Represents the value specified as the property’s initial value.', 'inherit': 'Represents the computed value of the property on the element’s parent.', 'unset': 'Acts as either `inherit` or `initial`, depending on whether the property is inherited or not.' }; var cssWideFunctions = { 'var()': 'Evaluates the value of a custom variable.', 'calc()': 'Evaluates an mathematical expression. The following operators can be used: + - * /.' }; var imageFunctions = { 'url()': 'Reference an image file by URL', 'image()': 'Provide image fallbacks and annotations.', '-webkit-image-set()': 'Provide multiple resolutions. Remember to use unprefixed image-set() in addition.', 'image-set()': 'Provide multiple resolutions of an image and const the UA decide which is most appropriate in a given situation.', '-moz-element()': 'Use an element in the document as an image. Remember to use unprefixed element() in addition.', 'element()': 'Use an element in the document as an image.', 'cross-fade()': 'Indicates the two images to be combined and how far along in the transition the combination is.', '-webkit-gradient()': 'Deprecated. Use modern linear-gradient() or radial-gradient() instead.', '-webkit-linear-gradient()': 'Linear gradient. Remember to use unprefixed version in addition.', '-moz-linear-gradient()': 'Linear gradient. Remember to use unprefixed version in addition.', '-o-linear-gradient()': 'Linear gradient. Remember to use unprefixed version in addition.', 'linear-gradient()': 'A linear gradient is created by specifying a straight gradient line, and then several colors placed along that line.', '-webkit-repeating-linear-gradient()': 'Repeating Linear gradient. Remember to use unprefixed version in addition.', '-moz-repeating-linear-gradient()': 'Repeating Linear gradient. Remember to use unprefixed version in addition.', '-o-repeating-linear-gradient()': 'Repeating Linear gradient. Remember to use unprefixed version in addition.', 'repeating-linear-gradient()': 'Same as linear-gradient, except the color-stops are repeated infinitely in both directions, with their positions shifted by multiples of the difference between the last specified color-stop’s position and the first specified color-stop’s position.', '-webkit-radial-gradient()': 'Radial gradient. Remember to use unprefixed version in addition.', '-moz-radial-gradient()': 'Radial gradient. Remember to use unprefixed version in addition.', 'radial-gradient()': 'Colors emerge from a single point and smoothly spread outward in a circular or elliptical shape.', '-webkit-repeating-radial-gradient()': 'Repeating radial gradient. Remember to use unprefixed version in addition.', '-moz-repeating-radial-gradient()': 'Repeating radial gradient. Remember to use unprefixed version in addition.', 'repeating-radial-gradient()': 'Same as radial-gradient, except the color-stops are repeated infinitely in both directions, with their positions shifted by multiples of the difference between the last specified color-stop’s position and the first specified color-stop’s position.' }; var transitionTimingFunctions = { 'ease': 'Equivalent to cubic-bezier(0.25, 0.1, 0.25, 1.0).', 'ease-in': 'Equivalent to cubic-bezier(0.42, 0, 1.0, 1.0).', 'ease-in-out': 'Equivalent to cubic-bezier(0.42, 0, 0.58, 1.0).', 'ease-out': 'Equivalent to cubic-bezier(0, 0, 0.58, 1.0).', 'linear': 'Equivalent to cubic-bezier(0.0, 0.0, 1.0, 1.0).', 'step-end': 'Equivalent to steps(1, end).', 'step-start': 'Equivalent to steps(1, start).', 'steps()': 'The first parameter specifies the number of intervals in the function. The second parameter, which is optional, is either the value “start” or “end”.', 'cubic-bezier()': 'Specifies a cubic-bezier curve. The four values specify points P1 and P2 of the curve as (x1, y1, x2, y2).', 'cubic-bezier(0.6, -0.28, 0.735, 0.045)': 'Ease-in Back. Overshoots.', 'cubic-bezier(0.68, -0.55, 0.265, 1.55)': 'Ease-in-out Back. Overshoots.', 'cubic-bezier(0.175, 0.885, 0.32, 1.275)': 'Ease-out Back. Overshoots.', 'cubic-bezier(0.6, 0.04, 0.98, 0.335)': 'Ease-in Circular. Based on half circle.', 'cubic-bezier(0.785, 0.135, 0.15, 0.86)': 'Ease-in-out Circular. Based on half circle.', 'cubic-bezier(0.075, 0.82, 0.165, 1)': 'Ease-out Circular. Based on half circle.', 'cubic-bezier(0.55, 0.055, 0.675, 0.19)': 'Ease-in Cubic. Based on power of three.', 'cubic-bezier(0.645, 0.045, 0.355, 1)': 'Ease-in-out Cubic. Based on power of three.', 'cubic-bezier(0.215, 0.610, 0.355, 1)': 'Ease-out Cubic. Based on power of three.', 'cubic-bezier(0.95, 0.05, 0.795, 0.035)': 'Ease-in Exponential. Based on two to the power ten.', 'cubic-bezier(1, 0, 0, 1)': 'Ease-in-out Exponential. Based on two to the power ten.', 'cubic-bezier(0.19, 1, 0.22, 1)': 'Ease-out Exponential. Based on two to the power ten.', 'cubic-bezier(0.47, 0, 0.745, 0.715)': 'Ease-in Sine.', 'cubic-bezier(0.445, 0.05, 0.55, 0.95)': 'Ease-in-out Sine.', 'cubic-bezier(0.39, 0.575, 0.565, 1)': 'Ease-out Sine.', 'cubic-bezier(0.55, 0.085, 0.68, 0.53)': 'Ease-in Quadratic. Based on power of two.', 'cubic-bezier(0.455, 0.03, 0.515, 0.955)': 'Ease-in-out Quadratic. Based on power of two.', 'cubic-bezier(0.25, 0.46, 0.45, 0.94)': 'Ease-out Quadratic. Based on power of two.', 'cubic-bezier(0.895, 0.03, 0.685, 0.22)': 'Ease-in Quartic. Based on power of four.', 'cubic-bezier(0.77, 0, 0.175, 1)': 'Ease-in-out Quartic. Based on power of four.', 'cubic-bezier(0.165, 0.84, 0.44, 1)': 'Ease-out Quartic. Based on power of four.', 'cubic-bezier(0.755, 0.05, 0.855, 0.06)': 'Ease-in Quintic. Based on power of five.', 'cubic-bezier(0.86, 0, 0.07, 1)': 'Ease-in-out Quintic. Based on power of five.', 'cubic-bezier(0.23, 1, 0.320, 1)': 'Ease-out Quintic. Based on power of five.' }; var basicShapeFunctions = { 'circle()': 'Defines a circle.', 'ellipse()': 'Defines an ellipse.', 'inset()': 'Defines an inset rectangle.', 'polygon()': 'Defines a polygon.' }; var builtinData_units = { 'length': ['em', 'rem', 'ex', 'px', 'cm', 'mm', 'in', 'pt', 'pc', 'ch', 'vw', 'vh', 'vmin', 'vmax'], 'angle': ['deg', 'rad', 'grad', 'turn'], 'time': ['ms', 's'], 'frequency': ['Hz', 'kHz'], 'resolution': ['dpi', 'dpcm', 'dppx'], 'percentage': ['%', 'fr'] }; var html5Tags = ['a', 'abbr', 'address', 'area', 'article', 'aside', 'audio', 'b', 'base', 'bdi', 'bdo', 'blockquote', 'body', 'br', 'button', 'canvas', 'caption', 'cite', 'code', 'col', 'colgroup', 'data', 'datalist', 'dd', 'del', 'details', 'dfn', 'dialog', 'div', 'dl', 'dt', 'em', 'embed', 'fieldset', 'figcaption', 'figure', 'footer', 'form', 'h1', 'h2', 'h3', 'h4', 'h5', 'h6', 'head', 'header', 'hgroup', 'hr', 'html', 'i', 'iframe', 'img', 'input', 'ins', 'kbd', 'keygen', 'label', 'legend', 'li', 'link', 'main', 'map', 'mark', 'menu', 'menuitem', 'meta', 'meter', 'nav', 'noscript', 'object', 'ol', 'optgroup', 'option', 'output', 'p', 'param', 'picture', 'pre', 'progress', 'q', 'rb', 'rp', 'rt', 'rtc', 'ruby', 's', 'samp', 'script', 'section', 'select', 'small', 'source', 'span', 'strong', 'style', 'sub', 'summary', 'sup', 'table', 'tbody', 'td', 'template', 'textarea', 'tfoot', 'th', 'thead', 'time', 'title', 'tr', 'track', 'u', 'ul', 'const', 'video', 'wbr']; var svgElements = ['circle', 'clipPath', 'cursor', 'defs', 'desc', 'ellipse', 'feBlend', 'feColorMatrix', 'feComponentTransfer', 'feComposite', 'feConvolveMatrix', 'feDiffuseLighting', 'feDisplacementMap', 'feDistantLight', 'feDropShadow', 'feFlood', 'feFuncA', 'feFuncB', 'feFuncG', 'feFuncR', 'feGaussianBlur', 'feImage', 'feMerge', 'feMergeNode', 'feMorphology', 'feOffset', 'fePointLight', 'feSpecularLighting', 'feSpotLight', 'feTile', 'feTurbulence', 'filter', 'foreignObject', 'g', 'hatch', 'hatchpath', 'image', 'line', 'linearGradient', 'marker', 'mask', 'mesh', 'meshpatch', 'meshrow', 'metadata', 'mpath', 'path', 'pattern', 'polygon', 'polyline', 'radialGradient', 'rect', 'set', 'solidcolor', 'stop', 'svg', 'switch', 'symbol', 'text', 'textPath', 'tspan', 'use', 'view']; var pageBoxDirectives = ['@bottom-center', '@bottom-left', '@bottom-left-corner', '@bottom-right', '@bottom-right-corner', '@left-bottom', '@left-middle', '@left-top', '@right-bottom', '@right-middle', '@right-top', '@top-center', '@top-left', '@top-left-corner', '@top-right', '@top-right-corner']; ;// CONCATENATED MODULE: ./node_modules/monaco-editor/esm/vs/language/css/_deps/vscode-css-languageservice/languageFacts/facts.js /*--------------------------------------------------------------------------------------------- * Copyright (c) Microsoft Corporation. All rights reserved. * Licensed under the MIT License. See License.txt in the project root for license information. *--------------------------------------------------------------------------------------------*/ ;// CONCATENATED MODULE: ./node_modules/monaco-editor/esm/vs/language/css/_deps/vscode-css-languageservice/utils/objects.js /*--------------------------------------------------------------------------------------------- * Copyright (c) Microsoft Corporation. All rights reserved. * Licensed under the MIT License. See License.txt in the project root for license information. *--------------------------------------------------------------------------------------------*/ function values(obj) { return Object.keys(obj).map(function (key) { return obj[key]; }); } function objects_isDefined(obj) { return typeof obj !== 'undefined'; } ;// CONCATENATED MODULE: ./node_modules/monaco-editor/esm/vs/language/css/_deps/vscode-css-languageservice/parser/cssParser.js /*--------------------------------------------------------------------------------------------- * Copyright (c) Microsoft Corporation. All rights reserved. * Licensed under the MIT License. See License.txt in the project root for license information. *--------------------------------------------------------------------------------------------*/ var __spreadArray = undefined && undefined.__spreadArray || function (to, from, pack) { if (pack || arguments.length === 2) for (var i = 0, l = from.length, ar; i < l; i++) { if (ar || !(i in from)) { if (!ar) ar = Array.prototype.slice.call(from, 0, i); ar[i] = from[i]; } } return to.concat(ar || Array.prototype.slice.call(from)); }; /// /// A parser for the css core specification. See for reference: /// https://www.w3.org/TR/CSS21/grammar.html /// http://www.w3.org/TR/CSS21/syndata.html#tokenization /// var Parser = /** @class */function () { function Parser(scnr) { if (scnr === void 0) { scnr = new Scanner(); } this.keyframeRegex = /^@(\-(webkit|ms|moz|o)\-)?keyframes$/i; this.scanner = scnr; this.token = { type: TokenType.EOF, offset: -1, len: 0, text: '' }; this.prevToken = undefined; } Parser.prototype.peekIdent = function (text) { return TokenType.Ident === this.token.type && text.length === this.token.text.length && text === this.token.text.toLowerCase(); }; Parser.prototype.peekKeyword = function (text) { return TokenType.AtKeyword === this.token.type && text.length === this.token.text.length && text === this.token.text.toLowerCase(); }; Parser.prototype.peekDelim = function (text) { return TokenType.Delim === this.token.type && text === this.token.text; }; Parser.prototype.peek = function (type) { return type === this.token.type; }; Parser.prototype.peekOne = function () { var types = []; for (var _i = 0; _i < arguments.length; _i++) { types[_i] = arguments[_i]; } return types.indexOf(this.token.type) !== -1; }; Parser.prototype.peekRegExp = function (type, regEx) { if (type !== this.token.type) { return false; } return regEx.test(this.token.text); }; Parser.prototype.hasWhitespace = function () { return !!this.prevToken && this.prevToken.offset + this.prevToken.len !== this.token.offset; }; Parser.prototype.consumeToken = function () { this.prevToken = this.token; this.token = this.scanner.scan(); }; Parser.prototype.mark = function () { return { prev: this.prevToken, curr: this.token, pos: this.scanner.pos() }; }; Parser.prototype.restoreAtMark = function (mark) { this.prevToken = mark.prev; this.token = mark.curr; this.scanner.goBackTo(mark.pos); }; Parser.prototype["try"] = function (func) { var pos = this.mark(); var node = func(); if (!node) { this.restoreAtMark(pos); return null; } return node; }; Parser.prototype.acceptOneKeyword = function (keywords) { if (TokenType.AtKeyword === this.token.type) { for (var _i = 0, keywords_1 = keywords; _i < keywords_1.length; _i++) { var keyword = keywords_1[_i]; if (keyword.length === this.token.text.length && keyword === this.token.text.toLowerCase()) { this.consumeToken(); return true; } } } return false; }; Parser.prototype.accept = function (type) { if (type === this.token.type) { this.consumeToken(); return true; } return false; }; Parser.prototype.acceptIdent = function (text) { if (this.peekIdent(text)) { this.consumeToken(); return true; } return false; }; Parser.prototype.acceptKeyword = function (text) { if (this.peekKeyword(text)) { this.consumeToken(); return true; } return false; }; Parser.prototype.acceptDelim = function (text) { if (this.peekDelim(text)) { this.consumeToken(); return true; } return false; }; Parser.prototype.acceptRegexp = function (regEx) { if (regEx.test(this.token.text)) { this.consumeToken(); return true; } return false; }; Parser.prototype._parseRegexp = function (regEx) { var node = this.createNode(NodeType.Identifier); do {} while (this.acceptRegexp(regEx)); return this.finish(node); }; Parser.prototype.acceptUnquotedString = function () { var pos = this.scanner.pos(); this.scanner.goBackTo(this.token.offset); var unquoted = this.scanner.scanUnquotedString(); if (unquoted) { this.token = unquoted; this.consumeToken(); return true; } this.scanner.goBackTo(pos); return false; }; Parser.prototype.resync = function (resyncTokens, resyncStopTokens) { while (true) { if (resyncTokens && resyncTokens.indexOf(this.token.type) !== -1) { this.consumeToken(); return true; } else if (resyncStopTokens && resyncStopTokens.indexOf(this.token.type) !== -1) { return true; } else { if (this.token.type === TokenType.EOF) { return false; } this.token = this.scanner.scan(); } } }; Parser.prototype.createNode = function (nodeType) { return new cssNodes_Node(this.token.offset, this.token.len, nodeType); }; Parser.prototype.create = function (ctor) { return new ctor(this.token.offset, this.token.len); }; Parser.prototype.finish = function (node, error, resyncTokens, resyncStopTokens) { // parseNumeric misuses error for boolean flagging (however the real error mustn't be a false) // + nodelist offsets mustn't be modified, because there is a offset hack in rulesets for smartselection if (!(node instanceof Nodelist)) { if (error) { this.markError(node, error, resyncTokens, resyncStopTokens); } // set the node end position if (this.prevToken) { // length with more elements belonging together var prevEnd = this.prevToken.offset + this.prevToken.len; node.length = prevEnd > node.offset ? prevEnd - node.offset : 0; // offset is taken from current token, end from previous: Use 0 for empty nodes } } return node; }; Parser.prototype.markError = function (node, error, resyncTokens, resyncStopTokens) { if (this.token !== this.lastErrorToken) { // do not report twice on the same token node.addIssue(new Marker(node, error, Level.Error, undefined, this.token.offset, this.token.len)); this.lastErrorToken = this.token; } if (resyncTokens || resyncStopTokens) { this.resync(resyncTokens, resyncStopTokens); } }; Parser.prototype.parseStylesheet = function (textDocument) { var versionId = textDocument.version; var text = textDocument.getText(); var textProvider = function textProvider(offset, length) { if (textDocument.version !== versionId) { throw new Error('Underlying model has changed, AST is no longer valid'); } return text.substr(offset, length); }; return this.internalParse(text, this._parseStylesheet, textProvider); }; Parser.prototype.internalParse = function (input, parseFunc, textProvider) { this.scanner.setSource(input); this.token = this.scanner.scan(); var node = parseFunc.bind(this)(); if (node) { if (textProvider) { node.textProvider = textProvider; } else { node.textProvider = function (offset, length) { return input.substr(offset, length); }; } } return node; }; Parser.prototype._parseStylesheet = function () { var node = this.create(Stylesheet); while (node.addChild(this._parseStylesheetStart())) { // Parse statements only valid at the beginning of stylesheets. } var inRecovery = false; do { var hasMatch = false; do { hasMatch = false; var statement = this._parseStylesheetStatement(); if (statement) { node.addChild(statement); hasMatch = true; inRecovery = false; if (!this.peek(TokenType.EOF) && this._needsSemicolonAfter(statement) && !this.accept(TokenType.SemiColon)) { this.markError(node, ParseError.SemiColonExpected); } } while (this.accept(TokenType.SemiColon) || this.accept(TokenType.CDO) || this.accept(TokenType.CDC)) { // accept empty statements hasMatch = true; inRecovery = false; } } while (hasMatch); if (this.peek(TokenType.EOF)) { break; } if (!inRecovery) { if (this.peek(TokenType.AtKeyword)) { this.markError(node, ParseError.UnknownAtRule); } else { this.markError(node, ParseError.RuleOrSelectorExpected); } inRecovery = true; } this.consumeToken(); } while (!this.peek(TokenType.EOF)); return this.finish(node); }; Parser.prototype._parseStylesheetStart = function () { return this._parseCharset(); }; Parser.prototype._parseStylesheetStatement = function (isNested) { if (isNested === void 0) { isNested = false; } if (this.peek(TokenType.AtKeyword)) { return this._parseStylesheetAtStatement(isNested); } return this._parseRuleset(isNested); }; Parser.prototype._parseStylesheetAtStatement = function (isNested) { if (isNested === void 0) { isNested = false; } return this._parseImport() || this._parseMedia(isNested) || this._parsePage() || this._parseFontFace() || this._parseKeyframe() || this._parseSupports(isNested) || this._parseViewPort() || this._parseNamespace() || this._parseDocument() || this._parseUnknownAtRule(); }; Parser.prototype._tryParseRuleset = function (isNested) { var mark = this.mark(); if (this._parseSelector(isNested)) { while (this.accept(TokenType.Comma) && this._parseSelector(isNested)) { // loop } if (this.accept(TokenType.CurlyL)) { this.restoreAtMark(mark); return this._parseRuleset(isNested); } } this.restoreAtMark(mark); return null; }; Parser.prototype._parseRuleset = function (isNested) { if (isNested === void 0) { isNested = false; } var node = this.create(RuleSet); var selectors = node.getSelectors(); if (!selectors.addChild(this._parseSelector(isNested))) { return null; } while (this.accept(TokenType.Comma)) { if (!selectors.addChild(this._parseSelector(isNested))) { return this.finish(node, ParseError.SelectorExpected); } } return this._parseBody(node, this._parseRuleSetDeclaration.bind(this)); }; Parser.prototype._parseRuleSetDeclarationAtStatement = function () { return this._parseUnknownAtRule(); }; Parser.prototype._parseRuleSetDeclaration = function () { // https://www.w3.org/TR/css-syntax-3/#consume-a-list-of-declarations0 if (this.peek(TokenType.AtKeyword)) { return this._parseRuleSetDeclarationAtStatement(); } return this._parseDeclaration(); }; Parser.prototype._needsSemicolonAfter = function (node) { switch (node.type) { case NodeType.Keyframe: case NodeType.ViewPort: case NodeType.Media: case NodeType.Ruleset: case NodeType.Namespace: case NodeType.If: case NodeType.For: case NodeType.Each: case NodeType.While: case NodeType.MixinDeclaration: case NodeType.FunctionDeclaration: case NodeType.MixinContentDeclaration: return false; case NodeType.ExtendsReference: case NodeType.MixinContentReference: case NodeType.ReturnStatement: case NodeType.MediaQuery: case NodeType.Debug: case NodeType.Import: case NodeType.AtApplyRule: case NodeType.CustomPropertyDeclaration: return true; case NodeType.VariableDeclaration: return node.needsSemicolon; case NodeType.MixinReference: return !node.getContent(); case NodeType.Declaration: return !node.getNestedProperties(); } return false; }; Parser.prototype._parseDeclarations = function (parseDeclaration) { var node = this.create(Declarations); if (!this.accept(TokenType.CurlyL)) { return null; } var decl = parseDeclaration(); while (node.addChild(decl)) { if (this.peek(TokenType.CurlyR)) { break; } if (this._needsSemicolonAfter(decl) && !this.accept(TokenType.SemiColon)) { return this.finish(node, ParseError.SemiColonExpected, [TokenType.SemiColon, TokenType.CurlyR]); } // We accepted semicolon token. Link it to declaration. if (decl && this.prevToken && this.prevToken.type === TokenType.SemiColon) { decl.semicolonPosition = this.prevToken.offset; } while (this.accept(TokenType.SemiColon)) { // accept empty statements } decl = parseDeclaration(); } if (!this.accept(TokenType.CurlyR)) { return this.finish(node, ParseError.RightCurlyExpected, [TokenType.CurlyR, TokenType.SemiColon]); } return this.finish(node); }; Parser.prototype._parseBody = function (node, parseDeclaration) { if (!node.setDeclarations(this._parseDeclarations(parseDeclaration))) { return this.finish(node, ParseError.LeftCurlyExpected, [TokenType.CurlyR, TokenType.SemiColon]); } return this.finish(node); }; Parser.prototype._parseSelector = function (isNested) { var node = this.create(Selector); var hasContent = false; if (isNested) { // nested selectors can start with a combinator hasContent = node.addChild(this._parseCombinator()); } while (node.addChild(this._parseSimpleSelector())) { hasContent = true; node.addChild(this._parseCombinator()); // optional } return hasContent ? this.finish(node) : null; }; Parser.prototype._parseDeclaration = function (stopTokens) { var custonProperty = this._tryParseCustomPropertyDeclaration(stopTokens); if (custonProperty) { return custonProperty; } var node = this.create(Declaration); if (!node.setProperty(this._parseProperty())) { return null; } if (!this.accept(TokenType.Colon)) { return this.finish(node, ParseError.ColonExpected, [TokenType.Colon], stopTokens || [TokenType.SemiColon]); } if (this.prevToken) { node.colonPosition = this.prevToken.offset; } if (!node.setValue(this._parseExpr())) { return this.finish(node, ParseError.PropertyValueExpected); } node.addChild(this._parsePrio()); if (this.peek(TokenType.SemiColon)) { node.semicolonPosition = this.token.offset; // not part of the declaration, but useful information for code assist } return this.finish(node); }; Parser.prototype._tryParseCustomPropertyDeclaration = function (stopTokens) { if (!this.peekRegExp(TokenType.Ident, /^--/)) { return null; } var node = this.create(CustomPropertyDeclaration); if (!node.setProperty(this._parseProperty())) { return null; } if (!this.accept(TokenType.Colon)) { return this.finish(node, ParseError.ColonExpected, [TokenType.Colon]); } if (this.prevToken) { node.colonPosition = this.prevToken.offset; } var mark = this.mark(); if (this.peek(TokenType.CurlyL)) { // try to parse it as nested declaration var propertySet = this.create(CustomPropertySet); var declarations = this._parseDeclarations(this._parseRuleSetDeclaration.bind(this)); if (propertySet.setDeclarations(declarations) && !declarations.isErroneous(true)) { propertySet.addChild(this._parsePrio()); if (this.peek(TokenType.SemiColon)) { this.finish(propertySet); node.setPropertySet(propertySet); node.semicolonPosition = this.token.offset; // not part of the declaration, but useful information for code assist return this.finish(node); } } this.restoreAtMark(mark); } // try to parse as expression var expression = this._parseExpr(); if (expression && !expression.isErroneous(true)) { this._parsePrio(); if (this.peekOne.apply(this, __spreadArray(__spreadArray([], stopTokens || [], false), [TokenType.SemiColon, TokenType.EOF], false))) { node.setValue(expression); if (this.peek(TokenType.SemiColon)) { node.semicolonPosition = this.token.offset; // not part of the declaration, but useful information for code assist } return this.finish(node); } } this.restoreAtMark(mark); node.addChild(this._parseCustomPropertyValue(stopTokens)); node.addChild(this._parsePrio()); if (objects_isDefined(node.colonPosition) && this.token.offset === node.colonPosition + 1) { return this.finish(node, ParseError.PropertyValueExpected); } return this.finish(node); }; /** * Parse custom property values. * * Based on https://www.w3.org/TR/css-variables/#syntax * * This code is somewhat unusual, as the allowed syntax is incredibly broad, * parsing almost any sequence of tokens, save for a small set of exceptions. * Unbalanced delimitors, invalid tokens, and declaration * terminators like semicolons and !important directives (when not inside * of delimitors). */ Parser.prototype._parseCustomPropertyValue = function (stopTokens) { var _this = this; if (stopTokens === void 0) { stopTokens = [TokenType.CurlyR]; } var node = this.create(cssNodes_Node); var isTopLevel = function isTopLevel() { return curlyDepth === 0 && parensDepth === 0 && bracketsDepth === 0; }; var onStopToken = function onStopToken() { return stopTokens.indexOf(_this.token.type) !== -1; }; var curlyDepth = 0; var parensDepth = 0; var bracketsDepth = 0; done: while (true) { switch (this.token.type) { case TokenType.SemiColon: // A semicolon only ends things if we're not inside a delimitor. if (isTopLevel()) { break done; } break; case TokenType.Exclamation: // An exclamation ends the value if we're not inside delims. if (isTopLevel()) { break done; } break; case TokenType.CurlyL: curlyDepth++; break; case TokenType.CurlyR: curlyDepth--; if (curlyDepth < 0) { // The property value has been terminated without a semicolon, and // this is the last declaration in the ruleset. if (onStopToken() && parensDepth === 0 && bracketsDepth === 0) { break done; } return this.finish(node, ParseError.LeftCurlyExpected); } break; case TokenType.ParenthesisL: parensDepth++; break; case TokenType.ParenthesisR: parensDepth--; if (parensDepth < 0) { if (onStopToken() && bracketsDepth === 0 && curlyDepth === 0) { break done; } return this.finish(node, ParseError.LeftParenthesisExpected); } break; case TokenType.BracketL: bracketsDepth++; break; case TokenType.BracketR: bracketsDepth--; if (bracketsDepth < 0) { return this.finish(node, ParseError.LeftSquareBracketExpected); } break; case TokenType.BadString: // fall through break done; case TokenType.EOF: // We shouldn't have reached the end of input, something is // unterminated. var error = ParseError.RightCurlyExpected; if (bracketsDepth > 0) { error = ParseError.RightSquareBracketExpected; } else if (parensDepth > 0) { error = ParseError.RightParenthesisExpected; } return this.finish(node, error); } this.consumeToken(); } return this.finish(node); }; Parser.prototype._tryToParseDeclaration = function (stopTokens) { var mark = this.mark(); if (this._parseProperty() && this.accept(TokenType.Colon)) { // looks like a declaration, go ahead this.restoreAtMark(mark); return this._parseDeclaration(stopTokens); } this.restoreAtMark(mark); return null; }; Parser.prototype._parseProperty = function () { var node = this.create(Property); var mark = this.mark(); if (this.acceptDelim('*') || this.acceptDelim('_')) { // support for IE 5.x, 6 and 7 star hack: see http://en.wikipedia.org/wiki/CSS_filter#Star_hack if (this.hasWhitespace()) { this.restoreAtMark(mark); return null; } } if (node.setIdentifier(this._parsePropertyIdentifier())) { return this.finish(node); } return null; }; Parser.prototype._parsePropertyIdentifier = function () { return this._parseIdent(); }; Parser.prototype._parseCharset = function () { if (!this.peek(TokenType.Charset)) { return null; } var node = this.create(cssNodes_Node); this.consumeToken(); // charset if (!this.accept(TokenType.String)) { return this.finish(node, ParseError.IdentifierExpected); } if (!this.accept(TokenType.SemiColon)) { return this.finish(node, ParseError.SemiColonExpected); } return this.finish(node); }; Parser.prototype._parseImport = function () { if (!this.peekKeyword('@import')) { return null; } var node = this.create(Import); this.consumeToken(); // @import if (!node.addChild(this._parseURILiteral()) && !node.addChild(this._parseStringLiteral())) { return this.finish(node, ParseError.URIOrStringExpected); } if (!this.peek(TokenType.SemiColon) && !this.peek(TokenType.EOF)) { node.setMedialist(this._parseMediaQueryList()); } return this.finish(node); }; Parser.prototype._parseNamespace = function () { // http://www.w3.org/TR/css3-namespace/ // namespace : NAMESPACE_SYM S* [IDENT S*]? [STRING|URI] S* ';' S* if (!this.peekKeyword('@namespace')) { return null; } var node = this.create(Namespace); this.consumeToken(); // @namespace if (!node.addChild(this._parseURILiteral())) { // url literal also starts with ident node.addChild(this._parseIdent()); // optional prefix if (!node.addChild(this._parseURILiteral()) && !node.addChild(this._parseStringLiteral())) { return this.finish(node, ParseError.URIExpected, [TokenType.SemiColon]); } } if (!this.accept(TokenType.SemiColon)) { return this.finish(node, ParseError.SemiColonExpected); } return this.finish(node); }; Parser.prototype._parseFontFace = function () { if (!this.peekKeyword('@font-face')) { return null; } var node = this.create(FontFace); this.consumeToken(); // @font-face return this._parseBody(node, this._parseRuleSetDeclaration.bind(this)); }; Parser.prototype._parseViewPort = function () { if (!this.peekKeyword('@-ms-viewport') && !this.peekKeyword('@-o-viewport') && !this.peekKeyword('@viewport')) { return null; } var node = this.create(ViewPort); this.consumeToken(); // @-ms-viewport return this._parseBody(node, this._parseRuleSetDeclaration.bind(this)); }; Parser.prototype._parseKeyframe = function () { if (!this.peekRegExp(TokenType.AtKeyword, this.keyframeRegex)) { return null; } var node = this.create(Keyframe); var atNode = this.create(cssNodes_Node); this.consumeToken(); // atkeyword node.setKeyword(this.finish(atNode)); if (atNode.matches('@-ms-keyframes')) { // -ms-keyframes never existed this.markError(atNode, ParseError.UnknownKeyword); } if (!node.setIdentifier(this._parseKeyframeIdent())) { return this.finish(node, ParseError.IdentifierExpected, [TokenType.CurlyR]); } return this._parseBody(node, this._parseKeyframeSelector.bind(this)); }; Parser.prototype._parseKeyframeIdent = function () { return this._parseIdent([ReferenceType.Keyframe]); }; Parser.prototype._parseKeyframeSelector = function () { var node = this.create(KeyframeSelector); if (!node.addChild(this._parseIdent()) && !this.accept(TokenType.Percentage)) { return null; } while (this.accept(TokenType.Comma)) { if (!node.addChild(this._parseIdent()) && !this.accept(TokenType.Percentage)) { return this.finish(node, ParseError.PercentageExpected); } } return this._parseBody(node, this._parseRuleSetDeclaration.bind(this)); }; Parser.prototype._tryParseKeyframeSelector = function () { var node = this.create(KeyframeSelector); var pos = this.mark(); if (!node.addChild(this._parseIdent()) && !this.accept(TokenType.Percentage)) { return null; } while (this.accept(TokenType.Comma)) { if (!node.addChild(this._parseIdent()) && !this.accept(TokenType.Percentage)) { this.restoreAtMark(pos); return null; } } if (!this.peek(TokenType.CurlyL)) { this.restoreAtMark(pos); return null; } return this._parseBody(node, this._parseRuleSetDeclaration.bind(this)); }; Parser.prototype._parseSupports = function (isNested) { if (isNested === void 0) { isNested = false; } // SUPPORTS_SYM S* supports_condition '{' S* ruleset* '}' S* if (!this.peekKeyword('@supports')) { return null; } var node = this.create(Supports); this.consumeToken(); // @supports node.addChild(this._parseSupportsCondition()); return this._parseBody(node, this._parseSupportsDeclaration.bind(this, isNested)); }; Parser.prototype._parseSupportsDeclaration = function (isNested) { if (isNested === void 0) { isNested = false; } if (isNested) { // if nested, the body can contain rulesets, but also declarations return this._tryParseRuleset(true) || this._tryToParseDeclaration() || this._parseStylesheetStatement(true); } return this._parseStylesheetStatement(false); }; Parser.prototype._parseSupportsCondition = function () { // supports_condition : supports_negation | supports_conjunction | supports_disjunction | supports_condition_in_parens ; // supports_condition_in_parens: ( '(' S* supports_condition S* ')' ) | supports_declaration_condition | general_enclosed ; // supports_negation: NOT S+ supports_condition_in_parens ; // supports_conjunction: supports_condition_in_parens ( S+ AND S+ supports_condition_in_parens )+; // supports_disjunction: supports_condition_in_parens ( S+ OR S+ supports_condition_in_parens )+; // supports_declaration_condition: '(' S* declaration ')'; // general_enclosed: ( FUNCTION | '(' ) ( any | unused )* ')' ; var node = this.create(SupportsCondition); if (this.acceptIdent('not')) { node.addChild(this._parseSupportsConditionInParens()); } else { node.addChild(this._parseSupportsConditionInParens()); if (this.peekRegExp(TokenType.Ident, /^(and|or)$/i)) { var text = this.token.text.toLowerCase(); while (this.acceptIdent(text)) { node.addChild(this._parseSupportsConditionInParens()); } } } return this.finish(node); }; Parser.prototype._parseSupportsConditionInParens = function () { var node = this.create(SupportsCondition); if (this.accept(TokenType.ParenthesisL)) { if (this.prevToken) { node.lParent = this.prevToken.offset; } if (!node.addChild(this._tryToParseDeclaration([TokenType.ParenthesisR]))) { if (!this._parseSupportsCondition()) { return this.finish(node, ParseError.ConditionExpected); } } if (!this.accept(TokenType.ParenthesisR)) { return this.finish(node, ParseError.RightParenthesisExpected, [TokenType.ParenthesisR], []); } if (this.prevToken) { node.rParent = this.prevToken.offset; } return this.finish(node); } else if (this.peek(TokenType.Ident)) { var pos = this.mark(); this.consumeToken(); if (!this.hasWhitespace() && this.accept(TokenType.ParenthesisL)) { var openParentCount = 1; while (this.token.type !== TokenType.EOF && openParentCount !== 0) { if (this.token.type === TokenType.ParenthesisL) { openParentCount++; } else if (this.token.type === TokenType.ParenthesisR) { openParentCount--; } this.consumeToken(); } return this.finish(node); } else { this.restoreAtMark(pos); } } return this.finish(node, ParseError.LeftParenthesisExpected, [], [TokenType.ParenthesisL]); }; Parser.prototype._parseMediaDeclaration = function (isNested) { if (isNested === void 0) { isNested = false; } if (isNested) { // if nested, the body can contain rulesets, but also declarations return this._tryParseRuleset(true) || this._tryToParseDeclaration() || this._parseStylesheetStatement(true); } return this._parseStylesheetStatement(false); }; Parser.prototype._parseMedia = function (isNested) { if (isNested === void 0) { isNested = false; } // MEDIA_SYM S* media_query_list '{' S* ruleset* '}' S* // media_query_list : S* [media_query [ ',' S* media_query ]* ]? if (!this.peekKeyword('@media')) { return null; } var node = this.create(Media); this.consumeToken(); // @media if (!node.addChild(this._parseMediaQueryList())) { return this.finish(node, ParseError.MediaQueryExpected); } return this._parseBody(node, this._parseMediaDeclaration.bind(this, isNested)); }; Parser.prototype._parseMediaQueryList = function () { var node = this.create(Medialist); if (!node.addChild(this._parseMediaQuery())) { return this.finish(node, ParseError.MediaQueryExpected); } while (this.accept(TokenType.Comma)) { if (!node.addChild(this._parseMediaQuery())) { return this.finish(node, ParseError.MediaQueryExpected); } } return this.finish(node); }; Parser.prototype._parseMediaQuery = function () { // = | [ not | only ]? [ and ]? var node = this.create(MediaQuery); var pos = this.mark(); this.acceptIdent('not'); if (!this.peek(TokenType.ParenthesisL)) { if (this.acceptIdent('only')) { // optional } if (!node.addChild(this._parseIdent())) { return null; } if (this.acceptIdent('and')) { node.addChild(this._parseMediaCondition()); } } else { this.restoreAtMark(pos); // 'not' is part of the MediaCondition node.addChild(this._parseMediaCondition()); } return this.finish(node); }; Parser.prototype._parseRatio = function () { var pos = this.mark(); var node = this.create(RatioValue); if (!this._parseNumeric()) { return null; } if (!this.acceptDelim('/')) { this.restoreAtMark(pos); return null; } if (!this._parseNumeric()) { return this.finish(node, ParseError.NumberExpected); } return this.finish(node); }; Parser.prototype._parseMediaCondition = function () { // = | | | // = not // = [ and ]+ // = [ or ]+ // = ( ) | | var node = this.create(MediaCondition); this.acceptIdent('not'); var parseExpression = true; while (parseExpression) { if (!this.accept(TokenType.ParenthesisL)) { return this.finish(node, ParseError.LeftParenthesisExpected, [], [TokenType.CurlyL]); } if (this.peek(TokenType.ParenthesisL) || this.peekIdent('not')) { // node.addChild(this._parseMediaCondition()); } else { node.addChild(this._parseMediaFeature()); } // not yet implemented: general enclosed if (!this.accept(TokenType.ParenthesisR)) { return this.finish(node, ParseError.RightParenthesisExpected, [], [TokenType.CurlyL]); } parseExpression = this.acceptIdent('and') || this.acceptIdent('or'); } return this.finish(node); }; Parser.prototype._parseMediaFeature = function () { var _this = this; var resyncStopToken = [TokenType.ParenthesisR]; var node = this.create(MediaFeature); // = ( [ | | ] ) // = : // = // = [ '<' | '>' ]? '='? | [ '<' | '>' ]? '='? | '<' '='? '<' '='? | '>' '='? '>' '='? var parseRangeOperator = function parseRangeOperator() { if (_this.acceptDelim('<') || _this.acceptDelim('>')) { if (!_this.hasWhitespace()) { _this.acceptDelim('='); } return true; } else if (_this.acceptDelim('=')) { return true; } return false; }; if (node.addChild(this._parseMediaFeatureName())) { if (this.accept(TokenType.Colon)) { if (!node.addChild(this._parseMediaFeatureValue())) { return this.finish(node, ParseError.TermExpected, [], resyncStopToken); } } else if (parseRangeOperator()) { if (!node.addChild(this._parseMediaFeatureValue())) { return this.finish(node, ParseError.TermExpected, [], resyncStopToken); } if (parseRangeOperator()) { if (!node.addChild(this._parseMediaFeatureValue())) { return this.finish(node, ParseError.TermExpected, [], resyncStopToken); } } } else { // = } } else if (node.addChild(this._parseMediaFeatureValue())) { if (!parseRangeOperator()) { return this.finish(node, ParseError.OperatorExpected, [], resyncStopToken); } if (!node.addChild(this._parseMediaFeatureName())) { return this.finish(node, ParseError.IdentifierExpected, [], resyncStopToken); } if (parseRangeOperator()) { if (!node.addChild(this._parseMediaFeatureValue())) { return this.finish(node, ParseError.TermExpected, [], resyncStopToken); } } } else { return this.finish(node, ParseError.IdentifierExpected, [], resyncStopToken); } return this.finish(node); }; Parser.prototype._parseMediaFeatureName = function () { return this._parseIdent(); }; Parser.prototype._parseMediaFeatureValue = function () { return this._parseRatio() || this._parseTermExpression(); }; Parser.prototype._parseMedium = function () { var node = this.create(cssNodes_Node); if (node.addChild(this._parseIdent())) { return this.finish(node); } else { return null; } }; Parser.prototype._parsePageDeclaration = function () { return this._parsePageMarginBox() || this._parseRuleSetDeclaration(); }; Parser.prototype._parsePage = function () { // http://www.w3.org/TR/css3-page/ // page_rule : PAGE_SYM S* page_selector_list '{' S* page_body '}' S* // page_body : /* Can be empty */ declaration? [ ';' S* page_body ]? | page_margin_box page_body if (!this.peekKeyword('@page')) { return null; } var node = this.create(Page); this.consumeToken(); if (node.addChild(this._parsePageSelector())) { while (this.accept(TokenType.Comma)) { if (!node.addChild(this._parsePageSelector())) { return this.finish(node, ParseError.IdentifierExpected); } } } return this._parseBody(node, this._parsePageDeclaration.bind(this)); }; Parser.prototype._parsePageMarginBox = function () { // page_margin_box : margin_sym S* '{' S* declaration? [ ';' S* declaration? ]* '}' S* if (!this.peek(TokenType.AtKeyword)) { return null; } var node = this.create(PageBoxMarginBox); if (!this.acceptOneKeyword(pageBoxDirectives)) { this.markError(node, ParseError.UnknownAtRule, [], [TokenType.CurlyL]); } return this._parseBody(node, this._parseRuleSetDeclaration.bind(this)); }; Parser.prototype._parsePageSelector = function () { // page_selector : pseudo_page+ | IDENT pseudo_page* // pseudo_page : ':' [ "left" | "right" | "first" | "blank" ]; if (!this.peek(TokenType.Ident) && !this.peek(TokenType.Colon)) { return null; } var node = this.create(cssNodes_Node); node.addChild(this._parseIdent()); // optional ident if (this.accept(TokenType.Colon)) { if (!node.addChild(this._parseIdent())) { // optional ident return this.finish(node, ParseError.IdentifierExpected); } } return this.finish(node); }; Parser.prototype._parseDocument = function () { // -moz-document is experimental but has been pushed to css4 if (!this.peekKeyword('@-moz-document')) { return null; } var node = this.create(Document); this.consumeToken(); // @-moz-document this.resync([], [TokenType.CurlyL]); // ignore all the rules return this._parseBody(node, this._parseStylesheetStatement.bind(this)); }; // https://www.w3.org/TR/css-syntax-3/#consume-an-at-rule Parser.prototype._parseUnknownAtRule = function () { if (!this.peek(TokenType.AtKeyword)) { return null; } var node = this.create(UnknownAtRule); node.addChild(this._parseUnknownAtRuleName()); var isTopLevel = function isTopLevel() { return curlyDepth === 0 && parensDepth === 0 && bracketsDepth === 0; }; var curlyLCount = 0; var curlyDepth = 0; var parensDepth = 0; var bracketsDepth = 0; done: while (true) { switch (this.token.type) { case TokenType.SemiColon: if (isTopLevel()) { break done; } break; case TokenType.EOF: if (curlyDepth > 0) { return this.finish(node, ParseError.RightCurlyExpected); } else if (bracketsDepth > 0) { return this.finish(node, ParseError.RightSquareBracketExpected); } else if (parensDepth > 0) { return this.finish(node, ParseError.RightParenthesisExpected); } else { return this.finish(node); } case TokenType.CurlyL: curlyLCount++; curlyDepth++; break; case TokenType.CurlyR: curlyDepth--; // End of at-rule, consume CurlyR and return node if (curlyLCount > 0 && curlyDepth === 0) { this.consumeToken(); if (bracketsDepth > 0) { return this.finish(node, ParseError.RightSquareBracketExpected); } else if (parensDepth > 0) { return this.finish(node, ParseError.RightParenthesisExpected); } break done; } if (curlyDepth < 0) { // The property value has been terminated without a semicolon, and // this is the last declaration in the ruleset. if (parensDepth === 0 && bracketsDepth === 0) { break done; } return this.finish(node, ParseError.LeftCurlyExpected); } break; case TokenType.ParenthesisL: parensDepth++; break; case TokenType.ParenthesisR: parensDepth--; if (parensDepth < 0) { return this.finish(node, ParseError.LeftParenthesisExpected); } break; case TokenType.BracketL: bracketsDepth++; break; case TokenType.BracketR: bracketsDepth--; if (bracketsDepth < 0) { return this.finish(node, ParseError.LeftSquareBracketExpected); } break; } this.consumeToken(); } return node; }; Parser.prototype._parseUnknownAtRuleName = function () { var node = this.create(cssNodes_Node); if (this.accept(TokenType.AtKeyword)) { return this.finish(node); } return node; }; Parser.prototype._parseOperator = function () { // these are operators for binary expressions if (this.peekDelim('/') || this.peekDelim('*') || this.peekDelim('+') || this.peekDelim('-') || this.peek(TokenType.Dashmatch) || this.peek(TokenType.Includes) || this.peek(TokenType.SubstringOperator) || this.peek(TokenType.PrefixOperator) || this.peek(TokenType.SuffixOperator) || this.peekDelim('=')) { // doesn't stick to the standard here var node = this.createNode(NodeType.Operator); this.consumeToken(); return this.finish(node); } else { return null; } }; Parser.prototype._parseUnaryOperator = function () { if (!this.peekDelim('+') && !this.peekDelim('-')) { return null; } var node = this.create(cssNodes_Node); this.consumeToken(); return this.finish(node); }; Parser.prototype._parseCombinator = function () { if (this.peekDelim('>')) { var node = this.create(cssNodes_Node); this.consumeToken(); var mark = this.mark(); if (!this.hasWhitespace() && this.acceptDelim('>')) { if (!this.hasWhitespace() && this.acceptDelim('>')) { node.type = NodeType.SelectorCombinatorShadowPiercingDescendant; return this.finish(node); } this.restoreAtMark(mark); } node.type = NodeType.SelectorCombinatorParent; return this.finish(node); } else if (this.peekDelim('+')) { var node = this.create(cssNodes_Node); this.consumeToken(); node.type = NodeType.SelectorCombinatorSibling; return this.finish(node); } else if (this.peekDelim('~')) { var node = this.create(cssNodes_Node); this.consumeToken(); node.type = NodeType.SelectorCombinatorAllSiblings; return this.finish(node); } else if (this.peekDelim('/')) { var node = this.create(cssNodes_Node); this.consumeToken(); var mark = this.mark(); if (!this.hasWhitespace() && this.acceptIdent('deep') && !this.hasWhitespace() && this.acceptDelim('/')) { node.type = NodeType.SelectorCombinatorShadowPiercingDescendant; return this.finish(node); } this.restoreAtMark(mark); } return null; }; Parser.prototype._parseSimpleSelector = function () { // simple_selector // : element_name [ HASH | class | attrib | pseudo ]* | [ HASH | class | attrib | pseudo ]+ ; var node = this.create(SimpleSelector); var c = 0; if (node.addChild(this._parseElementName())) { c++; } while ((c === 0 || !this.hasWhitespace()) && node.addChild(this._parseSimpleSelectorBody())) { c++; } return c > 0 ? this.finish(node) : null; }; Parser.prototype._parseSimpleSelectorBody = function () { return this._parsePseudo() || this._parseHash() || this._parseClass() || this._parseAttrib(); }; Parser.prototype._parseSelectorIdent = function () { return this._parseIdent(); }; Parser.prototype._parseHash = function () { if (!this.peek(TokenType.Hash) && !this.peekDelim('#')) { return null; } var node = this.createNode(NodeType.IdentifierSelector); if (this.acceptDelim('#')) { if (this.hasWhitespace() || !node.addChild(this._parseSelectorIdent())) { return this.finish(node, ParseError.IdentifierExpected); } } else { this.consumeToken(); // TokenType.Hash } return this.finish(node); }; Parser.prototype._parseClass = function () { // class: '.' IDENT ; if (!this.peekDelim('.')) { return null; } var node = this.createNode(NodeType.ClassSelector); this.consumeToken(); // '.' if (this.hasWhitespace() || !node.addChild(this._parseSelectorIdent())) { return this.finish(node, ParseError.IdentifierExpected); } return this.finish(node); }; Parser.prototype._parseElementName = function () { // element_name: (ns? '|')? IDENT | '*'; var pos = this.mark(); var node = this.createNode(NodeType.ElementNameSelector); node.addChild(this._parseNamespacePrefix()); if (!node.addChild(this._parseSelectorIdent()) && !this.acceptDelim('*')) { this.restoreAtMark(pos); return null; } return this.finish(node); }; Parser.prototype._parseNamespacePrefix = function () { var pos = this.mark(); var node = this.createNode(NodeType.NamespacePrefix); if (!node.addChild(this._parseIdent()) && !this.acceptDelim('*')) { // ns is optional } if (!this.acceptDelim('|')) { this.restoreAtMark(pos); return null; } return this.finish(node); }; Parser.prototype._parseAttrib = function () { // attrib : '[' S* IDENT S* [ [ '=' | INCLUDES | DASHMATCH ] S* [ IDENT | STRING ] S* ]? ']' if (!this.peek(TokenType.BracketL)) { return null; } var node = this.create(AttributeSelector); this.consumeToken(); // BracketL // Optional attrib namespace node.setNamespacePrefix(this._parseNamespacePrefix()); if (!node.setIdentifier(this._parseIdent())) { return this.finish(node, ParseError.IdentifierExpected); } if (node.setOperator(this._parseOperator())) { node.setValue(this._parseBinaryExpr()); this.acceptIdent('i'); // case insensitive matching } if (!this.accept(TokenType.BracketR)) { return this.finish(node, ParseError.RightSquareBracketExpected); } return this.finish(node); }; Parser.prototype._parsePseudo = function () { var _this = this; // pseudo: ':' [ IDENT | FUNCTION S* [IDENT S*]? ')' ] var node = this._tryParsePseudoIdentifier(); if (node) { if (!this.hasWhitespace() && this.accept(TokenType.ParenthesisL)) { var tryAsSelector = function tryAsSelector() { var selectors = _this.create(cssNodes_Node); if (!selectors.addChild(_this._parseSelector(false))) { return null; } while (_this.accept(TokenType.Comma) && selectors.addChild(_this._parseSelector(false))) { // loop } if (_this.peek(TokenType.ParenthesisR)) { return _this.finish(selectors); } return null; }; node.addChild(this["try"](tryAsSelector) || this._parseBinaryExpr()); if (!this.accept(TokenType.ParenthesisR)) { return this.finish(node, ParseError.RightParenthesisExpected); } } return this.finish(node); } return null; }; Parser.prototype._tryParsePseudoIdentifier = function () { if (!this.peek(TokenType.Colon)) { return null; } var pos = this.mark(); var node = this.createNode(NodeType.PseudoSelector); this.consumeToken(); // Colon if (this.hasWhitespace()) { this.restoreAtMark(pos); return null; } // optional, support :: this.accept(TokenType.Colon); if (this.hasWhitespace() || !node.addChild(this._parseIdent())) { return this.finish(node, ParseError.IdentifierExpected); } return this.finish(node); }; Parser.prototype._tryParsePrio = function () { var mark = this.mark(); var prio = this._parsePrio(); if (prio) { return prio; } this.restoreAtMark(mark); return null; }; Parser.prototype._parsePrio = function () { if (!this.peek(TokenType.Exclamation)) { return null; } var node = this.createNode(NodeType.Prio); if (this.accept(TokenType.Exclamation) && this.acceptIdent('important')) { return this.finish(node); } return null; }; Parser.prototype._parseExpr = function (stopOnComma) { if (stopOnComma === void 0) { stopOnComma = false; } var node = this.create(Expression); if (!node.addChild(this._parseBinaryExpr())) { return null; } while (true) { if (this.peek(TokenType.Comma)) { // optional if (stopOnComma) { return this.finish(node); } this.consumeToken(); } if (!node.addChild(this._parseBinaryExpr())) { break; } } return this.finish(node); }; Parser.prototype._parseNamedLine = function () { // https://www.w3.org/TR/css-grid-1/#named-lines if (!this.peek(TokenType.BracketL)) { return null; } var node = this.createNode(NodeType.GridLine); this.consumeToken(); while (node.addChild(this._parseIdent())) { // repeat } if (!this.accept(TokenType.BracketR)) { return this.finish(node, ParseError.RightSquareBracketExpected); } return this.finish(node); }; Parser.prototype._parseBinaryExpr = function (preparsedLeft, preparsedOper) { var node = this.create(BinaryExpression); if (!node.setLeft(preparsedLeft || this._parseTerm())) { return null; } if (!node.setOperator(preparsedOper || this._parseOperator())) { return this.finish(node); } if (!node.setRight(this._parseTerm())) { return this.finish(node, ParseError.TermExpected); } // things needed for multiple binary expressions node = this.finish(node); var operator = this._parseOperator(); if (operator) { node = this._parseBinaryExpr(node, operator); } return this.finish(node); }; Parser.prototype._parseTerm = function () { var node = this.create(Term); node.setOperator(this._parseUnaryOperator()); // optional if (node.setExpression(this._parseTermExpression())) { return this.finish(node); } return null; }; Parser.prototype._parseTermExpression = function () { return this._parseURILiteral() || // url before function this._parseFunction() || // function before ident this._parseIdent() || this._parseStringLiteral() || this._parseNumeric() || this._parseHexColor() || this._parseOperation() || this._parseNamedLine(); }; Parser.prototype._parseOperation = function () { if (!this.peek(TokenType.ParenthesisL)) { return null; } var node = this.create(cssNodes_Node); this.consumeToken(); // ParenthesisL node.addChild(this._parseExpr()); if (!this.accept(TokenType.ParenthesisR)) { return this.finish(node, ParseError.RightParenthesisExpected); } return this.finish(node); }; Parser.prototype._parseNumeric = function () { if (this.peek(TokenType.Num) || this.peek(TokenType.Percentage) || this.peek(TokenType.Resolution) || this.peek(TokenType.Length) || this.peek(TokenType.EMS) || this.peek(TokenType.EXS) || this.peek(TokenType.Angle) || this.peek(TokenType.Time) || this.peek(TokenType.Dimension) || this.peek(TokenType.Freq)) { var node = this.create(NumericValue); this.consumeToken(); return this.finish(node); } return null; }; Parser.prototype._parseStringLiteral = function () { if (!this.peek(TokenType.String) && !this.peek(TokenType.BadString)) { return null; } var node = this.createNode(NodeType.StringLiteral); this.consumeToken(); return this.finish(node); }; Parser.prototype._parseURILiteral = function () { if (!this.peekRegExp(TokenType.Ident, /^url(-prefix)?$/i)) { return null; } var pos = this.mark(); var node = this.createNode(NodeType.URILiteral); this.accept(TokenType.Ident); if (this.hasWhitespace() || !this.peek(TokenType.ParenthesisL)) { this.restoreAtMark(pos); return null; } this.scanner.inURL = true; this.consumeToken(); // consume () node.addChild(this._parseURLArgument()); // argument is optional this.scanner.inURL = false; if (!this.accept(TokenType.ParenthesisR)) { return this.finish(node, ParseError.RightParenthesisExpected); } return this.finish(node); }; Parser.prototype._parseURLArgument = function () { var node = this.create(cssNodes_Node); if (!this.accept(TokenType.String) && !this.accept(TokenType.BadString) && !this.acceptUnquotedString()) { return null; } return this.finish(node); }; Parser.prototype._parseIdent = function (referenceTypes) { if (!this.peek(TokenType.Ident)) { return null; } var node = this.create(Identifier); if (referenceTypes) { node.referenceTypes = referenceTypes; } node.isCustomProperty = this.peekRegExp(TokenType.Ident, /^--/); this.consumeToken(); return this.finish(node); }; Parser.prototype._parseFunction = function () { var pos = this.mark(); var node = this.create(Function); if (!node.setIdentifier(this._parseFunctionIdentifier())) { return null; } if (this.hasWhitespace() || !this.accept(TokenType.ParenthesisL)) { this.restoreAtMark(pos); return null; } if (node.getArguments().addChild(this._parseFunctionArgument())) { while (this.accept(TokenType.Comma)) { if (this.peek(TokenType.ParenthesisR)) { break; } if (!node.getArguments().addChild(this._parseFunctionArgument())) { this.markError(node, ParseError.ExpressionExpected); } } } if (!this.accept(TokenType.ParenthesisR)) { return this.finish(node, ParseError.RightParenthesisExpected); } return this.finish(node); }; Parser.prototype._parseFunctionIdentifier = function () { if (!this.peek(TokenType.Ident)) { return null; } var node = this.create(Identifier); node.referenceTypes = [ReferenceType.Function]; if (this.acceptIdent('progid')) { // support for IE7 specific filters: 'progid:DXImageTransform.Microsoft.MotionBlur(strength=13, direction=310)' if (this.accept(TokenType.Colon)) { while (this.accept(TokenType.Ident) && this.acceptDelim('.')) { // loop } } return this.finish(node); } this.consumeToken(); return this.finish(node); }; Parser.prototype._parseFunctionArgument = function () { var node = this.create(FunctionArgument); if (node.setValue(this._parseExpr(true))) { return this.finish(node); } return null; }; Parser.prototype._parseHexColor = function () { if (this.peekRegExp(TokenType.Hash, /^#([A-Fa-f0-9]{3}|[A-Fa-f0-9]{4}|[A-Fa-f0-9]{6}|[A-Fa-f0-9]{8})$/g)) { var node = this.create(HexColorValue); this.consumeToken(); return this.finish(node); } else { return null; } }; return Parser; }(); ;// CONCATENATED MODULE: ./node_modules/monaco-editor/esm/vs/language/css/_deps/vscode-css-languageservice/utils/arrays.js /*--------------------------------------------------------------------------------------------- * Copyright (c) Microsoft Corporation. All rights reserved. * Licensed under the MIT License. See License.txt in the project root for license information. *--------------------------------------------------------------------------------------------*/ /** * Takes a sorted array and a function p. The array is sorted in such a way that all elements where p(x) is false * are located before all elements where p(x) is true. * @returns the least x for which p(x) is true or array.length if no element fullfills the given function. */ function findFirst(array, p) { var low = 0, high = array.length; if (high === 0) { return 0; // no children } while (low < high) { var mid = Math.floor((low + high) / 2); if (p(array[mid])) { high = mid; } else { low = mid + 1; } } return low; } function includes(array, item) { return array.indexOf(item) !== -1; } function union() { var arrays = []; for (var _i = 0; _i < arguments.length; _i++) { arrays[_i] = arguments[_i]; } var result = []; for (var _a = 0, arrays_1 = arrays; _a < arrays_1.length; _a++) { var array = arrays_1[_a]; for (var _b = 0, array_1 = array; _b < array_1.length; _b++) { var item = array_1[_b]; if (!includes(result, item)) { result.push(item); } } } return result; } ;// CONCATENATED MODULE: ./node_modules/monaco-editor/esm/vs/language/css/_deps/vscode-css-languageservice/parser/cssSymbolScope.js /*--------------------------------------------------------------------------------------------- * Copyright (c) Microsoft Corporation. All rights reserved. * Licensed under the MIT License. See License.txt in the project root for license information. *--------------------------------------------------------------------------------------------*/ var cssSymbolScope_extends = undefined && undefined.__extends || function () { var _extendStatics = function extendStatics(d, b) { _extendStatics = Object.setPrototypeOf || { __proto__: [] } instanceof Array && function (d, b) { d.__proto__ = b; } || function (d, b) { for (var p in b) if (Object.prototype.hasOwnProperty.call(b, p)) d[p] = b[p]; }; return _extendStatics(d, b); }; return function (d, b) { if (typeof b !== "function" && b !== null) throw new TypeError("Class extends value " + String(b) + " is not a constructor or null"); _extendStatics(d, b); function __() { this.constructor = d; } d.prototype = b === null ? Object.create(b) : (__.prototype = b.prototype, new __()); }; }(); var Scope = /** @class */function () { function Scope(offset, length) { this.offset = offset; this.length = length; this.symbols = []; this.parent = null; this.children = []; } Scope.prototype.addChild = function (scope) { this.children.push(scope); scope.setParent(this); }; Scope.prototype.setParent = function (scope) { this.parent = scope; }; Scope.prototype.findScope = function (offset, length) { if (length === void 0) { length = 0; } if (this.offset <= offset && this.offset + this.length > offset + length || this.offset === offset && this.length === length) { return this.findInScope(offset, length); } return null; }; Scope.prototype.findInScope = function (offset, length) { if (length === void 0) { length = 0; } // find the first scope child that has an offset larger than offset + length var end = offset + length; var idx = findFirst(this.children, function (s) { return s.offset > end; }); if (idx === 0) { // all scopes have offsets larger than our end return this; } var res = this.children[idx - 1]; if (res.offset <= offset && res.offset + res.length >= offset + length) { return res.findInScope(offset, length); } return this; }; Scope.prototype.addSymbol = function (symbol) { this.symbols.push(symbol); }; Scope.prototype.getSymbol = function (name, type) { for (var index = 0; index < this.symbols.length; index++) { var symbol = this.symbols[index]; if (symbol.name === name && symbol.type === type) { return symbol; } } return null; }; Scope.prototype.getSymbols = function () { return this.symbols; }; return Scope; }(); var GlobalScope = /** @class */function (_super) { cssSymbolScope_extends(GlobalScope, _super); function GlobalScope() { return _super.call(this, 0, Number.MAX_VALUE) || this; } return GlobalScope; }(Scope); var _Symbol = /** @class */function () { function _Symbol2(name, value, node, type) { this.name = name; this.value = value; this.node = node; this.type = type; } return _Symbol2; }(); var ScopeBuilder = /** @class */function () { function ScopeBuilder(scope) { this.scope = scope; } ScopeBuilder.prototype.addSymbol = function (node, name, value, type) { if (node.offset !== -1) { var current = this.scope.findScope(node.offset, node.length); if (current) { current.addSymbol(new _Symbol(name, value, node, type)); } } }; ScopeBuilder.prototype.addScope = function (node) { if (node.offset !== -1) { var current = this.scope.findScope(node.offset, node.length); if (current && (current.offset !== node.offset || current.length !== node.length)) { // scope already known? var newScope = new Scope(node.offset, node.length); current.addChild(newScope); return newScope; } return current; } return null; }; ScopeBuilder.prototype.addSymbolToChildScope = function (scopeNode, node, name, value, type) { if (scopeNode && scopeNode.offset !== -1) { var current = this.addScope(scopeNode); // create the scope or gets the existing one if (current) { current.addSymbol(new _Symbol(name, value, node, type)); } } }; ScopeBuilder.prototype.visitNode = function (node) { switch (node.type) { case NodeType.Keyframe: this.addSymbol(node, node.getName(), void 0, ReferenceType.Keyframe); return true; case NodeType.CustomPropertyDeclaration: return this.visitCustomPropertyDeclarationNode(node); case NodeType.VariableDeclaration: return this.visitVariableDeclarationNode(node); case NodeType.Ruleset: return this.visitRuleSet(node); case NodeType.MixinDeclaration: this.addSymbol(node, node.getName(), void 0, ReferenceType.Mixin); return true; case NodeType.FunctionDeclaration: this.addSymbol(node, node.getName(), void 0, ReferenceType.Function); return true; case NodeType.FunctionParameter: { return this.visitFunctionParameterNode(node); } case NodeType.Declarations: this.addScope(node); return true; case NodeType.For: var forNode = node; var scopeNode = forNode.getDeclarations(); if (scopeNode && forNode.variable) { this.addSymbolToChildScope(scopeNode, forNode.variable, forNode.variable.getName(), void 0, ReferenceType.Variable); } return true; case NodeType.Each: { var eachNode = node; var scopeNode_1 = eachNode.getDeclarations(); if (scopeNode_1) { var variables = eachNode.getVariables().getChildren(); for (var _i = 0, variables_1 = variables; _i < variables_1.length; _i++) { var variable = variables_1[_i]; this.addSymbolToChildScope(scopeNode_1, variable, variable.getName(), void 0, ReferenceType.Variable); } } return true; } } return true; }; ScopeBuilder.prototype.visitRuleSet = function (node) { var current = this.scope.findScope(node.offset, node.length); if (current) { for (var _i = 0, _a = node.getSelectors().getChildren(); _i < _a.length; _i++) { var child = _a[_i]; if (child instanceof Selector) { if (child.getChildren().length === 1) { // only selectors with a single element can be extended current.addSymbol(new _Symbol(child.getChild(0).getText(), void 0, child, ReferenceType.Rule)); } } } } return true; }; ScopeBuilder.prototype.visitVariableDeclarationNode = function (node) { var value = node.getValue() ? node.getValue().getText() : void 0; this.addSymbol(node, node.getName(), value, ReferenceType.Variable); return true; }; ScopeBuilder.prototype.visitFunctionParameterNode = function (node) { // parameters are part of the body scope var scopeNode = node.getParent().getDeclarations(); if (scopeNode) { var valueNode = node.getDefaultValue(); var value = valueNode ? valueNode.getText() : void 0; this.addSymbolToChildScope(scopeNode, node, node.getName(), value, ReferenceType.Variable); } return true; }; ScopeBuilder.prototype.visitCustomPropertyDeclarationNode = function (node) { var value = node.getValue() ? node.getValue().getText() : ''; this.addCSSVariable(node.getProperty(), node.getProperty().getName(), value, ReferenceType.Variable); return true; }; ScopeBuilder.prototype.addCSSVariable = function (node, name, value, type) { if (node.offset !== -1) { this.scope.addSymbol(new _Symbol(name, value, node, type)); } }; return ScopeBuilder; }(); var Symbols = /** @class */function () { function Symbols(node) { this.global = new GlobalScope(); node.acceptVisitor(new ScopeBuilder(this.global)); } Symbols.prototype.findSymbolsAtOffset = function (offset, referenceType) { var scope = this.global.findScope(offset, 0); var result = []; var names = {}; while (scope) { var symbols = scope.getSymbols(); for (var i = 0; i < symbols.length; i++) { var symbol = symbols[i]; if (symbol.type === referenceType && !names[symbol.name]) { result.push(symbol); names[symbol.name] = true; } } scope = scope.parent; } return result; }; Symbols.prototype.internalFindSymbol = function (node, referenceTypes) { var scopeNode = node; if (node.parent instanceof FunctionParameter && node.parent.getParent() instanceof BodyDeclaration) { scopeNode = node.parent.getParent().getDeclarations(); } if (node.parent instanceof FunctionArgument && node.parent.getParent() instanceof Function) { var funcId = node.parent.getParent().getIdentifier(); if (funcId) { var functionSymbol = this.internalFindSymbol(funcId, [ReferenceType.Function]); if (functionSymbol) { scopeNode = functionSymbol.node.getDeclarations(); } } } if (!scopeNode) { return null; } var name = node.getText(); var scope = this.global.findScope(scopeNode.offset, scopeNode.length); while (scope) { for (var index = 0; index < referenceTypes.length; index++) { var type = referenceTypes[index]; var symbol = scope.getSymbol(name, type); if (symbol) { return symbol; } } scope = scope.parent; } return null; }; Symbols.prototype.evaluateReferenceTypes = function (node) { if (node instanceof Identifier) { var referenceTypes = node.referenceTypes; if (referenceTypes) { return referenceTypes; } else { if (node.isCustomProperty) { return [ReferenceType.Variable]; } // are a reference to a keyframe? var decl = getParentDeclaration(node); if (decl) { var propertyName = decl.getNonPrefixedPropertyName(); if ((propertyName === 'animation' || propertyName === 'animation-name') && decl.getValue() && decl.getValue().offset === node.offset) { return [ReferenceType.Keyframe]; } } } } else if (node instanceof Variable) { return [ReferenceType.Variable]; } var selector = node.findAParent(NodeType.Selector, NodeType.ExtendsReference); if (selector) { return [ReferenceType.Rule]; } return null; }; Symbols.prototype.findSymbolFromNode = function (node) { if (!node) { return null; } while (node.type === NodeType.Interpolation) { node = node.getParent(); } var referenceTypes = this.evaluateReferenceTypes(node); if (referenceTypes) { return this.internalFindSymbol(node, referenceTypes); } return null; }; Symbols.prototype.matchesSymbol = function (node, symbol) { if (!node) { return false; } while (node.type === NodeType.Interpolation) { node = node.getParent(); } if (!node.matches(symbol.name)) { return false; } var referenceTypes = this.evaluateReferenceTypes(node); if (!referenceTypes || referenceTypes.indexOf(symbol.type) === -1) { return false; } var nodeSymbol = this.internalFindSymbol(node, referenceTypes); return nodeSymbol === symbol; }; Symbols.prototype.findSymbol = function (name, type, offset) { var scope = this.global.findScope(offset); while (scope) { var symbol = scope.getSymbol(name, type); if (symbol) { return symbol; } scope = scope.parent; } return null; }; return Symbols; }(); ;// CONCATENATED MODULE: ./node_modules/monaco-editor/esm/vs/language/css/_deps/vscode-languageserver-types/main.js /* -------------------------------------------------------------------------------------------- * Copyright (c) Microsoft Corporation. All rights reserved. * Licensed under the MIT License. See License.txt in the project root for license information. * ------------------------------------------------------------------------------------------ */ var integer; (function (integer) { integer.MIN_VALUE = -2147483648; integer.MAX_VALUE = 2147483647; })(integer || (integer = {})); var uinteger; (function (uinteger) { uinteger.MIN_VALUE = 0; uinteger.MAX_VALUE = 2147483647; })(uinteger || (uinteger = {})); /** * The Position namespace provides helper functions to work with * [Position](#Position) literals. */ var main_Position; (function (Position) { /** * Creates a new Position literal from the given line and character. * @param line The position's line. * @param character The position's character. */ function create(line, character) { if (line === Number.MAX_VALUE) { line = uinteger.MAX_VALUE; } if (character === Number.MAX_VALUE) { character = uinteger.MAX_VALUE; } return { line: line, character: character }; } Position.create = create; /** * Checks whether the given literal conforms to the [Position](#Position) interface. */ function is(value) { var candidate = value; return Is.objectLiteral(candidate) && Is.uinteger(candidate.line) && Is.uinteger(candidate.character); } Position.is = is; })(main_Position || (main_Position = {})); /** * The Range namespace provides helper functions to work with * [Range](#Range) literals. */ var main_Range; (function (Range) { function create(one, two, three, four) { if (Is.uinteger(one) && Is.uinteger(two) && Is.uinteger(three) && Is.uinteger(four)) { return { start: main_Position.create(one, two), end: main_Position.create(three, four) }; } else if (main_Position.is(one) && main_Position.is(two)) { return { start: one, end: two }; } else { throw new Error("Range#create called with invalid arguments[" + one + ", " + two + ", " + three + ", " + four + "]"); } } Range.create = create; /** * Checks whether the given literal conforms to the [Range](#Range) interface. */ function is(value) { var candidate = value; return Is.objectLiteral(candidate) && main_Position.is(candidate.start) && main_Position.is(candidate.end); } Range.is = is; })(main_Range || (main_Range = {})); /** * The Location namespace provides helper functions to work with * [Location](#Location) literals. */ var Location; (function (Location) { /** * Creates a Location literal. * @param uri The location's uri. * @param range The location's range. */ function create(uri, range) { return { uri: uri, range: range }; } Location.create = create; /** * Checks whether the given literal conforms to the [Location](#Location) interface. */ function is(value) { var candidate = value; return Is.defined(candidate) && main_Range.is(candidate.range) && (Is.string(candidate.uri) || Is.undefined(candidate.uri)); } Location.is = is; })(Location || (Location = {})); /** * The LocationLink namespace provides helper functions to work with * [LocationLink](#LocationLink) literals. */ var LocationLink; (function (LocationLink) { /** * Creates a LocationLink literal. * @param targetUri The definition's uri. * @param targetRange The full range of the definition. * @param targetSelectionRange The span of the symbol definition at the target. * @param originSelectionRange The span of the symbol being defined in the originating source file. */ function create(targetUri, targetRange, targetSelectionRange, originSelectionRange) { return { targetUri: targetUri, targetRange: targetRange, targetSelectionRange: targetSelectionRange, originSelectionRange: originSelectionRange }; } LocationLink.create = create; /** * Checks whether the given literal conforms to the [LocationLink](#LocationLink) interface. */ function is(value) { var candidate = value; return Is.defined(candidate) && main_Range.is(candidate.targetRange) && Is.string(candidate.targetUri) && (main_Range.is(candidate.targetSelectionRange) || Is.undefined(candidate.targetSelectionRange)) && (main_Range.is(candidate.originSelectionRange) || Is.undefined(candidate.originSelectionRange)); } LocationLink.is = is; })(LocationLink || (LocationLink = {})); /** * The Color namespace provides helper functions to work with * [Color](#Color) literals. */ var Color; (function (Color) { /** * Creates a new Color literal. */ function create(red, green, blue, alpha) { return { red: red, green: green, blue: blue, alpha: alpha }; } Color.create = create; /** * Checks whether the given literal conforms to the [Color](#Color) interface. */ function is(value) { var candidate = value; return Is.numberRange(candidate.red, 0, 1) && Is.numberRange(candidate.green, 0, 1) && Is.numberRange(candidate.blue, 0, 1) && Is.numberRange(candidate.alpha, 0, 1); } Color.is = is; })(Color || (Color = {})); /** * The ColorInformation namespace provides helper functions to work with * [ColorInformation](#ColorInformation) literals. */ var ColorInformation; (function (ColorInformation) { /** * Creates a new ColorInformation literal. */ function create(range, color) { return { range: range, color: color }; } ColorInformation.create = create; /** * Checks whether the given literal conforms to the [ColorInformation](#ColorInformation) interface. */ function is(value) { var candidate = value; return main_Range.is(candidate.range) && Color.is(candidate.color); } ColorInformation.is = is; })(ColorInformation || (ColorInformation = {})); /** * The Color namespace provides helper functions to work with * [ColorPresentation](#ColorPresentation) literals. */ var ColorPresentation; (function (ColorPresentation) { /** * Creates a new ColorInformation literal. */ function create(label, textEdit, additionalTextEdits) { return { label: label, textEdit: textEdit, additionalTextEdits: additionalTextEdits }; } ColorPresentation.create = create; /** * Checks whether the given literal conforms to the [ColorInformation](#ColorInformation) interface. */ function is(value) { var candidate = value; return Is.string(candidate.label) && (Is.undefined(candidate.textEdit) || TextEdit.is(candidate)) && (Is.undefined(candidate.additionalTextEdits) || Is.typedArray(candidate.additionalTextEdits, TextEdit.is)); } ColorPresentation.is = is; })(ColorPresentation || (ColorPresentation = {})); /** * Enum of known range kinds */ var FoldingRangeKind; (function (FoldingRangeKind) { /** * Folding range for a comment */ FoldingRangeKind["Comment"] = "comment"; /** * Folding range for a imports or includes */ FoldingRangeKind["Imports"] = "imports"; /** * Folding range for a region (e.g. `#region`) */ FoldingRangeKind["Region"] = "region"; })(FoldingRangeKind || (FoldingRangeKind = {})); /** * The folding range namespace provides helper functions to work with * [FoldingRange](#FoldingRange) literals. */ var FoldingRange; (function (FoldingRange) { /** * Creates a new FoldingRange literal. */ function create(startLine, endLine, startCharacter, endCharacter, kind) { var result = { startLine: startLine, endLine: endLine }; if (Is.defined(startCharacter)) { result.startCharacter = startCharacter; } if (Is.defined(endCharacter)) { result.endCharacter = endCharacter; } if (Is.defined(kind)) { result.kind = kind; } return result; } FoldingRange.create = create; /** * Checks whether the given literal conforms to the [FoldingRange](#FoldingRange) interface. */ function is(value) { var candidate = value; return Is.uinteger(candidate.startLine) && Is.uinteger(candidate.startLine) && (Is.undefined(candidate.startCharacter) || Is.uinteger(candidate.startCharacter)) && (Is.undefined(candidate.endCharacter) || Is.uinteger(candidate.endCharacter)) && (Is.undefined(candidate.kind) || Is.string(candidate.kind)); } FoldingRange.is = is; })(FoldingRange || (FoldingRange = {})); /** * The DiagnosticRelatedInformation namespace provides helper functions to work with * [DiagnosticRelatedInformation](#DiagnosticRelatedInformation) literals. */ var DiagnosticRelatedInformation; (function (DiagnosticRelatedInformation) { /** * Creates a new DiagnosticRelatedInformation literal. */ function create(location, message) { return { location: location, message: message }; } DiagnosticRelatedInformation.create = create; /** * Checks whether the given literal conforms to the [DiagnosticRelatedInformation](#DiagnosticRelatedInformation) interface. */ function is(value) { var candidate = value; return Is.defined(candidate) && Location.is(candidate.location) && Is.string(candidate.message); } DiagnosticRelatedInformation.is = is; })(DiagnosticRelatedInformation || (DiagnosticRelatedInformation = {})); /** * The diagnostic's severity. */ var DiagnosticSeverity; (function (DiagnosticSeverity) { /** * Reports an error. */ DiagnosticSeverity.Error = 1; /** * Reports a warning. */ DiagnosticSeverity.Warning = 2; /** * Reports an information. */ DiagnosticSeverity.Information = 3; /** * Reports a hint. */ DiagnosticSeverity.Hint = 4; })(DiagnosticSeverity || (DiagnosticSeverity = {})); /** * The diagnostic tags. * * @since 3.15.0 */ var DiagnosticTag; (function (DiagnosticTag) { /** * Unused or unnecessary code. * * Clients are allowed to render diagnostics with this tag faded out instead of having * an error squiggle. */ DiagnosticTag.Unnecessary = 1; /** * Deprecated or obsolete code. * * Clients are allowed to rendered diagnostics with this tag strike through. */ DiagnosticTag.Deprecated = 2; })(DiagnosticTag || (DiagnosticTag = {})); /** * The CodeDescription namespace provides functions to deal with descriptions for diagnostic codes. * * @since 3.16.0 */ var CodeDescription; (function (CodeDescription) { function is(value) { var candidate = value; return candidate !== undefined && candidate !== null && Is.string(candidate.href); } CodeDescription.is = is; })(CodeDescription || (CodeDescription = {})); /** * The Diagnostic namespace provides helper functions to work with * [Diagnostic](#Diagnostic) literals. */ var Diagnostic; (function (Diagnostic) { /** * Creates a new Diagnostic literal. */ function create(range, message, severity, code, source, relatedInformation) { var result = { range: range, message: message }; if (Is.defined(severity)) { result.severity = severity; } if (Is.defined(code)) { result.code = code; } if (Is.defined(source)) { result.source = source; } if (Is.defined(relatedInformation)) { result.relatedInformation = relatedInformation; } return result; } Diagnostic.create = create; /** * Checks whether the given literal conforms to the [Diagnostic](#Diagnostic) interface. */ function is(value) { var _a; var candidate = value; return Is.defined(candidate) && main_Range.is(candidate.range) && Is.string(candidate.message) && (Is.number(candidate.severity) || Is.undefined(candidate.severity)) && (Is.integer(candidate.code) || Is.string(candidate.code) || Is.undefined(candidate.code)) && (Is.undefined(candidate.codeDescription) || Is.string((_a = candidate.codeDescription) === null || _a === void 0 ? void 0 : _a.href)) && (Is.string(candidate.source) || Is.undefined(candidate.source)) && (Is.undefined(candidate.relatedInformation) || Is.typedArray(candidate.relatedInformation, DiagnosticRelatedInformation.is)); } Diagnostic.is = is; })(Diagnostic || (Diagnostic = {})); /** * The Command namespace provides helper functions to work with * [Command](#Command) literals. */ var Command; (function (Command) { /** * Creates a new Command literal. */ function create(title, command) { var args = []; for (var _i = 2; _i < arguments.length; _i++) { args[_i - 2] = arguments[_i]; } var result = { title: title, command: command }; if (Is.defined(args) && args.length > 0) { result.arguments = args; } return result; } Command.create = create; /** * Checks whether the given literal conforms to the [Command](#Command) interface. */ function is(value) { var candidate = value; return Is.defined(candidate) && Is.string(candidate.title) && Is.string(candidate.command); } Command.is = is; })(Command || (Command = {})); /** * The TextEdit namespace provides helper function to create replace, * insert and delete edits more easily. */ var TextEdit; (function (TextEdit) { /** * Creates a replace text edit. * @param range The range of text to be replaced. * @param newText The new text. */ function replace(range, newText) { return { range: range, newText: newText }; } TextEdit.replace = replace; /** * Creates a insert text edit. * @param position The position to insert the text at. * @param newText The text to be inserted. */ function insert(position, newText) { return { range: { start: position, end: position }, newText: newText }; } TextEdit.insert = insert; /** * Creates a delete text edit. * @param range The range of text to be deleted. */ function del(range) { return { range: range, newText: '' }; } TextEdit.del = del; function is(value) { var candidate = value; return Is.objectLiteral(candidate) && Is.string(candidate.newText) && main_Range.is(candidate.range); } TextEdit.is = is; })(TextEdit || (TextEdit = {})); var ChangeAnnotation; (function (ChangeAnnotation) { function create(label, needsConfirmation, description) { var result = { label: label }; if (needsConfirmation !== undefined) { result.needsConfirmation = needsConfirmation; } if (description !== undefined) { result.description = description; } return result; } ChangeAnnotation.create = create; function is(value) { var candidate = value; return candidate !== undefined && Is.objectLiteral(candidate) && Is.string(candidate.label) && (Is["boolean"](candidate.needsConfirmation) || candidate.needsConfirmation === undefined) && (Is.string(candidate.description) || candidate.description === undefined); } ChangeAnnotation.is = is; })(ChangeAnnotation || (ChangeAnnotation = {})); var ChangeAnnotationIdentifier; (function (ChangeAnnotationIdentifier) { function is(value) { var candidate = value; return typeof candidate === 'string'; } ChangeAnnotationIdentifier.is = is; })(ChangeAnnotationIdentifier || (ChangeAnnotationIdentifier = {})); var AnnotatedTextEdit; (function (AnnotatedTextEdit) { /** * Creates an annotated replace text edit. * * @param range The range of text to be replaced. * @param newText The new text. * @param annotation The annotation. */ function replace(range, newText, annotation) { return { range: range, newText: newText, annotationId: annotation }; } AnnotatedTextEdit.replace = replace; /** * Creates an annotated insert text edit. * * @param position The position to insert the text at. * @param newText The text to be inserted. * @param annotation The annotation. */ function insert(position, newText, annotation) { return { range: { start: position, end: position }, newText: newText, annotationId: annotation }; } AnnotatedTextEdit.insert = insert; /** * Creates an annotated delete text edit. * * @param range The range of text to be deleted. * @param annotation The annotation. */ function del(range, annotation) { return { range: range, newText: '', annotationId: annotation }; } AnnotatedTextEdit.del = del; function is(value) { var candidate = value; return TextEdit.is(candidate) && (ChangeAnnotation.is(candidate.annotationId) || ChangeAnnotationIdentifier.is(candidate.annotationId)); } AnnotatedTextEdit.is = is; })(AnnotatedTextEdit || (AnnotatedTextEdit = {})); /** * The TextDocumentEdit namespace provides helper function to create * an edit that manipulates a text document. */ var TextDocumentEdit; (function (TextDocumentEdit) { /** * Creates a new `TextDocumentEdit` */ function create(textDocument, edits) { return { textDocument: textDocument, edits: edits }; } TextDocumentEdit.create = create; function is(value) { var candidate = value; return Is.defined(candidate) && OptionalVersionedTextDocumentIdentifier.is(candidate.textDocument) && Array.isArray(candidate.edits); } TextDocumentEdit.is = is; })(TextDocumentEdit || (TextDocumentEdit = {})); var CreateFile; (function (CreateFile) { function create(uri, options, annotation) { var result = { kind: 'create', uri: uri }; if (options !== undefined && (options.overwrite !== undefined || options.ignoreIfExists !== undefined)) { result.options = options; } if (annotation !== undefined) { result.annotationId = annotation; } return result; } CreateFile.create = create; function is(value) { var candidate = value; return candidate && candidate.kind === 'create' && Is.string(candidate.uri) && (candidate.options === undefined || (candidate.options.overwrite === undefined || Is["boolean"](candidate.options.overwrite)) && (candidate.options.ignoreIfExists === undefined || Is["boolean"](candidate.options.ignoreIfExists))) && (candidate.annotationId === undefined || ChangeAnnotationIdentifier.is(candidate.annotationId)); } CreateFile.is = is; })(CreateFile || (CreateFile = {})); var RenameFile; (function (RenameFile) { function create(oldUri, newUri, options, annotation) { var result = { kind: 'rename', oldUri: oldUri, newUri: newUri }; if (options !== undefined && (options.overwrite !== undefined || options.ignoreIfExists !== undefined)) { result.options = options; } if (annotation !== undefined) { result.annotationId = annotation; } return result; } RenameFile.create = create; function is(value) { var candidate = value; return candidate && candidate.kind === 'rename' && Is.string(candidate.oldUri) && Is.string(candidate.newUri) && (candidate.options === undefined || (candidate.options.overwrite === undefined || Is["boolean"](candidate.options.overwrite)) && (candidate.options.ignoreIfExists === undefined || Is["boolean"](candidate.options.ignoreIfExists))) && (candidate.annotationId === undefined || ChangeAnnotationIdentifier.is(candidate.annotationId)); } RenameFile.is = is; })(RenameFile || (RenameFile = {})); var DeleteFile; (function (DeleteFile) { function create(uri, options, annotation) { var result = { kind: 'delete', uri: uri }; if (options !== undefined && (options.recursive !== undefined || options.ignoreIfNotExists !== undefined)) { result.options = options; } if (annotation !== undefined) { result.annotationId = annotation; } return result; } DeleteFile.create = create; function is(value) { var candidate = value; return candidate && candidate.kind === 'delete' && Is.string(candidate.uri) && (candidate.options === undefined || (candidate.options.recursive === undefined || Is["boolean"](candidate.options.recursive)) && (candidate.options.ignoreIfNotExists === undefined || Is["boolean"](candidate.options.ignoreIfNotExists))) && (candidate.annotationId === undefined || ChangeAnnotationIdentifier.is(candidate.annotationId)); } DeleteFile.is = is; })(DeleteFile || (DeleteFile = {})); var WorkspaceEdit; (function (WorkspaceEdit) { function is(value) { var candidate = value; return candidate && (candidate.changes !== undefined || candidate.documentChanges !== undefined) && (candidate.documentChanges === undefined || candidate.documentChanges.every(function (change) { if (Is.string(change.kind)) { return CreateFile.is(change) || RenameFile.is(change) || DeleteFile.is(change); } else { return TextDocumentEdit.is(change); } })); } WorkspaceEdit.is = is; })(WorkspaceEdit || (WorkspaceEdit = {})); var TextEditChangeImpl = /** @class */function () { function TextEditChangeImpl(edits, changeAnnotations) { this.edits = edits; this.changeAnnotations = changeAnnotations; } TextEditChangeImpl.prototype.insert = function (position, newText, annotation) { var edit; var id; if (annotation === undefined) { edit = TextEdit.insert(position, newText); } else if (ChangeAnnotationIdentifier.is(annotation)) { id = annotation; edit = AnnotatedTextEdit.insert(position, newText, annotation); } else { this.assertChangeAnnotations(this.changeAnnotations); id = this.changeAnnotations.manage(annotation); edit = AnnotatedTextEdit.insert(position, newText, id); } this.edits.push(edit); if (id !== undefined) { return id; } }; TextEditChangeImpl.prototype.replace = function (range, newText, annotation) { var edit; var id; if (annotation === undefined) { edit = TextEdit.replace(range, newText); } else if (ChangeAnnotationIdentifier.is(annotation)) { id = annotation; edit = AnnotatedTextEdit.replace(range, newText, annotation); } else { this.assertChangeAnnotations(this.changeAnnotations); id = this.changeAnnotations.manage(annotation); edit = AnnotatedTextEdit.replace(range, newText, id); } this.edits.push(edit); if (id !== undefined) { return id; } }; TextEditChangeImpl.prototype["delete"] = function (range, annotation) { var edit; var id; if (annotation === undefined) { edit = TextEdit.del(range); } else if (ChangeAnnotationIdentifier.is(annotation)) { id = annotation; edit = AnnotatedTextEdit.del(range, annotation); } else { this.assertChangeAnnotations(this.changeAnnotations); id = this.changeAnnotations.manage(annotation); edit = AnnotatedTextEdit.del(range, id); } this.edits.push(edit); if (id !== undefined) { return id; } }; TextEditChangeImpl.prototype.add = function (edit) { this.edits.push(edit); }; TextEditChangeImpl.prototype.all = function () { return this.edits; }; TextEditChangeImpl.prototype.clear = function () { this.edits.splice(0, this.edits.length); }; TextEditChangeImpl.prototype.assertChangeAnnotations = function (value) { if (value === undefined) { throw new Error("Text edit change is not configured to manage change annotations."); } }; return TextEditChangeImpl; }(); /** * A helper class */ var ChangeAnnotations = /** @class */function () { function ChangeAnnotations(annotations) { this._annotations = annotations === undefined ? Object.create(null) : annotations; this._counter = 0; this._size = 0; } ChangeAnnotations.prototype.all = function () { return this._annotations; }; Object.defineProperty(ChangeAnnotations.prototype, "size", { get: function get() { return this._size; }, enumerable: false, configurable: true }); ChangeAnnotations.prototype.manage = function (idOrAnnotation, annotation) { var id; if (ChangeAnnotationIdentifier.is(idOrAnnotation)) { id = idOrAnnotation; } else { id = this.nextId(); annotation = idOrAnnotation; } if (this._annotations[id] !== undefined) { throw new Error("Id " + id + " is already in use."); } if (annotation === undefined) { throw new Error("No annotation provided for id " + id); } this._annotations[id] = annotation; this._size++; return id; }; ChangeAnnotations.prototype.nextId = function () { this._counter++; return this._counter.toString(); }; return ChangeAnnotations; }(); /** * A workspace change helps constructing changes to a workspace. */ var WorkspaceChange = /** @class */function () { function WorkspaceChange(workspaceEdit) { var _this = this; this._textEditChanges = Object.create(null); if (workspaceEdit !== undefined) { this._workspaceEdit = workspaceEdit; if (workspaceEdit.documentChanges) { this._changeAnnotations = new ChangeAnnotations(workspaceEdit.changeAnnotations); workspaceEdit.changeAnnotations = this._changeAnnotations.all(); workspaceEdit.documentChanges.forEach(function (change) { if (TextDocumentEdit.is(change)) { var textEditChange = new TextEditChangeImpl(change.edits, _this._changeAnnotations); _this._textEditChanges[change.textDocument.uri] = textEditChange; } }); } else if (workspaceEdit.changes) { Object.keys(workspaceEdit.changes).forEach(function (key) { var textEditChange = new TextEditChangeImpl(workspaceEdit.changes[key]); _this._textEditChanges[key] = textEditChange; }); } } else { this._workspaceEdit = {}; } } Object.defineProperty(WorkspaceChange.prototype, "edit", { /** * Returns the underlying [WorkspaceEdit](#WorkspaceEdit) literal * use to be returned from a workspace edit operation like rename. */ get: function get() { this.initDocumentChanges(); if (this._changeAnnotations !== undefined) { if (this._changeAnnotations.size === 0) { this._workspaceEdit.changeAnnotations = undefined; } else { this._workspaceEdit.changeAnnotations = this._changeAnnotations.all(); } } return this._workspaceEdit; }, enumerable: false, configurable: true }); WorkspaceChange.prototype.getTextEditChange = function (key) { if (OptionalVersionedTextDocumentIdentifier.is(key)) { this.initDocumentChanges(); if (this._workspaceEdit.documentChanges === undefined) { throw new Error('Workspace edit is not configured for document changes.'); } var textDocument = { uri: key.uri, version: key.version }; var result = this._textEditChanges[textDocument.uri]; if (!result) { var edits = []; var textDocumentEdit = { textDocument: textDocument, edits: edits }; this._workspaceEdit.documentChanges.push(textDocumentEdit); result = new TextEditChangeImpl(edits, this._changeAnnotations); this._textEditChanges[textDocument.uri] = result; } return result; } else { this.initChanges(); if (this._workspaceEdit.changes === undefined) { throw new Error('Workspace edit is not configured for normal text edit changes.'); } var result = this._textEditChanges[key]; if (!result) { var edits = []; this._workspaceEdit.changes[key] = edits; result = new TextEditChangeImpl(edits); this._textEditChanges[key] = result; } return result; } }; WorkspaceChange.prototype.initDocumentChanges = function () { if (this._workspaceEdit.documentChanges === undefined && this._workspaceEdit.changes === undefined) { this._changeAnnotations = new ChangeAnnotations(); this._workspaceEdit.documentChanges = []; this._workspaceEdit.changeAnnotations = this._changeAnnotations.all(); } }; WorkspaceChange.prototype.initChanges = function () { if (this._workspaceEdit.documentChanges === undefined && this._workspaceEdit.changes === undefined) { this._workspaceEdit.changes = Object.create(null); } }; WorkspaceChange.prototype.createFile = function (uri, optionsOrAnnotation, options) { this.initDocumentChanges(); if (this._workspaceEdit.documentChanges === undefined) { throw new Error('Workspace edit is not configured for document changes.'); } var annotation; if (ChangeAnnotation.is(optionsOrAnnotation) || ChangeAnnotationIdentifier.is(optionsOrAnnotation)) { annotation = optionsOrAnnotation; } else { options = optionsOrAnnotation; } var operation; var id; if (annotation === undefined) { operation = CreateFile.create(uri, options); } else { id = ChangeAnnotationIdentifier.is(annotation) ? annotation : this._changeAnnotations.manage(annotation); operation = CreateFile.create(uri, options, id); } this._workspaceEdit.documentChanges.push(operation); if (id !== undefined) { return id; } }; WorkspaceChange.prototype.renameFile = function (oldUri, newUri, optionsOrAnnotation, options) { this.initDocumentChanges(); if (this._workspaceEdit.documentChanges === undefined) { throw new Error('Workspace edit is not configured for document changes.'); } var annotation; if (ChangeAnnotation.is(optionsOrAnnotation) || ChangeAnnotationIdentifier.is(optionsOrAnnotation)) { annotation = optionsOrAnnotation; } else { options = optionsOrAnnotation; } var operation; var id; if (annotation === undefined) { operation = RenameFile.create(oldUri, newUri, options); } else { id = ChangeAnnotationIdentifier.is(annotation) ? annotation : this._changeAnnotations.manage(annotation); operation = RenameFile.create(oldUri, newUri, options, id); } this._workspaceEdit.documentChanges.push(operation); if (id !== undefined) { return id; } }; WorkspaceChange.prototype.deleteFile = function (uri, optionsOrAnnotation, options) { this.initDocumentChanges(); if (this._workspaceEdit.documentChanges === undefined) { throw new Error('Workspace edit is not configured for document changes.'); } var annotation; if (ChangeAnnotation.is(optionsOrAnnotation) || ChangeAnnotationIdentifier.is(optionsOrAnnotation)) { annotation = optionsOrAnnotation; } else { options = optionsOrAnnotation; } var operation; var id; if (annotation === undefined) { operation = DeleteFile.create(uri, options); } else { id = ChangeAnnotationIdentifier.is(annotation) ? annotation : this._changeAnnotations.manage(annotation); operation = DeleteFile.create(uri, options, id); } this._workspaceEdit.documentChanges.push(operation); if (id !== undefined) { return id; } }; return WorkspaceChange; }(); /** * The TextDocumentIdentifier namespace provides helper functions to work with * [TextDocumentIdentifier](#TextDocumentIdentifier) literals. */ var TextDocumentIdentifier; (function (TextDocumentIdentifier) { /** * Creates a new TextDocumentIdentifier literal. * @param uri The document's uri. */ function create(uri) { return { uri: uri }; } TextDocumentIdentifier.create = create; /** * Checks whether the given literal conforms to the [TextDocumentIdentifier](#TextDocumentIdentifier) interface. */ function is(value) { var candidate = value; return Is.defined(candidate) && Is.string(candidate.uri); } TextDocumentIdentifier.is = is; })(TextDocumentIdentifier || (TextDocumentIdentifier = {})); /** * The VersionedTextDocumentIdentifier namespace provides helper functions to work with * [VersionedTextDocumentIdentifier](#VersionedTextDocumentIdentifier) literals. */ var VersionedTextDocumentIdentifier; (function (VersionedTextDocumentIdentifier) { /** * Creates a new VersionedTextDocumentIdentifier literal. * @param uri The document's uri. * @param uri The document's text. */ function create(uri, version) { return { uri: uri, version: version }; } VersionedTextDocumentIdentifier.create = create; /** * Checks whether the given literal conforms to the [VersionedTextDocumentIdentifier](#VersionedTextDocumentIdentifier) interface. */ function is(value) { var candidate = value; return Is.defined(candidate) && Is.string(candidate.uri) && Is.integer(candidate.version); } VersionedTextDocumentIdentifier.is = is; })(VersionedTextDocumentIdentifier || (VersionedTextDocumentIdentifier = {})); /** * The OptionalVersionedTextDocumentIdentifier namespace provides helper functions to work with * [OptionalVersionedTextDocumentIdentifier](#OptionalVersionedTextDocumentIdentifier) literals. */ var OptionalVersionedTextDocumentIdentifier; (function (OptionalVersionedTextDocumentIdentifier) { /** * Creates a new OptionalVersionedTextDocumentIdentifier literal. * @param uri The document's uri. * @param uri The document's text. */ function create(uri, version) { return { uri: uri, version: version }; } OptionalVersionedTextDocumentIdentifier.create = create; /** * Checks whether the given literal conforms to the [OptionalVersionedTextDocumentIdentifier](#OptionalVersionedTextDocumentIdentifier) interface. */ function is(value) { var candidate = value; return Is.defined(candidate) && Is.string(candidate.uri) && (candidate.version === null || Is.integer(candidate.version)); } OptionalVersionedTextDocumentIdentifier.is = is; })(OptionalVersionedTextDocumentIdentifier || (OptionalVersionedTextDocumentIdentifier = {})); /** * The TextDocumentItem namespace provides helper functions to work with * [TextDocumentItem](#TextDocumentItem) literals. */ var TextDocumentItem; (function (TextDocumentItem) { /** * Creates a new TextDocumentItem literal. * @param uri The document's uri. * @param languageId The document's language identifier. * @param version The document's version number. * @param text The document's text. */ function create(uri, languageId, version, text) { return { uri: uri, languageId: languageId, version: version, text: text }; } TextDocumentItem.create = create; /** * Checks whether the given literal conforms to the [TextDocumentItem](#TextDocumentItem) interface. */ function is(value) { var candidate = value; return Is.defined(candidate) && Is.string(candidate.uri) && Is.string(candidate.languageId) && Is.integer(candidate.version) && Is.string(candidate.text); } TextDocumentItem.is = is; })(TextDocumentItem || (TextDocumentItem = {})); /** * Describes the content type that a client supports in various * result literals like `Hover`, `ParameterInfo` or `CompletionItem`. * * Please note that `MarkupKinds` must not start with a `$`. This kinds * are reserved for internal usage. */ var MarkupKind; (function (MarkupKind) { /** * Plain text is supported as a content format */ MarkupKind.PlainText = 'plaintext'; /** * Markdown is supported as a content format */ MarkupKind.Markdown = 'markdown'; })(MarkupKind || (MarkupKind = {})); (function (MarkupKind) { /** * Checks whether the given value is a value of the [MarkupKind](#MarkupKind) type. */ function is(value) { var candidate = value; return candidate === MarkupKind.PlainText || candidate === MarkupKind.Markdown; } MarkupKind.is = is; })(MarkupKind || (MarkupKind = {})); var MarkupContent; (function (MarkupContent) { /** * Checks whether the given value conforms to the [MarkupContent](#MarkupContent) interface. */ function is(value) { var candidate = value; return Is.objectLiteral(value) && MarkupKind.is(candidate.kind) && Is.string(candidate.value); } MarkupContent.is = is; })(MarkupContent || (MarkupContent = {})); /** * The kind of a completion entry. */ var main_CompletionItemKind; (function (CompletionItemKind) { CompletionItemKind.Text = 1; CompletionItemKind.Method = 2; CompletionItemKind.Function = 3; CompletionItemKind.Constructor = 4; CompletionItemKind.Field = 5; CompletionItemKind.Variable = 6; CompletionItemKind.Class = 7; CompletionItemKind.Interface = 8; CompletionItemKind.Module = 9; CompletionItemKind.Property = 10; CompletionItemKind.Unit = 11; CompletionItemKind.Value = 12; CompletionItemKind.Enum = 13; CompletionItemKind.Keyword = 14; CompletionItemKind.Snippet = 15; CompletionItemKind.Color = 16; CompletionItemKind.File = 17; CompletionItemKind.Reference = 18; CompletionItemKind.Folder = 19; CompletionItemKind.EnumMember = 20; CompletionItemKind.Constant = 21; CompletionItemKind.Struct = 22; CompletionItemKind.Event = 23; CompletionItemKind.Operator = 24; CompletionItemKind.TypeParameter = 25; })(main_CompletionItemKind || (main_CompletionItemKind = {})); /** * Defines whether the insert text in a completion item should be interpreted as * plain text or a snippet. */ var InsertTextFormat; (function (InsertTextFormat) { /** * The primary text to be inserted is treated as a plain string. */ InsertTextFormat.PlainText = 1; /** * The primary text to be inserted is treated as a snippet. * * A snippet can define tab stops and placeholders with `$1`, `$2` * and `${3:foo}`. `$0` defines the final tab stop, it defaults to * the end of the snippet. Placeholders with equal identifiers are linked, * that is typing in one will update others too. * * See also: https://microsoft.github.io/language-server-protocol/specifications/specification-current/#snippet_syntax */ InsertTextFormat.Snippet = 2; })(InsertTextFormat || (InsertTextFormat = {})); /** * Completion item tags are extra annotations that tweak the rendering of a completion * item. * * @since 3.15.0 */ var main_CompletionItemTag; (function (CompletionItemTag) { /** * Render a completion as obsolete, usually using a strike-out. */ CompletionItemTag.Deprecated = 1; })(main_CompletionItemTag || (main_CompletionItemTag = {})); /** * The InsertReplaceEdit namespace provides functions to deal with insert / replace edits. * * @since 3.16.0 */ var InsertReplaceEdit; (function (InsertReplaceEdit) { /** * Creates a new insert / replace edit */ function create(newText, insert, replace) { return { newText: newText, insert: insert, replace: replace }; } InsertReplaceEdit.create = create; /** * Checks whether the given literal conforms to the [InsertReplaceEdit](#InsertReplaceEdit) interface. */ function is(value) { var candidate = value; return candidate && Is.string(candidate.newText) && main_Range.is(candidate.insert) && main_Range.is(candidate.replace); } InsertReplaceEdit.is = is; })(InsertReplaceEdit || (InsertReplaceEdit = {})); /** * How whitespace and indentation is handled during completion * item insertion. * * @since 3.16.0 */ var InsertTextMode; (function (InsertTextMode) { /** * The insertion or replace strings is taken as it is. If the * value is multi line the lines below the cursor will be * inserted using the indentation defined in the string value. * The client will not apply any kind of adjustments to the * string. */ InsertTextMode.asIs = 1; /** * The editor adjusts leading whitespace of new lines so that * they match the indentation up to the cursor of the line for * which the item is accepted. * * Consider a line like this: <2tabs><3tabs>foo. Accepting a * multi line completion item is indented using 2 tabs and all * following lines inserted will be indented using 2 tabs as well. */ InsertTextMode.adjustIndentation = 2; })(InsertTextMode || (InsertTextMode = {})); /** * The CompletionItem namespace provides functions to deal with * completion items. */ var CompletionItem; (function (CompletionItem) { /** * Create a completion item and seed it with a label. * @param label The completion item's label */ function create(label) { return { label: label }; } CompletionItem.create = create; })(CompletionItem || (CompletionItem = {})); /** * The CompletionList namespace provides functions to deal with * completion lists. */ var CompletionList; (function (CompletionList) { /** * Creates a new completion list. * * @param items The completion items. * @param isIncomplete The list is not complete. */ function create(items, isIncomplete) { return { items: items ? items : [], isIncomplete: !!isIncomplete }; } CompletionList.create = create; })(CompletionList || (CompletionList = {})); var MarkedString; (function (MarkedString) { /** * Creates a marked string from plain text. * * @param plainText The plain text. */ function fromPlainText(plainText) { return plainText.replace(/[\\`*_{}[\]()#+\-.!]/g, '\\$&'); // escape markdown syntax tokens: http://daringfireball.net/projects/markdown/syntax#backslash } MarkedString.fromPlainText = fromPlainText; /** * Checks whether the given value conforms to the [MarkedString](#MarkedString) type. */ function is(value) { var candidate = value; return Is.string(candidate) || Is.objectLiteral(candidate) && Is.string(candidate.language) && Is.string(candidate.value); } MarkedString.is = is; })(MarkedString || (MarkedString = {})); var Hover; (function (Hover) { /** * Checks whether the given value conforms to the [Hover](#Hover) interface. */ function is(value) { var candidate = value; return !!candidate && Is.objectLiteral(candidate) && (MarkupContent.is(candidate.contents) || MarkedString.is(candidate.contents) || Is.typedArray(candidate.contents, MarkedString.is)) && (value.range === undefined || main_Range.is(value.range)); } Hover.is = is; })(Hover || (Hover = {})); /** * The ParameterInformation namespace provides helper functions to work with * [ParameterInformation](#ParameterInformation) literals. */ var ParameterInformation; (function (ParameterInformation) { /** * Creates a new parameter information literal. * * @param label A label string. * @param documentation A doc string. */ function create(label, documentation) { return documentation ? { label: label, documentation: documentation } : { label: label }; } ParameterInformation.create = create; })(ParameterInformation || (ParameterInformation = {})); /** * The SignatureInformation namespace provides helper functions to work with * [SignatureInformation](#SignatureInformation) literals. */ var SignatureInformation; (function (SignatureInformation) { function create(label, documentation) { var parameters = []; for (var _i = 2; _i < arguments.length; _i++) { parameters[_i - 2] = arguments[_i]; } var result = { label: label }; if (Is.defined(documentation)) { result.documentation = documentation; } if (Is.defined(parameters)) { result.parameters = parameters; } else { result.parameters = []; } return result; } SignatureInformation.create = create; })(SignatureInformation || (SignatureInformation = {})); /** * A document highlight kind. */ var main_DocumentHighlightKind; (function (DocumentHighlightKind) { /** * A textual occurrence. */ DocumentHighlightKind.Text = 1; /** * Read-access of a symbol, like reading a variable. */ DocumentHighlightKind.Read = 2; /** * Write-access of a symbol, like writing to a variable. */ DocumentHighlightKind.Write = 3; })(main_DocumentHighlightKind || (main_DocumentHighlightKind = {})); /** * DocumentHighlight namespace to provide helper functions to work with * [DocumentHighlight](#DocumentHighlight) literals. */ var DocumentHighlight; (function (DocumentHighlight) { /** * Create a DocumentHighlight object. * @param range The range the highlight applies to. */ function create(range, kind) { var result = { range: range }; if (Is.number(kind)) { result.kind = kind; } return result; } DocumentHighlight.create = create; })(DocumentHighlight || (DocumentHighlight = {})); /** * A symbol kind. */ var main_SymbolKind; (function (SymbolKind) { SymbolKind.File = 1; SymbolKind.Module = 2; SymbolKind.Namespace = 3; SymbolKind.Package = 4; SymbolKind.Class = 5; SymbolKind.Method = 6; SymbolKind.Property = 7; SymbolKind.Field = 8; SymbolKind.Constructor = 9; SymbolKind.Enum = 10; SymbolKind.Interface = 11; SymbolKind.Function = 12; SymbolKind.Variable = 13; SymbolKind.Constant = 14; SymbolKind.String = 15; SymbolKind.Number = 16; SymbolKind.Boolean = 17; SymbolKind.Array = 18; SymbolKind.Object = 19; SymbolKind.Key = 20; SymbolKind.Null = 21; SymbolKind.EnumMember = 22; SymbolKind.Struct = 23; SymbolKind.Event = 24; SymbolKind.Operator = 25; SymbolKind.TypeParameter = 26; })(main_SymbolKind || (main_SymbolKind = {})); /** * Symbol tags are extra annotations that tweak the rendering of a symbol. * @since 3.16 */ var main_SymbolTag; (function (SymbolTag) { /** * Render a symbol as obsolete, usually using a strike-out. */ SymbolTag.Deprecated = 1; })(main_SymbolTag || (main_SymbolTag = {})); var SymbolInformation; (function (SymbolInformation) { /** * Creates a new symbol information literal. * * @param name The name of the symbol. * @param kind The kind of the symbol. * @param range The range of the location of the symbol. * @param uri The resource of the location of symbol, defaults to the current document. * @param containerName The name of the symbol containing the symbol. */ function create(name, kind, range, uri, containerName) { var result = { name: name, kind: kind, location: { uri: uri, range: range } }; if (containerName) { result.containerName = containerName; } return result; } SymbolInformation.create = create; })(SymbolInformation || (SymbolInformation = {})); var DocumentSymbol; (function (DocumentSymbol) { /** * Creates a new symbol information literal. * * @param name The name of the symbol. * @param detail The detail of the symbol. * @param kind The kind of the symbol. * @param range The range of the symbol. * @param selectionRange The selectionRange of the symbol. * @param children Children of the symbol. */ function create(name, detail, kind, range, selectionRange, children) { var result = { name: name, detail: detail, kind: kind, range: range, selectionRange: selectionRange }; if (children !== undefined) { result.children = children; } return result; } DocumentSymbol.create = create; /** * Checks whether the given literal conforms to the [DocumentSymbol](#DocumentSymbol) interface. */ function is(value) { var candidate = value; return candidate && Is.string(candidate.name) && Is.number(candidate.kind) && main_Range.is(candidate.range) && main_Range.is(candidate.selectionRange) && (candidate.detail === undefined || Is.string(candidate.detail)) && (candidate.deprecated === undefined || Is["boolean"](candidate.deprecated)) && (candidate.children === undefined || Array.isArray(candidate.children)) && (candidate.tags === undefined || Array.isArray(candidate.tags)); } DocumentSymbol.is = is; })(DocumentSymbol || (DocumentSymbol = {})); /** * A set of predefined code action kinds */ var CodeActionKind; (function (CodeActionKind) { /** * Empty kind. */ CodeActionKind.Empty = ''; /** * Base kind for quickfix actions: 'quickfix' */ CodeActionKind.QuickFix = 'quickfix'; /** * Base kind for refactoring actions: 'refactor' */ CodeActionKind.Refactor = 'refactor'; /** * Base kind for refactoring extraction actions: 'refactor.extract' * * Example extract actions: * * - Extract method * - Extract function * - Extract variable * - Extract interface from class * - ... */ CodeActionKind.RefactorExtract = 'refactor.extract'; /** * Base kind for refactoring inline actions: 'refactor.inline' * * Example inline actions: * * - Inline function * - Inline variable * - Inline constant * - ... */ CodeActionKind.RefactorInline = 'refactor.inline'; /** * Base kind for refactoring rewrite actions: 'refactor.rewrite' * * Example rewrite actions: * * - Convert JavaScript function to class * - Add or remove parameter * - Encapsulate field * - Make method static * - Move method to base class * - ... */ CodeActionKind.RefactorRewrite = 'refactor.rewrite'; /** * Base kind for source actions: `source` * * Source code actions apply to the entire file. */ CodeActionKind.Source = 'source'; /** * Base kind for an organize imports source action: `source.organizeImports` */ CodeActionKind.SourceOrganizeImports = 'source.organizeImports'; /** * Base kind for auto-fix source actions: `source.fixAll`. * * Fix all actions automatically fix errors that have a clear fix that do not require user input. * They should not suppress errors or perform unsafe fixes such as generating new types or classes. * * @since 3.15.0 */ CodeActionKind.SourceFixAll = 'source.fixAll'; })(CodeActionKind || (CodeActionKind = {})); /** * The CodeActionContext namespace provides helper functions to work with * [CodeActionContext](#CodeActionContext) literals. */ var CodeActionContext; (function (CodeActionContext) { /** * Creates a new CodeActionContext literal. */ function create(diagnostics, only) { var result = { diagnostics: diagnostics }; if (only !== undefined && only !== null) { result.only = only; } return result; } CodeActionContext.create = create; /** * Checks whether the given literal conforms to the [CodeActionContext](#CodeActionContext) interface. */ function is(value) { var candidate = value; return Is.defined(candidate) && Is.typedArray(candidate.diagnostics, Diagnostic.is) && (candidate.only === undefined || Is.typedArray(candidate.only, Is.string)); } CodeActionContext.is = is; })(CodeActionContext || (CodeActionContext = {})); var CodeAction; (function (CodeAction) { function create(title, kindOrCommandOrEdit, kind) { var result = { title: title }; var checkKind = true; if (typeof kindOrCommandOrEdit === 'string') { checkKind = false; result.kind = kindOrCommandOrEdit; } else if (Command.is(kindOrCommandOrEdit)) { result.command = kindOrCommandOrEdit; } else { result.edit = kindOrCommandOrEdit; } if (checkKind && kind !== undefined) { result.kind = kind; } return result; } CodeAction.create = create; function is(value) { var candidate = value; return candidate && Is.string(candidate.title) && (candidate.diagnostics === undefined || Is.typedArray(candidate.diagnostics, Diagnostic.is)) && (candidate.kind === undefined || Is.string(candidate.kind)) && (candidate.edit !== undefined || candidate.command !== undefined) && (candidate.command === undefined || Command.is(candidate.command)) && (candidate.isPreferred === undefined || Is["boolean"](candidate.isPreferred)) && (candidate.edit === undefined || WorkspaceEdit.is(candidate.edit)); } CodeAction.is = is; })(CodeAction || (CodeAction = {})); /** * The CodeLens namespace provides helper functions to work with * [CodeLens](#CodeLens) literals. */ var CodeLens; (function (CodeLens) { /** * Creates a new CodeLens literal. */ function create(range, data) { var result = { range: range }; if (Is.defined(data)) { result.data = data; } return result; } CodeLens.create = create; /** * Checks whether the given literal conforms to the [CodeLens](#CodeLens) interface. */ function is(value) { var candidate = value; return Is.defined(candidate) && main_Range.is(candidate.range) && (Is.undefined(candidate.command) || Command.is(candidate.command)); } CodeLens.is = is; })(CodeLens || (CodeLens = {})); /** * The FormattingOptions namespace provides helper functions to work with * [FormattingOptions](#FormattingOptions) literals. */ var FormattingOptions; (function (FormattingOptions) { /** * Creates a new FormattingOptions literal. */ function create(tabSize, insertSpaces) { return { tabSize: tabSize, insertSpaces: insertSpaces }; } FormattingOptions.create = create; /** * Checks whether the given literal conforms to the [FormattingOptions](#FormattingOptions) interface. */ function is(value) { var candidate = value; return Is.defined(candidate) && Is.uinteger(candidate.tabSize) && Is["boolean"](candidate.insertSpaces); } FormattingOptions.is = is; })(FormattingOptions || (FormattingOptions = {})); /** * The DocumentLink namespace provides helper functions to work with * [DocumentLink](#DocumentLink) literals. */ var DocumentLink; (function (DocumentLink) { /** * Creates a new DocumentLink literal. */ function create(range, target, data) { return { range: range, target: target, data: data }; } DocumentLink.create = create; /** * Checks whether the given literal conforms to the [DocumentLink](#DocumentLink) interface. */ function is(value) { var candidate = value; return Is.defined(candidate) && main_Range.is(candidate.range) && (Is.undefined(candidate.target) || Is.string(candidate.target)); } DocumentLink.is = is; })(DocumentLink || (DocumentLink = {})); /** * The SelectionRange namespace provides helper function to work with * SelectionRange literals. */ var SelectionRange; (function (SelectionRange) { /** * Creates a new SelectionRange * @param range the range. * @param parent an optional parent. */ function create(range, parent) { return { range: range, parent: parent }; } SelectionRange.create = create; function is(value) { var candidate = value; return candidate !== undefined && main_Range.is(candidate.range) && (candidate.parent === undefined || SelectionRange.is(candidate.parent)); } SelectionRange.is = is; })(SelectionRange || (SelectionRange = {})); var EOL = (/* unused pure expression or super */ null && (['\n', '\r\n', '\r'])); /** * @deprecated Use the text document from the new vscode-languageserver-textdocument package. */ var TextDocument; (function (TextDocument) { /** * Creates a new ITextDocument literal from the given uri and content. * @param uri The document's uri. * @param languageId The document's language Id. * @param content The document's content. */ function create(uri, languageId, version, content) { return new FullTextDocument(uri, languageId, version, content); } TextDocument.create = create; /** * Checks whether the given literal conforms to the [ITextDocument](#ITextDocument) interface. */ function is(value) { var candidate = value; return Is.defined(candidate) && Is.string(candidate.uri) && (Is.undefined(candidate.languageId) || Is.string(candidate.languageId)) && Is.uinteger(candidate.lineCount) && Is.func(candidate.getText) && Is.func(candidate.positionAt) && Is.func(candidate.offsetAt) ? true : false; } TextDocument.is = is; function applyEdits(document, edits) { var text = document.getText(); var sortedEdits = mergeSort(edits, function (a, b) { var diff = a.range.start.line - b.range.start.line; if (diff === 0) { return a.range.start.character - b.range.start.character; } return diff; }); var lastModifiedOffset = text.length; for (var i = sortedEdits.length - 1; i >= 0; i--) { var e = sortedEdits[i]; var startOffset = document.offsetAt(e.range.start); var endOffset = document.offsetAt(e.range.end); if (endOffset <= lastModifiedOffset) { text = text.substring(0, startOffset) + e.newText + text.substring(endOffset, text.length); } else { throw new Error('Overlapping edit'); } lastModifiedOffset = startOffset; } return text; } TextDocument.applyEdits = applyEdits; function mergeSort(data, compare) { if (data.length <= 1) { // sorted return data; } var p = data.length / 2 | 0; var left = data.slice(0, p); var right = data.slice(p); mergeSort(left, compare); mergeSort(right, compare); var leftIdx = 0; var rightIdx = 0; var i = 0; while (leftIdx < left.length && rightIdx < right.length) { var ret = compare(left[leftIdx], right[rightIdx]); if (ret <= 0) { // smaller_equal -> take left to preserve order data[i++] = left[leftIdx++]; } else { // greater -> take right data[i++] = right[rightIdx++]; } } while (leftIdx < left.length) { data[i++] = left[leftIdx++]; } while (rightIdx < right.length) { data[i++] = right[rightIdx++]; } return data; } })(TextDocument || (TextDocument = {})); /** * @deprecated Use the text document from the new vscode-languageserver-textdocument package. */ var FullTextDocument = /** @class */function () { function FullTextDocument(uri, languageId, version, content) { this._uri = uri; this._languageId = languageId; this._version = version; this._content = content; this._lineOffsets = undefined; } Object.defineProperty(FullTextDocument.prototype, "uri", { get: function get() { return this._uri; }, enumerable: false, configurable: true }); Object.defineProperty(FullTextDocument.prototype, "languageId", { get: function get() { return this._languageId; }, enumerable: false, configurable: true }); Object.defineProperty(FullTextDocument.prototype, "version", { get: function get() { return this._version; }, enumerable: false, configurable: true }); FullTextDocument.prototype.getText = function (range) { if (range) { var start = this.offsetAt(range.start); var end = this.offsetAt(range.end); return this._content.substring(start, end); } return this._content; }; FullTextDocument.prototype.update = function (event, version) { this._content = event.text; this._version = version; this._lineOffsets = undefined; }; FullTextDocument.prototype.getLineOffsets = function () { if (this._lineOffsets === undefined) { var lineOffsets = []; var text = this._content; var isLineStart = true; for (var i = 0; i < text.length; i++) { if (isLineStart) { lineOffsets.push(i); isLineStart = false; } var ch = text.charAt(i); isLineStart = ch === '\r' || ch === '\n'; if (ch === '\r' && i + 1 < text.length && text.charAt(i + 1) === '\n') { i++; } } if (isLineStart && text.length > 0) { lineOffsets.push(text.length); } this._lineOffsets = lineOffsets; } return this._lineOffsets; }; FullTextDocument.prototype.positionAt = function (offset) { offset = Math.max(Math.min(offset, this._content.length), 0); var lineOffsets = this.getLineOffsets(); var low = 0, high = lineOffsets.length; if (high === 0) { return main_Position.create(0, offset); } while (low < high) { var mid = Math.floor((low + high) / 2); if (lineOffsets[mid] > offset) { high = mid; } else { low = mid + 1; } } // low is the least x for which the line offset is larger than the current offset // or array.length if no line offset is larger than the current offset var line = low - 1; return main_Position.create(line, offset - lineOffsets[line]); }; FullTextDocument.prototype.offsetAt = function (position) { var lineOffsets = this.getLineOffsets(); if (position.line >= lineOffsets.length) { return this._content.length; } else if (position.line < 0) { return 0; } var lineOffset = lineOffsets[position.line]; var nextLineOffset = position.line + 1 < lineOffsets.length ? lineOffsets[position.line + 1] : this._content.length; return Math.max(Math.min(lineOffset + position.character, nextLineOffset), lineOffset); }; Object.defineProperty(FullTextDocument.prototype, "lineCount", { get: function get() { return this.getLineOffsets().length; }, enumerable: false, configurable: true }); return FullTextDocument; }(); var Is; (function (Is) { var toString = Object.prototype.toString; function defined(value) { return typeof value !== 'undefined'; } Is.defined = defined; function undefined(value) { return typeof value === 'undefined'; } Is.undefined = undefined; function _boolean(value) { return value === true || value === false; } Is["boolean"] = _boolean; function string(value) { return toString.call(value) === '[object String]'; } Is.string = string; function number(value) { return toString.call(value) === '[object Number]'; } Is.number = number; function numberRange(value, min, max) { return toString.call(value) === '[object Number]' && min <= value && value <= max; } Is.numberRange = numberRange; function integer(value) { return toString.call(value) === '[object Number]' && -2147483648 <= value && value <= 2147483647; } Is.integer = integer; function uinteger(value) { return toString.call(value) === '[object Number]' && 0 <= value && value <= 2147483647; } Is.uinteger = uinteger; function func(value) { return toString.call(value) === '[object Function]'; } Is.func = func; function objectLiteral(value) { // Strictly speaking class instances pass this check as well. Since the LSP // doesn't use classes we ignore this for now. If we do we need to add something // like this: `Object.getPrototypeOf(Object.getPrototypeOf(x)) === null` return value !== null && typeof_default()(value) === 'object'; } Is.objectLiteral = objectLiteral; function typedArray(value, check) { return Array.isArray(value) && value.every(check); } Is.typedArray = typedArray; })(Is || (Is = {})); ;// CONCATENATED MODULE: ./node_modules/monaco-editor/esm/vs/language/css/_deps/vscode-languageserver-textdocument/lib/esm/main.js /* -------------------------------------------------------------------------------------------- * Copyright (c) Microsoft Corporation. All rights reserved. * Licensed under the MIT License. See License.txt in the project root for license information. * ------------------------------------------------------------------------------------------ */ var main_spreadArray = undefined && undefined.__spreadArray || function (to, from, pack) { if (pack || arguments.length === 2) for (var i = 0, l = from.length, ar; i < l; i++) { if (ar || !(i in from)) { if (!ar) ar = Array.prototype.slice.call(from, 0, i); ar[i] = from[i]; } } return to.concat(ar || Array.prototype.slice.call(from)); }; var main_FullTextDocument = /** @class */function () { function FullTextDocument(uri, languageId, version, content) { this._uri = uri; this._languageId = languageId; this._version = version; this._content = content; this._lineOffsets = undefined; } Object.defineProperty(FullTextDocument.prototype, "uri", { get: function get() { return this._uri; }, enumerable: false, configurable: true }); Object.defineProperty(FullTextDocument.prototype, "languageId", { get: function get() { return this._languageId; }, enumerable: false, configurable: true }); Object.defineProperty(FullTextDocument.prototype, "version", { get: function get() { return this._version; }, enumerable: false, configurable: true }); FullTextDocument.prototype.getText = function (range) { if (range) { var start = this.offsetAt(range.start); var end = this.offsetAt(range.end); return this._content.substring(start, end); } return this._content; }; FullTextDocument.prototype.update = function (changes, version) { for (var _i = 0, changes_1 = changes; _i < changes_1.length; _i++) { var change = changes_1[_i]; if (FullTextDocument.isIncremental(change)) { // makes sure start is before end var range = getWellformedRange(change.range); // update content var startOffset = this.offsetAt(range.start); var endOffset = this.offsetAt(range.end); this._content = this._content.substring(0, startOffset) + change.text + this._content.substring(endOffset, this._content.length); // update the offsets var startLine = Math.max(range.start.line, 0); var endLine = Math.max(range.end.line, 0); var lineOffsets = this._lineOffsets; var addedLineOffsets = computeLineOffsets(change.text, false, startOffset); if (endLine - startLine === addedLineOffsets.length) { for (var i = 0, len = addedLineOffsets.length; i < len; i++) { lineOffsets[i + startLine + 1] = addedLineOffsets[i]; } } else { if (addedLineOffsets.length < 10000) { lineOffsets.splice.apply(lineOffsets, main_spreadArray([startLine + 1, endLine - startLine], addedLineOffsets, false)); } else { // avoid too many arguments for splice this._lineOffsets = lineOffsets = lineOffsets.slice(0, startLine + 1).concat(addedLineOffsets, lineOffsets.slice(endLine + 1)); } } var diff = change.text.length - (endOffset - startOffset); if (diff !== 0) { for (var i = startLine + 1 + addedLineOffsets.length, len = lineOffsets.length; i < len; i++) { lineOffsets[i] = lineOffsets[i] + diff; } } } else if (FullTextDocument.isFull(change)) { this._content = change.text; this._lineOffsets = undefined; } else { throw new Error('Unknown change event received'); } } this._version = version; }; FullTextDocument.prototype.getLineOffsets = function () { if (this._lineOffsets === undefined) { this._lineOffsets = computeLineOffsets(this._content, true); } return this._lineOffsets; }; FullTextDocument.prototype.positionAt = function (offset) { offset = Math.max(Math.min(offset, this._content.length), 0); var lineOffsets = this.getLineOffsets(); var low = 0, high = lineOffsets.length; if (high === 0) { return { line: 0, character: offset }; } while (low < high) { var mid = Math.floor((low + high) / 2); if (lineOffsets[mid] > offset) { high = mid; } else { low = mid + 1; } } // low is the least x for which the line offset is larger than the current offset // or array.length if no line offset is larger than the current offset var line = low - 1; return { line: line, character: offset - lineOffsets[line] }; }; FullTextDocument.prototype.offsetAt = function (position) { var lineOffsets = this.getLineOffsets(); if (position.line >= lineOffsets.length) { return this._content.length; } else if (position.line < 0) { return 0; } var lineOffset = lineOffsets[position.line]; var nextLineOffset = position.line + 1 < lineOffsets.length ? lineOffsets[position.line + 1] : this._content.length; return Math.max(Math.min(lineOffset + position.character, nextLineOffset), lineOffset); }; Object.defineProperty(FullTextDocument.prototype, "lineCount", { get: function get() { return this.getLineOffsets().length; }, enumerable: false, configurable: true }); FullTextDocument.isIncremental = function (event) { var candidate = event; return candidate !== undefined && candidate !== null && typeof candidate.text === 'string' && candidate.range !== undefined && (candidate.rangeLength === undefined || typeof candidate.rangeLength === 'number'); }; FullTextDocument.isFull = function (event) { var candidate = event; return candidate !== undefined && candidate !== null && typeof candidate.text === 'string' && candidate.range === undefined && candidate.rangeLength === undefined; }; return FullTextDocument; }(); var main_TextDocument; (function (TextDocument) { /** * Creates a new text document. * * @param uri The document's uri. * @param languageId The document's language Id. * @param version The document's initial version number. * @param content The document's content. */ function create(uri, languageId, version, content) { return new main_FullTextDocument(uri, languageId, version, content); } TextDocument.create = create; /** * Updates a TextDocument by modifying its content. * * @param document the document to update. Only documents created by TextDocument.create are valid inputs. * @param changes the changes to apply to the document. * @param version the changes version for the document. * @returns The updated TextDocument. Note: That's the same document instance passed in as first parameter. * */ function update(document, changes, version) { if (document instanceof main_FullTextDocument) { document.update(changes, version); return document; } else { throw new Error('TextDocument.update: document must be created by TextDocument.create'); } } TextDocument.update = update; function applyEdits(document, edits) { var text = document.getText(); var sortedEdits = mergeSort(edits.map(getWellformedEdit), function (a, b) { var diff = a.range.start.line - b.range.start.line; if (diff === 0) { return a.range.start.character - b.range.start.character; } return diff; }); var lastModifiedOffset = 0; var spans = []; for (var _i = 0, sortedEdits_1 = sortedEdits; _i < sortedEdits_1.length; _i++) { var e = sortedEdits_1[_i]; var startOffset = document.offsetAt(e.range.start); if (startOffset < lastModifiedOffset) { throw new Error('Overlapping edit'); } else if (startOffset > lastModifiedOffset) { spans.push(text.substring(lastModifiedOffset, startOffset)); } if (e.newText.length) { spans.push(e.newText); } lastModifiedOffset = document.offsetAt(e.range.end); } spans.push(text.substr(lastModifiedOffset)); return spans.join(''); } TextDocument.applyEdits = applyEdits; })(main_TextDocument || (main_TextDocument = {})); function mergeSort(data, compare) { if (data.length <= 1) { // sorted return data; } var p = data.length / 2 | 0; var left = data.slice(0, p); var right = data.slice(p); mergeSort(left, compare); mergeSort(right, compare); var leftIdx = 0; var rightIdx = 0; var i = 0; while (leftIdx < left.length && rightIdx < right.length) { var ret = compare(left[leftIdx], right[rightIdx]); if (ret <= 0) { // smaller_equal -> take left to preserve order data[i++] = left[leftIdx++]; } else { // greater -> take right data[i++] = right[rightIdx++]; } } while (leftIdx < left.length) { data[i++] = left[leftIdx++]; } while (rightIdx < right.length) { data[i++] = right[rightIdx++]; } return data; } function computeLineOffsets(text, isAtLineStart, textOffset) { if (textOffset === void 0) { textOffset = 0; } var result = isAtLineStart ? [textOffset] : []; for (var i = 0; i < text.length; i++) { var ch = text.charCodeAt(i); if (ch === 13 /* CarriageReturn */ || ch === 10 /* LineFeed */) { if (ch === 13 /* CarriageReturn */ && i + 1 < text.length && text.charCodeAt(i + 1) === 10 /* LineFeed */) { i++; } result.push(textOffset + i + 1); } } return result; } function getWellformedRange(range) { var start = range.start; var end = range.end; if (start.line > end.line || start.line === end.line && start.character > end.character) { return { start: end, end: start }; } return range; } function getWellformedEdit(textEdit) { var range = getWellformedRange(textEdit.range); if (range !== textEdit.range) { return { newText: textEdit.newText, range: range }; } return textEdit; } ;// CONCATENATED MODULE: ./node_modules/monaco-editor/esm/vs/language/css/_deps/vscode-css-languageservice/cssLanguageTypes.js /*--------------------------------------------------------------------------------------------- * Copyright (c) Microsoft Corporation. All rights reserved. * Licensed under the MIT License. See License.txt in the project root for license information. *--------------------------------------------------------------------------------------------*/ var ClientCapabilities; (function (ClientCapabilities) { ClientCapabilities.LATEST = { textDocument: { completion: { completionItem: { documentationFormat: [MarkupKind.Markdown, MarkupKind.PlainText] } }, hover: { contentFormat: [MarkupKind.Markdown, MarkupKind.PlainText] } } }; })(ClientCapabilities || (ClientCapabilities = {})); var FileType; (function (FileType) { /** * The file type is unknown. */ FileType[FileType["Unknown"] = 0] = "Unknown"; /** * A regular file. */ FileType[FileType["File"] = 1] = "File"; /** * A directory. */ FileType[FileType["Directory"] = 2] = "Directory"; /** * A symbolic link to a file. */ FileType[FileType["SymbolicLink"] = 64] = "SymbolicLink"; })(FileType || (FileType = {})); ;// CONCATENATED MODULE: ./node_modules/monaco-editor/esm/vs/language/css/_deps/vscode-uri/index.js /* provided dependency */ var vscode_uri_process = __webpack_require__(/*! ./node_modules/process/browser.js */ 89); var LIB; LIB = function () { "use strict"; var t = { 470: function _(t) { function e(t) { if ("string" != typeof t) throw new TypeError("Path must be a string. Received " + JSON.stringify(t)); } function r(t, e) { for (var r, n = "", o = 0, i = -1, a = 0, h = 0; h <= t.length; ++h) { if (h < t.length) r = t.charCodeAt(h);else { if (47 === r) break; r = 47; } if (47 === r) { if (i === h - 1 || 1 === a) ;else if (i !== h - 1 && 2 === a) { if (n.length < 2 || 2 !== o || 46 !== n.charCodeAt(n.length - 1) || 46 !== n.charCodeAt(n.length - 2)) if (n.length > 2) { var s = n.lastIndexOf("/"); if (s !== n.length - 1) { -1 === s ? (n = "", o = 0) : o = (n = n.slice(0, s)).length - 1 - n.lastIndexOf("/"), i = h, a = 0; continue; } } else if (2 === n.length || 1 === n.length) { n = "", o = 0, i = h, a = 0; continue; } e && (n.length > 0 ? n += "/.." : n = "..", o = 2); } else n.length > 0 ? n += "/" + t.slice(i + 1, h) : n = t.slice(i + 1, h), o = h - i - 1; i = h, a = 0; } else 46 === r && -1 !== a ? ++a : a = -1; } return n; } var n = { resolve: function resolve() { for (var t, n = "", o = !1, i = arguments.length - 1; i >= -1 && !o; i--) { var a; i >= 0 ? a = arguments[i] : (void 0 === t && (t = vscode_uri_process.cwd()), a = t), e(a), 0 !== a.length && (n = a + "/" + n, o = 47 === a.charCodeAt(0)); } return n = r(n, !o), o ? n.length > 0 ? "/" + n : "/" : n.length > 0 ? n : "."; }, normalize: function normalize(t) { if (e(t), 0 === t.length) return "."; var n = 47 === t.charCodeAt(0), o = 47 === t.charCodeAt(t.length - 1); return 0 !== (t = r(t, !n)).length || n || (t = "."), t.length > 0 && o && (t += "/"), n ? "/" + t : t; }, isAbsolute: function isAbsolute(t) { return e(t), t.length > 0 && 47 === t.charCodeAt(0); }, join: function join() { if (0 === arguments.length) return "."; for (var t, r = 0; r < arguments.length; ++r) { var o = arguments[r]; e(o), o.length > 0 && (void 0 === t ? t = o : t += "/" + o); } return void 0 === t ? "." : n.normalize(t); }, relative: function relative(t, r) { if (e(t), e(r), t === r) return ""; if ((t = n.resolve(t)) === (r = n.resolve(r))) return ""; for (var o = 1; o < t.length && 47 === t.charCodeAt(o); ++o); for (var i = t.length, a = i - o, h = 1; h < r.length && 47 === r.charCodeAt(h); ++h); for (var s = r.length - h, f = a < s ? a : s, u = -1, c = 0; c <= f; ++c) { if (c === f) { if (s > f) { if (47 === r.charCodeAt(h + c)) return r.slice(h + c + 1); if (0 === c) return r.slice(h + c); } else a > f && (47 === t.charCodeAt(o + c) ? u = c : 0 === c && (u = 0)); break; } var l = t.charCodeAt(o + c); if (l !== r.charCodeAt(h + c)) break; 47 === l && (u = c); } var p = ""; for (c = o + u + 1; c <= i; ++c) c !== i && 47 !== t.charCodeAt(c) || (0 === p.length ? p += ".." : p += "/.."); return p.length > 0 ? p + r.slice(h + u) : (h += u, 47 === r.charCodeAt(h) && ++h, r.slice(h)); }, _makeLong: function _makeLong(t) { return t; }, dirname: function dirname(t) { if (e(t), 0 === t.length) return "."; for (var r = t.charCodeAt(0), n = 47 === r, o = -1, i = !0, a = t.length - 1; a >= 1; --a) if (47 === (r = t.charCodeAt(a))) { if (!i) { o = a; break; } } else i = !1; return -1 === o ? n ? "/" : "." : n && 1 === o ? "//" : t.slice(0, o); }, basename: function basename(t, r) { if (void 0 !== r && "string" != typeof r) throw new TypeError('"ext" argument must be a string'); e(t); var n, o = 0, i = -1, a = !0; if (void 0 !== r && r.length > 0 && r.length <= t.length) { if (r.length === t.length && r === t) return ""; var h = r.length - 1, s = -1; for (n = t.length - 1; n >= 0; --n) { var f = t.charCodeAt(n); if (47 === f) { if (!a) { o = n + 1; break; } } else -1 === s && (a = !1, s = n + 1), h >= 0 && (f === r.charCodeAt(h) ? -1 == --h && (i = n) : (h = -1, i = s)); } return o === i ? i = s : -1 === i && (i = t.length), t.slice(o, i); } for (n = t.length - 1; n >= 0; --n) if (47 === t.charCodeAt(n)) { if (!a) { o = n + 1; break; } } else -1 === i && (a = !1, i = n + 1); return -1 === i ? "" : t.slice(o, i); }, extname: function extname(t) { e(t); for (var r = -1, n = 0, o = -1, i = !0, a = 0, h = t.length - 1; h >= 0; --h) { var s = t.charCodeAt(h); if (47 !== s) -1 === o && (i = !1, o = h + 1), 46 === s ? -1 === r ? r = h : 1 !== a && (a = 1) : -1 !== r && (a = -1);else if (!i) { n = h + 1; break; } } return -1 === r || -1 === o || 0 === a || 1 === a && r === o - 1 && r === n + 1 ? "" : t.slice(r, o); }, format: function format(t) { if (null === t || "object" != typeof_default()(t)) throw new TypeError('The "pathObject" argument must be of type Object. Received type ' + typeof_default()(t)); return function (t, e) { var r = e.dir || e.root, n = e.base || (e.name || "") + (e.ext || ""); return r ? r === e.root ? r + n : r + "/" + n : n; }(0, t); }, parse: function parse(t) { e(t); var r = { root: "", dir: "", base: "", ext: "", name: "" }; if (0 === t.length) return r; var n, o = t.charCodeAt(0), i = 47 === o; i ? (r.root = "/", n = 1) : n = 0; for (var a = -1, h = 0, s = -1, f = !0, u = t.length - 1, c = 0; u >= n; --u) if (47 !== (o = t.charCodeAt(u))) -1 === s && (f = !1, s = u + 1), 46 === o ? -1 === a ? a = u : 1 !== c && (c = 1) : -1 !== a && (c = -1);else if (!f) { h = u + 1; break; } return -1 === a || -1 === s || 0 === c || 1 === c && a === s - 1 && a === h + 1 ? -1 !== s && (r.base = r.name = 0 === h && i ? t.slice(1, s) : t.slice(h, s)) : (0 === h && i ? (r.name = t.slice(1, a), r.base = t.slice(1, s)) : (r.name = t.slice(h, a), r.base = t.slice(h, s)), r.ext = t.slice(a, s)), h > 0 ? r.dir = t.slice(0, h - 1) : i && (r.dir = "/"), r; }, sep: "/", delimiter: ":", win32: null, posix: null }; n.posix = n, t.exports = n; }, 447: function _(t, e, r) { var n; if (r.r(e), r.d(e, { URI: function URI() { return g; }, Utils: function Utils() { return O; } }), "object" == (typeof vscode_uri_process === "undefined" ? "undefined" : typeof_default()(vscode_uri_process))) n = "win32" === vscode_uri_process.platform;else if ("object" == (typeof navigator === "undefined" ? "undefined" : typeof_default()(navigator))) { var o = navigator.userAgent; n = o.indexOf("Windows") >= 0; } var _i, a, h = (_i = function i(t, e) { return (_i = Object.setPrototypeOf || { __proto__: [] } instanceof Array && function (t, e) { t.__proto__ = e; } || function (t, e) { for (var r in e) Object.prototype.hasOwnProperty.call(e, r) && (t[r] = e[r]); })(t, e); }, function (t, e) { function r() { this.constructor = t; } _i(t, e), t.prototype = null === e ? Object.create(e) : (r.prototype = e.prototype, new r()); }), s = /^\w[\w\d+.-]*$/, f = /^\//, u = /^\/\//, c = "", l = "/", p = /^(([^:/?#]+?):)?(\/\/([^/?#]*))?([^?#]*)(\?([^#]*))?(#(.*))?/, g = function () { function t(t, e, r, n, o, i) { void 0 === i && (i = !1), "object" == typeof_default()(t) ? (this.scheme = t.scheme || c, this.authority = t.authority || c, this.path = t.path || c, this.query = t.query || c, this.fragment = t.fragment || c) : (this.scheme = function (t, e) { return t || e ? t : "file"; }(t, i), this.authority = e || c, this.path = function (t, e) { switch (t) { case "https": case "http": case "file": e ? e[0] !== l && (e = l + e) : e = l; } return e; }(this.scheme, r || c), this.query = n || c, this.fragment = o || c, function (t, e) { if (!t.scheme && e) throw new Error('[UriError]: Scheme is missing: {scheme: "", authority: "' + t.authority + '", path: "' + t.path + '", query: "' + t.query + '", fragment: "' + t.fragment + '"}'); if (t.scheme && !s.test(t.scheme)) throw new Error("[UriError]: Scheme contains illegal characters."); if (t.path) if (t.authority) { if (!f.test(t.path)) throw new Error('[UriError]: If a URI contains an authority component, then the path component must either be empty or begin with a slash ("/") character'); } else if (u.test(t.path)) throw new Error('[UriError]: If a URI does not contain an authority component, then the path cannot begin with two slash characters ("//")'); }(this, i)); } return t.isUri = function (e) { return e instanceof t || !!e && "string" == typeof e.authority && "string" == typeof e.fragment && "string" == typeof e.path && "string" == typeof e.query && "string" == typeof e.scheme && "function" == typeof e.fsPath && "function" == typeof e["with"] && "function" == typeof e.toString; }, Object.defineProperty(t.prototype, "fsPath", { get: function get() { return C(this, !1); }, enumerable: !1, configurable: !0 }), t.prototype["with"] = function (t) { if (!t) return this; var e = t.scheme, r = t.authority, n = t.path, o = t.query, i = t.fragment; return void 0 === e ? e = this.scheme : null === e && (e = c), void 0 === r ? r = this.authority : null === r && (r = c), void 0 === n ? n = this.path : null === n && (n = c), void 0 === o ? o = this.query : null === o && (o = c), void 0 === i ? i = this.fragment : null === i && (i = c), e === this.scheme && r === this.authority && n === this.path && o === this.query && i === this.fragment ? this : new v(e, r, n, o, i); }, t.parse = function (t, e) { void 0 === e && (e = !1); var r = p.exec(t); return r ? new v(r[2] || c, x(r[4] || c), x(r[5] || c), x(r[7] || c), x(r[9] || c), e) : new v(c, c, c, c, c); }, t.file = function (t) { var e = c; if (n && (t = t.replace(/\\/g, l)), t[0] === l && t[1] === l) { var r = t.indexOf(l, 2); -1 === r ? (e = t.substring(2), t = l) : (e = t.substring(2, r), t = t.substring(r) || l); } return new v("file", e, t, c, c); }, t.from = function (t) { return new v(t.scheme, t.authority, t.path, t.query, t.fragment); }, t.prototype.toString = function (t) { return void 0 === t && (t = !1), A(this, t); }, t.prototype.toJSON = function () { return this; }, t.revive = function (e) { if (e) { if (e instanceof t) return e; var r = new v(e); return r._formatted = e.external, r._fsPath = e._sep === d ? e.fsPath : null, r; } return e; }, t; }(), d = n ? 1 : void 0, v = function (t) { function e() { var e = null !== t && t.apply(this, arguments) || this; return e._formatted = null, e._fsPath = null, e; } return h(e, t), Object.defineProperty(e.prototype, "fsPath", { get: function get() { return this._fsPath || (this._fsPath = C(this, !1)), this._fsPath; }, enumerable: !1, configurable: !0 }), e.prototype.toString = function (t) { return void 0 === t && (t = !1), t ? A(this, !0) : (this._formatted || (this._formatted = A(this, !1)), this._formatted); }, e.prototype.toJSON = function () { var t = { $mid: 1 }; return this._fsPath && (t.fsPath = this._fsPath, t._sep = d), this._formatted && (t.external = this._formatted), this.path && (t.path = this.path), this.scheme && (t.scheme = this.scheme), this.authority && (t.authority = this.authority), this.query && (t.query = this.query), this.fragment && (t.fragment = this.fragment), t; }, e; }(g), m = ((a = {})[58] = "%3A", a[47] = "%2F", a[63] = "%3F", a[35] = "%23", a[91] = "%5B", a[93] = "%5D", a[64] = "%40", a[33] = "%21", a[36] = "%24", a[38] = "%26", a[39] = "%27", a[40] = "%28", a[41] = "%29", a[42] = "%2A", a[43] = "%2B", a[44] = "%2C", a[59] = "%3B", a[61] = "%3D", a[32] = "%20", a); function y(t, e) { for (var r = void 0, n = -1, o = 0; o < t.length; o++) { var i = t.charCodeAt(o); if (i >= 97 && i <= 122 || i >= 65 && i <= 90 || i >= 48 && i <= 57 || 45 === i || 46 === i || 95 === i || 126 === i || e && 47 === i) -1 !== n && (r += encodeURIComponent(t.substring(n, o)), n = -1), void 0 !== r && (r += t.charAt(o));else { void 0 === r && (r = t.substr(0, o)); var a = m[i]; void 0 !== a ? (-1 !== n && (r += encodeURIComponent(t.substring(n, o)), n = -1), r += a) : -1 === n && (n = o); } } return -1 !== n && (r += encodeURIComponent(t.substring(n))), void 0 !== r ? r : t; } function b(t) { for (var e = void 0, r = 0; r < t.length; r++) { var n = t.charCodeAt(r); 35 === n || 63 === n ? (void 0 === e && (e = t.substr(0, r)), e += m[n]) : void 0 !== e && (e += t[r]); } return void 0 !== e ? e : t; } function C(t, e) { var r; return r = t.authority && t.path.length > 1 && "file" === t.scheme ? "//" + t.authority + t.path : 47 === t.path.charCodeAt(0) && (t.path.charCodeAt(1) >= 65 && t.path.charCodeAt(1) <= 90 || t.path.charCodeAt(1) >= 97 && t.path.charCodeAt(1) <= 122) && 58 === t.path.charCodeAt(2) ? e ? t.path.substr(1) : t.path[1].toLowerCase() + t.path.substr(2) : t.path, n && (r = r.replace(/\//g, "\\")), r; } function A(t, e) { var r = e ? b : y, n = "", o = t.scheme, i = t.authority, a = t.path, h = t.query, s = t.fragment; if (o && (n += o, n += ":"), (i || "file" === o) && (n += l, n += l), i) { var f = i.indexOf("@"); if (-1 !== f) { var u = i.substr(0, f); i = i.substr(f + 1), -1 === (f = u.indexOf(":")) ? n += r(u, !1) : (n += r(u.substr(0, f), !1), n += ":", n += r(u.substr(f + 1), !1)), n += "@"; } -1 === (f = (i = i.toLowerCase()).indexOf(":")) ? n += r(i, !1) : (n += r(i.substr(0, f), !1), n += i.substr(f)); } if (a) { if (a.length >= 3 && 47 === a.charCodeAt(0) && 58 === a.charCodeAt(2)) (c = a.charCodeAt(1)) >= 65 && c <= 90 && (a = "/" + String.fromCharCode(c + 32) + ":" + a.substr(3));else if (a.length >= 2 && 58 === a.charCodeAt(1)) { var c; (c = a.charCodeAt(0)) >= 65 && c <= 90 && (a = String.fromCharCode(c + 32) + ":" + a.substr(2)); } n += r(a, !0); } return h && (n += "?", n += r(h, !1)), s && (n += "#", n += e ? s : y(s, !1)), n; } function w(t) { try { return decodeURIComponent(t); } catch (e) { return t.length > 3 ? t.substr(0, 3) + w(t.substr(3)) : t; } } var _ = /(%[0-9A-Za-z][0-9A-Za-z])+/g; function x(t) { return t.match(_) ? t.replace(_, function (t) { return w(t); }) : t; } var O, P = r(470), j = function j() { for (var t = 0, e = 0, r = arguments.length; e < r; e++) t += arguments[e].length; var n = Array(t), o = 0; for (e = 0; e < r; e++) for (var i = arguments[e], a = 0, h = i.length; a < h; a++, o++) n[o] = i[a]; return n; }, U = P.posix || P; !function (t) { t.joinPath = function (t) { for (var e = [], r = 1; r < arguments.length; r++) e[r - 1] = arguments[r]; return t["with"]({ path: U.join.apply(U, j([t.path], e)) }); }, t.resolvePath = function (t) { for (var e = [], r = 1; r < arguments.length; r++) e[r - 1] = arguments[r]; var n = t.path || "/"; return t["with"]({ path: U.resolve.apply(U, j([n], e)) }); }, t.dirname = function (t) { var e = U.dirname(t.path); return 1 === e.length && 46 === e.charCodeAt(0) ? t : t["with"]({ path: e }); }, t.basename = function (t) { return U.basename(t.path); }, t.extname = function (t) { return U.extname(t.path); }; }(O || (O = {})); } }, e = {}; function r(n) { if (e[n]) return e[n].exports; var o = e[n] = { exports: {} }; return t[n](o, o.exports, r), o.exports; } return r.d = function (t, e) { for (var n in e) r.o(e, n) && !r.o(t, n) && Object.defineProperty(t, n, { enumerable: !0, get: e[n] }); }, r.o = function (t, e) { return Object.prototype.hasOwnProperty.call(t, e); }, r.r = function (t) { "undefined" != typeof Symbol && Symbol.toStringTag && Object.defineProperty(t, Symbol.toStringTag, { value: "Module" }), Object.defineProperty(t, "__esModule", { value: !0 }); }, r(447); }(); var _LIB = LIB, vscode_uri_URI = _LIB.URI, Utils = _LIB.Utils; ;// CONCATENATED MODULE: ./node_modules/monaco-editor/esm/vs/language/css/_deps/vscode-css-languageservice/utils/resources.js /*--------------------------------------------------------------------------------------------- * Copyright (c) Microsoft Corporation. All rights reserved. * Licensed under the MIT License. See License.txt in the project root for license information. *--------------------------------------------------------------------------------------------*/ var resources_spreadArray = undefined && undefined.__spreadArray || function (to, from, pack) { if (pack || arguments.length === 2) for (var i = 0, l = from.length, ar; i < l; i++) { if (ar || !(i in from)) { if (!ar) ar = Array.prototype.slice.call(from, 0, i); ar[i] = from[i]; } } return to.concat(ar || Array.prototype.slice.call(from)); }; function resources_dirname(uriString) { return Utils.dirname(vscode_uri_URI.parse(uriString)).toString(); } function joinPath(uriString) { var paths = []; for (var _i = 1; _i < arguments.length; _i++) { paths[_i - 1] = arguments[_i]; } return Utils.joinPath.apply(Utils, resources_spreadArray([vscode_uri_URI.parse(uriString)], paths, false)).toString(); } ;// CONCATENATED MODULE: ./node_modules/monaco-editor/esm/vs/language/css/_deps/vscode-css-languageservice/services/pathCompletion.js /*--------------------------------------------------------------------------------------------- * Copyright (c) Microsoft Corporation. All rights reserved. * Licensed under the MIT License. See License.txt in the project root for license information. *--------------------------------------------------------------------------------------------*/ var pathCompletion_awaiter = undefined && undefined.__awaiter || function (thisArg, _arguments, P, generator) { function adopt(value) { return value instanceof P ? value : new P(function (resolve) { resolve(value); }); } return new (P || (P = Promise))(function (resolve, reject) { function fulfilled(value) { try { step(generator.next(value)); } catch (e) { reject(e); } } function rejected(value) { try { step(generator["throw"](value)); } catch (e) { reject(e); } } function step(result) { result.done ? resolve(result.value) : adopt(result.value).then(fulfilled, rejected); } step((generator = generator.apply(thisArg, _arguments || [])).next()); }); }; var __generator = undefined && undefined.__generator || function (thisArg, body) { var _ = { label: 0, sent: function sent() { if (t[0] & 1) throw t[1]; return t[1]; }, trys: [], ops: [] }, f, y, t, g; return g = { next: verb(0), "throw": verb(1), "return": verb(2) }, typeof Symbol === "function" && (g[Symbol.iterator] = function () { return this; }), g; function verb(n) { return function (v) { return step([n, v]); }; } function step(op) { if (f) throw new TypeError("Generator is already executing."); while (_) try { if (f = 1, y && (t = op[0] & 2 ? y["return"] : op[0] ? y["throw"] || ((t = y["return"]) && t.call(y), 0) : y.next) && !(t = t.call(y, op[1])).done) return t; if (y = 0, t) op = [op[0] & 2, t.value]; switch (op[0]) { case 0: case 1: t = op; break; case 4: _.label++; return { value: op[1], done: false }; case 5: _.label++; y = op[1]; op = [0]; continue; case 7: op = _.ops.pop(); _.trys.pop(); continue; default: if (!(t = _.trys, t = t.length > 0 && t[t.length - 1]) && (op[0] === 6 || op[0] === 2)) { _ = 0; continue; } if (op[0] === 3 && (!t || op[1] > t[0] && op[1] < t[3])) { _.label = op[1]; break; } if (op[0] === 6 && _.label < t[1]) { _.label = t[1]; t = op; break; } if (t && _.label < t[2]) { _.label = t[2]; _.ops.push(op); break; } if (t[2]) _.ops.pop(); _.trys.pop(); continue; } op = body.call(thisArg, _); } catch (e) { op = [6, e]; y = 0; } finally { f = t = 0; } if (op[0] & 5) throw op[1]; return { value: op[0] ? op[1] : void 0, done: true }; } }; var PathCompletionParticipant = /** @class */function () { function PathCompletionParticipant(readDirectory) { this.readDirectory = readDirectory; this.literalCompletions = []; this.importCompletions = []; } PathCompletionParticipant.prototype.onCssURILiteralValue = function (context) { this.literalCompletions.push(context); }; PathCompletionParticipant.prototype.onCssImportPath = function (context) { this.importCompletions.push(context); }; PathCompletionParticipant.prototype.computeCompletions = function (document, documentContext) { return pathCompletion_awaiter(this, void 0, void 0, function () { var result, _i, _a, literalCompletion, uriValue, fullValue, items, _b, items_1, item, _c, _d, importCompletion, pathValue, fullValue, suggestions, _e, suggestions_1, item; return __generator(this, function (_f) { switch (_f.label) { case 0: result = { items: [], isIncomplete: false }; _i = 0, _a = this.literalCompletions; _f.label = 1; case 1: if (!(_i < _a.length)) return [3 /*break*/, 5]; literalCompletion = _a[_i]; uriValue = literalCompletion.uriValue; fullValue = stripQuotes(uriValue); if (!(fullValue === '.' || fullValue === '..')) return [3 /*break*/, 2]; result.isIncomplete = true; return [3 /*break*/, 4]; case 2: return [4 /*yield*/, this.providePathSuggestions(uriValue, literalCompletion.position, literalCompletion.range, document, documentContext)]; case 3: items = _f.sent(); for (_b = 0, items_1 = items; _b < items_1.length; _b++) { item = items_1[_b]; result.items.push(item); } _f.label = 4; case 4: _i++; return [3 /*break*/, 1]; case 5: _c = 0, _d = this.importCompletions; _f.label = 6; case 6: if (!(_c < _d.length)) return [3 /*break*/, 10]; importCompletion = _d[_c]; pathValue = importCompletion.pathValue; fullValue = stripQuotes(pathValue); if (!(fullValue === '.' || fullValue === '..')) return [3 /*break*/, 7]; result.isIncomplete = true; return [3 /*break*/, 9]; case 7: return [4 /*yield*/, this.providePathSuggestions(pathValue, importCompletion.position, importCompletion.range, document, documentContext)]; case 8: suggestions = _f.sent(); if (document.languageId === 'scss') { suggestions.forEach(function (s) { if (startsWith(s.label, '_') && endsWith(s.label, '.scss')) { if (s.textEdit) { s.textEdit.newText = s.label.slice(1, -5); } else { s.label = s.label.slice(1, -5); } } }); } for (_e = 0, suggestions_1 = suggestions; _e < suggestions_1.length; _e++) { item = suggestions_1[_e]; result.items.push(item); } _f.label = 9; case 9: _c++; return [3 /*break*/, 6]; case 10: return [2 /*return*/, result]; } }); }); }; PathCompletionParticipant.prototype.providePathSuggestions = function (pathValue, position, range, document, documentContext) { return pathCompletion_awaiter(this, void 0, void 0, function () { var fullValue, isValueQuoted, valueBeforeCursor, currentDocUri, fullValueRange, replaceRange, valueBeforeLastSlash, parentDir, result, infos, _i, infos_1, _a, name, type, e_1; return __generator(this, function (_b) { switch (_b.label) { case 0: fullValue = stripQuotes(pathValue); isValueQuoted = startsWith(pathValue, "'") || startsWith(pathValue, "\""); valueBeforeCursor = isValueQuoted ? fullValue.slice(0, position.character - (range.start.character + 1)) : fullValue.slice(0, position.character - range.start.character); currentDocUri = document.uri; fullValueRange = isValueQuoted ? shiftRange(range, 1, -1) : range; replaceRange = pathToReplaceRange(valueBeforeCursor, fullValue, fullValueRange); valueBeforeLastSlash = valueBeforeCursor.substring(0, valueBeforeCursor.lastIndexOf('/') + 1); parentDir = documentContext.resolveReference(valueBeforeLastSlash || '.', currentDocUri); if (!parentDir) return [3 /*break*/, 4]; _b.label = 1; case 1: _b.trys.push([1, 3,, 4]); result = []; return [4 /*yield*/, this.readDirectory(parentDir)]; case 2: infos = _b.sent(); for (_i = 0, infos_1 = infos; _i < infos_1.length; _i++) { _a = infos_1[_i], name = _a[0], type = _a[1]; // Exclude paths that start with `.` if (name.charCodeAt(0) !== CharCode_dot && (type === FileType.Directory || joinPath(parentDir, name) !== currentDocUri)) { result.push(createCompletionItem(name, type === FileType.Directory, replaceRange)); } } return [2 /*return*/, result]; case 3: e_1 = _b.sent(); return [3 /*break*/, 4]; case 4: return [2 /*return*/, []]; } }); }); }; return PathCompletionParticipant; }(); var CharCode_dot = '.'.charCodeAt(0); function stripQuotes(fullValue) { if (startsWith(fullValue, "'") || startsWith(fullValue, "\"")) { return fullValue.slice(1, -1); } else { return fullValue; } } function pathToReplaceRange(valueBeforeCursor, fullValue, fullValueRange) { var replaceRange; var lastIndexOfSlash = valueBeforeCursor.lastIndexOf('/'); if (lastIndexOfSlash === -1) { replaceRange = fullValueRange; } else { // For cases where cursor is in the middle of attribute value, like