// Generated by dart2js (NullSafetyMode.sound, csp, intern-composite-values), the Dart to JavaScript compiler version: 3.3.0. // The code supports the following hooks: // dartPrint(message): // if this function is defined it is called instead of the Dart [print] // method. // // dartMainRunner(main, args): // if this function is defined, the Dart [main] method will not be invoked // directly. Instead, a closure that will invoke [main], and its arguments // [args] is passed to [dartMainRunner]. // // dartDeferredLibraryLoader(uri, successCallback, errorCallback, loadId, loadPriority): // if this function is defined, it will be called when a deferred library // is loaded. It should load and eval the javascript of `uri`, and call // successCallback. If it fails to do so, it should call errorCallback with // an error. The loadId argument is the deferred import that resulted in // this uri being loaded. The loadPriority argument is the priority the // library should be loaded with as specified in the code via the // load-priority annotation (0: normal, 1: high). // dartDeferredLibraryMultiLoader(uris, successCallback, errorCallback, loadId, loadPriority): // if this function is defined, it will be called when a deferred library // is loaded. It should load and eval the javascript of every URI in `uris`, // and call successCallback. If it fails to do so, it should call // errorCallback with an error. The loadId argument is the deferred import // that resulted in this uri being loaded. The loadPriority argument is the // priority the library should be loaded with as specified in the code via // the load-priority annotation (0: normal, 1: high). // // dartCallInstrumentation(id, qualifiedName): // if this function is defined, it will be called at each entry of a // method or constructor. Used only when compiling programs with // --experiment-call-instrumentation. (function dartProgram() { function copyProperties(from, to) { var keys = Object.keys(from); for (var i = 0; i < keys.length; i++) { var key = keys[i]; to[key] = from[key]; } } function mixinPropertiesHard(from, to) { var keys = Object.keys(from); for (var i = 0; i < keys.length; i++) { var key = keys[i]; if (!to.hasOwnProperty(key)) { to[key] = from[key]; } } } function mixinPropertiesEasy(from, to) { Object.assign(to, from); } var supportsDirectProtoAccess = function () { var cls = function () { }; cls.prototype = { p: {} }; var object = new cls(); if (!(Object.getPrototypeOf(object) && Object.getPrototypeOf(object).p === cls.prototype.p)) return false; try { if (typeof navigator != "undefined" && typeof navigator.userAgent == "string" && navigator.userAgent.indexOf("Chrome/") >= 0) return true; if (typeof version == "function" && version.length == 0) { var v = version(); if (/^\d+\.\d+\.\d+\.\d+$/.test(v)) return true; } } catch (_) { } return false; }(); function inherit(cls, sup) { cls.prototype.constructor = cls; cls.prototype["$is" + cls.name] = cls; if (sup != null) { if (supportsDirectProtoAccess) { Object.setPrototypeOf(cls.prototype, sup.prototype); return; } var clsPrototype = Object.create(sup.prototype); copyProperties(cls.prototype, clsPrototype); cls.prototype = clsPrototype; } } function inheritMany(sup, classes) { for (var i = 0; i < classes.length; i++) { inherit(classes[i], sup); } } function mixinEasy(cls, mixin) { mixinPropertiesEasy(mixin.prototype, cls.prototype); cls.prototype.constructor = cls; } function mixinHard(cls, mixin) { mixinPropertiesHard(mixin.prototype, cls.prototype); cls.prototype.constructor = cls; } function lazyOld(holder, name, getterName, initializer) { var uninitializedSentinel = holder; holder[name] = uninitializedSentinel; holder[getterName] = function () { holder[getterName] = function () { A.throwCyclicInit(name); }; var result; var sentinelInProgress = initializer; try { if (holder[name] === uninitializedSentinel) { result = holder[name] = sentinelInProgress; result = holder[name] = initializer(); } else { result = holder[name]; } } finally { if (result === sentinelInProgress) { holder[name] = null; } holder[getterName] = function () { return this[name]; }; } return result; }; } function lazy(holder, name, getterName, initializer) { var uninitializedSentinel = holder; holder[name] = uninitializedSentinel; holder[getterName] = function () { if (holder[name] === uninitializedSentinel) { holder[name] = initializer(); } holder[getterName] = function () { return this[name]; }; return holder[name]; }; } function lazyFinal(holder, name, getterName, initializer) { var uninitializedSentinel = holder; holder[name] = uninitializedSentinel; holder[getterName] = function () { if (holder[name] === uninitializedSentinel) { var value = initializer(); if (holder[name] !== uninitializedSentinel) { A.throwLateFieldADI(name); } holder[name] = value; } var finalValue = holder[name]; holder[getterName] = function () { return finalValue; }; return finalValue; }; } function makeConstList(list) { list.immutable$list = Array; list.fixed$length = Array; return list; } function convertToFastObject(properties) { function t() { } t.prototype = properties; new t(); return properties; } function convertAllToFastObject(arrayOfObjects) { for (var i = 0; i < arrayOfObjects.length; ++i) { convertToFastObject(arrayOfObjects[i]); } } var functionCounter = 0; function instanceTearOffGetter(isIntercepted, parameters) { var cache = null; return isIntercepted ? function (receiver) { if (cache === null) cache = A.closureFromTearOff(parameters); return new cache(receiver, this); } : function () { if (cache === null) cache = A.closureFromTearOff(parameters); return new cache(this, null); }; } function staticTearOffGetter(parameters) { var cache = null; return function () { if (cache === null) cache = A.closureFromTearOff(parameters).prototype; return cache; }; } var typesOffset = 0; function tearOffParameters(container, isStatic, isIntercepted, requiredParameterCount, optionalParameterDefaultValues, callNames, funsOrNames, funType, applyIndex, needsDirectAccess) { if (typeof funType == "number") { funType += typesOffset; } return { co: container, iS: isStatic, iI: isIntercepted, rC: requiredParameterCount, dV: optionalParameterDefaultValues, cs: callNames, fs: funsOrNames, fT: funType, aI: applyIndex || 0, nDA: needsDirectAccess }; } function installStaticTearOff(holder, getterName, requiredParameterCount, optionalParameterDefaultValues, callNames, funsOrNames, funType, applyIndex) { var parameters = tearOffParameters(holder, true, false, requiredParameterCount, optionalParameterDefaultValues, callNames, funsOrNames, funType, applyIndex, false); var getterFunction = staticTearOffGetter(parameters); holder[getterName] = getterFunction; } function installInstanceTearOff(prototype, getterName, isIntercepted, requiredParameterCount, optionalParameterDefaultValues, callNames, funsOrNames, funType, applyIndex, needsDirectAccess) { isIntercepted = !!isIntercepted; var parameters = tearOffParameters(prototype, false, isIntercepted, requiredParameterCount, optionalParameterDefaultValues, callNames, funsOrNames, funType, applyIndex, !!needsDirectAccess); var getterFunction = instanceTearOffGetter(isIntercepted, parameters); prototype[getterName] = getterFunction; } function setOrUpdateInterceptorsByTag(newTags) { var tags = init.interceptorsByTag; if (!tags) { init.interceptorsByTag = newTags; return; } copyProperties(newTags, tags); } function setOrUpdateLeafTags(newTags) { var tags = init.leafTags; if (!tags) { init.leafTags = newTags; return; } copyProperties(newTags, tags); } function updateTypes(newTypes) { var types = init.types; var length = types.length; types.push.apply(types, newTypes); return length; } function updateHolder(holder, newHolder) { copyProperties(newHolder, holder); return holder; } var hunkHelpers = function () { var mkInstance = function (isIntercepted, requiredParameterCount, optionalParameterDefaultValues, callNames, applyIndex) { return function (container, getterName, name, funType) { return installInstanceTearOff(container, getterName, isIntercepted, requiredParameterCount, optionalParameterDefaultValues, callNames, [name], funType, applyIndex, false); }; }, mkStatic = function (requiredParameterCount, optionalParameterDefaultValues, callNames, applyIndex) { return function (container, getterName, name, funType) { return installStaticTearOff(container, getterName, requiredParameterCount, optionalParameterDefaultValues, callNames, [name], funType, applyIndex); }; }; return { inherit: inherit, inheritMany: inheritMany, mixin: mixinEasy, mixinHard: mixinHard, installStaticTearOff: installStaticTearOff, installInstanceTearOff: installInstanceTearOff, _instance_0u: mkInstance(0, 0, null, ["call$0"], 0), _instance_1u: mkInstance(0, 1, null, ["call$1"], 0), _instance_2u: mkInstance(0, 2, null, ["call$2"], 0), _instance_0i: mkInstance(1, 0, null, ["call$0"], 0), _instance_1i: mkInstance(1, 1, null, ["call$1"], 0), _instance_2i: mkInstance(1, 2, null, ["call$2"], 0), _static_0: mkStatic(0, null, ["call$0"], 0), _static_1: mkStatic(1, null, ["call$1"], 0), _static_2: mkStatic(2, null, ["call$2"], 0), makeConstList: makeConstList, lazy: lazy, lazyFinal: lazyFinal, lazyOld: lazyOld, updateHolder: updateHolder, convertToFastObject: convertToFastObject, updateTypes: updateTypes, setOrUpdateInterceptorsByTag: setOrUpdateInterceptorsByTag, setOrUpdateLeafTags: setOrUpdateLeafTags }; }(); function initializeDeferredHunk(hunk) { typesOffset = init.types.length; hunk(hunkHelpers, init, holders, $); } var J = { makeDispatchRecord(interceptor, proto, extension, indexability) { return { i: interceptor, p: proto, e: extension, x: indexability }; }, getNativeInterceptor(object) { var proto, objectProto, $constructor, interceptor, t1, record = object[init.dispatchPropertyName]; if (record == null) if ($.initNativeDispatchFlag == null) { A.initNativeDispatch(); record = object[init.dispatchPropertyName]; } if (record != null) { proto = record.p; if (false === proto) return record.i; if (true === proto) return object; objectProto = Object.getPrototypeOf(object); if (proto === objectProto) return record.i; if (record.e === objectProto) throw A.wrapException(A.UnimplementedError$("Return interceptor for " + A.S(proto(object, record)))); } $constructor = object.constructor; if ($constructor == null) interceptor = null; else { t1 = $._JS_INTEROP_INTERCEPTOR_TAG; if (t1 == null) t1 = $._JS_INTEROP_INTERCEPTOR_TAG = init.getIsolateTag("_$dart_js"); interceptor = $constructor[t1]; } if (interceptor != null) return interceptor; interceptor = A.lookupAndCacheInterceptor(object); if (interceptor != null) return interceptor; if (typeof object == "function") return B.JavaScriptFunction_methods; proto = Object.getPrototypeOf(object); if (proto == null) return B.PlainJavaScriptObject_methods; if (proto === Object.prototype) return B.PlainJavaScriptObject_methods; if (typeof $constructor == "function") { t1 = $._JS_INTEROP_INTERCEPTOR_TAG; if (t1 == null) t1 = $._JS_INTEROP_INTERCEPTOR_TAG = init.getIsolateTag("_$dart_js"); Object.defineProperty($constructor, t1, { value: B.UnknownJavaScriptObject_methods, enumerable: false, writable: true, configurable: true }); return B.UnknownJavaScriptObject_methods; } return B.UnknownJavaScriptObject_methods; }, getInterceptor$(receiver) { if (typeof receiver == "number") { if (Math.floor(receiver) == receiver) return J.JSInt.prototype; return J.JSNumNotInt.prototype; } if (typeof receiver == "string") return J.JSString.prototype; if (receiver == null) return J.JSNull.prototype; if (typeof receiver == "boolean") return J.JSBool.prototype; if (Array.isArray(receiver)) return J.JSArray.prototype; if (typeof receiver != "object") { if (typeof receiver == "function") return J.JavaScriptFunction.prototype; if (typeof receiver == "symbol") return J.JavaScriptSymbol.prototype; if (typeof receiver == "bigint") return J.JavaScriptBigInt.prototype; return receiver; } if (receiver instanceof A.Object) return receiver; return J.getNativeInterceptor(receiver); }, getInterceptor$asx(receiver) { if (typeof receiver == "string") return J.JSString.prototype; if (receiver == null) return receiver; if (Array.isArray(receiver)) return J.JSArray.prototype; if (typeof receiver != "object") { if (typeof receiver == "function") return J.JavaScriptFunction.prototype; if (typeof receiver == "symbol") return J.JavaScriptSymbol.prototype; if (typeof receiver == "bigint") return J.JavaScriptBigInt.prototype; return receiver; } if (receiver instanceof A.Object) return receiver; return J.getNativeInterceptor(receiver); }, getInterceptor$ax(receiver) { if (receiver == null) return receiver; if (Array.isArray(receiver)) return J.JSArray.prototype; if (typeof receiver != "object") { if (typeof receiver == "function") return J.JavaScriptFunction.prototype; if (typeof receiver == "symbol") return J.JavaScriptSymbol.prototype; if (typeof receiver == "bigint") return J.JavaScriptBigInt.prototype; return receiver; } if (receiver instanceof A.Object) return receiver; return J.getNativeInterceptor(receiver); }, get$iterator$ax(receiver) { return J.getInterceptor$ax(receiver).get$iterator(receiver); }, get$length$asx(receiver) { return J.getInterceptor$asx(receiver).get$length(receiver); }, get$runtimeType$(receiver) { return J.getInterceptor$(receiver).get$runtimeType(receiver); }, toString$0$(receiver) { return J.getInterceptor$(receiver).toString$0(receiver); }, Interceptor: function Interceptor() { }, JSBool: function JSBool() { }, JSNull: function JSNull() { }, JavaScriptObject: function JavaScriptObject() { }, LegacyJavaScriptObject: function LegacyJavaScriptObject() { }, PlainJavaScriptObject: function PlainJavaScriptObject() { }, UnknownJavaScriptObject: function UnknownJavaScriptObject() { }, JavaScriptFunction: function JavaScriptFunction() { }, JavaScriptBigInt: function JavaScriptBigInt() { }, JavaScriptSymbol: function JavaScriptSymbol() { }, JSArray: function JSArray(t0) { this.$ti = t0; }, JSUnmodifiableArray: function JSUnmodifiableArray(t0) { this.$ti = t0; }, ArrayIterator: function ArrayIterator(t0, t1, t2) { var _ = this; _._iterable = t0; _._length = t1; _._index = 0; _._current = null; _.$ti = t2; }, JSNumber: function JSNumber() { }, JSInt: function JSInt() { }, JSNumNotInt: function JSNumNotInt() { }, JSString: function JSString() { } }, A = { JS_CONST: function JS_CONST() { }, checkNotNullable(value, $name, $T) { return value; }, isToStringVisiting(object) { var t1, i; for (t1 = $.toStringVisiting.length, i = 0; i < t1; ++i) if (object === $.toStringVisiting[i]) return true; return false; }, LateError: function LateError(t0) { this._message = t0; }, ListIterator: function ListIterator(t0, t1, t2) { var _ = this; _.__internal$_iterable = t0; _.__internal$_length = t1; _.__internal$_index = 0; _.__internal$_current = null; _.$ti = t2; }, unminifyOrTag(rawClassName) { var preserved = init.mangledGlobalNames[rawClassName]; if (preserved != null) return preserved; return rawClassName; }, isJsIndexable(object, record) { var result; if (record != null) { result = record.x; if (result != null) return result; } return type$.JavaScriptIndexingBehavior_dynamic._is(object); }, S(value) { var result; if (typeof value == "string") return value; if (typeof value == "number") { if (value !== 0) return "" + value; } else if (true === value) return "true"; else if (false === value) return "false"; else if (value == null) return "null"; result = J.toString$0$(value); return result; }, Primitives_objectTypeName(object) { return A.Primitives__objectTypeNameNewRti(object); }, Primitives__objectTypeNameNewRti(object) { var interceptor, dispatchName, $constructor, constructorName; if (object instanceof A.Object) return A._rtiToString(A.instanceType(object), null); interceptor = J.getInterceptor$(object); if (interceptor === B.Interceptor_methods || interceptor === B.JavaScriptObject_methods || type$.UnknownJavaScriptObject._is(object)) { dispatchName = B.C_JS_CONST(object); if (dispatchName !== "Object" && dispatchName !== "") return dispatchName; $constructor = object.constructor; if (typeof $constructor == "function") { constructorName = $constructor.name; if (typeof constructorName == "string" && constructorName !== "Object" && constructorName !== "") return constructorName; } } return A._rtiToString(A.instanceType(object), null); }, Primitives_safeToString(object) { if (typeof object == "number" || A._isBool(object)) return J.toString$0$(object); if (typeof object == "string") return JSON.stringify(object); if (object instanceof A.Closure) return object.toString$0(0); return "Instance of '" + A.Primitives_objectTypeName(object) + "'"; }, ioore(receiver, index) { if (receiver == null) J.get$length$asx(receiver); throw A.wrapException(A.diagnoseIndexError(receiver, index)); }, diagnoseIndexError(indexable, index) { var $length, _s5_ = "index"; if (!A._isInt(index)) return new A.ArgumentError(true, index, _s5_, null); $length = A._asInt(J.get$length$asx(indexable)); if (index < 0 || index >= $length) return A.IndexError$withLength(index, $length, indexable, _s5_); return new A.RangeError(true, index, _s5_, "Value not in range"); }, wrapException(ex) { return A.initializeExceptionWrapper(new Error(), ex); }, initializeExceptionWrapper(wrapper, ex) { var t1; if (ex == null) ex = new A.TypeError(); wrapper.dartException = ex; t1 = A.toStringWrapper; if ("defineProperty" in Object) { Object.defineProperty(wrapper, "message", { get: t1 }); wrapper.name = ""; } else wrapper.toString = t1; return wrapper; }, toStringWrapper() { return J.toString$0$(this.dartException); }, throwExpression(ex) { throw A.wrapException(ex); }, throwExpressionWithWrapper(ex, wrapper) { throw A.initializeExceptionWrapper(wrapper, ex); }, throwConcurrentModificationError(collection) { throw A.wrapException(A.ConcurrentModificationError$(collection)); }, TypeErrorDecoder_extractPattern(message) { var match, $arguments, argumentsExpr, expr, method, receiver; message = A.quoteStringForRegExp(message.replace(String({}), "$receiver$")); match = message.match(/\\\$[a-zA-Z]+\\\$/g); if (match == null) match = A._setArrayType([], type$.JSArray_String); $arguments = match.indexOf("\\$arguments\\$"); argumentsExpr = match.indexOf("\\$argumentsExpr\\$"); expr = match.indexOf("\\$expr\\$"); method = match.indexOf("\\$method\\$"); receiver = match.indexOf("\\$receiver\\$"); return new A.TypeErrorDecoder(message.replace(new RegExp("\\\\\\$arguments\\\\\\$", "g"), "((?:x|[^x])*)").replace(new RegExp("\\\\\\$argumentsExpr\\\\\\$", "g"), "((?:x|[^x])*)").replace(new RegExp("\\\\\\$expr\\\\\\$", "g"), "((?:x|[^x])*)").replace(new RegExp("\\\\\\$method\\\\\\$", "g"), "((?:x|[^x])*)").replace(new RegExp("\\\\\\$receiver\\\\\\$", "g"), "((?:x|[^x])*)"), $arguments, argumentsExpr, expr, method, receiver); }, TypeErrorDecoder_provokeCallErrorOn(expression) { return function ($expr$) { var $argumentsExpr$ = "$arguments$"; try { $expr$.$method$($argumentsExpr$); } catch (e) { return e.message; } }(expression); }, TypeErrorDecoder_provokePropertyErrorOn(expression) { return function ($expr$) { try { $expr$.$method$; } catch (e) { return e.message; } }(expression); }, JsNoSuchMethodError$(_message, match) { var t1 = match == null, t2 = t1 ? null : match.method; return new A.JsNoSuchMethodError(_message, t2, t1 ? null : match.receiver); }, unwrapException(ex) { if (ex == null) return new A.NullThrownFromJavaScriptException(ex); if (typeof ex !== "object") return ex; if ("dartException" in ex) return A.saveStackTrace(ex, ex.dartException); return A._unwrapNonDartException(ex); }, saveStackTrace(ex, error) { if (type$.Error._is(error)) if (error.$thrownJsError == null) error.$thrownJsError = ex; return error; }, _unwrapNonDartException(ex) { var message, number, ieErrorCode, nsme, notClosure, nullCall, nullLiteralCall, undefCall, undefLiteralCall, nullProperty, undefProperty, undefLiteralProperty, match; if (!("message" in ex)) return ex; message = ex.message; if ("number" in ex && typeof ex.number == "number") { number = ex.number; ieErrorCode = number & 65535; if ((B.JSInt_methods._shrOtherPositive$1(number, 16) & 8191) === 10) switch (ieErrorCode) { case 438: return A.saveStackTrace(ex, A.JsNoSuchMethodError$(A.S(message) + " (Error " + ieErrorCode + ")", null)); case 445: case 5007: A.S(message); return A.saveStackTrace(ex, new A.NullError()); } } if (ex instanceof TypeError) { nsme = $.$get$TypeErrorDecoder_noSuchMethodPattern(); notClosure = $.$get$TypeErrorDecoder_notClosurePattern(); nullCall = $.$get$TypeErrorDecoder_nullCallPattern(); nullLiteralCall = $.$get$TypeErrorDecoder_nullLiteralCallPattern(); undefCall = $.$get$TypeErrorDecoder_undefinedCallPattern(); undefLiteralCall = $.$get$TypeErrorDecoder_undefinedLiteralCallPattern(); nullProperty = $.$get$TypeErrorDecoder_nullPropertyPattern(); $.$get$TypeErrorDecoder_nullLiteralPropertyPattern(); undefProperty = $.$get$TypeErrorDecoder_undefinedPropertyPattern(); undefLiteralProperty = $.$get$TypeErrorDecoder_undefinedLiteralPropertyPattern(); match = nsme.matchTypeError$1(message); if (match != null) return A.saveStackTrace(ex, A.JsNoSuchMethodError$(A._asString(message), match)); else { match = notClosure.matchTypeError$1(message); if (match != null) { match.method = "call"; return A.saveStackTrace(ex, A.JsNoSuchMethodError$(A._asString(message), match)); } else if (nullCall.matchTypeError$1(message) != null || nullLiteralCall.matchTypeError$1(message) != null || undefCall.matchTypeError$1(message) != null || undefLiteralCall.matchTypeError$1(message) != null || nullProperty.matchTypeError$1(message) != null || nullLiteralCall.matchTypeError$1(message) != null || undefProperty.matchTypeError$1(message) != null || undefLiteralProperty.matchTypeError$1(message) != null) { A._asString(message); return A.saveStackTrace(ex, new A.NullError()); } } return A.saveStackTrace(ex, new A.UnknownJsTypeError(typeof message == "string" ? message : "")); } if (ex instanceof RangeError) { if (typeof message == "string" && message.indexOf("call stack") !== -1) return new A.StackOverflowError(); message = function (ex) { try { return String(ex); } catch (e) { } return null; }(ex); return A.saveStackTrace(ex, new A.ArgumentError(false, null, null, typeof message == "string" ? message.replace(/^RangeError:\s*/, "") : message)); } if (typeof InternalError == "function" && ex instanceof InternalError) if (typeof message == "string" && message === "too much recursion") return new A.StackOverflowError(); return ex; }, getTraceFromException(exception) { var trace; if (exception == null) return new A._StackTrace(exception); trace = exception.$cachedTrace; if (trace != null) return trace; trace = new A._StackTrace(exception); if (typeof exception === "object") exception.$cachedTrace = trace; return trace; }, _invokeClosure(closure, numberOfArguments, arg1, arg2, arg3, arg4) { type$.Function._as(closure); switch (A._asInt(numberOfArguments)) { case 0: return closure.call$0(); case 1: return closure.call$1(arg1); case 2: return closure.call$2(arg1, arg2); case 3: return closure.call$3(arg1, arg2, arg3); case 4: return closure.call$4(arg1, arg2, arg3, arg4); } throw A.wrapException(new A._Exception("Unsupported number of arguments for wrapped closure")); }, convertDartClosureToJS(closure, arity) { var $function = closure.$identity; if (!!$function) return $function; $function = A.convertDartClosureToJSUncached(closure, arity); closure.$identity = $function; return $function; }, convertDartClosureToJSUncached(closure, arity) { var entry; switch (arity) { case 0: entry = closure.call$0; break; case 1: entry = closure.call$1; break; case 2: entry = closure.call$2; break; case 3: entry = closure.call$3; break; case 4: entry = closure.call$4; break; default: entry = null; } if (entry != null) return entry.bind(closure); return function (closure, arity, invoke) { return function (a1, a2, a3, a4) { return invoke(closure, arity, a1, a2, a3, a4); }; }(closure, arity, A._invokeClosure); }, Closure_fromTearOff(parameters) { var $prototype, $constructor, t2, trampoline, applyTrampoline, i, stub, stub0, stubName, stubCallName, container = parameters.co, isStatic = parameters.iS, isIntercepted = parameters.iI, needsDirectAccess = parameters.nDA, applyTrampolineIndex = parameters.aI, funsOrNames = parameters.fs, callNames = parameters.cs, $name = funsOrNames[0], callName = callNames[0], $function = container[$name], t1 = parameters.fT; t1.toString; $prototype = isStatic ? Object.create(new A.StaticClosure().constructor.prototype) : Object.create(new A.BoundClosure(null, null).constructor.prototype); $prototype.$initialize = $prototype.constructor; $constructor = isStatic ? function static_tear_off() { this.$initialize(); } : function tear_off(a, b) { this.$initialize(a, b); }; $prototype.constructor = $constructor; $constructor.prototype = $prototype; $prototype.$_name = $name; $prototype.$_target = $function; t2 = !isStatic; if (t2) trampoline = A.Closure_forwardCallTo($name, $function, isIntercepted, needsDirectAccess); else { $prototype.$static_name = $name; trampoline = $function; } $prototype.$signature = A.Closure__computeSignatureFunctionNewRti(t1, isStatic, isIntercepted); $prototype[callName] = trampoline; for (applyTrampoline = trampoline, i = 1; i < funsOrNames.length; ++i) { stub = funsOrNames[i]; if (typeof stub == "string") { stub0 = container[stub]; stubName = stub; stub = stub0; } else stubName = ""; stubCallName = callNames[i]; if (stubCallName != null) { if (t2) stub = A.Closure_forwardCallTo(stubName, stub, isIntercepted, needsDirectAccess); $prototype[stubCallName] = stub; } if (i === applyTrampolineIndex) applyTrampoline = stub; } $prototype["call*"] = applyTrampoline; $prototype.$requiredArgCount = parameters.rC; $prototype.$defaultValues = parameters.dV; return $constructor; }, Closure__computeSignatureFunctionNewRti(functionType, isStatic, isIntercepted) { if (typeof functionType == "number") return functionType; if (typeof functionType == "string") { if (isStatic) throw A.wrapException("Cannot compute signature for static tearoff."); return function (recipe, evalOnReceiver) { return function () { return evalOnReceiver(this, recipe); }; }(functionType, A.BoundClosure_evalRecipe); } throw A.wrapException("Error in functionType of tearoff"); }, Closure_cspForwardCall(arity, needsDirectAccess, stubName, $function) { var getReceiver = A.BoundClosure_receiverOf; switch (needsDirectAccess ? -1 : arity) { case 0: return function (entry, receiverOf) { return function () { return receiverOf(this)[entry](); }; }(stubName, getReceiver); case 1: return function (entry, receiverOf) { return function (a) { return receiverOf(this)[entry](a); }; }(stubName, getReceiver); case 2: return function (entry, receiverOf) { return function (a, b) { return receiverOf(this)[entry](a, b); }; }(stubName, getReceiver); case 3: return function (entry, receiverOf) { return function (a, b, c) { return receiverOf(this)[entry](a, b, c); }; }(stubName, getReceiver); case 4: return function (entry, receiverOf) { return function (a, b, c, d) { return receiverOf(this)[entry](a, b, c, d); }; }(stubName, getReceiver); case 5: return function (entry, receiverOf) { return function (a, b, c, d, e) { return receiverOf(this)[entry](a, b, c, d, e); }; }(stubName, getReceiver); default: return function (f, receiverOf) { return function () { return f.apply(receiverOf(this), arguments); }; }($function, getReceiver); } }, Closure_forwardCallTo(stubName, $function, isIntercepted, needsDirectAccess) { if (isIntercepted) return A.Closure_forwardInterceptedCallTo(stubName, $function, needsDirectAccess); return A.Closure_cspForwardCall($function.length, needsDirectAccess, stubName, $function); }, Closure_cspForwardInterceptedCall(arity, needsDirectAccess, stubName, $function) { var getReceiver = A.BoundClosure_receiverOf, getInterceptor = A.BoundClosure_interceptorOf; switch (needsDirectAccess ? -1 : arity) { case 0: throw A.wrapException(new A.RuntimeError("Intercepted function with no arguments.")); case 1: return function (entry, interceptorOf, receiverOf) { return function () { return interceptorOf(this)[entry](receiverOf(this)); }; }(stubName, getInterceptor, getReceiver); case 2: return function (entry, interceptorOf, receiverOf) { return function (a) { return interceptorOf(this)[entry](receiverOf(this), a); }; }(stubName, getInterceptor, getReceiver); case 3: return function (entry, interceptorOf, receiverOf) { return function (a, b) { return interceptorOf(this)[entry](receiverOf(this), a, b); }; }(stubName, getInterceptor, getReceiver); case 4: return function (entry, interceptorOf, receiverOf) { return function (a, b, c) { return interceptorOf(this)[entry](receiverOf(this), a, b, c); }; }(stubName, getInterceptor, getReceiver); case 5: return function (entry, interceptorOf, receiverOf) { return function (a, b, c, d) { return interceptorOf(this)[entry](receiverOf(this), a, b, c, d); }; }(stubName, getInterceptor, getReceiver); case 6: return function (entry, interceptorOf, receiverOf) { return function (a, b, c, d, e) { return interceptorOf(this)[entry](receiverOf(this), a, b, c, d, e); }; }(stubName, getInterceptor, getReceiver); default: return function (f, interceptorOf, receiverOf) { return function () { var a = [receiverOf(this)]; Array.prototype.push.apply(a, arguments); return f.apply(interceptorOf(this), a); }; }($function, getInterceptor, getReceiver); } }, Closure_forwardInterceptedCallTo(stubName, $function, needsDirectAccess) { var arity, t1; if ($.BoundClosure__interceptorFieldNameCache == null) $.BoundClosure__interceptorFieldNameCache = A.BoundClosure__computeFieldNamed("interceptor"); if ($.BoundClosure__receiverFieldNameCache == null) $.BoundClosure__receiverFieldNameCache = A.BoundClosure__computeFieldNamed("receiver"); arity = $function.length; t1 = A.Closure_cspForwardInterceptedCall(arity, needsDirectAccess, stubName, $function); return t1; }, closureFromTearOff(parameters) { return A.Closure_fromTearOff(parameters); }, BoundClosure_evalRecipe(closure, recipe) { return A._Universe_evalInEnvironment(init.typeUniverse, A.instanceType(closure._receiver), recipe); }, BoundClosure_receiverOf(closure) { return closure._receiver; }, BoundClosure_interceptorOf(closure) { return closure._interceptor; }, BoundClosure__computeFieldNamed(fieldName) { var names, i, $name, template = new A.BoundClosure("receiver", "interceptor"), t1 = Object.getOwnPropertyNames(template); t1.fixed$length = Array; names = t1; for (t1 = names.length, i = 0; i < t1; ++i) { $name = names[i]; if (template[$name] === fieldName) return $name; } throw A.wrapException(A.ArgumentError$("Field name " + fieldName + " not found.", null)); }, throwCyclicInit(staticName) { throw A.wrapException(new A._CyclicInitializationError(staticName)); }, getIsolateAffinityTag($name) { return init.getIsolateTag($name); }, lookupAndCacheInterceptor(obj) { var interceptor, interceptorClass, altTag, mark, t1, tag = A._asString($.getTagFunction.call$1(obj)), record = $.dispatchRecordsForInstanceTags[tag]; if (record != null) { Object.defineProperty(obj, init.dispatchPropertyName, { value: record, enumerable: false, writable: true, configurable: true }); return record.i; } interceptor = $.interceptorsForUncacheableTags[tag]; if (interceptor != null) return interceptor; interceptorClass = init.interceptorsByTag[tag]; if (interceptorClass == null) { altTag = A._asStringQ($.alternateTagFunction.call$2(obj, tag)); if (altTag != null) { record = $.dispatchRecordsForInstanceTags[altTag]; if (record != null) { Object.defineProperty(obj, init.dispatchPropertyName, { value: record, enumerable: false, writable: true, configurable: true }); return record.i; } interceptor = $.interceptorsForUncacheableTags[altTag]; if (interceptor != null) return interceptor; interceptorClass = init.interceptorsByTag[altTag]; tag = altTag; } } if (interceptorClass == null) return null; interceptor = interceptorClass.prototype; mark = tag[0]; if (mark === "!") { record = A.makeLeafDispatchRecord(interceptor); $.dispatchRecordsForInstanceTags[tag] = record; Object.defineProperty(obj, init.dispatchPropertyName, { value: record, enumerable: false, writable: true, configurable: true }); return record.i; } if (mark === "~") { $.interceptorsForUncacheableTags[tag] = interceptor; return interceptor; } if (mark === "-") { t1 = A.makeLeafDispatchRecord(interceptor); Object.defineProperty(Object.getPrototypeOf(obj), init.dispatchPropertyName, { value: t1, enumerable: false, writable: true, configurable: true }); return t1.i; } if (mark === "+") return A.patchInteriorProto(obj, interceptor); if (mark === "*") throw A.wrapException(A.UnimplementedError$(tag)); if (init.leafTags[tag] === true) { t1 = A.makeLeafDispatchRecord(interceptor); Object.defineProperty(Object.getPrototypeOf(obj), init.dispatchPropertyName, { value: t1, enumerable: false, writable: true, configurable: true }); return t1.i; } else return A.patchInteriorProto(obj, interceptor); }, patchInteriorProto(obj, interceptor) { var proto = Object.getPrototypeOf(obj); Object.defineProperty(proto, init.dispatchPropertyName, { value: J.makeDispatchRecord(interceptor, proto, null, null), enumerable: false, writable: true, configurable: true }); return interceptor; }, makeLeafDispatchRecord(interceptor) { return J.makeDispatchRecord(interceptor, false, null, !!interceptor.$isJavaScriptIndexingBehavior); }, makeDefaultDispatchRecord(tag, interceptorClass, proto) { var interceptor = interceptorClass.prototype; if (init.leafTags[tag] === true) return A.makeLeafDispatchRecord(interceptor); else return J.makeDispatchRecord(interceptor, proto, null, null); }, initNativeDispatch() { if (true === $.initNativeDispatchFlag) return; $.initNativeDispatchFlag = true; A.initNativeDispatchContinue(); }, initNativeDispatchContinue() { var map, tags, fun, i, tag, proto, record, interceptorClass; $.dispatchRecordsForInstanceTags = Object.create(null); $.interceptorsForUncacheableTags = Object.create(null); A.initHooks(); map = init.interceptorsByTag; tags = Object.getOwnPropertyNames(map); if (typeof window != "undefined") { window; fun = function () { }; for (i = 0; i < tags.length; ++i) { tag = tags[i]; proto = $.prototypeForTagFunction.call$1(tag); if (proto != null) { record = A.makeDefaultDispatchRecord(tag, map[tag], proto); if (record != null) { Object.defineProperty(proto, init.dispatchPropertyName, { value: record, enumerable: false, writable: true, configurable: true }); fun.prototype = proto; } } } } for (i = 0; i < tags.length; ++i) { tag = tags[i]; if (/^[A-Za-z_]/.test(tag)) { interceptorClass = map[tag]; map["!" + tag] = interceptorClass; map["~" + tag] = interceptorClass; map["-" + tag] = interceptorClass; map["+" + tag] = interceptorClass; map["*" + tag] = interceptorClass; } } }, initHooks() { var transformers, i, transformer, getTag, getUnknownTag, prototypeForTag, hooks = B.C_JS_CONST0(); hooks = A.applyHooksTransformer(B.C_JS_CONST1, A.applyHooksTransformer(B.C_JS_CONST2, A.applyHooksTransformer(B.C_JS_CONST3, A.applyHooksTransformer(B.C_JS_CONST3, A.applyHooksTransformer(B.C_JS_CONST4, A.applyHooksTransformer(B.C_JS_CONST5, A.applyHooksTransformer(B.C_JS_CONST6(B.C_JS_CONST), hooks))))))); if (typeof dartNativeDispatchHooksTransformer != "undefined") { transformers = dartNativeDispatchHooksTransformer; if (typeof transformers == "function") transformers = [transformers]; if (Array.isArray(transformers)) for (i = 0; i < transformers.length; ++i) { transformer = transformers[i]; if (typeof transformer == "function") hooks = transformer(hooks) || hooks; } } getTag = hooks.getTag; getUnknownTag = hooks.getUnknownTag; prototypeForTag = hooks.prototypeForTag; $.getTagFunction = new A.initHooks_closure(getTag); $.alternateTagFunction = new A.initHooks_closure0(getUnknownTag); $.prototypeForTagFunction = new A.initHooks_closure1(prototypeForTag); }, applyHooksTransformer(transformer, hooks) { return transformer(hooks) || hooks; }, createRecordTypePredicate(shape, fieldRtis) { var $length = fieldRtis.length, $function = init.rttc["" + $length + ";" + shape]; if ($function == null) return null; if ($length === 0) return $function; if ($length === $function.length) return $function.apply(null, fieldRtis); return $function(fieldRtis); }, quoteStringForRegExp(string) { if (/[[\]{}()*+?.\\^$|]/.test(string)) return string.replace(/[[\]{}()*+?.\\^$|]/g, "\\$&"); return string; }, TypeErrorDecoder: function TypeErrorDecoder(t0, t1, t2, t3, t4, t5) { var _ = this; _._pattern = t0; _._arguments = t1; _._argumentsExpr = t2; _._expr = t3; _._method = t4; _._receiver = t5; }, NullError: function NullError() { }, JsNoSuchMethodError: function JsNoSuchMethodError(t0, t1, t2) { this.__js_helper$_message = t0; this._method = t1; this._receiver = t2; }, UnknownJsTypeError: function UnknownJsTypeError(t0) { this.__js_helper$_message = t0; }, NullThrownFromJavaScriptException: function NullThrownFromJavaScriptException(t0) { this._irritant = t0; }, _StackTrace: function _StackTrace(t0) { this._exception = t0; this._trace = null; }, Closure: function Closure() { }, Closure0Args: function Closure0Args() { }, Closure2Args: function Closure2Args() { }, TearOffClosure: function TearOffClosure() { }, StaticClosure: function StaticClosure() { }, BoundClosure: function BoundClosure(t0, t1) { this._receiver = t0; this._interceptor = t1; }, _CyclicInitializationError: function _CyclicInitializationError(t0) { this.variableName = t0; }, RuntimeError: function RuntimeError(t0) { this.message = t0; }, initHooks_closure: function initHooks_closure(t0) { this.getTag = t0; }, initHooks_closure0: function initHooks_closure0(t0) { this.getUnknownTag = t0; }, initHooks_closure1: function initHooks_closure1(t0) { this.prototypeForTag = t0; }, Rti__getQuestionFromStar(universe, rti) { var question = rti._precomputed1; return question == null ? rti._precomputed1 = A._Universe__lookupQuestionRti(universe, rti._primary, true) : question; }, Rti__getFutureFromFutureOr(universe, rti) { var future = rti._precomputed1; return future == null ? rti._precomputed1 = A._Universe__lookupInterfaceRti(universe, "Future", [rti._primary]) : future; }, Rti__isUnionOfFunctionType(rti) { var kind = rti._kind; if (kind === 6 || kind === 7 || kind === 8) return A.Rti__isUnionOfFunctionType(rti._primary); return kind === 12 || kind === 13; }, Rti__getCanonicalRecipe(rti) { return rti._canonicalRecipe; }, findType(recipe) { return A._Universe_eval(init.typeUniverse, recipe, false); }, _substitute(universe, rti, typeArguments, depth) { var baseType, substitutedBaseType, interfaceTypeArguments, substitutedInterfaceTypeArguments, base, substitutedBase, $arguments, substitutedArguments, t1, fields, substitutedFields, returnType, substitutedReturnType, functionParameters, substitutedFunctionParameters, bounds, substitutedBounds, index, argument, kind = rti._kind; switch (kind) { case 5: case 1: case 2: case 3: case 4: return rti; case 6: baseType = rti._primary; substitutedBaseType = A._substitute(universe, baseType, typeArguments, depth); if (substitutedBaseType === baseType) return rti; return A._Universe__lookupStarRti(universe, substitutedBaseType, true); case 7: baseType = rti._primary; substitutedBaseType = A._substitute(universe, baseType, typeArguments, depth); if (substitutedBaseType === baseType) return rti; return A._Universe__lookupQuestionRti(universe, substitutedBaseType, true); case 8: baseType = rti._primary; substitutedBaseType = A._substitute(universe, baseType, typeArguments, depth); if (substitutedBaseType === baseType) return rti; return A._Universe__lookupFutureOrRti(universe, substitutedBaseType, true); case 9: interfaceTypeArguments = rti._rest; substitutedInterfaceTypeArguments = A._substituteArray(universe, interfaceTypeArguments, typeArguments, depth); if (substitutedInterfaceTypeArguments === interfaceTypeArguments) return rti; return A._Universe__lookupInterfaceRti(universe, rti._primary, substitutedInterfaceTypeArguments); case 10: base = rti._primary; substitutedBase = A._substitute(universe, base, typeArguments, depth); $arguments = rti._rest; substitutedArguments = A._substituteArray(universe, $arguments, typeArguments, depth); if (substitutedBase === base && substitutedArguments === $arguments) return rti; return A._Universe__lookupBindingRti(universe, substitutedBase, substitutedArguments); case 11: t1 = rti._primary; fields = rti._rest; substitutedFields = A._substituteArray(universe, fields, typeArguments, depth); if (substitutedFields === fields) return rti; return A._Universe__lookupRecordRti(universe, t1, substitutedFields); case 12: returnType = rti._primary; substitutedReturnType = A._substitute(universe, returnType, typeArguments, depth); functionParameters = rti._rest; substitutedFunctionParameters = A._substituteFunctionParameters(universe, functionParameters, typeArguments, depth); if (substitutedReturnType === returnType && substitutedFunctionParameters === functionParameters) return rti; return A._Universe__lookupFunctionRti(universe, substitutedReturnType, substitutedFunctionParameters); case 13: bounds = rti._rest; depth += bounds.length; substitutedBounds = A._substituteArray(universe, bounds, typeArguments, depth); base = rti._primary; substitutedBase = A._substitute(universe, base, typeArguments, depth); if (substitutedBounds === bounds && substitutedBase === base) return rti; return A._Universe__lookupGenericFunctionRti(universe, substitutedBase, substitutedBounds, true); case 14: index = rti._primary; if (index < depth) return rti; argument = typeArguments[index - depth]; if (argument == null) return rti; return argument; default: throw A.wrapException(A.AssertionError$("Attempted to substitute unexpected RTI kind " + kind)); } }, _substituteArray(universe, rtiArray, typeArguments, depth) { var changed, i, rti, substitutedRti, $length = rtiArray.length, result = A._Utils_newArrayOrEmpty($length); for (changed = false, i = 0; i < $length; ++i) { rti = rtiArray[i]; substitutedRti = A._substitute(universe, rti, typeArguments, depth); if (substitutedRti !== rti) changed = true; result[i] = substitutedRti; } return changed ? result : rtiArray; }, _substituteNamed(universe, namedArray, typeArguments, depth) { var changed, i, t1, t2, rti, substitutedRti, $length = namedArray.length, result = A._Utils_newArrayOrEmpty($length); for (changed = false, i = 0; i < $length; i += 3) { t1 = namedArray[i]; t2 = namedArray[i + 1]; rti = namedArray[i + 2]; substitutedRti = A._substitute(universe, rti, typeArguments, depth); if (substitutedRti !== rti) changed = true; result.splice(i, 3, t1, t2, substitutedRti); } return changed ? result : namedArray; }, _substituteFunctionParameters(universe, functionParameters, typeArguments, depth) { var result, requiredPositional = functionParameters._requiredPositional, substitutedRequiredPositional = A._substituteArray(universe, requiredPositional, typeArguments, depth), optionalPositional = functionParameters._optionalPositional, substitutedOptionalPositional = A._substituteArray(universe, optionalPositional, typeArguments, depth), named = functionParameters._named, substitutedNamed = A._substituteNamed(universe, named, typeArguments, depth); if (substitutedRequiredPositional === requiredPositional && substitutedOptionalPositional === optionalPositional && substitutedNamed === named) return functionParameters; result = new A._FunctionParameters(); result._requiredPositional = substitutedRequiredPositional; result._optionalPositional = substitutedOptionalPositional; result._named = substitutedNamed; return result; }, _setArrayType(target, rti) { target[init.arrayRti] = rti; return target; }, closureFunctionType(closure) { var signature = closure.$signature; if (signature != null) { if (typeof signature == "number") return A.getTypeFromTypesTable(signature); return closure.$signature(); } return null; }, instanceOrFunctionType(object, testRti) { var rti; if (A.Rti__isUnionOfFunctionType(testRti)) if (object instanceof A.Closure) { rti = A.closureFunctionType(object); if (rti != null) return rti; } return A.instanceType(object); }, instanceType(object) { if (object instanceof A.Object) return A._instanceType(object); if (Array.isArray(object)) return A._arrayInstanceType(object); return A._instanceTypeFromConstructor(J.getInterceptor$(object)); }, _arrayInstanceType(object) { var rti = object[init.arrayRti], defaultRti = type$.JSArray_dynamic; if (rti == null) return defaultRti; if (rti.constructor !== defaultRti.constructor) return defaultRti; return rti; }, _instanceType(object) { var rti = object.$ti; return rti != null ? rti : A._instanceTypeFromConstructor(object); }, _instanceTypeFromConstructor(instance) { var $constructor = instance.constructor, probe = $constructor.$ccache; if (probe != null) return probe; return A._instanceTypeFromConstructorMiss(instance, $constructor); }, _instanceTypeFromConstructorMiss(instance, $constructor) { var effectiveConstructor = instance instanceof A.Closure ? Object.getPrototypeOf(Object.getPrototypeOf(instance)).constructor : $constructor, rti = A._Universe_findErasedType(init.typeUniverse, effectiveConstructor.name); $constructor.$ccache = rti; return rti; }, getTypeFromTypesTable(index) { var rti, table = init.types, type = table[index]; if (typeof type == "string") { rti = A._Universe_eval(init.typeUniverse, type, false); table[index] = rti; return rti; } return type; }, getRuntimeTypeOfDartObject(object) { return A.createRuntimeType(A._instanceType(object)); }, _structuralTypeOf(object) { var functionRti = object instanceof A.Closure ? A.closureFunctionType(object) : null; if (functionRti != null) return functionRti; if (type$.TrustedGetRuntimeType._is(object)) return J.get$runtimeType$(object)._rti; if (Array.isArray(object)) return A._arrayInstanceType(object); return A.instanceType(object); }, createRuntimeType(rti) { var t1 = rti._cachedRuntimeType; return t1 == null ? rti._cachedRuntimeType = A._createRuntimeType(rti) : t1; }, _createRuntimeType(rti) { var starErasedRti, t1, s = rti._canonicalRecipe, starErasedRecipe = s.replace(/\*/g, ""); if (starErasedRecipe === s) return rti._cachedRuntimeType = new A._Type(rti); starErasedRti = A._Universe_eval(init.typeUniverse, starErasedRecipe, true); t1 = starErasedRti._cachedRuntimeType; return t1 == null ? starErasedRti._cachedRuntimeType = A._createRuntimeType(starErasedRti) : t1; }, _installSpecializedIsTest(object) { var t1, unstarred, unstarredKind, isFn, $name, predicate, testRti = this; if (testRti === type$.Object) return A._finishIsFn(testRti, object, A._isObject); if (!A.isSoundTopType(testRti)) if (!(testRti === type$.legacy_Object)) t1 = false; else t1 = true; else t1 = true; if (t1) return A._finishIsFn(testRti, object, A._isTop); t1 = testRti._kind; if (t1 === 7) return A._finishIsFn(testRti, object, A._generalNullableIsTestImplementation); if (t1 === 1) return A._finishIsFn(testRti, object, A._isNever); unstarred = t1 === 6 ? testRti._primary : testRti; unstarredKind = unstarred._kind; if (unstarredKind === 8) return A._finishIsFn(testRti, object, A._isFutureOr); if (unstarred === type$.int) isFn = A._isInt; else if (unstarred === type$.double || unstarred === type$.num) isFn = A._isNum; else if (unstarred === type$.String) isFn = A._isString; else isFn = unstarred === type$.bool ? A._isBool : null; if (isFn != null) return A._finishIsFn(testRti, object, isFn); if (unstarredKind === 9) { $name = unstarred._primary; if (unstarred._rest.every(A.isDefinitelyTopType)) { testRti._specializedTestResource = "$is" + $name; if ($name === "List") return A._finishIsFn(testRti, object, A._isListTestViaProperty); return A._finishIsFn(testRti, object, A._isTestViaProperty); } } else if (unstarredKind === 11) { predicate = A.createRecordTypePredicate(unstarred._primary, unstarred._rest); return A._finishIsFn(testRti, object, predicate == null ? A._isNever : predicate); } return A._finishIsFn(testRti, object, A._generalIsTestImplementation); }, _finishIsFn(testRti, object, isFn) { testRti._is = isFn; return testRti._is(object); }, _installSpecializedAsCheck(object) { var t1, testRti = this, asFn = A._generalAsCheckImplementation; if (!A.isSoundTopType(testRti)) if (!(testRti === type$.legacy_Object)) t1 = false; else t1 = true; else t1 = true; if (t1) asFn = A._asTop; else if (testRti === type$.Object) asFn = A._asObject; else { t1 = A.isNullable(testRti); if (t1) asFn = A._generalNullableAsCheckImplementation; } testRti._as = asFn; return testRti._as(object); }, _nullIs(testRti) { var t1, kind = testRti._kind; if (!A.isSoundTopType(testRti)) if (!(testRti === type$.legacy_Object)) if (!(testRti === type$.legacy_Never)) if (kind !== 7) if (!(kind === 6 && A._nullIs(testRti._primary))) t1 = kind === 8 && A._nullIs(testRti._primary) || testRti === type$.Null || testRti === type$.JSNull; else t1 = true; else t1 = true; else t1 = true; else t1 = true; else t1 = true; return t1; }, _generalIsTestImplementation(object) { var testRti = this; if (object == null) return A._nullIs(testRti); return A.isSubtype(init.typeUniverse, A.instanceOrFunctionType(object, testRti), testRti); }, _generalNullableIsTestImplementation(object) { if (object == null) return true; return this._primary._is(object); }, _isTestViaProperty(object) { var tag, testRti = this; if (object == null) return A._nullIs(testRti); tag = testRti._specializedTestResource; if (object instanceof A.Object) return !!object[tag]; return !!J.getInterceptor$(object)[tag]; }, _isListTestViaProperty(object) { var tag, testRti = this; if (object == null) return A._nullIs(testRti); if (typeof object != "object") return false; if (Array.isArray(object)) return true; tag = testRti._specializedTestResource; if (object instanceof A.Object) return !!object[tag]; return !!J.getInterceptor$(object)[tag]; }, _generalAsCheckImplementation(object) { var testRti = this; if (object == null) { if (A.isNullable(testRti)) return object; } else if (testRti._is(object)) return object; A._failedAsCheck(object, testRti); }, _generalNullableAsCheckImplementation(object) { var testRti = this; if (object == null) return object; else if (testRti._is(object)) return object; A._failedAsCheck(object, testRti); }, _failedAsCheck(object, testRti) { throw A.wrapException(A._TypeError$fromMessage(A._Error_compose(object, A._rtiToString(testRti, null)))); }, checkTypeBound(type, bound, variable, methodName) { if (A.isSubtype(init.typeUniverse, type, bound)) return type; throw A.wrapException(A._TypeError$fromMessage("The type argument '" + A._rtiToString(type, null) + "' is not a subtype of the type variable bound '" + A._rtiToString(bound, null) + "' of type variable '" + variable + "' in '" + methodName + "'.")); }, _Error_compose(object, checkedTypeDescription) { return A.Error_safeToString(object) + ": type '" + A._rtiToString(A._structuralTypeOf(object), null) + "' is not a subtype of type '" + checkedTypeDescription + "'"; }, _TypeError$fromMessage(message) { return new A._TypeError("TypeError: " + message); }, _TypeError__TypeError$forType(object, type) { return new A._TypeError("TypeError: " + A._Error_compose(object, type)); }, _isFutureOr(object) { var testRti = this, unstarred = testRti._kind === 6 ? testRti._primary : testRti; return unstarred._primary._is(object) || A.Rti__getFutureFromFutureOr(init.typeUniverse, unstarred)._is(object); }, _isObject(object) { return object != null; }, _asObject(object) { if (object != null) return object; throw A.wrapException(A._TypeError__TypeError$forType(object, "Object")); }, _isTop(object) { return true; }, _asTop(object) { return object; }, _isNever(object) { return false; }, _isBool(object) { return true === object || false === object; }, _asBool(object) { if (true === object) return true; if (false === object) return false; throw A.wrapException(A._TypeError__TypeError$forType(object, "bool")); }, _asBoolS(object) { if (true === object) return true; if (false === object) return false; if (object == null) return object; throw A.wrapException(A._TypeError__TypeError$forType(object, "bool")); }, _asBoolQ(object) { if (true === object) return true; if (false === object) return false; if (object == null) return object; throw A.wrapException(A._TypeError__TypeError$forType(object, "bool?")); }, _asDouble(object) { if (typeof object == "number") return object; throw A.wrapException(A._TypeError__TypeError$forType(object, "double")); }, _asDoubleS(object) { if (typeof object == "number") return object; if (object == null) return object; throw A.wrapException(A._TypeError__TypeError$forType(object, "double")); }, _asDoubleQ(object) { if (typeof object == "number") return object; if (object == null) return object; throw A.wrapException(A._TypeError__TypeError$forType(object, "double?")); }, _isInt(object) { return typeof object == "number" && Math.floor(object) === object; }, _asInt(object) { if (typeof object == "number" && Math.floor(object) === object) return object; throw A.wrapException(A._TypeError__TypeError$forType(object, "int")); }, _asIntS(object) { if (typeof object == "number" && Math.floor(object) === object) return object; if (object == null) return object; throw A.wrapException(A._TypeError__TypeError$forType(object, "int")); }, _asIntQ(object) { if (typeof object == "number" && Math.floor(object) === object) return object; if (object == null) return object; throw A.wrapException(A._TypeError__TypeError$forType(object, "int?")); }, _isNum(object) { return typeof object == "number"; }, _asNum(object) { if (typeof object == "number") return object; throw A.wrapException(A._TypeError__TypeError$forType(object, "num")); }, _asNumS(object) { if (typeof object == "number") return object; if (object == null) return object; throw A.wrapException(A._TypeError__TypeError$forType(object, "num")); }, _asNumQ(object) { if (typeof object == "number") return object; if (object == null) return object; throw A.wrapException(A._TypeError__TypeError$forType(object, "num?")); }, _isString(object) { return typeof object == "string"; }, _asString(object) { if (typeof object == "string") return object; throw A.wrapException(A._TypeError__TypeError$forType(object, "String")); }, _asStringS(object) { if (typeof object == "string") return object; if (object == null) return object; throw A.wrapException(A._TypeError__TypeError$forType(object, "String")); }, _asStringQ(object) { if (typeof object == "string") return object; if (object == null) return object; throw A.wrapException(A._TypeError__TypeError$forType(object, "String?")); }, _rtiArrayToString(array, genericContext) { var s, sep, i; for (s = "", sep = "", i = 0; i < array.length; ++i, sep = ", ") s += sep + A._rtiToString(array[i], genericContext); return s; }, _recordRtiToString(recordType, genericContext) { var fieldCount, names, namesIndex, s, comma, i, partialShape = recordType._primary, fields = recordType._rest; if ("" === partialShape) return "(" + A._rtiArrayToString(fields, genericContext) + ")"; fieldCount = fields.length; names = partialShape.split(","); namesIndex = names.length - fieldCount; for (s = "(", comma = "", i = 0; i < fieldCount; ++i, comma = ", ") { s += comma; if (namesIndex === 0) s += "{"; s += A._rtiToString(fields[i], genericContext); if (namesIndex >= 0) s += " " + names[namesIndex]; ++namesIndex; } return s + "})"; }, _functionRtiToString(functionType, genericContext, bounds) { var boundsLength, outerContextLength, offset, i, t1, t2, typeParametersText, typeSep, t3, t4, boundRti, kind, parameters, requiredPositional, requiredPositionalLength, optionalPositional, optionalPositionalLength, named, namedLength, returnTypeText, argumentsText, sep, _s2_ = ", "; if (bounds != null) { boundsLength = bounds.length; if (genericContext == null) { genericContext = A._setArrayType([], type$.JSArray_String); outerContextLength = null; } else outerContextLength = genericContext.length; offset = genericContext.length; for (i = boundsLength; i > 0; --i) B.JSArray_methods.add$1(genericContext, "T" + (offset + i)); for (t1 = type$.nullable_Object, t2 = type$.legacy_Object, typeParametersText = "<", typeSep = "", i = 0; i < boundsLength; ++i, typeSep = _s2_) { t3 = genericContext.length; t4 = t3 - 1 - i; if (!(t4 >= 0)) return A.ioore(genericContext, t4); typeParametersText = B.JSString_methods.$add(typeParametersText + typeSep, genericContext[t4]); boundRti = bounds[i]; kind = boundRti._kind; if (!(kind === 2 || kind === 3 || kind === 4 || kind === 5 || boundRti === t1)) if (!(boundRti === t2)) t3 = false; else t3 = true; else t3 = true; if (!t3) typeParametersText += " extends " + A._rtiToString(boundRti, genericContext); } typeParametersText += ">"; } else { typeParametersText = ""; outerContextLength = null; } t1 = functionType._primary; parameters = functionType._rest; requiredPositional = parameters._requiredPositional; requiredPositionalLength = requiredPositional.length; optionalPositional = parameters._optionalPositional; optionalPositionalLength = optionalPositional.length; named = parameters._named; namedLength = named.length; returnTypeText = A._rtiToString(t1, genericContext); for (argumentsText = "", sep = "", i = 0; i < requiredPositionalLength; ++i, sep = _s2_) argumentsText += sep + A._rtiToString(requiredPositional[i], genericContext); if (optionalPositionalLength > 0) { argumentsText += sep + "["; for (sep = "", i = 0; i < optionalPositionalLength; ++i, sep = _s2_) argumentsText += sep + A._rtiToString(optionalPositional[i], genericContext); argumentsText += "]"; } if (namedLength > 0) { argumentsText += sep + "{"; for (sep = "", i = 0; i < namedLength; i += 3, sep = _s2_) { argumentsText += sep; if (named[i + 1]) argumentsText += "required "; argumentsText += A._rtiToString(named[i + 2], genericContext) + " " + named[i]; } argumentsText += "}"; } if (outerContextLength != null) { genericContext.toString; genericContext.length = outerContextLength; } return typeParametersText + "(" + argumentsText + ") => " + returnTypeText; }, _rtiToString(rti, genericContext) { var questionArgument, s, argumentKind, $name, $arguments, t1, t2, kind = rti._kind; if (kind === 5) return "erased"; if (kind === 2) return "dynamic"; if (kind === 3) return "void"; if (kind === 1) return "Never"; if (kind === 4) return "any"; if (kind === 6) return A._rtiToString(rti._primary, genericContext); if (kind === 7) { questionArgument = rti._primary; s = A._rtiToString(questionArgument, genericContext); argumentKind = questionArgument._kind; return (argumentKind === 12 || argumentKind === 13 ? "(" + s + ")" : s) + "?"; } if (kind === 8) return "FutureOr<" + A._rtiToString(rti._primary, genericContext) + ">"; if (kind === 9) { $name = A._unminifyOrTag(rti._primary); $arguments = rti._rest; return $arguments.length > 0 ? $name + ("<" + A._rtiArrayToString($arguments, genericContext) + ">") : $name; } if (kind === 11) return A._recordRtiToString(rti, genericContext); if (kind === 12) return A._functionRtiToString(rti, genericContext, null); if (kind === 13) return A._functionRtiToString(rti._primary, genericContext, rti._rest); if (kind === 14) { t1 = rti._primary; t2 = genericContext.length; t1 = t2 - 1 - t1; if (!(t1 >= 0 && t1 < t2)) return A.ioore(genericContext, t1); return genericContext[t1]; } return "?"; }, _unminifyOrTag(rawClassName) { var preserved = init.mangledGlobalNames[rawClassName]; if (preserved != null) return preserved; return rawClassName; }, _Universe_findRule(universe, targetType) { var rule = universe.tR[targetType]; for (; typeof rule == "string";) rule = universe.tR[rule]; return rule; }, _Universe_findErasedType(universe, cls) { var $length, erased, $arguments, i, $interface, t1 = universe.eT, probe = t1[cls]; if (probe == null) return A._Universe_eval(universe, cls, false); else if (typeof probe == "number") { $length = probe; erased = A._Universe__lookupTerminalRti(universe, 5, "#"); $arguments = A._Utils_newArrayOrEmpty($length); for (i = 0; i < $length; ++i) $arguments[i] = erased; $interface = A._Universe__lookupInterfaceRti(universe, cls, $arguments); t1[cls] = $interface; return $interface; } else return probe; }, _Universe_addRules(universe, rules) { return A._Utils_objectAssign(universe.tR, rules); }, _Universe_addErasedTypes(universe, types) { return A._Utils_objectAssign(universe.eT, types); }, _Universe_eval(universe, recipe, normalize) { var rti, t1 = universe.eC, probe = t1.get(recipe); if (probe != null) return probe; rti = A._Parser_parse(A._Parser_create(universe, null, recipe, normalize)); t1.set(recipe, rti); return rti; }, _Universe_evalInEnvironment(universe, environment, recipe) { var probe, rti, cache = environment._evalCache; if (cache == null) cache = environment._evalCache = new Map(); probe = cache.get(recipe); if (probe != null) return probe; rti = A._Parser_parse(A._Parser_create(universe, environment, recipe, true)); cache.set(recipe, rti); return rti; }, _Universe_bind(universe, environment, argumentsRti) { var argumentsRecipe, probe, rti, cache = environment._bindCache; if (cache == null) cache = environment._bindCache = new Map(); argumentsRecipe = argumentsRti._canonicalRecipe; probe = cache.get(argumentsRecipe); if (probe != null) return probe; rti = A._Universe__lookupBindingRti(universe, environment, argumentsRti._kind === 10 ? argumentsRti._rest : [argumentsRti]); cache.set(argumentsRecipe, rti); return rti; }, _Universe__installTypeTests(universe, rti) { rti._as = A._installSpecializedAsCheck; rti._is = A._installSpecializedIsTest; return rti; }, _Universe__lookupTerminalRti(universe, kind, key) { var rti, t1, probe = universe.eC.get(key); if (probe != null) return probe; rti = new A.Rti(null, null); rti._kind = kind; rti._canonicalRecipe = key; t1 = A._Universe__installTypeTests(universe, rti); universe.eC.set(key, t1); return t1; }, _Universe__lookupStarRti(universe, baseType, normalize) { var t1, key = baseType._canonicalRecipe + "*", probe = universe.eC.get(key); if (probe != null) return probe; t1 = A._Universe__createStarRti(universe, baseType, key, normalize); universe.eC.set(key, t1); return t1; }, _Universe__createStarRti(universe, baseType, key, normalize) { var baseKind, t1, rti; if (normalize) { baseKind = baseType._kind; if (!A.isSoundTopType(baseType)) t1 = baseType === type$.Null || baseType === type$.JSNull || baseKind === 7 || baseKind === 6; else t1 = true; if (t1) return baseType; } rti = new A.Rti(null, null); rti._kind = 6; rti._primary = baseType; rti._canonicalRecipe = key; return A._Universe__installTypeTests(universe, rti); }, _Universe__lookupQuestionRti(universe, baseType, normalize) { var t1, key = baseType._canonicalRecipe + "?", probe = universe.eC.get(key); if (probe != null) return probe; t1 = A._Universe__createQuestionRti(universe, baseType, key, normalize); universe.eC.set(key, t1); return t1; }, _Universe__createQuestionRti(universe, baseType, key, normalize) { var baseKind, t1, starArgument, rti; if (normalize) { baseKind = baseType._kind; if (!A.isSoundTopType(baseType)) if (!(baseType === type$.Null || baseType === type$.JSNull)) if (baseKind !== 7) t1 = baseKind === 8 && A.isNullable(baseType._primary); else t1 = true; else t1 = true; else t1 = true; if (t1) return baseType; else if (baseKind === 1 || baseType === type$.legacy_Never) return type$.Null; else if (baseKind === 6) { starArgument = baseType._primary; if (starArgument._kind === 8 && A.isNullable(starArgument._primary)) return starArgument; else return A.Rti__getQuestionFromStar(universe, baseType); } } rti = new A.Rti(null, null); rti._kind = 7; rti._primary = baseType; rti._canonicalRecipe = key; return A._Universe__installTypeTests(universe, rti); }, _Universe__lookupFutureOrRti(universe, baseType, normalize) { var t1, key = baseType._canonicalRecipe + "/", probe = universe.eC.get(key); if (probe != null) return probe; t1 = A._Universe__createFutureOrRti(universe, baseType, key, normalize); universe.eC.set(key, t1); return t1; }, _Universe__createFutureOrRti(universe, baseType, key, normalize) { var t1, rti; if (normalize) { t1 = baseType._kind; if (A.isSoundTopType(baseType) || baseType === type$.Object || baseType === type$.legacy_Object) return baseType; else if (t1 === 1) return A._Universe__lookupInterfaceRti(universe, "Future", [baseType]); else if (baseType === type$.Null || baseType === type$.JSNull) return type$.nullable_Future_Null; } rti = new A.Rti(null, null); rti._kind = 8; rti._primary = baseType; rti._canonicalRecipe = key; return A._Universe__installTypeTests(universe, rti); }, _Universe__lookupGenericFunctionParameterRti(universe, index) { var rti, t1, key = "" + index + "^", probe = universe.eC.get(key); if (probe != null) return probe; rti = new A.Rti(null, null); rti._kind = 14; rti._primary = index; rti._canonicalRecipe = key; t1 = A._Universe__installTypeTests(universe, rti); universe.eC.set(key, t1); return t1; }, _Universe__canonicalRecipeJoin($arguments) { var s, sep, i, $length = $arguments.length; for (s = "", sep = "", i = 0; i < $length; ++i, sep = ",") s += sep + $arguments[i]._canonicalRecipe; return s; }, _Universe__canonicalRecipeJoinNamed($arguments) { var s, sep, i, t1, nameSep, $length = $arguments.length; for (s = "", sep = "", i = 0; i < $length; i += 3, sep = ",") { t1 = $arguments[i]; nameSep = $arguments[i + 1] ? "!" : ":"; s += sep + t1 + nameSep + $arguments[i + 2]._canonicalRecipe; } return s; }, _Universe__lookupInterfaceRti(universe, $name, $arguments) { var probe, rti, t1, s = $name; if ($arguments.length > 0) s += "<" + A._Universe__canonicalRecipeJoin($arguments) + ">"; probe = universe.eC.get(s); if (probe != null) return probe; rti = new A.Rti(null, null); rti._kind = 9; rti._primary = $name; rti._rest = $arguments; if ($arguments.length > 0) rti._precomputed1 = $arguments[0]; rti._canonicalRecipe = s; t1 = A._Universe__installTypeTests(universe, rti); universe.eC.set(s, t1); return t1; }, _Universe__lookupBindingRti(universe, base, $arguments) { var newBase, newArguments, key, probe, rti, t1; if (base._kind === 10) { newBase = base._primary; newArguments = base._rest.concat($arguments); } else { newArguments = $arguments; newBase = base; } key = newBase._canonicalRecipe + (";<" + A._Universe__canonicalRecipeJoin(newArguments) + ">"); probe = universe.eC.get(key); if (probe != null) return probe; rti = new A.Rti(null, null); rti._kind = 10; rti._primary = newBase; rti._rest = newArguments; rti._canonicalRecipe = key; t1 = A._Universe__installTypeTests(universe, rti); universe.eC.set(key, t1); return t1; }, _Universe__lookupRecordRti(universe, partialShapeTag, fields) { var rti, t1, key = "+" + (partialShapeTag + "(" + A._Universe__canonicalRecipeJoin(fields) + ")"), probe = universe.eC.get(key); if (probe != null) return probe; rti = new A.Rti(null, null); rti._kind = 11; rti._primary = partialShapeTag; rti._rest = fields; rti._canonicalRecipe = key; t1 = A._Universe__installTypeTests(universe, rti); universe.eC.set(key, t1); return t1; }, _Universe__lookupFunctionRti(universe, returnType, parameters) { var sep, key, probe, rti, t1, s = returnType._canonicalRecipe, requiredPositional = parameters._requiredPositional, requiredPositionalLength = requiredPositional.length, optionalPositional = parameters._optionalPositional, optionalPositionalLength = optionalPositional.length, named = parameters._named, namedLength = named.length, recipe = "(" + A._Universe__canonicalRecipeJoin(requiredPositional); if (optionalPositionalLength > 0) { sep = requiredPositionalLength > 0 ? "," : ""; recipe += sep + "[" + A._Universe__canonicalRecipeJoin(optionalPositional) + "]"; } if (namedLength > 0) { sep = requiredPositionalLength > 0 ? "," : ""; recipe += sep + "{" + A._Universe__canonicalRecipeJoinNamed(named) + "}"; } key = s + (recipe + ")"); probe = universe.eC.get(key); if (probe != null) return probe; rti = new A.Rti(null, null); rti._kind = 12; rti._primary = returnType; rti._rest = parameters; rti._canonicalRecipe = key; t1 = A._Universe__installTypeTests(universe, rti); universe.eC.set(key, t1); return t1; }, _Universe__lookupGenericFunctionRti(universe, baseFunctionType, bounds, normalize) { var t1, key = baseFunctionType._canonicalRecipe + ("<" + A._Universe__canonicalRecipeJoin(bounds) + ">"), probe = universe.eC.get(key); if (probe != null) return probe; t1 = A._Universe__createGenericFunctionRti(universe, baseFunctionType, bounds, key, normalize); universe.eC.set(key, t1); return t1; }, _Universe__createGenericFunctionRti(universe, baseFunctionType, bounds, key, normalize) { var $length, typeArguments, count, i, bound, substitutedBase, substitutedBounds, rti; if (normalize) { $length = bounds.length; typeArguments = A._Utils_newArrayOrEmpty($length); for (count = 0, i = 0; i < $length; ++i) { bound = bounds[i]; if (bound._kind === 1) { typeArguments[i] = bound; ++count; } } if (count > 0) { substitutedBase = A._substitute(universe, baseFunctionType, typeArguments, 0); substitutedBounds = A._substituteArray(universe, bounds, typeArguments, 0); return A._Universe__lookupGenericFunctionRti(universe, substitutedBase, substitutedBounds, bounds !== substitutedBounds); } } rti = new A.Rti(null, null); rti._kind = 13; rti._primary = baseFunctionType; rti._rest = bounds; rti._canonicalRecipe = key; return A._Universe__installTypeTests(universe, rti); }, _Parser_create(universe, environment, recipe, normalize) { return { u: universe, e: environment, r: recipe, s: [], p: 0, n: normalize }; }, _Parser_parse(parser) { var t2, i, ch, t3, array, end, item, source = parser.r, t1 = parser.s; for (t2 = source.length, i = 0; i < t2;) { ch = source.charCodeAt(i); if (ch >= 48 && ch <= 57) i = A._Parser_handleDigit(i + 1, ch, source, t1); else if ((((ch | 32) >>> 0) - 97 & 65535) < 26 || ch === 95 || ch === 36 || ch === 124) i = A._Parser_handleIdentifier(parser, i, source, t1, false); else if (ch === 46) i = A._Parser_handleIdentifier(parser, i, source, t1, true); else { ++i; switch (ch) { case 44: break; case 58: t1.push(false); break; case 33: t1.push(true); break; case 59: t1.push(A._Parser_toType(parser.u, parser.e, t1.pop())); break; case 94: t1.push(A._Universe__lookupGenericFunctionParameterRti(parser.u, t1.pop())); break; case 35: t1.push(A._Universe__lookupTerminalRti(parser.u, 5, "#")); break; case 64: t1.push(A._Universe__lookupTerminalRti(parser.u, 2, "@")); break; case 126: t1.push(A._Universe__lookupTerminalRti(parser.u, 3, "~")); break; case 60: t1.push(parser.p); parser.p = t1.length; break; case 62: A._Parser_handleTypeArguments(parser, t1); break; case 38: A._Parser_handleExtendedOperations(parser, t1); break; case 42: t3 = parser.u; t1.push(A._Universe__lookupStarRti(t3, A._Parser_toType(t3, parser.e, t1.pop()), parser.n)); break; case 63: t3 = parser.u; t1.push(A._Universe__lookupQuestionRti(t3, A._Parser_toType(t3, parser.e, t1.pop()), parser.n)); break; case 47: t3 = parser.u; t1.push(A._Universe__lookupFutureOrRti(t3, A._Parser_toType(t3, parser.e, t1.pop()), parser.n)); break; case 40: t1.push(-3); t1.push(parser.p); parser.p = t1.length; break; case 41: A._Parser_handleArguments(parser, t1); break; case 91: t1.push(parser.p); parser.p = t1.length; break; case 93: array = t1.splice(parser.p); A._Parser_toTypes(parser.u, parser.e, array); parser.p = t1.pop(); t1.push(array); t1.push(-1); break; case 123: t1.push(parser.p); parser.p = t1.length; break; case 125: array = t1.splice(parser.p); A._Parser_toTypesNamed(parser.u, parser.e, array); parser.p = t1.pop(); t1.push(array); t1.push(-2); break; case 43: end = source.indexOf("(", i); t1.push(source.substring(i, end)); t1.push(-4); t1.push(parser.p); parser.p = t1.length; i = end + 1; break; default: throw "Bad character " + ch; } } } item = t1.pop(); return A._Parser_toType(parser.u, parser.e, item); }, _Parser_handleDigit(i, digit, source, stack) { var t1, ch, value = digit - 48; for (t1 = source.length; i < t1; ++i) { ch = source.charCodeAt(i); if (!(ch >= 48 && ch <= 57)) break; value = value * 10 + (ch - 48); } stack.push(value); return i; }, _Parser_handleIdentifier(parser, start, source, stack, hasPeriod) { var t1, ch, t2, string, environment, recipe, i = start + 1; for (t1 = source.length; i < t1; ++i) { ch = source.charCodeAt(i); if (ch === 46) { if (hasPeriod) break; hasPeriod = true; } else { if (!((((ch | 32) >>> 0) - 97 & 65535) < 26 || ch === 95 || ch === 36 || ch === 124)) t2 = ch >= 48 && ch <= 57; else t2 = true; if (!t2) break; } } string = source.substring(start, i); if (hasPeriod) { t1 = parser.u; environment = parser.e; if (environment._kind === 10) environment = environment._primary; recipe = A._Universe_findRule(t1, environment._primary)[string]; if (recipe == null) A.throwExpression('No "' + string + '" in "' + A.Rti__getCanonicalRecipe(environment) + '"'); stack.push(A._Universe_evalInEnvironment(t1, environment, recipe)); } else stack.push(string); return i; }, _Parser_handleTypeArguments(parser, stack) { var base, t1 = parser.u, $arguments = A._Parser_collectArray(parser, stack), head = stack.pop(); if (typeof head == "string") stack.push(A._Universe__lookupInterfaceRti(t1, head, $arguments)); else { base = A._Parser_toType(t1, parser.e, head); switch (base._kind) { case 12: stack.push(A._Universe__lookupGenericFunctionRti(t1, base, $arguments, parser.n)); break; default: stack.push(A._Universe__lookupBindingRti(t1, base, $arguments)); break; } } }, _Parser_handleArguments(parser, stack) { var optionalPositional, named, requiredPositional, returnType, parameters, _null = null, t1 = parser.u, head = stack.pop(); if (typeof head == "number") switch (head) { case -1: optionalPositional = stack.pop(); named = _null; break; case -2: named = stack.pop(); optionalPositional = _null; break; default: stack.push(head); named = _null; optionalPositional = named; break; } else { stack.push(head); named = _null; optionalPositional = named; } requiredPositional = A._Parser_collectArray(parser, stack); head = stack.pop(); switch (head) { case -3: head = stack.pop(); if (optionalPositional == null) optionalPositional = t1.sEA; if (named == null) named = t1.sEA; returnType = A._Parser_toType(t1, parser.e, head); parameters = new A._FunctionParameters(); parameters._requiredPositional = requiredPositional; parameters._optionalPositional = optionalPositional; parameters._named = named; stack.push(A._Universe__lookupFunctionRti(t1, returnType, parameters)); return; case -4: stack.push(A._Universe__lookupRecordRti(t1, stack.pop(), requiredPositional)); return; default: throw A.wrapException(A.AssertionError$("Unexpected state under `()`: " + A.S(head))); } }, _Parser_handleExtendedOperations(parser, stack) { var $top = stack.pop(); if (0 === $top) { stack.push(A._Universe__lookupTerminalRti(parser.u, 1, "0&")); return; } if (1 === $top) { stack.push(A._Universe__lookupTerminalRti(parser.u, 4, "1&")); return; } throw A.wrapException(A.AssertionError$("Unexpected extended operation " + A.S($top))); }, _Parser_collectArray(parser, stack) { var array = stack.splice(parser.p); A._Parser_toTypes(parser.u, parser.e, array); parser.p = stack.pop(); return array; }, _Parser_toType(universe, environment, item) { if (typeof item == "string") return A._Universe__lookupInterfaceRti(universe, item, universe.sEA); else if (typeof item == "number") { environment.toString; return A._Parser_indexToType(universe, environment, item); } else return item; }, _Parser_toTypes(universe, environment, items) { var i, $length = items.length; for (i = 0; i < $length; ++i) items[i] = A._Parser_toType(universe, environment, items[i]); }, _Parser_toTypesNamed(universe, environment, items) { var i, $length = items.length; for (i = 2; i < $length; i += 3) items[i] = A._Parser_toType(universe, environment, items[i]); }, _Parser_indexToType(universe, environment, index) { var typeArguments, len, kind = environment._kind; if (kind === 10) { if (index === 0) return environment._primary; typeArguments = environment._rest; len = typeArguments.length; if (index <= len) return typeArguments[index - 1]; index -= len; environment = environment._primary; kind = environment._kind; } else if (index === 0) return environment; if (kind !== 9) throw A.wrapException(A.AssertionError$("Indexed base must be an interface type")); typeArguments = environment._rest; if (index <= typeArguments.length) return typeArguments[index - 1]; throw A.wrapException(A.AssertionError$("Bad index " + index + " for " + environment.toString$0(0))); }, isSubtype(universe, s, t) { var result, sCache = s._isSubtypeCache; if (sCache == null) sCache = s._isSubtypeCache = new Map(); result = sCache.get(t); if (result == null) { result = A._isSubtype(universe, s, null, t, null, false) ? 1 : 0; sCache.set(t, result); } if (0 === result) return false; if (1 === result) return true; return true; }, _isSubtype(universe, s, sEnv, t, tEnv, isLegacy) { var t1, sKind, leftTypeVariable, tKind, t2, sBounds, tBounds, sLength, i, sBound, tBound; if (s === t) return true; if (!A.isSoundTopType(t)) if (!(t === type$.legacy_Object)) t1 = false; else t1 = true; else t1 = true; if (t1) return true; sKind = s._kind; if (sKind === 4) return true; if (A.isSoundTopType(s)) return false; if (s._kind !== 1) t1 = false; else t1 = true; if (t1) return true; leftTypeVariable = sKind === 14; if (leftTypeVariable) if (A._isSubtype(universe, sEnv[s._primary], sEnv, t, tEnv, false)) return true; tKind = t._kind; t1 = s === type$.Null || s === type$.JSNull; if (t1) { if (tKind === 8) return A._isSubtype(universe, s, sEnv, t._primary, tEnv, false); return t === type$.Null || t === type$.JSNull || tKind === 7 || tKind === 6; } if (t === type$.Object) { if (sKind === 8) return A._isSubtype(universe, s._primary, sEnv, t, tEnv, false); if (sKind === 6) return A._isSubtype(universe, s._primary, sEnv, t, tEnv, false); return sKind !== 7; } if (sKind === 6) return A._isSubtype(universe, s._primary, sEnv, t, tEnv, false); if (tKind === 6) { t1 = A.Rti__getQuestionFromStar(universe, t); return A._isSubtype(universe, s, sEnv, t1, tEnv, false); } if (sKind === 8) { if (!A._isSubtype(universe, s._primary, sEnv, t, tEnv, false)) return false; return A._isSubtype(universe, A.Rti__getFutureFromFutureOr(universe, s), sEnv, t, tEnv, false); } if (sKind === 7) { t1 = A._isSubtype(universe, type$.Null, sEnv, t, tEnv, false); return t1 && A._isSubtype(universe, s._primary, sEnv, t, tEnv, false); } if (tKind === 8) { if (A._isSubtype(universe, s, sEnv, t._primary, tEnv, false)) return true; return A._isSubtype(universe, s, sEnv, A.Rti__getFutureFromFutureOr(universe, t), tEnv, false); } if (tKind === 7) { t1 = A._isSubtype(universe, s, sEnv, type$.Null, tEnv, false); return t1 || A._isSubtype(universe, s, sEnv, t._primary, tEnv, false); } if (leftTypeVariable) return false; t1 = sKind !== 12; if ((!t1 || sKind === 13) && t === type$.Function) return true; t2 = sKind === 11; if (t2 && t === type$.Record) return true; if (tKind === 13) { if (s === type$.JavaScriptFunction) return true; if (sKind !== 13) return false; sBounds = s._rest; tBounds = t._rest; sLength = sBounds.length; if (sLength !== tBounds.length) return false; sEnv = sEnv == null ? sBounds : sBounds.concat(sEnv); tEnv = tEnv == null ? tBounds : tBounds.concat(tEnv); for (i = 0; i < sLength; ++i) { sBound = sBounds[i]; tBound = tBounds[i]; if (!A._isSubtype(universe, sBound, sEnv, tBound, tEnv, false) || !A._isSubtype(universe, tBound, tEnv, sBound, sEnv, false)) return false; } return A._isFunctionSubtype(universe, s._primary, sEnv, t._primary, tEnv, false); } if (tKind === 12) { if (s === type$.JavaScriptFunction) return true; if (t1) return false; return A._isFunctionSubtype(universe, s, sEnv, t, tEnv, false); } if (sKind === 9) { if (tKind !== 9) return false; return A._isInterfaceSubtype(universe, s, sEnv, t, tEnv, false); } if (t2 && tKind === 11) return A._isRecordSubtype(universe, s, sEnv, t, tEnv, false); return false; }, _isFunctionSubtype(universe, s, sEnv, t, tEnv, isLegacy) { var sParameters, tParameters, sRequiredPositional, tRequiredPositional, sRequiredPositionalLength, tRequiredPositionalLength, requiredPositionalDelta, sOptionalPositional, tOptionalPositional, sOptionalPositionalLength, tOptionalPositionalLength, i, t1, sNamed, tNamed, sNamedLength, tNamedLength, sIndex, tIndex, tName, sName, sIsRequired; if (!A._isSubtype(universe, s._primary, sEnv, t._primary, tEnv, false)) return false; sParameters = s._rest; tParameters = t._rest; sRequiredPositional = sParameters._requiredPositional; tRequiredPositional = tParameters._requiredPositional; sRequiredPositionalLength = sRequiredPositional.length; tRequiredPositionalLength = tRequiredPositional.length; if (sRequiredPositionalLength > tRequiredPositionalLength) return false; requiredPositionalDelta = tRequiredPositionalLength - sRequiredPositionalLength; sOptionalPositional = sParameters._optionalPositional; tOptionalPositional = tParameters._optionalPositional; sOptionalPositionalLength = sOptionalPositional.length; tOptionalPositionalLength = tOptionalPositional.length; if (sRequiredPositionalLength + sOptionalPositionalLength < tRequiredPositionalLength + tOptionalPositionalLength) return false; for (i = 0; i < sRequiredPositionalLength; ++i) { t1 = sRequiredPositional[i]; if (!A._isSubtype(universe, tRequiredPositional[i], tEnv, t1, sEnv, false)) return false; } for (i = 0; i < requiredPositionalDelta; ++i) { t1 = sOptionalPositional[i]; if (!A._isSubtype(universe, tRequiredPositional[sRequiredPositionalLength + i], tEnv, t1, sEnv, false)) return false; } for (i = 0; i < tOptionalPositionalLength; ++i) { t1 = sOptionalPositional[requiredPositionalDelta + i]; if (!A._isSubtype(universe, tOptionalPositional[i], tEnv, t1, sEnv, false)) return false; } sNamed = sParameters._named; tNamed = tParameters._named; sNamedLength = sNamed.length; tNamedLength = tNamed.length; for (sIndex = 0, tIndex = 0; tIndex < tNamedLength; tIndex += 3) { tName = tNamed[tIndex]; for (; true;) { if (sIndex >= sNamedLength) return false; sName = sNamed[sIndex]; sIndex += 3; if (tName < sName) return false; sIsRequired = sNamed[sIndex - 2]; if (sName < tName) { if (sIsRequired) return false; continue; } t1 = tNamed[tIndex + 1]; if (sIsRequired && !t1) return false; t1 = sNamed[sIndex - 1]; if (!A._isSubtype(universe, tNamed[tIndex + 2], tEnv, t1, sEnv, false)) return false; break; } } for (; sIndex < sNamedLength;) { if (sNamed[sIndex + 1]) return false; sIndex += 3; } return true; }, _isInterfaceSubtype(universe, s, sEnv, t, tEnv, isLegacy) { var rule, recipes, $length, supertypeArgs, i, sName = s._primary, tName = t._primary; for (; sName !== tName;) { rule = universe.tR[sName]; if (rule == null) return false; if (typeof rule == "string") { sName = rule; continue; } recipes = rule[tName]; if (recipes == null) return false; $length = recipes.length; supertypeArgs = $length > 0 ? new Array($length) : init.typeUniverse.sEA; for (i = 0; i < $length; ++i) supertypeArgs[i] = A._Universe_evalInEnvironment(universe, s, recipes[i]); return A._areArgumentsSubtypes(universe, supertypeArgs, null, sEnv, t._rest, tEnv, false); } return A._areArgumentsSubtypes(universe, s._rest, null, sEnv, t._rest, tEnv, false); }, _areArgumentsSubtypes(universe, sArgs, sVariances, sEnv, tArgs, tEnv, isLegacy) { var i, $length = sArgs.length; for (i = 0; i < $length; ++i) if (!A._isSubtype(universe, sArgs[i], sEnv, tArgs[i], tEnv, false)) return false; return true; }, _isRecordSubtype(universe, s, sEnv, t, tEnv, isLegacy) { var i, sFields = s._rest, tFields = t._rest, sCount = sFields.length; if (sCount !== tFields.length) return false; if (s._primary !== t._primary) return false; for (i = 0; i < sCount; ++i) if (!A._isSubtype(universe, sFields[i], sEnv, tFields[i], tEnv, false)) return false; return true; }, isNullable(t) { var t1, kind = t._kind; if (!(t === type$.Null || t === type$.JSNull)) if (!A.isSoundTopType(t)) if (kind !== 7) if (!(kind === 6 && A.isNullable(t._primary))) t1 = kind === 8 && A.isNullable(t._primary); else t1 = true; else t1 = true; else t1 = true; else t1 = true; return t1; }, isDefinitelyTopType(t) { var t1; if (!A.isSoundTopType(t)) if (!(t === type$.legacy_Object)) t1 = false; else t1 = true; else t1 = true; return t1; }, isSoundTopType(t) { var kind = t._kind; return kind === 2 || kind === 3 || kind === 4 || kind === 5 || t === type$.nullable_Object; }, _Utils_objectAssign(o, other) { var i, key, keys = Object.keys(other), $length = keys.length; for (i = 0; i < $length; ++i) { key = keys[i]; o[key] = other[key]; } }, _Utils_newArrayOrEmpty($length) { return $length > 0 ? new Array($length) : init.typeUniverse.sEA; }, Rti: function Rti(t0, t1) { var _ = this; _._as = t0; _._is = t1; _._cachedRuntimeType = _._specializedTestResource = _._isSubtypeCache = _._precomputed1 = null; _._kind = 0; _._canonicalRecipe = _._bindCache = _._evalCache = _._rest = _._primary = null; }, _FunctionParameters: function _FunctionParameters() { this._named = this._optionalPositional = this._requiredPositional = null; }, _Type: function _Type(t0) { this._rti = t0; }, _Error: function _Error() { }, _TypeError: function _TypeError(t0) { this.__rti$_message = t0; }, _AsyncRun__initializeScheduleImmediate() { var div, span, t1 = {}; if (self.scheduleImmediate != null) return A.async__AsyncRun__scheduleImmediateJsOverride$closure(); if (self.MutationObserver != null && self.document != null) { div = self.document.createElement("div"); span = self.document.createElement("span"); t1.storedCallback = null; new self.MutationObserver(A.convertDartClosureToJS(new A._AsyncRun__initializeScheduleImmediate_internalCallback(t1), 1)).observe(div, { childList: true }); return new A._AsyncRun__initializeScheduleImmediate_closure(t1, div, span); } else if (self.setImmediate != null) return A.async__AsyncRun__scheduleImmediateWithSetImmediate$closure(); return A.async__AsyncRun__scheduleImmediateWithTimer$closure(); }, _AsyncRun__scheduleImmediateJsOverride(callback) { self.scheduleImmediate(A.convertDartClosureToJS(new A._AsyncRun__scheduleImmediateJsOverride_internalCallback(type$.void_Function._as(callback)), 0)); }, _AsyncRun__scheduleImmediateWithSetImmediate(callback) { self.setImmediate(A.convertDartClosureToJS(new A._AsyncRun__scheduleImmediateWithSetImmediate_internalCallback(type$.void_Function._as(callback)), 0)); }, _AsyncRun__scheduleImmediateWithTimer(callback) { A.Timer__createTimer(B.Duration_0, type$.void_Function._as(callback)); }, Timer__createTimer(duration, callback) { var milliseconds = B.JSInt_methods._tdivFast$1(duration._duration, 1000); return A._TimerImpl$(milliseconds, callback); }, _TimerImpl$(milliseconds, callback) { var t1 = new A._TimerImpl(); t1._TimerImpl$2(milliseconds, callback); return t1; }, AsyncError$(error, stackTrace) { var t1 = A.checkNotNullable(error, "error", type$.Object); return new A.AsyncError(t1, stackTrace == null ? A.AsyncError_defaultStackTrace(error) : stackTrace); }, AsyncError_defaultStackTrace(error) { var stackTrace; if (type$.Error._is(error)) { stackTrace = error.get$stackTrace(); if (stackTrace != null) return stackTrace; } return B.C__StringStackTrace; }, Future_Future$delayed(duration, $T) { var result, t1 = !$T._is(null); if (t1) throw A.wrapException(A.ArgumentError$value(null, "computation", "The type parameter is not nullable")); result = new A._Future($.Zone__current, $T._eval$1("_Future<0>")); A.Timer_Timer(duration, new A.Future_Future$delayed_closure(null, result, $T)); return result; }, _Future__chainCoreFutureSync(source, target) { var t1, t2, listeners; for (t1 = type$._Future_dynamic; t2 = source._state, (t2 & 4) !== 0;) source = t1._as(source._resultOrListeners); if ((t2 & 24) !== 0) { listeners = target._removeListeners$0(); target._cloneResult$1(source); A._Future__propagateToListeners(target, listeners); } else { listeners = type$.nullable__FutureListener_dynamic_dynamic._as(target._resultOrListeners); target._state = target._state & 1 | 4; target._resultOrListeners = source; source._prependListeners$1(listeners); } }, _Future__propagateToListeners(source, listeners) { var t2, t3, t4, _box_0, t5, t6, hasError, asyncError, nextListener, nextListener0, sourceResult, t7, zone, oldZone, result, current, _box_1 = {}, t1 = _box_1.source = source; for (t2 = type$.AsyncError, t3 = type$.nullable__FutureListener_dynamic_dynamic, t4 = type$.Future_dynamic; true;) { _box_0 = {}; t5 = t1._state; t6 = (t5 & 16) === 0; hasError = !t6; if (listeners == null) { if (hasError && (t5 & 1) === 0) { asyncError = t2._as(t1._resultOrListeners); A._rootHandleError(asyncError.error, asyncError.stackTrace); } return; } _box_0.listener = listeners; nextListener = listeners._nextListener; for (t1 = listeners; nextListener != null; t1 = nextListener, nextListener = nextListener0) { t1._nextListener = null; A._Future__propagateToListeners(_box_1.source, t1); _box_0.listener = nextListener; nextListener0 = nextListener._nextListener; } t5 = _box_1.source; sourceResult = t5._resultOrListeners; _box_0.listenerHasError = hasError; _box_0.listenerValueOrError = sourceResult; if (t6) { t7 = t1.state; t7 = (t7 & 1) !== 0 || (t7 & 15) === 8; } else t7 = true; if (t7) { zone = t1.result._zone; if (hasError) { t5 = t5._zone === zone; t5 = !(t5 || t5); } else t5 = false; if (t5) { t2._as(sourceResult); A._rootHandleError(sourceResult.error, sourceResult.stackTrace); return; } oldZone = $.Zone__current; if (oldZone !== zone) $.Zone__current = zone; else oldZone = null; t1 = t1.state; if ((t1 & 15) === 8) new A._Future__propagateToListeners_handleWhenCompleteCallback(_box_0, _box_1, hasError).call$0(); else if (t6) { if ((t1 & 1) !== 0) new A._Future__propagateToListeners_handleValueCallback(_box_0, sourceResult).call$0(); } else if ((t1 & 2) !== 0) new A._Future__propagateToListeners_handleError(_box_1, _box_0).call$0(); if (oldZone != null) $.Zone__current = oldZone; t1 = _box_0.listenerValueOrError; if (t1 instanceof A._Future) { t5 = _box_0.listener.$ti; t5 = t5._eval$1("Future<2>")._is(t1) || !t5._rest[1]._is(t1); } else t5 = false; if (t5) { t4._as(t1); result = _box_0.listener.result; if ((t1._state & 24) !== 0) { current = t3._as(result._resultOrListeners); result._resultOrListeners = null; listeners = result._reverseListeners$1(current); result._state = t1._state & 30 | result._state & 1; result._resultOrListeners = t1._resultOrListeners; _box_1.source = t1; continue; } else A._Future__chainCoreFutureSync(t1, result); return; } } result = _box_0.listener.result; current = t3._as(result._resultOrListeners); result._resultOrListeners = null; listeners = result._reverseListeners$1(current); t1 = _box_0.listenerHasError; t5 = _box_0.listenerValueOrError; if (!t1) { result.$ti._precomputed1._as(t5); result._state = 8; result._resultOrListeners = t5; } else { t2._as(t5); result._state = result._state & 1 | 16; result._resultOrListeners = t5; } _box_1.source = result; t1 = result; } }, _registerErrorHandler(errorHandler, zone) { var t1 = type$.dynamic_Function_Object_StackTrace; if (t1._is(errorHandler)) return t1._as(errorHandler); t1 = type$.dynamic_Function_Object; if (t1._is(errorHandler)) return t1._as(errorHandler); throw A.wrapException(A.ArgumentError$value(errorHandler, "onError", string$.Error_)); }, _microtaskLoop() { var entry, next; for (entry = $._nextCallback; entry != null; entry = $._nextCallback) { $._lastPriorityCallback = null; next = entry.next; $._nextCallback = next; if (next == null) $._lastCallback = null; entry.callback.call$0(); } }, _startMicrotaskLoop() { $._isInCallbackLoop = true; try { A._microtaskLoop(); } finally { $._lastPriorityCallback = null; $._isInCallbackLoop = false; if ($._nextCallback != null) $.$get$_AsyncRun__scheduleImmediateClosure().call$1(A.async___startMicrotaskLoop$closure()); } }, _scheduleAsyncCallback(callback) { var newEntry = new A._AsyncCallbackEntry(callback), lastCallback = $._lastCallback; if (lastCallback == null) { $._nextCallback = $._lastCallback = newEntry; if (!$._isInCallbackLoop) $.$get$_AsyncRun__scheduleImmediateClosure().call$1(A.async___startMicrotaskLoop$closure()); } else $._lastCallback = lastCallback.next = newEntry; }, _schedulePriorityAsyncCallback(callback) { var entry, lastPriorityCallback, next, t1 = $._nextCallback; if (t1 == null) { A._scheduleAsyncCallback(callback); $._lastPriorityCallback = $._lastCallback; return; } entry = new A._AsyncCallbackEntry(callback); lastPriorityCallback = $._lastPriorityCallback; if (lastPriorityCallback == null) { entry.next = t1; $._nextCallback = $._lastPriorityCallback = entry; } else { next = lastPriorityCallback.next; entry.next = next; $._lastPriorityCallback = lastPriorityCallback.next = entry; if (next == null) $._lastCallback = entry; } }, scheduleMicrotask(callback) { var t1, _null = null, currentZone = $.Zone__current; if (B.C__RootZone === currentZone) { A._rootScheduleMicrotask(_null, _null, B.C__RootZone, callback); return; } t1 = false; if (t1) { A._rootScheduleMicrotask(_null, _null, currentZone, type$.void_Function._as(callback)); return; } A._rootScheduleMicrotask(_null, _null, currentZone, type$.void_Function._as(currentZone.bindCallbackGuarded$1(callback))); }, Timer_Timer(duration, callback) { var t1 = $.Zone__current; if (t1 === B.C__RootZone) return A.Timer__createTimer(duration, type$.void_Function._as(callback)); return A.Timer__createTimer(duration, type$.void_Function._as(t1.bindCallbackGuarded$1(callback))); }, _rootHandleError(error, stackTrace) { A._schedulePriorityAsyncCallback(new A._rootHandleError_closure(error, stackTrace)); }, _rootRun($self, $parent, zone, f, $R) { var old, t1 = $.Zone__current; if (t1 === zone) return f.call$0(); $.Zone__current = zone; old = t1; try { t1 = f.call$0(); return t1; } finally { $.Zone__current = old; } }, _rootRunUnary($self, $parent, zone, f, arg, $R, $T) { var old, t1 = $.Zone__current; if (t1 === zone) return f.call$1(arg); $.Zone__current = zone; old = t1; try { t1 = f.call$1(arg); return t1; } finally { $.Zone__current = old; } }, _rootRunBinary($self, $parent, zone, f, arg1, arg2, $R, T1, T2) { var old, t1 = $.Zone__current; if (t1 === zone) return f.call$2(arg1, arg2); $.Zone__current = zone; old = t1; try { t1 = f.call$2(arg1, arg2); return t1; } finally { $.Zone__current = old; } }, _rootScheduleMicrotask($self, $parent, zone, f) { type$.void_Function._as(f); if (B.C__RootZone !== zone) f = zone.bindCallbackGuarded$1(f); A._scheduleAsyncCallback(f); }, _AsyncRun__initializeScheduleImmediate_internalCallback: function _AsyncRun__initializeScheduleImmediate_internalCallback(t0) { this._box_0 = t0; }, _AsyncRun__initializeScheduleImmediate_closure: function _AsyncRun__initializeScheduleImmediate_closure(t0, t1, t2) { this._box_0 = t0; this.div = t1; this.span = t2; }, _AsyncRun__scheduleImmediateJsOverride_internalCallback: function _AsyncRun__scheduleImmediateJsOverride_internalCallback(t0) { this.callback = t0; }, _AsyncRun__scheduleImmediateWithSetImmediate_internalCallback: function _AsyncRun__scheduleImmediateWithSetImmediate_internalCallback(t0) { this.callback = t0; }, _TimerImpl: function _TimerImpl() { }, _TimerImpl_internalCallback: function _TimerImpl_internalCallback(t0, t1) { this.$this = t0; this.callback = t1; }, AsyncError: function AsyncError(t0, t1) { this.error = t0; this.stackTrace = t1; }, Future_Future$delayed_closure: function Future_Future$delayed_closure(t0, t1, t2) { this.computation = t0; this.result = t1; this.T = t2; }, _FutureListener: function _FutureListener(t0, t1, t2, t3, t4) { var _ = this; _._nextListener = null; _.result = t0; _.state = t1; _.callback = t2; _.errorCallback = t3; _.$ti = t4; }, _Future: function _Future(t0, t1) { var _ = this; _._state = 0; _._zone = t0; _._resultOrListeners = null; _.$ti = t1; }, _Future__addListener_closure: function _Future__addListener_closure(t0, t1) { this.$this = t0; this.listener = t1; }, _Future__prependListeners_closure: function _Future__prependListeners_closure(t0, t1) { this._box_0 = t0; this.$this = t1; }, _Future__chainForeignFuture_closure: function _Future__chainForeignFuture_closure(t0) { this.$this = t0; }, _Future__chainForeignFuture_closure0: function _Future__chainForeignFuture_closure0(t0) { this.$this = t0; }, _Future__chainForeignFuture_closure1: function _Future__chainForeignFuture_closure1(t0, t1, t2) { this.$this = t0; this.e = t1; this.s = t2; }, _Future__propagateToListeners_handleWhenCompleteCallback: function _Future__propagateToListeners_handleWhenCompleteCallback(t0, t1, t2) { this._box_0 = t0; this._box_1 = t1; this.hasError = t2; }, _Future__propagateToListeners_handleWhenCompleteCallback_closure: function _Future__propagateToListeners_handleWhenCompleteCallback_closure(t0) { this.originalSource = t0; }, _Future__propagateToListeners_handleValueCallback: function _Future__propagateToListeners_handleValueCallback(t0, t1) { this._box_0 = t0; this.sourceResult = t1; }, _Future__propagateToListeners_handleError: function _Future__propagateToListeners_handleError(t0, t1) { this._box_1 = t0; this._box_0 = t1; }, _AsyncCallbackEntry: function _AsyncCallbackEntry(t0) { this.callback = t0; this.next = null; }, _Zone: function _Zone() { }, _rootHandleError_closure: function _rootHandleError_closure(t0, t1) { this.error = t0; this.stackTrace = t1; }, _RootZone: function _RootZone() { }, _RootZone_bindCallbackGuarded_closure: function _RootZone_bindCallbackGuarded_closure(t0, t1) { this.$this = t0; this.f = t1; }, ListBase: function ListBase() { }, Error__throw(error, stackTrace) { error = A.wrapException(error); if (error == null) error = type$.Object._as(error); error.stack = stackTrace.toString$0(0); throw error; throw A.wrapException("unreachable"); }, StringBuffer__writeAll(string, objects, separator) { var iterator = J.get$iterator$ax(objects); if (!iterator.moveNext$0()) return string; if (separator.length === 0) { do string += A.S(iterator.get$current()); while (iterator.moveNext$0()); } else { string += A.S(iterator.get$current()); for (; iterator.moveNext$0();) string = string + separator + A.S(iterator.get$current()); } return string; }, Error_safeToString(object) { if (typeof object == "number" || A._isBool(object) || object == null) return J.toString$0$(object); if (typeof object == "string") return JSON.stringify(object); return A.Primitives_safeToString(object); }, Error_throwWithStackTrace(error, stackTrace) { A.checkNotNullable(error, "error", type$.Object); A.checkNotNullable(stackTrace, "stackTrace", type$.StackTrace); A.Error__throw(error, stackTrace); }, AssertionError$(message) { return new A.AssertionError(message); }, ArgumentError$(message, $name) { return new A.ArgumentError(false, null, $name, message); }, ArgumentError$value(value, $name, message) { return new A.ArgumentError(true, value, $name, message); }, IndexError$withLength(invalidValue, $length, indexable, $name) { return new A.IndexError($length, true, invalidValue, $name, "Index out of range"); }, UnsupportedError$(message) { return new A.UnsupportedError(message); }, UnimplementedError$(message) { return new A.UnimplementedError(message); }, ConcurrentModificationError$(modifiedObject) { return new A.ConcurrentModificationError(modifiedObject); }, Iterable_iterableToFullString(iterable, leftDelimiter, rightDelimiter) { var buffer, t1; if (A.isToStringVisiting(iterable)) return leftDelimiter + "..." + rightDelimiter; buffer = new A.StringBuffer(leftDelimiter); B.JSArray_methods.add$1($.toStringVisiting, iterable); try { t1 = buffer; t1._contents = A.StringBuffer__writeAll(t1._contents, iterable, ", "); } finally { if (0 >= $.toStringVisiting.length) return A.ioore($.toStringVisiting, -1); $.toStringVisiting.pop(); } buffer._contents += rightDelimiter; t1 = buffer._contents; return t1.charCodeAt(0) == 0 ? t1 : t1; }, print(object) { A.printString(A.S(object)); }, Duration: function Duration(t0) { this._duration = t0; }, Error: function Error() { }, AssertionError: function AssertionError(t0) { this.message = t0; }, TypeError: function TypeError() { }, ArgumentError: function ArgumentError(t0, t1, t2, t3) { var _ = this; _._hasValue = t0; _.invalidValue = t1; _.name = t2; _.message = t3; }, RangeError: function RangeError(t0, t1, t2, t3) { var _ = this; _._hasValue = t0; _.invalidValue = t1; _.name = t2; _.message = t3; }, IndexError: function IndexError(t0, t1, t2, t3, t4) { var _ = this; _.length = t0; _._hasValue = t1; _.invalidValue = t2; _.name = t3; _.message = t4; }, UnsupportedError: function UnsupportedError(t0) { this.message = t0; }, UnimplementedError: function UnimplementedError(t0) { this.message = t0; }, ConcurrentModificationError: function ConcurrentModificationError(t0) { this.modifiedObject = t0; }, OutOfMemoryError: function OutOfMemoryError() { }, StackOverflowError: function StackOverflowError() { }, _Exception: function _Exception(t0) { this.message = t0; }, Null: function Null() { }, Object: function Object() { }, _StringStackTrace: function _StringStackTrace() { }, StringBuffer: function StringBuffer(t0) { this._contents = t0; }, HtmlElement: function HtmlElement() { }, AnchorElement: function AnchorElement() { }, AreaElement: function AreaElement() { }, CharacterData: function CharacterData() { }, DomException: function DomException() { }, Element: function Element() { }, EventTarget: function EventTarget() { }, FormElement: function FormElement() { }, Node: function Node() { }, NodeList: function NodeList() { }, SelectElement: function SelectElement() { }, ImmutableListMixin: function ImmutableListMixin() { }, FixedSizeListIterator: function FixedSizeListIterator(t0, t1, t2) { var _ = this; _._array = t0; _._html$_length = t1; _._position = -1; _._html$_current = null; _.$ti = t2; }, _NodeList_JavaScriptObject_ListMixin: function _NodeList_JavaScriptObject_ListMixin() { }, _NodeList_JavaScriptObject_ListMixin_ImmutableListMixin: function _NodeList_JavaScriptObject_ListMixin_ImmutableListMixin() { }, main() { var t2, a, i, b, _s13_ = "Hello, World!", t1 = document; t1.querySelector("#an-id").toString; t1.querySelector(".a-class").toString; t2 = type$.Element; A.checkTypeBound(t2, t2, "T", "querySelectorAll"); t1.querySelectorAll("div").toString; A.print(_s13_); for (a = _s13_, i = 0; i < 10; ++i) a += " " + B.JSInt_methods.toString$0(i); for (b = 124242424, i = 0; i < 10; ++i) b += b * i; A.Future_Future$delayed(new A.Duration(1000000), type$.dynamic).then$1$1(new A.main_closure(), type$.Null); new A.main_closure0().call$0(); A.print(a); }, main_closure: function main_closure() { }, main_closure0: function main_closure0() { }, printString(string) { if (typeof dartPrint == "function") { dartPrint(string); return; } if (typeof console == "object" && typeof console.log != "undefined") { console.log(string); return; } if (typeof print == "function") { print(string); return; } throw "Unable to print message: " + String(string); }, throwLateFieldADI(fieldName) { A.throwExpressionWithWrapper(new A.LateError("Field '" + fieldName + "' has been assigned during initialization."), new Error()); } }, B = {}; var holders = [A, J, B]; var $ = {}; A.JS_CONST.prototype = {}; J.Interceptor.prototype = { toString$0(receiver) { return "Instance of '" + A.Primitives_objectTypeName(receiver) + "'"; }, get$runtimeType(receiver) { return A.createRuntimeType(A._instanceTypeFromConstructor(this)); } }; J.JSBool.prototype = { toString$0(receiver) { return String(receiver); }, get$runtimeType(receiver) { return A.createRuntimeType(type$.bool); }, $isTrustedGetRuntimeType: 1, $isbool: 1 }; J.JSNull.prototype = { toString$0(receiver) { return "null"; }, $isTrustedGetRuntimeType: 1, $isNull: 1 }; J.JavaScriptObject.prototype = {}; J.LegacyJavaScriptObject.prototype = { toString$0(receiver) { return String(receiver); } }; J.PlainJavaScriptObject.prototype = {}; J.UnknownJavaScriptObject.prototype = {}; J.JavaScriptFunction.prototype = { toString$0(receiver) { var dartClosure = receiver[$.$get$DART_CLOSURE_PROPERTY_NAME()]; if (dartClosure == null) return this.super$LegacyJavaScriptObject$toString(receiver); return "JavaScript function for " + J.toString$0$(dartClosure); }, $isFunction: 1 }; J.JavaScriptBigInt.prototype = { toString$0(receiver) { return String(receiver); } }; J.JavaScriptSymbol.prototype = { toString$0(receiver) { return String(receiver); } }; J.JSArray.prototype = { add$1(receiver, value) { A._arrayInstanceType(receiver)._precomputed1._as(value); if (!!receiver.fixed$length) A.throwExpression(A.UnsupportedError$("add")); receiver.push(value); }, toString$0(receiver) { return A.Iterable_iterableToFullString(receiver, "[", "]"); }, get$iterator(receiver) { return new J.ArrayIterator(receiver, receiver.length, A._arrayInstanceType(receiver)._eval$1("ArrayIterator<1>")); }, get$length(receiver) { return receiver.length; }, $isIterable: 1, $isList: 1 }; J.JSUnmodifiableArray.prototype = {}; J.ArrayIterator.prototype = { get$current() { var t1 = this._current; return t1 == null ? this.$ti._precomputed1._as(t1) : t1; }, moveNext$0() { var t2, _this = this, t1 = _this._iterable, $length = t1.length; if (_this._length !== $length) { t1 = A.throwConcurrentModificationError(t1); throw A.wrapException(t1); } t2 = _this._index; if (t2 >= $length) { _this.set$_current(null); return false; } _this.set$_current(t1[t2]); ++_this._index; return true; }, set$_current(_current) { this._current = this.$ti._eval$1("1?")._as(_current); } }; J.JSNumber.prototype = { toString$0(receiver) { if (receiver === 0 && 1 / receiver < 0) return "-0.0"; else return "" + receiver; }, _tdivFast$1(receiver, other) { return (receiver | 0) === receiver ? receiver / other | 0 : this._tdivSlow$1(receiver, other); }, _tdivSlow$1(receiver, other) { var quotient = receiver / other; if (quotient >= -2147483648 && quotient <= 2147483647) return quotient | 0; if (quotient > 0) { if (quotient !== 1 / 0) return Math.floor(quotient); } else if (quotient > -1 / 0) return Math.ceil(quotient); throw A.wrapException(A.UnsupportedError$("Result of truncating division is " + A.S(quotient) + ": " + A.S(receiver) + " ~/ " + other)); }, _shrOtherPositive$1(receiver, other) { var t1; if (receiver > 0) t1 = this._shrBothPositive$1(receiver, other); else { t1 = other > 31 ? 31 : other; t1 = receiver >> t1 >>> 0; } return t1; }, _shrBothPositive$1(receiver, other) { return other > 31 ? 0 : receiver >>> other; }, get$runtimeType(receiver) { return A.createRuntimeType(type$.num); }, $isnum: 1 }; J.JSInt.prototype = { get$runtimeType(receiver) { return A.createRuntimeType(type$.int); }, $isTrustedGetRuntimeType: 1, $isint: 1 }; J.JSNumNotInt.prototype = { get$runtimeType(receiver) { return A.createRuntimeType(type$.double); }, $isTrustedGetRuntimeType: 1 }; J.JSString.prototype = { $add(receiver, other) { return receiver + other; }, $mul(receiver, times) { var s, result; if (0 >= times) return ""; if (times === 1 || receiver.length === 0) return receiver; if (times !== times >>> 0) throw A.wrapException(B.C_OutOfMemoryError); for (s = receiver, result = ""; true;) { if ((times & 1) === 1) result = s + result; times = times >>> 1; if (times === 0) break; s += s; } return result; }, padLeft$2(receiver, width, padding) { var delta = width - receiver.length; if (delta <= 0) return receiver; return this.$mul(padding, delta) + receiver; }, toString$0(receiver) { return receiver; }, get$runtimeType(receiver) { return A.createRuntimeType(type$.String); }, get$length(receiver) { return receiver.length; }, $isTrustedGetRuntimeType: 1, $isString: 1 }; A.LateError.prototype = { toString$0(_) { return "LateInitializationError: " + this._message; } }; A.ListIterator.prototype = { get$current() { var t1 = this.__internal$_current; return t1 == null ? this.$ti._precomputed1._as(t1) : t1; }, moveNext$0() { var t3, _this = this, t1 = _this.__internal$_iterable, t2 = J.getInterceptor$asx(t1), $length = t2.get$length(t1); if (_this.__internal$_length !== $length) throw A.wrapException(A.ConcurrentModificationError$(t1)); t3 = _this.__internal$_index; if (t3 >= $length) { _this.set$__internal$_current(null); return false; } _this.set$__internal$_current(t2.elementAt$1(t1, t3)); ++_this.__internal$_index; return true; }, set$__internal$_current(_current) { this.__internal$_current = this.$ti._eval$1("1?")._as(_current); } }; A.TypeErrorDecoder.prototype = { matchTypeError$1(message) { var result, t1, _this = this, match = new RegExp(_this._pattern).exec(message); if (match == null) return null; result = Object.create(null); t1 = _this._arguments; if (t1 !== -1) result.arguments = match[t1 + 1]; t1 = _this._argumentsExpr; if (t1 !== -1) result.argumentsExpr = match[t1 + 1]; t1 = _this._expr; if (t1 !== -1) result.expr = match[t1 + 1]; t1 = _this._method; if (t1 !== -1) result.method = match[t1 + 1]; t1 = _this._receiver; if (t1 !== -1) result.receiver = match[t1 + 1]; return result; } }; A.NullError.prototype = { toString$0(_) { return "Null check operator used on a null value"; } }; A.JsNoSuchMethodError.prototype = { toString$0(_) { var t2, _this = this, _s38_ = "NoSuchMethodError: method not found: '", t1 = _this._method; if (t1 == null) return "NoSuchMethodError: " + _this.__js_helper$_message; t2 = _this._receiver; if (t2 == null) return _s38_ + t1 + "' (" + _this.__js_helper$_message + ")"; return _s38_ + t1 + "' on '" + t2 + "' (" + _this.__js_helper$_message + ")"; } }; A.UnknownJsTypeError.prototype = { toString$0(_) { var t1 = this.__js_helper$_message; return t1.length === 0 ? "Error" : "Error: " + t1; } }; A.NullThrownFromJavaScriptException.prototype = { toString$0(_) { return "Throw of null ('" + (this._irritant === null ? "null" : "undefined") + "' from JavaScript)"; } }; A._StackTrace.prototype = { toString$0(_) { var trace, t1 = this._trace; if (t1 != null) return t1; t1 = this._exception; trace = t1 !== null && typeof t1 === "object" ? t1.stack : null; return this._trace = trace == null ? "" : trace; }, $isStackTrace: 1 }; A.Closure.prototype = { toString$0(_) { var $constructor = this.constructor, $name = $constructor == null ? null : $constructor.name; return "Closure '" + A.unminifyOrTag($name == null ? "unknown" : $name) + "'"; }, $isFunction: 1, get$$call() { return this; }, "call*": "call$1", $requiredArgCount: 1, $defaultValues: null }; A.Closure0Args.prototype = { "call*": "call$0", $requiredArgCount: 0 }; A.Closure2Args.prototype = { "call*": "call$2", $requiredArgCount: 2 }; A.TearOffClosure.prototype = {}; A.StaticClosure.prototype = { toString$0(_) { var $name = this.$static_name; if ($name == null) return "Closure of unknown static method"; return "Closure '" + A.unminifyOrTag($name) + "'"; } }; A.BoundClosure.prototype = { toString$0(_) { return "Closure '" + this.$_name + "' of " + ("Instance of '" + A.Primitives_objectTypeName(this._receiver) + "'"); } }; A._CyclicInitializationError.prototype = { toString$0(_) { return "Reading static variable '" + this.variableName + "' during its initialization"; } }; A.RuntimeError.prototype = { toString$0(_) { return "RuntimeError: " + this.message; } }; A.initHooks_closure.prototype = { call$1(o) { return this.getTag(o); }, $signature: 4 }; A.initHooks_closure0.prototype = { call$2(o, tag) { return this.getUnknownTag(o, tag); }, $signature: 5 }; A.initHooks_closure1.prototype = { call$1(tag) { return this.prototypeForTag(A._asString(tag)); }, $signature: 6 }; A.Rti.prototype = { _eval$1(recipe) { return A._Universe_evalInEnvironment(init.typeUniverse, this, recipe); }, _bind$1(typeOrTuple) { return A._Universe_bind(init.typeUniverse, this, typeOrTuple); } }; A._FunctionParameters.prototype = {}; A._Type.prototype = { toString$0(_) { return A._rtiToString(this._rti, null); } }; A._Error.prototype = { toString$0(_) { return this.__rti$_message; } }; A._TypeError.prototype = { $isTypeError: 1 }; A._AsyncRun__initializeScheduleImmediate_internalCallback.prototype = { call$1(_) { var t1 = this._box_0, f = t1.storedCallback; t1.storedCallback = null; f.call$0(); }, $signature: 1 }; A._AsyncRun__initializeScheduleImmediate_closure.prototype = { call$1(callback) { var t1, t2; this._box_0.storedCallback = type$.void_Function._as(callback); t1 = this.div; t2 = this.span; t1.firstChild ? t1.removeChild(t2) : t1.appendChild(t2); }, $signature: 7 }; A._AsyncRun__scheduleImmediateJsOverride_internalCallback.prototype = { call$0() { this.callback.call$0(); }, $signature: 2 }; A._AsyncRun__scheduleImmediateWithSetImmediate_internalCallback.prototype = { call$0() { this.callback.call$0(); }, $signature: 2 }; A._TimerImpl.prototype = { _TimerImpl$2(milliseconds, callback) { if (self.setTimeout != null) self.setTimeout(A.convertDartClosureToJS(new A._TimerImpl_internalCallback(this, callback), 0), milliseconds); else throw A.wrapException(A.UnsupportedError$("`setTimeout()` not found.")); } }; A._TimerImpl_internalCallback.prototype = { call$0() { this.callback.call$0(); }, $signature: 0 }; A.AsyncError.prototype = { toString$0(_) { return A.S(this.error); }, $isError: 1, get$stackTrace() { return this.stackTrace; } }; A.Future_Future$delayed_closure.prototype = { call$0() { this.T._as(null); this.result._complete$1(null); }, $signature: 0 }; A._FutureListener.prototype = { matchesErrorTest$1(asyncError) { if ((this.state & 15) !== 6) return true; return this.result._zone.runUnary$2$2(type$.bool_Function_Object._as(this.callback), asyncError.error, type$.bool, type$.Object); }, handleError$1(asyncError) { var exception, _this = this, errorCallback = _this.errorCallback, result = null, t1 = type$.dynamic, t2 = type$.Object, t3 = asyncError.error, t4 = _this.result._zone; if (type$.dynamic_Function_Object_StackTrace._is(errorCallback)) result = t4.runBinary$3$3(errorCallback, t3, asyncError.stackTrace, t1, t2, type$.StackTrace); else result = t4.runUnary$2$2(type$.dynamic_Function_Object._as(errorCallback), t3, t1, t2); try { t1 = _this.$ti._eval$1("2/")._as(result); return t1; } catch (exception) { if (type$.TypeError._is(A.unwrapException(exception))) { if ((_this.state & 1) !== 0) throw A.wrapException(A.ArgumentError$("The error handler of Future.then must return a value of the returned future's type", "onError")); throw A.wrapException(A.ArgumentError$("The error handler of Future.catchError must return a value of the future's type", "onError")); } else throw exception; } } }; A._Future.prototype = { then$1$2$onError(f, onError, $R) { var currentZone, result, t2, t1 = this.$ti; t1._bind$1($R)._eval$1("1/(2)")._as(f); currentZone = $.Zone__current; if (currentZone === B.C__RootZone) { if (onError != null && !type$.dynamic_Function_Object_StackTrace._is(onError) && !type$.dynamic_Function_Object._is(onError)) throw A.wrapException(A.ArgumentError$value(onError, "onError", string$.Error_)); } else { $R._eval$1("@<0/>")._bind$1(t1._precomputed1)._eval$1("1(2)")._as(f); if (onError != null) onError = A._registerErrorHandler(onError, currentZone); } result = new A._Future(currentZone, $R._eval$1("_Future<0>")); t2 = onError == null ? 1 : 3; this._addListener$1(new A._FutureListener(result, t2, f, onError, t1._eval$1("@<1>")._bind$1($R)._eval$1("_FutureListener<1,2>"))); return result; }, then$1$1(f, $R) { return this.then$1$2$onError(f, null, $R); }, _setErrorObject$1(error) { this._state = this._state & 1 | 16; this._resultOrListeners = error; }, _cloneResult$1(source) { this._state = source._state & 30 | this._state & 1; this._resultOrListeners = source._resultOrListeners; }, _addListener$1(listener) { var source, _this = this, t1 = _this._state; if (t1 <= 3) { listener._nextListener = type$.nullable__FutureListener_dynamic_dynamic._as(_this._resultOrListeners); _this._resultOrListeners = listener; } else { if ((t1 & 4) !== 0) { source = type$._Future_dynamic._as(_this._resultOrListeners); if ((source._state & 24) === 0) { source._addListener$1(listener); return; } _this._cloneResult$1(source); } A._rootScheduleMicrotask(null, null, _this._zone, type$.void_Function._as(new A._Future__addListener_closure(_this, listener))); } }, _prependListeners$1(listeners) { var t1, existingListeners, next, cursor, next0, source, _this = this, _box_0 = {}; _box_0.listeners = listeners; if (listeners == null) return; t1 = _this._state; if (t1 <= 3) { existingListeners = type$.nullable__FutureListener_dynamic_dynamic._as(_this._resultOrListeners); _this._resultOrListeners = listeners; if (existingListeners != null) { next = listeners._nextListener; for (cursor = listeners; next != null; cursor = next, next = next0) next0 = next._nextListener; cursor._nextListener = existingListeners; } } else { if ((t1 & 4) !== 0) { source = type$._Future_dynamic._as(_this._resultOrListeners); if ((source._state & 24) === 0) { source._prependListeners$1(listeners); return; } _this._cloneResult$1(source); } _box_0.listeners = _this._reverseListeners$1(listeners); A._rootScheduleMicrotask(null, null, _this._zone, type$.void_Function._as(new A._Future__prependListeners_closure(_box_0, _this))); } }, _removeListeners$0() { var current = type$.nullable__FutureListener_dynamic_dynamic._as(this._resultOrListeners); this._resultOrListeners = null; return this._reverseListeners$1(current); }, _reverseListeners$1(listeners) { var current, prev, next; for (current = listeners, prev = null; current != null; prev = current, current = next) { next = current._nextListener; current._nextListener = prev; } return prev; }, _chainForeignFuture$1(source) { var e, s, exception, _this = this; _this._state ^= 2; try { source.then$1$2$onError(new A._Future__chainForeignFuture_closure(_this), new A._Future__chainForeignFuture_closure0(_this), type$.Null); } catch (exception) { e = A.unwrapException(exception); s = A.getTraceFromException(exception); A.scheduleMicrotask(new A._Future__chainForeignFuture_closure1(_this, e, s)); } }, _complete$1(value) { var listeners, _this = this, t1 = _this.$ti; t1._eval$1("1/")._as(value); if (t1._eval$1("Future<1>")._is(value)) _this._chainForeignFuture$1(value); else { listeners = _this._removeListeners$0(); t1._precomputed1._as(value); _this._state = 8; _this._resultOrListeners = value; A._Future__propagateToListeners(_this, listeners); } }, _completeError$2(error, stackTrace) { var listeners; type$.StackTrace._as(stackTrace); listeners = this._removeListeners$0(); this._setErrorObject$1(A.AsyncError$(error, stackTrace)); A._Future__propagateToListeners(this, listeners); }, $isFuture: 1 }; A._Future__addListener_closure.prototype = { call$0() { A._Future__propagateToListeners(this.$this, this.listener); }, $signature: 0 }; A._Future__prependListeners_closure.prototype = { call$0() { A._Future__propagateToListeners(this.$this, this._box_0.listeners); }, $signature: 0 }; A._Future__chainForeignFuture_closure.prototype = { call$1(value) { var error, stackTrace, t2, listeners, exception, t1 = this.$this; t1._state ^= 2; try { t2 = t1.$ti._precomputed1; value = t2._as(t2._as(value)); listeners = t1._removeListeners$0(); t1._state = 8; t1._resultOrListeners = value; A._Future__propagateToListeners(t1, listeners); } catch (exception) { error = A.unwrapException(exception); stackTrace = A.getTraceFromException(exception); t1._completeError$2(error, stackTrace); } }, $signature: 1 }; A._Future__chainForeignFuture_closure0.prototype = { call$2(error, stackTrace) { this.$this._completeError$2(type$.Object._as(error), type$.StackTrace._as(stackTrace)); }, $signature: 8 }; A._Future__chainForeignFuture_closure1.prototype = { call$0() { this.$this._completeError$2(this.e, this.s); }, $signature: 0 }; A._Future__propagateToListeners_handleWhenCompleteCallback.prototype = { call$0() { var e, s, t1, exception, t2, originalSource, _this = this, completeResult = null; try { t1 = _this._box_0.listener; completeResult = t1.result._zone.run$1$1(type$.dynamic_Function._as(t1.callback), type$.dynamic); } catch (exception) { e = A.unwrapException(exception); s = A.getTraceFromException(exception); t1 = _this.hasError && type$.AsyncError._as(_this._box_1.source._resultOrListeners).error === e; t2 = _this._box_0; if (t1) t2.listenerValueOrError = type$.AsyncError._as(_this._box_1.source._resultOrListeners); else t2.listenerValueOrError = A.AsyncError$(e, s); t2.listenerHasError = true; return; } if (completeResult instanceof A._Future && (completeResult._state & 24) !== 0) { if ((completeResult._state & 16) !== 0) { t1 = _this._box_0; t1.listenerValueOrError = type$.AsyncError._as(completeResult._resultOrListeners); t1.listenerHasError = true; } return; } if (completeResult instanceof A._Future) { originalSource = _this._box_1.source; t1 = _this._box_0; t1.listenerValueOrError = completeResult.then$1$1(new A._Future__propagateToListeners_handleWhenCompleteCallback_closure(originalSource), type$.dynamic); t1.listenerHasError = false; } }, $signature: 0 }; A._Future__propagateToListeners_handleWhenCompleteCallback_closure.prototype = { call$1(_) { return this.originalSource; }, $signature: 9 }; A._Future__propagateToListeners_handleValueCallback.prototype = { call$0() { var e, s, t1, t2, t3, t4, t5, exception; try { t1 = this._box_0; t2 = t1.listener; t3 = t2.$ti; t4 = t3._precomputed1; t5 = t4._as(this.sourceResult); t1.listenerValueOrError = t2.result._zone.runUnary$2$2(t3._eval$1("2/(1)")._as(t2.callback), t5, t3._eval$1("2/"), t4); } catch (exception) { e = A.unwrapException(exception); s = A.getTraceFromException(exception); t1 = this._box_0; t1.listenerValueOrError = A.AsyncError$(e, s); t1.listenerHasError = true; } }, $signature: 0 }; A._Future__propagateToListeners_handleError.prototype = { call$0() { var asyncError, e, s, t1, exception, t2, _this = this; try { asyncError = type$.AsyncError._as(_this._box_1.source._resultOrListeners); t1 = _this._box_0; if (t1.listener.matchesErrorTest$1(asyncError) && t1.listener.errorCallback != null) { t1.listenerValueOrError = t1.listener.handleError$1(asyncError); t1.listenerHasError = false; } } catch (exception) { e = A.unwrapException(exception); s = A.getTraceFromException(exception); t1 = type$.AsyncError._as(_this._box_1.source._resultOrListeners); t2 = _this._box_0; if (t1.error === e) t2.listenerValueOrError = t1; else t2.listenerValueOrError = A.AsyncError$(e, s); t2.listenerHasError = true; } }, $signature: 0 }; A._AsyncCallbackEntry.prototype = {}; A._Zone.prototype = { $isZone: 1 }; A._rootHandleError_closure.prototype = { call$0() { A.Error_throwWithStackTrace(this.error, this.stackTrace); }, $signature: 0 }; A._RootZone.prototype = { runGuarded$1(f) { var e, s, exception; type$.void_Function._as(f); try { if (B.C__RootZone === $.Zone__current) { f.call$0(); return; } A._rootRun(null, null, this, f, type$.void); } catch (exception) { e = A.unwrapException(exception); s = A.getTraceFromException(exception); A._rootHandleError(type$.Object._as(e), type$.StackTrace._as(s)); } }, bindCallbackGuarded$1(f) { return new A._RootZone_bindCallbackGuarded_closure(this, type$.void_Function._as(f)); }, run$1$1(f, $R) { $R._eval$1("0()")._as(f); if ($.Zone__current === B.C__RootZone) return f.call$0(); return A._rootRun(null, null, this, f, $R); }, runUnary$2$2(f, arg, $R, $T) { $R._eval$1("@<0>")._bind$1($T)._eval$1("1(2)")._as(f); $T._as(arg); if ($.Zone__current === B.C__RootZone) return f.call$1(arg); return A._rootRunUnary(null, null, this, f, arg, $R, $T); }, runBinary$3$3(f, arg1, arg2, $R, T1, T2) { $R._eval$1("@<0>")._bind$1(T1)._bind$1(T2)._eval$1("1(2,3)")._as(f); T1._as(arg1); T2._as(arg2); if ($.Zone__current === B.C__RootZone) return f.call$2(arg1, arg2); return A._rootRunBinary(null, null, this, f, arg1, arg2, $R, T1, T2); } }; A._RootZone_bindCallbackGuarded_closure.prototype = { call$0() { return this.$this.runGuarded$1(this.f); }, $signature: 0 }; A.ListBase.prototype = { get$iterator(receiver) { return new A.ListIterator(receiver, this.get$length(receiver), A.instanceType(receiver)._eval$1("ListIterator")); }, elementAt$1(receiver, index) { return this.$index(receiver, index); }, toString$0(receiver) { return A.Iterable_iterableToFullString(receiver, "[", "]"); } }; A.Duration.prototype = { toString$0(_) { var minutes, minutesPadding, seconds, secondsPadding, microseconds = this._duration, hours = B.JSInt_methods._tdivFast$1(microseconds, 3600000000); microseconds %= 3600000000; minutes = B.JSInt_methods._tdivFast$1(microseconds, 60000000); microseconds %= 60000000; minutesPadding = minutes < 10 ? "0" : ""; seconds = B.JSInt_methods._tdivFast$1(microseconds, 1000000); secondsPadding = seconds < 10 ? "0" : ""; return "" + hours + ":" + minutesPadding + minutes + ":" + secondsPadding + seconds + "." + B.JSString_methods.padLeft$2(B.JSInt_methods.toString$0(microseconds % 1000000), 6, "0"); } }; A.Error.prototype = { get$stackTrace() { return A.getTraceFromException(this.$thrownJsError); } }; A.AssertionError.prototype = { toString$0(_) { var t1 = this.message; if (t1 != null) return "Assertion failed: " + A.Error_safeToString(t1); return "Assertion failed"; } }; A.TypeError.prototype = {}; A.ArgumentError.prototype = { get$_errorName() { return "Invalid argument" + (!this._hasValue ? "(s)" : ""); }, get$_errorExplanation() { return ""; }, toString$0(_) { var _this = this, $name = _this.name, nameString = $name == null ? "" : " (" + $name + ")", message = _this.message, messageString = message == null ? "" : ": " + message, prefix = _this.get$_errorName() + nameString + messageString; if (!_this._hasValue) return prefix; return prefix + _this.get$_errorExplanation() + ": " + A.Error_safeToString(_this.get$invalidValue()); }, get$invalidValue() { return this.invalidValue; } }; A.RangeError.prototype = { get$invalidValue() { return A._asNumQ(this.invalidValue); }, get$_errorName() { return "RangeError"; }, get$_errorExplanation() { return ""; } }; A.IndexError.prototype = { get$invalidValue() { return A._asInt(this.invalidValue); }, get$_errorName() { return "RangeError"; }, get$_errorExplanation() { if (A._asInt(this.invalidValue) < 0) return ": index must not be negative"; var t1 = this.length; if (t1 === 0) return ": no indices are valid"; return ": index should be less than " + t1; }, get$length(receiver) { return this.length; } }; A.UnsupportedError.prototype = { toString$0(_) { return "Unsupported operation: " + this.message; } }; A.UnimplementedError.prototype = { toString$0(_) { return "UnimplementedError: " + this.message; } }; A.ConcurrentModificationError.prototype = { toString$0(_) { return "Concurrent modification during iteration: " + A.Error_safeToString(this.modifiedObject) + "."; } }; A.OutOfMemoryError.prototype = { toString$0(_) { return "Out of Memory"; }, get$stackTrace() { return null; }, $isError: 1 }; A.StackOverflowError.prototype = { toString$0(_) { return "Stack Overflow"; }, get$stackTrace() { return null; }, $isError: 1 }; A._Exception.prototype = { toString$0(_) { return "Exception: " + this.message; } }; A.Null.prototype = { toString$0(_) { return "null"; } }; A.Object.prototype = { $isObject: 1, toString$0(_) { return "Instance of '" + A.Primitives_objectTypeName(this) + "'"; }, get$runtimeType(_) { return A.getRuntimeTypeOfDartObject(this); }, toString() { return this.toString$0(this); } }; A._StringStackTrace.prototype = { toString$0(_) { return ""; }, $isStackTrace: 1 }; A.StringBuffer.prototype = { get$length(_) { return this._contents.length; }, toString$0(_) { var t1 = this._contents; return t1.charCodeAt(0) == 0 ? t1 : t1; } }; A.HtmlElement.prototype = {}; A.AnchorElement.prototype = { toString$0(receiver) { var t1 = String(receiver); t1.toString; return t1; } }; A.AreaElement.prototype = { toString$0(receiver) { var t1 = String(receiver); t1.toString; return t1; } }; A.CharacterData.prototype = { get$length(receiver) { return receiver.length; } }; A.DomException.prototype = { toString$0(receiver) { var t1 = String(receiver); t1.toString; return t1; } }; A.Element.prototype = { toString$0(receiver) { var t1 = receiver.localName; t1.toString; return t1; }, $isElement: 1 }; A.EventTarget.prototype = {}; A.FormElement.prototype = { get$length(receiver) { return receiver.length; } }; A.Node.prototype = { toString$0(receiver) { var value = receiver.nodeValue; return value == null ? this.super$Interceptor$toString(receiver) : value; }, $isNode: 1 }; A.NodeList.prototype = { get$length(receiver) { var t1 = receiver.length; t1.toString; return t1; }, $index(receiver, index) { var t1 = receiver.length, t2 = index >>> 0 !== index || index >= t1; t2.toString; if (t2) throw A.wrapException(A.IndexError$withLength(index, t1, receiver, null)); t1 = receiver[index]; t1.toString; return t1; }, elementAt$1(receiver, index) { if (!(index < receiver.length)) return A.ioore(receiver, index); return receiver[index]; }, $isJavaScriptIndexingBehavior: 1, $isIterable: 1, $isList: 1 }; A.SelectElement.prototype = { get$length(receiver) { return receiver.length; } }; A.ImmutableListMixin.prototype = { get$iterator(receiver) { return new A.FixedSizeListIterator(receiver, receiver.length, A.instanceType(receiver)._eval$1("FixedSizeListIterator")); } }; A.FixedSizeListIterator.prototype = { moveNext$0() { var _this = this, nextPosition = _this._position + 1, t1 = _this._html$_length; if (nextPosition < t1) { t1 = _this._array; if (!(nextPosition >= 0 && nextPosition < t1.length)) return A.ioore(t1, nextPosition); _this.set$_html$_current(t1[nextPosition]); _this._position = nextPosition; return true; } _this.set$_html$_current(null); _this._position = t1; return false; }, get$current() { var t1 = this._html$_current; return t1 == null ? this.$ti._precomputed1._as(t1) : t1; }, set$_html$_current(_current) { this._html$_current = this.$ti._eval$1("1?")._as(_current); } }; A._NodeList_JavaScriptObject_ListMixin.prototype = {}; A._NodeList_JavaScriptObject_ListMixin_ImmutableListMixin.prototype = {}; A.main_closure.prototype = { call$1(value) { A.print("\u5ef6\u65f61\u79d2\u6267\u884c then "); A.print(value); }, $signature: 1 }; A.main_closure0.prototype = { call$0() { A.print("closuer"); }, $signature: 2 }; (function aliases() { var _ = J.Interceptor.prototype; _.super$Interceptor$toString = _.toString$0; _ = J.LegacyJavaScriptObject.prototype; _.super$LegacyJavaScriptObject$toString = _.toString$0; })(); (function installTearOffs() { var _static_1 = hunkHelpers._static_1, _static_0 = hunkHelpers._static_0; _static_1(A, "async__AsyncRun__scheduleImmediateJsOverride$closure", "_AsyncRun__scheduleImmediateJsOverride", 3); _static_1(A, "async__AsyncRun__scheduleImmediateWithSetImmediate$closure", "_AsyncRun__scheduleImmediateWithSetImmediate", 3); _static_1(A, "async__AsyncRun__scheduleImmediateWithTimer$closure", "_AsyncRun__scheduleImmediateWithTimer", 3); _static_0(A, "async___startMicrotaskLoop$closure", "_startMicrotaskLoop", 0); })(); (function inheritance() { var _mixin = hunkHelpers.mixin, _inherit = hunkHelpers.inherit, _inheritMany = hunkHelpers.inheritMany; _inherit(A.Object, null); _inheritMany(A.Object, [A.JS_CONST, J.Interceptor, J.ArrayIterator, A.Error, A.ListIterator, A.TypeErrorDecoder, A.NullThrownFromJavaScriptException, A._StackTrace, A.Closure, A.Rti, A._FunctionParameters, A._Type, A._TimerImpl, A.AsyncError, A._FutureListener, A._Future, A._AsyncCallbackEntry, A._Zone, A.ListBase, A.Duration, A.OutOfMemoryError, A.StackOverflowError, A._Exception, A.Null, A._StringStackTrace, A.StringBuffer, A.ImmutableListMixin, A.FixedSizeListIterator]); _inheritMany(J.Interceptor, [J.JSBool, J.JSNull, J.JavaScriptObject, J.JavaScriptBigInt, J.JavaScriptSymbol, J.JSNumber, J.JSString]); _inheritMany(J.JavaScriptObject, [J.LegacyJavaScriptObject, J.JSArray, A.EventTarget, A.DomException, A._NodeList_JavaScriptObject_ListMixin]); _inheritMany(J.LegacyJavaScriptObject, [J.PlainJavaScriptObject, J.UnknownJavaScriptObject, J.JavaScriptFunction]); _inherit(J.JSUnmodifiableArray, J.JSArray); _inheritMany(J.JSNumber, [J.JSInt, J.JSNumNotInt]); _inheritMany(A.Error, [A.LateError, A.TypeError, A.JsNoSuchMethodError, A.UnknownJsTypeError, A._CyclicInitializationError, A.RuntimeError, A._Error, A.AssertionError, A.ArgumentError, A.UnsupportedError, A.UnimplementedError, A.ConcurrentModificationError]); _inherit(A.NullError, A.TypeError); _inheritMany(A.Closure, [A.Closure0Args, A.Closure2Args, A.TearOffClosure, A.initHooks_closure, A.initHooks_closure1, A._AsyncRun__initializeScheduleImmediate_internalCallback, A._AsyncRun__initializeScheduleImmediate_closure, A._Future__chainForeignFuture_closure, A._Future__propagateToListeners_handleWhenCompleteCallback_closure, A.main_closure]); _inheritMany(A.TearOffClosure, [A.StaticClosure, A.BoundClosure]); _inheritMany(A.Closure2Args, [A.initHooks_closure0, A._Future__chainForeignFuture_closure0]); _inherit(A._TypeError, A._Error); _inheritMany(A.Closure0Args, [A._AsyncRun__scheduleImmediateJsOverride_internalCallback, A._AsyncRun__scheduleImmediateWithSetImmediate_internalCallback, A._TimerImpl_internalCallback, A.Future_Future$delayed_closure, A._Future__addListener_closure, A._Future__prependListeners_closure, A._Future__chainForeignFuture_closure1, A._Future__propagateToListeners_handleWhenCompleteCallback, A._Future__propagateToListeners_handleValueCallback, A._Future__propagateToListeners_handleError, A._rootHandleError_closure, A._RootZone_bindCallbackGuarded_closure, A.main_closure0]); _inherit(A._RootZone, A._Zone); _inheritMany(A.ArgumentError, [A.RangeError, A.IndexError]); _inherit(A.Node, A.EventTarget); _inheritMany(A.Node, [A.Element, A.CharacterData]); _inherit(A.HtmlElement, A.Element); _inheritMany(A.HtmlElement, [A.AnchorElement, A.AreaElement, A.FormElement, A.SelectElement]); _inherit(A._NodeList_JavaScriptObject_ListMixin_ImmutableListMixin, A._NodeList_JavaScriptObject_ListMixin); _inherit(A.NodeList, A._NodeList_JavaScriptObject_ListMixin_ImmutableListMixin); _mixin(A._NodeList_JavaScriptObject_ListMixin, A.ListBase); _mixin(A._NodeList_JavaScriptObject_ListMixin_ImmutableListMixin, A.ImmutableListMixin); })(); var init = { typeUniverse: { eC: new Map(), tR: {}, eT: {}, tPV: {}, sEA: [] }, mangledGlobalNames: { int: "int", double: "double", num: "num", String: "String", bool: "bool", Null: "Null", List: "List", Object: "Object", Map: "Map" }, mangledNames: {}, types: ["~()", "Null(@)", "Null()", "~(~())", "@(@)", "@(@,String)", "@(String)", "Null(~())", "Null(Object,StackTrace)", "_Future<@>(@)"], interceptorsByTag: null, leafTags: null, arrayRti: Symbol("$ti") }; A._Universe_addRules(init.typeUniverse, JSON.parse('{"PlainJavaScriptObject":"LegacyJavaScriptObject","UnknownJavaScriptObject":"LegacyJavaScriptObject","JavaScriptFunction":"LegacyJavaScriptObject","MathMLElement":"Element","AudioElement":"HtmlElement","MediaElement":"HtmlElement","HtmlDocument":"Node","Document":"Node","CDataSection":"CharacterData","Text":"CharacterData","JSBool":{"bool":[],"TrustedGetRuntimeType":[]},"JSNull":{"Null":[],"TrustedGetRuntimeType":[]},"JSArray":{"List":["1"],"Iterable":["1"]},"JSUnmodifiableArray":{"JSArray":["1"],"List":["1"],"Iterable":["1"]},"JSNumber":{"num":[]},"JSInt":{"int":[],"num":[],"TrustedGetRuntimeType":[]},"JSNumNotInt":{"num":[],"TrustedGetRuntimeType":[]},"JSString":{"String":[],"TrustedGetRuntimeType":[]},"LateError":{"Error":[]},"NullError":{"TypeError":[],"Error":[]},"JsNoSuchMethodError":{"Error":[]},"UnknownJsTypeError":{"Error":[]},"_StackTrace":{"StackTrace":[]},"Closure":{"Function":[]},"Closure0Args":{"Function":[]},"Closure2Args":{"Function":[]},"TearOffClosure":{"Function":[]},"StaticClosure":{"Function":[]},"BoundClosure":{"Function":[]},"_CyclicInitializationError":{"Error":[]},"RuntimeError":{"Error":[]},"_Error":{"Error":[]},"_TypeError":{"TypeError":[],"Error":[]},"_Future":{"Future":["1"]},"AsyncError":{"Error":[]},"_Zone":{"Zone":[]},"_RootZone":{"_Zone":[],"Zone":[]},"AssertionError":{"Error":[]},"TypeError":{"Error":[]},"ArgumentError":{"Error":[]},"RangeError":{"Error":[]},"IndexError":{"Error":[]},"UnsupportedError":{"Error":[]},"UnimplementedError":{"Error":[]},"ConcurrentModificationError":{"Error":[]},"OutOfMemoryError":{"Error":[]},"StackOverflowError":{"Error":[]},"_StringStackTrace":{"StackTrace":[]},"Element":{"Node":[]},"HtmlElement":{"Element":[],"Node":[]},"AnchorElement":{"Element":[],"Node":[]},"AreaElement":{"Element":[],"Node":[]},"CharacterData":{"Node":[]},"FormElement":{"Element":[],"Node":[]},"NodeList":{"ListBase":["Node"],"ImmutableListMixin":["Node"],"List":["Node"],"JavaScriptIndexingBehavior":["Node"],"Iterable":["Node"],"ListBase.E":"Node","ImmutableListMixin.E":"Node"},"SelectElement":{"Element":[],"Node":[]}}')); var string$ = { Error_: "Error handler must accept one Object or one Object and a StackTrace as arguments, and return a value of the returned future's type" }; var type$ = (function rtii() { var findType = A.findType; return { AsyncError: findType("AsyncError"), Element: findType("Element"), Error: findType("Error"), Function: findType("Function"), Future_dynamic: findType("Future<@>"), JSArray_String: findType("JSArray"), JSArray_dynamic: findType("JSArray<@>"), JSNull: findType("JSNull"), JavaScriptFunction: findType("JavaScriptFunction"), JavaScriptIndexingBehavior_dynamic: findType("JavaScriptIndexingBehavior<@>"), Null: findType("Null"), Object: findType("Object"), Record: findType("Record"), StackTrace: findType("StackTrace"), String: findType("String"), TrustedGetRuntimeType: findType("TrustedGetRuntimeType"), TypeError: findType("TypeError"), UnknownJavaScriptObject: findType("UnknownJavaScriptObject"), _Future_dynamic: findType("_Future<@>"), bool: findType("bool"), bool_Function_Object: findType("bool(Object)"), double: findType("double"), dynamic: findType("@"), dynamic_Function: findType("@()"), dynamic_Function_Object: findType("@(Object)"), dynamic_Function_Object_StackTrace: findType("@(Object,StackTrace)"), int: findType("int"), legacy_Never: findType("0&*"), legacy_Object: findType("Object*"), nullable_Future_Null: findType("Future?"), nullable_Object: findType("Object?"), nullable__FutureListener_dynamic_dynamic: findType("_FutureListener<@,@>?"), num: findType("num"), void: findType("~"), void_Function: findType("~()") }; })(); (function constants() { B.Interceptor_methods = J.Interceptor.prototype; B.JSArray_methods = J.JSArray.prototype; B.JSInt_methods = J.JSInt.prototype; B.JSString_methods = J.JSString.prototype; B.JavaScriptFunction_methods = J.JavaScriptFunction.prototype; B.JavaScriptObject_methods = J.JavaScriptObject.prototype; B.PlainJavaScriptObject_methods = J.PlainJavaScriptObject.prototype; B.UnknownJavaScriptObject_methods = J.UnknownJavaScriptObject.prototype; B.C_JS_CONST = function getTagFallback(o) { var s = Object.prototype.toString.call(o); return s.substring(8, s.length - 1); }; B.C_JS_CONST0 = function () { var toStringFunction = Object.prototype.toString; function getTag(o) { var s = toStringFunction.call(o); return s.substring(8, s.length - 1); } function getUnknownTag(object, tag) { if (/^HTML[A-Z].*Element$/.test(tag)) { var name = toStringFunction.call(object); if (name == "[object Object]") return null; return "HTMLElement"; } } function getUnknownTagGenericBrowser(object, tag) { if (object instanceof HTMLElement) return "HTMLElement"; return getUnknownTag(object, tag); } function prototypeForTag(tag) { if (typeof window == "undefined") return null; if (typeof window[tag] == "undefined") return null; var constructor = window[tag]; if (typeof constructor != "function") return null; return constructor.prototype; } function discriminator(tag) { return null; } var isBrowser = typeof HTMLElement == "function"; return { getTag: getTag, getUnknownTag: isBrowser ? getUnknownTagGenericBrowser : getUnknownTag, prototypeForTag: prototypeForTag, discriminator: discriminator }; }; B.C_JS_CONST6 = function (getTagFallback) { return function (hooks) { if (typeof navigator != "object") return hooks; var userAgent = navigator.userAgent; if (typeof userAgent != "string") return hooks; if (userAgent.indexOf("DumpRenderTree") >= 0) return hooks; if (userAgent.indexOf("Chrome") >= 0) { function confirm(p) { return typeof window == "object" && window[p] && window[p].name == p; } if (confirm("Window") && confirm("HTMLElement")) return hooks; } hooks.getTag = getTagFallback; }; }; B.C_JS_CONST1 = function (hooks) { if (typeof dartExperimentalFixupGetTag != "function") return hooks; hooks.getTag = dartExperimentalFixupGetTag(hooks.getTag); }; B.C_JS_CONST5 = function (hooks) { if (typeof navigator != "object") return hooks; var userAgent = navigator.userAgent; if (typeof userAgent != "string") return hooks; if (userAgent.indexOf("Firefox") == -1) return hooks; var getTag = hooks.getTag; var quickMap = { "BeforeUnloadEvent": "Event", "DataTransfer": "Clipboard", "GeoGeolocation": "Geolocation", "Location": "!Location", "WorkerMessageEvent": "MessageEvent", "XMLDocument": "!Document" }; function getTagFirefox(o) { var tag = getTag(o); return quickMap[tag] || tag; } hooks.getTag = getTagFirefox; }; B.C_JS_CONST4 = function (hooks) { if (typeof navigator != "object") return hooks; var userAgent = navigator.userAgent; if (typeof userAgent != "string") return hooks; if (userAgent.indexOf("Trident/") == -1) return hooks; var getTag = hooks.getTag; var quickMap = { "BeforeUnloadEvent": "Event", "DataTransfer": "Clipboard", "HTMLDDElement": "HTMLElement", "HTMLDTElement": "HTMLElement", "HTMLPhraseElement": "HTMLElement", "Position": "Geoposition" }; function getTagIE(o) { var tag = getTag(o); var newTag = quickMap[tag]; if (newTag) return newTag; if (tag == "Object") { if (window.DataView && (o instanceof window.DataView)) return "DataView"; } return tag; } function prototypeForTagIE(tag) { var constructor = window[tag]; if (constructor == null) return null; return constructor.prototype; } hooks.getTag = getTagIE; hooks.prototypeForTag = prototypeForTagIE; }; B.C_JS_CONST2 = function (hooks) { var getTag = hooks.getTag; var prototypeForTag = hooks.prototypeForTag; function getTagFixed(o) { var tag = getTag(o); if (tag == "Document") { if (!!o.xmlVersion) return "!Document"; return "!HTMLDocument"; } return tag; } function prototypeForTagFixed(tag) { if (tag == "Document") return null; return prototypeForTag(tag); } hooks.getTag = getTagFixed; hooks.prototypeForTag = prototypeForTagFixed; }; B.C_JS_CONST3 = function (hooks) { return hooks; } ; B.C_OutOfMemoryError = new A.OutOfMemoryError(); B.C__RootZone = new A._RootZone(); B.C__StringStackTrace = new A._StringStackTrace(); B.Duration_0 = new A.Duration(0); })(); (function staticFields() { $._JS_INTEROP_INTERCEPTOR_TAG = null; $.toStringVisiting = A._setArrayType([], A.findType("JSArray")); $.BoundClosure__receiverFieldNameCache = null; $.BoundClosure__interceptorFieldNameCache = null; $.getTagFunction = null; $.alternateTagFunction = null; $.prototypeForTagFunction = null; $.dispatchRecordsForInstanceTags = null; $.interceptorsForUncacheableTags = null; $.initNativeDispatchFlag = null; $._nextCallback = null; $._lastCallback = null; $._lastPriorityCallback = null; $._isInCallbackLoop = false; $.Zone__current = B.C__RootZone; })(); (function lazyInitializers() { var _lazyFinal = hunkHelpers.lazyFinal; _lazyFinal($, "DART_CLOSURE_PROPERTY_NAME", "$get$DART_CLOSURE_PROPERTY_NAME", () => A.getIsolateAffinityTag("_$dart_dartClosure")); _lazyFinal($, "TypeErrorDecoder_noSuchMethodPattern", "$get$TypeErrorDecoder_noSuchMethodPattern", () => A.TypeErrorDecoder_extractPattern(A.TypeErrorDecoder_provokeCallErrorOn({ toString: function () { return "$receiver$"; } }))); _lazyFinal($, "TypeErrorDecoder_notClosurePattern", "$get$TypeErrorDecoder_notClosurePattern", () => A.TypeErrorDecoder_extractPattern(A.TypeErrorDecoder_provokeCallErrorOn({ $method$: null, toString: function () { return "$receiver$"; } }))); _lazyFinal($, "TypeErrorDecoder_nullCallPattern", "$get$TypeErrorDecoder_nullCallPattern", () => A.TypeErrorDecoder_extractPattern(A.TypeErrorDecoder_provokeCallErrorOn(null))); _lazyFinal($, "TypeErrorDecoder_nullLiteralCallPattern", "$get$TypeErrorDecoder_nullLiteralCallPattern", () => A.TypeErrorDecoder_extractPattern(function () { var $argumentsExpr$ = "$arguments$"; try { null.$method$($argumentsExpr$); } catch (e) { return e.message; } }())); _lazyFinal($, "TypeErrorDecoder_undefinedCallPattern", "$get$TypeErrorDecoder_undefinedCallPattern", () => A.TypeErrorDecoder_extractPattern(A.TypeErrorDecoder_provokeCallErrorOn(void 0))); _lazyFinal($, "TypeErrorDecoder_undefinedLiteralCallPattern", "$get$TypeErrorDecoder_undefinedLiteralCallPattern", () => A.TypeErrorDecoder_extractPattern(function () { var $argumentsExpr$ = "$arguments$"; try { (void 0).$method$($argumentsExpr$); } catch (e) { return e.message; } }())); _lazyFinal($, "TypeErrorDecoder_nullPropertyPattern", "$get$TypeErrorDecoder_nullPropertyPattern", () => A.TypeErrorDecoder_extractPattern(A.TypeErrorDecoder_provokePropertyErrorOn(null))); _lazyFinal($, "TypeErrorDecoder_nullLiteralPropertyPattern", "$get$TypeErrorDecoder_nullLiteralPropertyPattern", () => A.TypeErrorDecoder_extractPattern(function () { try { null.$method$; } catch (e) { return e.message; } }())); _lazyFinal($, "TypeErrorDecoder_undefinedPropertyPattern", "$get$TypeErrorDecoder_undefinedPropertyPattern", () => A.TypeErrorDecoder_extractPattern(A.TypeErrorDecoder_provokePropertyErrorOn(void 0))); _lazyFinal($, "TypeErrorDecoder_undefinedLiteralPropertyPattern", "$get$TypeErrorDecoder_undefinedLiteralPropertyPattern", () => A.TypeErrorDecoder_extractPattern(function () { try { (void 0).$method$; } catch (e) { return e.message; } }())); _lazyFinal($, "_AsyncRun__scheduleImmediateClosure", "$get$_AsyncRun__scheduleImmediateClosure", () => A._AsyncRun__initializeScheduleImmediate()); })(); (function nativeSupport() { !function () { var intern = function (s) { var o = {}; o[s] = 1; return Object.keys(hunkHelpers.convertToFastObject(o))[0]; }; init.getIsolateTag = function (name) { return intern("___dart_" + name + init.isolateTag); }; var tableProperty = "___dart_isolate_tags_"; var usedProperties = Object[tableProperty] || (Object[tableProperty] = Object.create(null)); var rootProperty = "_ZxYxX"; for (var i = 0; ; i++) { var property = intern(rootProperty + "_" + i + "_"); if (!(property in usedProperties)) { usedProperties[property] = 1; init.isolateTag = property; break; } } init.dispatchPropertyName = init.getIsolateTag("dispatch_record"); }(); hunkHelpers.setOrUpdateInterceptorsByTag({ ApplicationCacheErrorEvent: J.JavaScriptObject, DOMError: J.JavaScriptObject, ErrorEvent: J.JavaScriptObject, Event: J.JavaScriptObject, InputEvent: J.JavaScriptObject, SubmitEvent: J.JavaScriptObject, MediaError: J.JavaScriptObject, NavigatorUserMediaError: J.JavaScriptObject, OverconstrainedError: J.JavaScriptObject, PositionError: J.JavaScriptObject, GeolocationPositionError: J.JavaScriptObject, SensorErrorEvent: J.JavaScriptObject, SpeechRecognitionError: J.JavaScriptObject, HTMLAudioElement: A.HtmlElement, HTMLBRElement: A.HtmlElement, HTMLBaseElement: A.HtmlElement, HTMLBodyElement: A.HtmlElement, HTMLButtonElement: A.HtmlElement, HTMLCanvasElement: A.HtmlElement, HTMLContentElement: A.HtmlElement, HTMLDListElement: A.HtmlElement, HTMLDataElement: A.HtmlElement, HTMLDataListElement: A.HtmlElement, HTMLDetailsElement: A.HtmlElement, HTMLDialogElement: A.HtmlElement, HTMLDivElement: A.HtmlElement, HTMLEmbedElement: A.HtmlElement, HTMLFieldSetElement: A.HtmlElement, HTMLHRElement: A.HtmlElement, HTMLHeadElement: A.HtmlElement, HTMLHeadingElement: A.HtmlElement, HTMLHtmlElement: A.HtmlElement, HTMLIFrameElement: A.HtmlElement, HTMLImageElement: A.HtmlElement, HTMLInputElement: A.HtmlElement, HTMLLIElement: A.HtmlElement, HTMLLabelElement: A.HtmlElement, HTMLLegendElement: A.HtmlElement, HTMLLinkElement: A.HtmlElement, HTMLMapElement: A.HtmlElement, HTMLMediaElement: A.HtmlElement, HTMLMenuElement: A.HtmlElement, HTMLMetaElement: A.HtmlElement, HTMLMeterElement: A.HtmlElement, HTMLModElement: A.HtmlElement, HTMLOListElement: A.HtmlElement, HTMLObjectElement: A.HtmlElement, HTMLOptGroupElement: A.HtmlElement, HTMLOptionElement: A.HtmlElement, HTMLOutputElement: A.HtmlElement, HTMLParagraphElement: A.HtmlElement, HTMLParamElement: A.HtmlElement, HTMLPictureElement: A.HtmlElement, HTMLPreElement: A.HtmlElement, HTMLProgressElement: A.HtmlElement, HTMLQuoteElement: A.HtmlElement, HTMLScriptElement: A.HtmlElement, HTMLShadowElement: A.HtmlElement, HTMLSlotElement: A.HtmlElement, HTMLSourceElement: A.HtmlElement, HTMLSpanElement: A.HtmlElement, HTMLStyleElement: A.HtmlElement, HTMLTableCaptionElement: A.HtmlElement, HTMLTableCellElement: A.HtmlElement, HTMLTableDataCellElement: A.HtmlElement, HTMLTableHeaderCellElement: A.HtmlElement, HTMLTableColElement: A.HtmlElement, HTMLTableElement: A.HtmlElement, HTMLTableRowElement: A.HtmlElement, HTMLTableSectionElement: A.HtmlElement, HTMLTemplateElement: A.HtmlElement, HTMLTextAreaElement: A.HtmlElement, HTMLTimeElement: A.HtmlElement, HTMLTitleElement: A.HtmlElement, HTMLTrackElement: A.HtmlElement, HTMLUListElement: A.HtmlElement, HTMLUnknownElement: A.HtmlElement, HTMLVideoElement: A.HtmlElement, HTMLDirectoryElement: A.HtmlElement, HTMLFontElement: A.HtmlElement, HTMLFrameElement: A.HtmlElement, HTMLFrameSetElement: A.HtmlElement, HTMLMarqueeElement: A.HtmlElement, HTMLElement: A.HtmlElement, HTMLAnchorElement: A.AnchorElement, HTMLAreaElement: A.AreaElement, CDATASection: A.CharacterData, CharacterData: A.CharacterData, Comment: A.CharacterData, ProcessingInstruction: A.CharacterData, Text: A.CharacterData, DOMException: A.DomException, MathMLElement: A.Element, SVGAElement: A.Element, SVGAnimateElement: A.Element, SVGAnimateMotionElement: A.Element, SVGAnimateTransformElement: A.Element, SVGAnimationElement: A.Element, SVGCircleElement: A.Element, SVGClipPathElement: A.Element, SVGDefsElement: A.Element, SVGDescElement: A.Element, SVGDiscardElement: A.Element, SVGEllipseElement: A.Element, SVGFEBlendElement: A.Element, SVGFEColorMatrixElement: A.Element, SVGFEComponentTransferElement: A.Element, SVGFECompositeElement: A.Element, SVGFEConvolveMatrixElement: A.Element, SVGFEDiffuseLightingElement: A.Element, SVGFEDisplacementMapElement: A.Element, SVGFEDistantLightElement: A.Element, SVGFEFloodElement: A.Element, SVGFEFuncAElement: A.Element, SVGFEFuncBElement: A.Element, SVGFEFuncGElement: A.Element, SVGFEFuncRElement: A.Element, SVGFEGaussianBlurElement: A.Element, SVGFEImageElement: A.Element, SVGFEMergeElement: A.Element, SVGFEMergeNodeElement: A.Element, SVGFEMorphologyElement: A.Element, SVGFEOffsetElement: A.Element, SVGFEPointLightElement: A.Element, SVGFESpecularLightingElement: A.Element, SVGFESpotLightElement: A.Element, SVGFETileElement: A.Element, SVGFETurbulenceElement: A.Element, SVGFilterElement: A.Element, SVGForeignObjectElement: A.Element, SVGGElement: A.Element, SVGGeometryElement: A.Element, SVGGraphicsElement: A.Element, SVGImageElement: A.Element, SVGLineElement: A.Element, SVGLinearGradientElement: A.Element, SVGMarkerElement: A.Element, SVGMaskElement: A.Element, SVGMetadataElement: A.Element, SVGPathElement: A.Element, SVGPatternElement: A.Element, SVGPolygonElement: A.Element, SVGPolylineElement: A.Element, SVGRadialGradientElement: A.Element, SVGRectElement: A.Element, SVGScriptElement: A.Element, SVGSetElement: A.Element, SVGStopElement: A.Element, SVGStyleElement: A.Element, SVGElement: A.Element, SVGSVGElement: A.Element, SVGSwitchElement: A.Element, SVGSymbolElement: A.Element, SVGTSpanElement: A.Element, SVGTextContentElement: A.Element, SVGTextElement: A.Element, SVGTextPathElement: A.Element, SVGTextPositioningElement: A.Element, SVGTitleElement: A.Element, SVGUseElement: A.Element, SVGViewElement: A.Element, SVGGradientElement: A.Element, SVGComponentTransferFunctionElement: A.Element, SVGFEDropShadowElement: A.Element, SVGMPathElement: A.Element, Element: A.Element, EventTarget: A.EventTarget, HTMLFormElement: A.FormElement, Document: A.Node, DocumentFragment: A.Node, HTMLDocument: A.Node, ShadowRoot: A.Node, XMLDocument: A.Node, Attr: A.Node, DocumentType: A.Node, Node: A.Node, NodeList: A.NodeList, RadioNodeList: A.NodeList, HTMLSelectElement: A.SelectElement }); hunkHelpers.setOrUpdateLeafTags({ ApplicationCacheErrorEvent: true, DOMError: true, ErrorEvent: true, Event: true, InputEvent: true, SubmitEvent: true, MediaError: true, NavigatorUserMediaError: true, OverconstrainedError: true, PositionError: true, GeolocationPositionError: true, SensorErrorEvent: true, SpeechRecognitionError: true, HTMLAudioElement: true, HTMLBRElement: true, HTMLBaseElement: true, HTMLBodyElement: true, HTMLButtonElement: true, HTMLCanvasElement: true, HTMLContentElement: true, HTMLDListElement: true, HTMLDataElement: true, HTMLDataListElement: true, HTMLDetailsElement: true, HTMLDialogElement: true, HTMLDivElement: true, HTMLEmbedElement: true, HTMLFieldSetElement: true, HTMLHRElement: true, HTMLHeadElement: true, HTMLHeadingElement: true, HTMLHtmlElement: true, HTMLIFrameElement: true, HTMLImageElement: true, HTMLInputElement: true, HTMLLIElement: true, HTMLLabelElement: true, HTMLLegendElement: true, HTMLLinkElement: true, HTMLMapElement: true, HTMLMediaElement: true, HTMLMenuElement: true, HTMLMetaElement: true, HTMLMeterElement: true, HTMLModElement: true, HTMLOListElement: true, HTMLObjectElement: true, HTMLOptGroupElement: true, HTMLOptionElement: true, HTMLOutputElement: true, HTMLParagraphElement: true, HTMLParamElement: true, HTMLPictureElement: true, HTMLPreElement: true, HTMLProgressElement: true, HTMLQuoteElement: true, HTMLScriptElement: true, HTMLShadowElement: true, HTMLSlotElement: true, HTMLSourceElement: true, HTMLSpanElement: true, HTMLStyleElement: true, HTMLTableCaptionElement: true, HTMLTableCellElement: true, HTMLTableDataCellElement: true, HTMLTableHeaderCellElement: true, HTMLTableColElement: true, HTMLTableElement: true, HTMLTableRowElement: true, HTMLTableSectionElement: true, HTMLTemplateElement: true, HTMLTextAreaElement: true, HTMLTimeElement: true, HTMLTitleElement: true, HTMLTrackElement: true, HTMLUListElement: true, HTMLUnknownElement: true, HTMLVideoElement: true, HTMLDirectoryElement: true, HTMLFontElement: true, HTMLFrameElement: true, HTMLFrameSetElement: true, HTMLMarqueeElement: true, HTMLElement: false, HTMLAnchorElement: true, HTMLAreaElement: true, CDATASection: true, CharacterData: true, Comment: true, ProcessingInstruction: true, Text: true, DOMException: true, MathMLElement: true, SVGAElement: true, SVGAnimateElement: true, SVGAnimateMotionElement: true, SVGAnimateTransformElement: true, SVGAnimationElement: true, SVGCircleElement: true, SVGClipPathElement: true, SVGDefsElement: true, SVGDescElement: true, SVGDiscardElement: true, SVGEllipseElement: true, SVGFEBlendElement: true, SVGFEColorMatrixElement: true, SVGFEComponentTransferElement: true, SVGFECompositeElement: true, SVGFEConvolveMatrixElement: true, SVGFEDiffuseLightingElement: true, SVGFEDisplacementMapElement: true, SVGFEDistantLightElement: true, SVGFEFloodElement: true, SVGFEFuncAElement: true, SVGFEFuncBElement: true, SVGFEFuncGElement: true, SVGFEFuncRElement: true, SVGFEGaussianBlurElement: true, SVGFEImageElement: true, SVGFEMergeElement: true, SVGFEMergeNodeElement: true, SVGFEMorphologyElement: true, SVGFEOffsetElement: true, SVGFEPointLightElement: true, SVGFESpecularLightingElement: true, SVGFESpotLightElement: true, SVGFETileElement: true, SVGFETurbulenceElement: true, SVGFilterElement: true, SVGForeignObjectElement: true, SVGGElement: true, SVGGeometryElement: true, SVGGraphicsElement: true, SVGImageElement: true, SVGLineElement: true, SVGLinearGradientElement: true, SVGMarkerElement: true, SVGMaskElement: true, SVGMetadataElement: true, SVGPathElement: true, SVGPatternElement: true, SVGPolygonElement: true, SVGPolylineElement: true, SVGRadialGradientElement: true, SVGRectElement: true, SVGScriptElement: true, SVGSetElement: true, SVGStopElement: true, SVGStyleElement: true, SVGElement: true, SVGSVGElement: true, SVGSwitchElement: true, SVGSymbolElement: true, SVGTSpanElement: true, SVGTextContentElement: true, SVGTextElement: true, SVGTextPathElement: true, SVGTextPositioningElement: true, SVGTitleElement: true, SVGUseElement: true, SVGViewElement: true, SVGGradientElement: true, SVGComponentTransferFunctionElement: true, SVGFEDropShadowElement: true, SVGMPathElement: true, Element: false, EventTarget: false, HTMLFormElement: true, Document: true, DocumentFragment: true, HTMLDocument: true, ShadowRoot: true, XMLDocument: true, Attr: true, DocumentType: true, Node: false, NodeList: true, RadioNodeList: true, HTMLSelectElement: true }); })(); Function.prototype.call$1$1 = function (a) { return this(a); }; Function.prototype.call$0 = function () { return this(); }; Function.prototype.call$1 = function (a) { return this(a); }; Function.prototype.call$2 = function (a, b) { return this(a, b); }; Function.prototype.call$3 = function (a, b, c) { return this(a, b, c); }; Function.prototype.call$4 = function (a, b, c, d) { return this(a, b, c, d); }; convertAllToFastObject(holders); convertToFastObject($); (function (callback) { if (typeof document === "undefined") { callback(null); return; } if (typeof document.currentScript != "undefined") { callback(document.currentScript); return; } var scripts = document.scripts; function onLoad(event) { for (var i = 0; i < scripts.length; ++i) { scripts[i].removeEventListener("load", onLoad, false); } callback(event.target); } for (var i = 0; i < scripts.length; ++i) { scripts[i].addEventListener("load", onLoad, false); } })(function (currentScript) { init.currentScript = currentScript; var callMain = A.main; if (typeof dartMainRunner === "function") { dartMainRunner(callMain, []); } else { callMain([]); } }); })(); //# sourceMappingURL=out.js.map