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D : aFunction(S); }; /***/ }), /***/ "../node_modules/@babel/runtime-corejs2/node_modules/core-js/library/modules/_task.js": /*!********************************************************************************************!*\ !*** ../node_modules/@babel/runtime-corejs2/node_modules/core-js/library/modules/_task.js ***! \********************************************************************************************/ /***/ ((module, __unused_webpack_exports, __webpack_require__) => { var ctx = __webpack_require__(/*! ./_ctx */ "../node_modules/@babel/runtime-corejs2/node_modules/core-js/library/modules/_ctx.js"); var invoke = __webpack_require__(/*! ./_invoke */ "../node_modules/@babel/runtime-corejs2/node_modules/core-js/library/modules/_invoke.js"); var html = __webpack_require__(/*! ./_html */ "../node_modules/@babel/runtime-corejs2/node_modules/core-js/library/modules/_html.js"); var cel = __webpack_require__(/*! ./_dom-create */ "../node_modules/@babel/runtime-corejs2/node_modules/core-js/library/modules/_dom-create.js"); var global = __webpack_require__(/*! ./_global */ "../node_modules/@babel/runtime-corejs2/node_modules/core-js/library/modules/_global.js"); var process = global.process; var setTask = global.setImmediate; var clearTask = global.clearImmediate; var MessageChannel = global.MessageChannel; var Dispatch = global.Dispatch; var counter = 0; var queue = {}; var ONREADYSTATECHANGE = 'onreadystatechange'; var defer, channel, port; var run = function () { var id = +this; // eslint-disable-next-line no-prototype-builtins if (queue.hasOwnProperty(id)) { var fn = queue[id]; delete queue[id]; fn(); } }; var listener = function (event) { run.call(event.data); }; // Node.js 0.9+ & IE10+ has setImmediate, otherwise: if (!setTask || !clearTask) { setTask = function setImmediate(fn) { var args = []; var i = 1; while (arguments.length > i) args.push(arguments[i++]); queue[++counter] = function () { // eslint-disable-next-line no-new-func invoke(typeof fn == 'function' ? fn : Function(fn), args); }; defer(counter); return counter; }; clearTask = function clearImmediate(id) { delete queue[id]; }; // Node.js 0.8- if (__webpack_require__(/*! ./_cof */ "../node_modules/@babel/runtime-corejs2/node_modules/core-js/library/modules/_cof.js")(process) == 'process') { defer = function (id) { process.nextTick(ctx(run, id, 1)); }; // Sphere (JS game engine) Dispatch API } else if (Dispatch && Dispatch.now) { defer = function (id) { Dispatch.now(ctx(run, id, 1)); }; // Browsers with MessageChannel, includes WebWorkers } else if (MessageChannel) { channel = new MessageChannel(); port = channel.port2; channel.port1.onmessage = listener; defer = ctx(port.postMessage, port, 1); // Browsers with postMessage, skip WebWorkers // IE8 has postMessage, but it's sync & typeof its postMessage is 'object' } else if (global.addEventListener && typeof postMessage == 'function' && !global.importScripts) { defer = function (id) { global.postMessage(id + '', '*'); }; global.addEventListener('message', listener, false); // IE8- } else if (ONREADYSTATECHANGE in cel('script')) { defer = function (id) { html.appendChild(cel('script'))[ONREADYSTATECHANGE] = function () { html.removeChild(this); run.call(id); }; }; // Rest old browsers } else { defer = function (id) { setTimeout(ctx(run, id, 1), 0); }; } } module.exports = { set: setTask, clear: clearTask }; /***/ }), /***/ "../node_modules/@babel/runtime-corejs2/node_modules/core-js/library/modules/_user-agent.js": /*!**************************************************************************************************!*\ !*** ../node_modules/@babel/runtime-corejs2/node_modules/core-js/library/modules/_user-agent.js ***! \**************************************************************************************************/ /***/ ((module, __unused_webpack_exports, __webpack_require__) => { var global = __webpack_require__(/*! ./_global */ "../node_modules/@babel/runtime-corejs2/node_modules/core-js/library/modules/_global.js"); var navigator = global.navigator; module.exports = navigator && navigator.userAgent || ''; /***/ }), /***/ "../node_modules/@babel/runtime-corejs2/node_modules/core-js/library/modules/core.get-iterator-method.js": /*!***************************************************************************************************************!*\ !*** ../node_modules/@babel/runtime-corejs2/node_modules/core-js/library/modules/core.get-iterator-method.js ***! \***************************************************************************************************************/ /***/ ((module, __unused_webpack_exports, __webpack_require__) => { var classof = __webpack_require__(/*! ./_classof */ "../node_modules/@babel/runtime-corejs2/node_modules/core-js/library/modules/_classof.js"); var ITERATOR = __webpack_require__(/*! ./_wks */ "../node_modules/@babel/runtime-corejs2/node_modules/core-js/library/modules/_wks.js")('iterator'); var Iterators = __webpack_require__(/*! ./_iterators */ "../node_modules/@babel/runtime-corejs2/node_modules/core-js/library/modules/_iterators.js"); module.exports = __webpack_require__(/*! ./_core */ "../node_modules/@babel/runtime-corejs2/node_modules/core-js/library/modules/_core.js").getIteratorMethod = function (it) { if (it != undefined) return it[ITERATOR] || it['@@iterator'] || Iterators[classof(it)]; }; /***/ }), /***/ "../node_modules/@babel/runtime-corejs2/node_modules/core-js/library/modules/es6.promise.js": /*!**************************************************************************************************!*\ !*** ../node_modules/@babel/runtime-corejs2/node_modules/core-js/library/modules/es6.promise.js ***! \**************************************************************************************************/ /***/ ((__unused_webpack_module, __unused_webpack_exports, __webpack_require__) => { "use strict"; var LIBRARY = __webpack_require__(/*! ./_library */ "../node_modules/@babel/runtime-corejs2/node_modules/core-js/library/modules/_library.js"); var global = __webpack_require__(/*! ./_global */ "../node_modules/@babel/runtime-corejs2/node_modules/core-js/library/modules/_global.js"); var ctx = __webpack_require__(/*! ./_ctx */ "../node_modules/@babel/runtime-corejs2/node_modules/core-js/library/modules/_ctx.js"); var classof = __webpack_require__(/*! ./_classof */ "../node_modules/@babel/runtime-corejs2/node_modules/core-js/library/modules/_classof.js"); var $export = __webpack_require__(/*! ./_export */ "../node_modules/@babel/runtime-corejs2/node_modules/core-js/library/modules/_export.js"); var isObject = __webpack_require__(/*! ./_is-object */ "../node_modules/@babel/runtime-corejs2/node_modules/core-js/library/modules/_is-object.js"); var aFunction = __webpack_require__(/*! ./_a-function */ "../node_modules/@babel/runtime-corejs2/node_modules/core-js/library/modules/_a-function.js"); var anInstance = __webpack_require__(/*! ./_an-instance */ "../node_modules/@babel/runtime-corejs2/node_modules/core-js/library/modules/_an-instance.js"); var forOf = __webpack_require__(/*! ./_for-of */ "../node_modules/@babel/runtime-corejs2/node_modules/core-js/library/modules/_for-of.js"); var speciesConstructor = __webpack_require__(/*! ./_species-constructor */ "../node_modules/@babel/runtime-corejs2/node_modules/core-js/library/modules/_species-constructor.js"); var task = __webpack_require__(/*! ./_task */ "../node_modules/@babel/runtime-corejs2/node_modules/core-js/library/modules/_task.js").set; var microtask = __webpack_require__(/*! ./_microtask */ "../node_modules/@babel/runtime-corejs2/node_modules/core-js/library/modules/_microtask.js")(); var newPromiseCapabilityModule = __webpack_require__(/*! ./_new-promise-capability */ "../node_modules/@babel/runtime-corejs2/node_modules/core-js/library/modules/_new-promise-capability.js"); var perform = __webpack_require__(/*! ./_perform */ "../node_modules/@babel/runtime-corejs2/node_modules/core-js/library/modules/_perform.js"); var userAgent = __webpack_require__(/*! ./_user-agent */ "../node_modules/@babel/runtime-corejs2/node_modules/core-js/library/modules/_user-agent.js"); var promiseResolve = __webpack_require__(/*! ./_promise-resolve */ "../node_modules/@babel/runtime-corejs2/node_modules/core-js/library/modules/_promise-resolve.js"); var PROMISE = 'Promise'; var TypeError = global.TypeError; var process = global.process; var versions = process && process.versions; var v8 = versions && versions.v8 || ''; var $Promise = global[PROMISE]; var isNode = classof(process) == 'process'; var empty = function () { /* empty */ }; var Internal, newGenericPromiseCapability, OwnPromiseCapability, Wrapper; var newPromiseCapability = newGenericPromiseCapability = newPromiseCapabilityModule.f; var USE_NATIVE = !!function () { try { // correct subclassing with @@species support var promise = $Promise.resolve(1); var FakePromise = (promise.constructor = {})[__webpack_require__(/*! ./_wks */ "../node_modules/@babel/runtime-corejs2/node_modules/core-js/library/modules/_wks.js")('species')] = function (exec) { exec(empty, empty); }; // unhandled rejections tracking support, NodeJS Promise without it fails @@species test return (isNode || typeof PromiseRejectionEvent == 'function') && promise.then(empty) instanceof FakePromise // v8 6.6 (Node 10 and Chrome 66) have a bug with resolving custom thenables // https://bugs.chromium.org/p/chromium/issues/detail?id=830565 // we can't detect it synchronously, so just check versions && v8.indexOf('6.6') !== 0 && userAgent.indexOf('Chrome/66') === -1; } catch (e) { /* empty */ } }(); // helpers var isThenable = function (it) { var then; return isObject(it) && typeof (then = it.then) == 'function' ? then : false; }; var notify = function (promise, isReject) { if (promise._n) return; promise._n = true; var chain = promise._c; microtask(function () { var value = promise._v; var ok = promise._s == 1; var i = 0; var run = function (reaction) { var handler = ok ? reaction.ok : reaction.fail; var resolve = reaction.resolve; var reject = reaction.reject; var domain = reaction.domain; var result, then, exited; try { if (handler) { if (!ok) { if (promise._h == 2) onHandleUnhandled(promise); promise._h = 1; } if (handler === true) result = value; else { if (domain) domain.enter(); result = handler(value); // may throw if (domain) { domain.exit(); exited = true; } } if (result === reaction.promise) { reject(TypeError('Promise-chain cycle')); } else if (then = isThenable(result)) { then.call(result, resolve, reject); } else resolve(result); } else reject(value); } catch (e) { if (domain && !exited) domain.exit(); reject(e); } }; while (chain.length > i) run(chain[i++]); // variable length - can't use forEach promise._c = []; promise._n = false; if (isReject && !promise._h) onUnhandled(promise); }); }; var onUnhandled = function (promise) { task.call(global, function () { var value = promise._v; var unhandled = isUnhandled(promise); var result, handler, console; if (unhandled) { result = perform(function () { if (isNode) { process.emit('unhandledRejection', value, promise); } else if (handler = global.onunhandledrejection) { handler({ promise: promise, reason: value }); } else if ((console = global.console) && console.error) { console.error('Unhandled promise rejection', value); } }); // Browsers should not trigger `rejectionHandled` event if it was handled here, NodeJS - should promise._h = isNode || isUnhandled(promise) ? 2 : 1; } promise._a = undefined; if (unhandled && result.e) throw result.v; }); }; var isUnhandled = function (promise) { return promise._h !== 1 && (promise._a || promise._c).length === 0; }; var onHandleUnhandled = function (promise) { task.call(global, function () { var handler; if (isNode) { process.emit('rejectionHandled', promise); } else if (handler = global.onrejectionhandled) { handler({ promise: promise, reason: promise._v }); } }); }; var $reject = function (value) { var promise = this; if (promise._d) return; promise._d = true; promise = promise._w || promise; // unwrap promise._v = value; promise._s = 2; if (!promise._a) promise._a = promise._c.slice(); notify(promise, true); }; var $resolve = function (value) { var promise = this; var then; if (promise._d) return; promise._d = true; promise = promise._w || promise; // unwrap try { if (promise === value) throw TypeError("Promise can't be resolved itself"); if (then = isThenable(value)) { microtask(function () { var wrapper = { _w: promise, _d: false }; // wrap try { then.call(value, ctx($resolve, wrapper, 1), ctx($reject, wrapper, 1)); } catch (e) { $reject.call(wrapper, e); } }); } else { promise._v = value; promise._s = 1; notify(promise, false); } } catch (e) { $reject.call({ _w: promise, _d: false }, e); // wrap } }; // constructor polyfill if (!USE_NATIVE) { // 25.4.3.1 Promise(executor) $Promise = function Promise(executor) { anInstance(this, $Promise, PROMISE, '_h'); aFunction(executor); Internal.call(this); try { executor(ctx($resolve, this, 1), ctx($reject, this, 1)); } catch (err) { $reject.call(this, err); } }; // eslint-disable-next-line no-unused-vars Internal = function Promise(executor) { this._c = []; // <- awaiting reactions this._a = undefined; // <- checked in isUnhandled reactions this._s = 0; // <- state this._d = false; // <- done this._v = undefined; // <- value this._h = 0; // <- rejection state, 0 - default, 1 - handled, 2 - unhandled this._n = false; // <- notify }; Internal.prototype = __webpack_require__(/*! ./_redefine-all */ "../node_modules/@babel/runtime-corejs2/node_modules/core-js/library/modules/_redefine-all.js")($Promise.prototype, { // 25.4.5.3 Promise.prototype.then(onFulfilled, onRejected) then: function then(onFulfilled, onRejected) { var reaction = newPromiseCapability(speciesConstructor(this, $Promise)); reaction.ok = typeof onFulfilled == 'function' ? onFulfilled : true; reaction.fail = typeof onRejected == 'function' && onRejected; reaction.domain = isNode ? process.domain : undefined; this._c.push(reaction); if (this._a) this._a.push(reaction); if (this._s) notify(this, false); return reaction.promise; }, // 25.4.5.1 Promise.prototype.catch(onRejected) 'catch': function (onRejected) { return this.then(undefined, onRejected); } }); OwnPromiseCapability = function () { var promise = new Internal(); this.promise = promise; this.resolve = ctx($resolve, promise, 1); this.reject = ctx($reject, promise, 1); }; newPromiseCapabilityModule.f = newPromiseCapability = function (C) { return C === $Promise || C === Wrapper ? new OwnPromiseCapability(C) : newGenericPromiseCapability(C); }; } $export($export.G + $export.W + $export.F * !USE_NATIVE, { Promise: $Promise }); __webpack_require__(/*! ./_set-to-string-tag */ "../node_modules/@babel/runtime-corejs2/node_modules/core-js/library/modules/_set-to-string-tag.js")($Promise, PROMISE); __webpack_require__(/*! ./_set-species */ "../node_modules/@babel/runtime-corejs2/node_modules/core-js/library/modules/_set-species.js")(PROMISE); Wrapper = __webpack_require__(/*! ./_core */ "../node_modules/@babel/runtime-corejs2/node_modules/core-js/library/modules/_core.js")[PROMISE]; // statics $export($export.S + $export.F * !USE_NATIVE, PROMISE, { // 25.4.4.5 Promise.reject(r) reject: function reject(r) { var capability = newPromiseCapability(this); var $$reject = capability.reject; $$reject(r); return capability.promise; } }); $export($export.S + $export.F * (LIBRARY || !USE_NATIVE), PROMISE, { // 25.4.4.6 Promise.resolve(x) resolve: function resolve(x) { return promiseResolve(LIBRARY && this === Wrapper ? $Promise : this, x); } }); $export($export.S + $export.F * !(USE_NATIVE && __webpack_require__(/*! ./_iter-detect */ "../node_modules/@babel/runtime-corejs2/node_modules/core-js/library/modules/_iter-detect.js")(function (iter) { $Promise.all(iter)['catch'](empty); })), PROMISE, { // 25.4.4.1 Promise.all(iterable) all: function all(iterable) { var C = this; var capability = newPromiseCapability(C); var resolve = capability.resolve; var reject = capability.reject; var result = perform(function () { var values = []; var index = 0; var remaining = 1; forOf(iterable, false, function (promise) { var $index = index++; var alreadyCalled = false; values.push(undefined); remaining++; C.resolve(promise).then(function (value) { if (alreadyCalled) return; alreadyCalled = true; values[$index] = value; --remaining || resolve(values); }, reject); }); --remaining || resolve(values); }); if (result.e) reject(result.v); return capability.promise; }, // 25.4.4.4 Promise.race(iterable) race: function race(iterable) { var C = this; var capability = newPromiseCapability(C); var reject = capability.reject; var result = perform(function () { forOf(iterable, false, function (promise) { C.resolve(promise).then(capability.resolve, reject); }); }); if (result.e) reject(result.v); return capability.promise; } }); /***/ }), /***/ "../node_modules/@babel/runtime-corejs2/node_modules/core-js/library/modules/es7.promise.finally.js": /*!**********************************************************************************************************!*\ !*** ../node_modules/@babel/runtime-corejs2/node_modules/core-js/library/modules/es7.promise.finally.js ***! \**********************************************************************************************************/ /***/ ((__unused_webpack_module, __unused_webpack_exports, __webpack_require__) => { "use strict"; // https://github.com/tc39/proposal-promise-finally var $export = __webpack_require__(/*! ./_export */ "../node_modules/@babel/runtime-corejs2/node_modules/core-js/library/modules/_export.js"); var core = __webpack_require__(/*! ./_core */ "../node_modules/@babel/runtime-corejs2/node_modules/core-js/library/modules/_core.js"); var global = __webpack_require__(/*! ./_global */ "../node_modules/@babel/runtime-corejs2/node_modules/core-js/library/modules/_global.js"); var speciesConstructor = __webpack_require__(/*! ./_species-constructor */ "../node_modules/@babel/runtime-corejs2/node_modules/core-js/library/modules/_species-constructor.js"); var promiseResolve = __webpack_require__(/*! ./_promise-resolve */ "../node_modules/@babel/runtime-corejs2/node_modules/core-js/library/modules/_promise-resolve.js"); $export($export.P + $export.R, 'Promise', { 'finally': function (onFinally) { var C = speciesConstructor(this, core.Promise || global.Promise); var isFunction = typeof onFinally == 'function'; return this.then( isFunction ? function (x) { return promiseResolve(C, onFinally()).then(function () { return x; }); } : onFinally, isFunction ? function (e) { return promiseResolve(C, onFinally()).then(function () { throw e; }); } : onFinally ); } }); /***/ }), /***/ "../node_modules/@babel/runtime-corejs2/node_modules/core-js/library/modules/es7.promise.try.js": /*!******************************************************************************************************!*\ !*** ../node_modules/@babel/runtime-corejs2/node_modules/core-js/library/modules/es7.promise.try.js ***! \******************************************************************************************************/ /***/ ((__unused_webpack_module, __unused_webpack_exports, __webpack_require__) => { "use strict"; // https://github.com/tc39/proposal-promise-try var $export = __webpack_require__(/*! ./_export */ "../node_modules/@babel/runtime-corejs2/node_modules/core-js/library/modules/_export.js"); var newPromiseCapability = __webpack_require__(/*! ./_new-promise-capability */ "../node_modules/@babel/runtime-corejs2/node_modules/core-js/library/modules/_new-promise-capability.js"); var perform = __webpack_require__(/*! ./_perform */ "../node_modules/@babel/runtime-corejs2/node_modules/core-js/library/modules/_perform.js"); $export($export.S, 'Promise', { 'try': function (callbackfn) { var promiseCapability = newPromiseCapability.f(this); var result = perform(callbackfn); (result.e ? promiseCapability.reject : promiseCapability.resolve)(result.v); return promiseCapability.promise; } }); /***/ }), /***/ "../node_modules/@babel/runtime/regenerator/index.js": /*!***********************************************************!*\ !*** ../node_modules/@babel/runtime/regenerator/index.js ***! \***********************************************************/ /***/ ((module, __unused_webpack_exports, __webpack_require__) => { module.exports = __webpack_require__(/*! regenerator-runtime */ "../node_modules/regenerator-runtime/runtime.js"); /***/ }), /***/ "../node_modules/regenerator-runtime/runtime.js": /*!******************************************************!*\ !*** ../node_modules/regenerator-runtime/runtime.js ***! \******************************************************/ /***/ ((module) => { /** * Copyright (c) 2014-present, Facebook, Inc. * * This source code is licensed under the MIT license found in the * LICENSE file in the root directory of this source tree. */ var runtime = (function (exports) { "use strict"; var Op = Object.prototype; var hasOwn = Op.hasOwnProperty; var undefined; // More compressible than void 0. var $Symbol = typeof Symbol === "function" ? Symbol : {}; var iteratorSymbol = $Symbol.iterator || "@@iterator"; var asyncIteratorSymbol = $Symbol.asyncIterator || "@@asyncIterator"; var toStringTagSymbol = $Symbol.toStringTag || "@@toStringTag"; function wrap(innerFn, outerFn, self, tryLocsList) { // If outerFn provided and outerFn.prototype is a Generator, then outerFn.prototype instanceof Generator. var protoGenerator = outerFn && outerFn.prototype instanceof Generator ? outerFn : Generator; var generator = Object.create(protoGenerator.prototype); var context = new Context(tryLocsList || []); // The ._invoke method unifies the implementations of the .next, // .throw, and .return methods. generator._invoke = makeInvokeMethod(innerFn, self, context); return generator; } exports.wrap = wrap; // Try/catch helper to minimize deoptimizations. Returns a completion // record like context.tryEntries[i].completion. This interface could // have been (and was previously) designed to take a closure to be // invoked without arguments, but in all the cases we care about we // already have an existing method we want to call, so there's no need // to create a new function object. We can even get away with assuming // the method takes exactly one argument, since that happens to be true // in every case, so we don't have to touch the arguments object. The // only additional allocation required is the completion record, which // has a stable shape and so hopefully should be cheap to allocate. function tryCatch(fn, obj, arg) { try { return { type: "normal", arg: fn.call(obj, arg) }; } catch (err) { return { type: "throw", arg: err }; } } var GenStateSuspendedStart = "suspendedStart"; var GenStateSuspendedYield = "suspendedYield"; var GenStateExecuting = "executing"; var GenStateCompleted = "completed"; // Returning this object from the innerFn has the same effect as // breaking out of the dispatch switch statement. var ContinueSentinel = {}; // Dummy constructor functions that we use as the .constructor and // .constructor.prototype properties for functions that return Generator // objects. For full spec compliance, you may wish to configure your // minifier not to mangle the names of these two functions. function Generator() {} function GeneratorFunction() {} function GeneratorFunctionPrototype() {} // This is a polyfill for %IteratorPrototype% for environments that // don't natively support it. var IteratorPrototype = {}; IteratorPrototype[iteratorSymbol] = function () { return this; }; var getProto = Object.getPrototypeOf; var NativeIteratorPrototype = getProto && getProto(getProto(values([]))); if (NativeIteratorPrototype && NativeIteratorPrototype !== Op && hasOwn.call(NativeIteratorPrototype, iteratorSymbol)) { // This environment has a native %IteratorPrototype%; use it instead // of the polyfill. IteratorPrototype = NativeIteratorPrototype; } var Gp = GeneratorFunctionPrototype.prototype = Generator.prototype = Object.create(IteratorPrototype); GeneratorFunction.prototype = Gp.constructor = GeneratorFunctionPrototype; GeneratorFunctionPrototype.constructor = GeneratorFunction; GeneratorFunctionPrototype[toStringTagSymbol] = GeneratorFunction.displayName = "GeneratorFunction"; // Helper for defining the .next, .throw, and .return methods of the // Iterator interface in terms of a single ._invoke method. function defineIteratorMethods(prototype) { ["next", "throw", "return"].forEach(function(method) { prototype[method] = function(arg) { return this._invoke(method, arg); }; }); } exports.isGeneratorFunction = function(genFun) { var ctor = typeof genFun === "function" && genFun.constructor; return ctor ? ctor === GeneratorFunction || // For the native GeneratorFunction constructor, the best we can // do is to check its .name property. (ctor.displayName || ctor.name) === "GeneratorFunction" : false; }; exports.mark = function(genFun) { if (Object.setPrototypeOf) { Object.setPrototypeOf(genFun, GeneratorFunctionPrototype); } else { genFun.__proto__ = GeneratorFunctionPrototype; if (!(toStringTagSymbol in genFun)) { genFun[toStringTagSymbol] = "GeneratorFunction"; } } genFun.prototype = Object.create(Gp); return genFun; }; // Within the body of any async function, `await x` is transformed to // `yield regeneratorRuntime.awrap(x)`, so that the runtime can test // `hasOwn.call(value, "__await")` to determine if the yielded value is // meant to be awaited. exports.awrap = function(arg) { return { __await: arg }; }; function AsyncIterator(generator, PromiseImpl) { function invoke(method, arg, resolve, reject) { var record = tryCatch(generator[method], generator, arg); if (record.type === "throw") { reject(record.arg); } else { var result = record.arg; var value = result.value; if (value && typeof value === "object" && hasOwn.call(value, "__await")) { return PromiseImpl.resolve(value.__await).then(function(value) { invoke("next", value, resolve, reject); }, function(err) { invoke("throw", err, resolve, reject); }); } return PromiseImpl.resolve(value).then(function(unwrapped) { // When a yielded Promise is resolved, its final value becomes // the .value of the Promise<{value,done}> result for the // current iteration. result.value = unwrapped; resolve(result); }, function(error) { // If a rejected Promise was yielded, throw the rejection back // into the async generator function so it can be handled there. return invoke("throw", error, resolve, reject); }); } } var previousPromise; function enqueue(method, arg) { function callInvokeWithMethodAndArg() { return new PromiseImpl(function(resolve, reject) { invoke(method, arg, resolve, reject); }); } return previousPromise = // If enqueue has been called before, then we want to wait until // all previous Promises have been resolved before calling invoke, // so that results are always delivered in the correct order. If // enqueue has not been called before, then it is important to // call invoke immediately, without waiting on a callback to fire, // so that the async generator function has the opportunity to do // any necessary setup in a predictable way. This predictability // is why the Promise constructor synchronously invokes its // executor callback, and why async functions synchronously // execute code before the first await. Since we implement simple // async functions in terms of async generators, it is especially // important to get this right, even though it requires care. previousPromise ? previousPromise.then( callInvokeWithMethodAndArg, // Avoid propagating failures to Promises returned by later // invocations of the iterator. callInvokeWithMethodAndArg ) : callInvokeWithMethodAndArg(); } // Define the unified helper method that is used to implement .next, // .throw, and .return (see defineIteratorMethods). this._invoke = enqueue; } defineIteratorMethods(AsyncIterator.prototype); AsyncIterator.prototype[asyncIteratorSymbol] = function () { return this; }; exports.AsyncIterator = AsyncIterator; // Note that simple async functions are implemented on top of // AsyncIterator objects; they just return a Promise for the value of // the final result produced by the iterator. exports.async = function(innerFn, outerFn, self, tryLocsList, PromiseImpl) { if (PromiseImpl === void 0) PromiseImpl = Promise; var iter = new AsyncIterator( wrap(innerFn, outerFn, self, tryLocsList), PromiseImpl ); return exports.isGeneratorFunction(outerFn) ? iter // If outerFn is a generator, return the full iterator. : iter.next().then(function(result) { return result.done ? result.value : iter.next(); }); }; function makeInvokeMethod(innerFn, self, context) { var state = GenStateSuspendedStart; return function invoke(method, arg) { if (state === GenStateExecuting) { throw new Error("Generator is already running"); } if (state === GenStateCompleted) { if (method === "throw") { throw arg; } // Be forgiving, per 25.3.3.3.3 of the spec: // https://people.mozilla.org/~jorendorff/es6-draft.html#sec-generatorresume return doneResult(); } context.method = method; context.arg = arg; while (true) { var delegate = context.delegate; if (delegate) { var delegateResult = maybeInvokeDelegate(delegate, context); if (delegateResult) { if (delegateResult === ContinueSentinel) continue; return delegateResult; } } if (context.method === "next") { // Setting context._sent for legacy support of Babel's // function.sent implementation. context.sent = context._sent = context.arg; } else if (context.method === "throw") { if (state === GenStateSuspendedStart) { state = GenStateCompleted; throw context.arg; } context.dispatchException(context.arg); } else if (context.method === "return") { context.abrupt("return", context.arg); } state = GenStateExecuting; var record = tryCatch(innerFn, self, context); if (record.type === "normal") { // If an exception is thrown from innerFn, we leave state === // GenStateExecuting and loop back for another invocation. state = context.done ? GenStateCompleted : GenStateSuspendedYield; if (record.arg === ContinueSentinel) { continue; } return { value: record.arg, done: context.done }; } else if (record.type === "throw") { state = GenStateCompleted; // Dispatch the exception by looping back around to the // context.dispatchException(context.arg) call above. context.method = "throw"; context.arg = record.arg; } } }; } // Call delegate.iterator[context.method](context.arg) and handle the // result, either by returning a { value, done } result from the // delegate iterator, or by modifying context.method and context.arg, // setting context.delegate to null, and returning the ContinueSentinel. function maybeInvokeDelegate(delegate, context) { var method = delegate.iterator[context.method]; if (method === undefined) { // A .throw or .return when the delegate iterator has no .throw // method always terminates the yield* loop. context.delegate = null; if (context.method === "throw") { // Note: ["return"] must be used for ES3 parsing compatibility. if (delegate.iterator["return"]) { // If the delegate iterator has a return method, give it a // chance to clean up. context.method = "return"; context.arg = undefined; maybeInvokeDelegate(delegate, context); if (context.method === "throw") { // If maybeInvokeDelegate(context) changed context.method from // "return" to "throw", let that override the TypeError below. return ContinueSentinel; } } context.method = "throw"; context.arg = new TypeError( "The iterator does not provide a 'throw' method"); } return ContinueSentinel; } var record = tryCatch(method, delegate.iterator, context.arg); if (record.type === "throw") { context.method = "throw"; context.arg = record.arg; context.delegate = null; return ContinueSentinel; } var info = record.arg; if (! info) { context.method = "throw"; context.arg = new TypeError("iterator result is not an object"); context.delegate = null; return ContinueSentinel; } if (info.done) { // Assign the result of the finished delegate to the temporary // variable specified by delegate.resultName (see delegateYield). context[delegate.resultName] = info.value; // Resume execution at the desired location (see delegateYield). context.next = delegate.nextLoc; // If context.method was "throw" but the delegate handled the // exception, let the outer generator proceed normally. If // context.method was "next", forget context.arg since it has been // "consumed" by the delegate iterator. If context.method was // "return", allow the original .return call to continue in the // outer generator. if (context.method !== "return") { context.method = "next"; context.arg = undefined; } } else { // Re-yield the result returned by the delegate method. return info; } // The delegate iterator is finished, so forget it and continue with // the outer generator. context.delegate = null; return ContinueSentinel; } // Define Generator.prototype.{next,throw,return} in terms of the // unified ._invoke helper method. defineIteratorMethods(Gp); Gp[toStringTagSymbol] = "Generator"; // A Generator should always return itself as the iterator object when the // @@iterator function is called on it. Some browsers' implementations of the // iterator prototype chain incorrectly implement this, causing the Generator // object to not be returned from this call. This ensures that doesn't happen. // See https://github.com/facebook/regenerator/issues/274 for more details. Gp[iteratorSymbol] = function() { return this; }; Gp.toString = function() { return "[object Generator]"; }; function pushTryEntry(locs) { var entry = { tryLoc: locs[0] }; if (1 in locs) { entry.catchLoc = locs[1]; } if (2 in locs) { entry.finallyLoc = locs[2]; entry.afterLoc = locs[3]; } this.tryEntries.push(entry); } function resetTryEntry(entry) { var record = entry.completion || {}; record.type = "normal"; delete record.arg; entry.completion = record; } function Context(tryLocsList) { // The root entry object (effectively a try statement without a catch // or a finally block) gives us a place to store values thrown from // locations where there is no enclosing try statement. this.tryEntries = [{ tryLoc: "root" }]; tryLocsList.forEach(pushTryEntry, this); this.reset(true); } exports.keys = function(object) { var keys = []; for (var key in object) { keys.push(key); } keys.reverse(); // Rather than returning an object with a next method, we keep // things simple and return the next function itself. return function next() { while (keys.length) { var key = keys.pop(); if (key in object) { next.value = key; next.done = false; return next; } } // To avoid creating an additional object, we just hang the .value // and .done properties off the next function object itself. This // also ensures that the minifier will not anonymize the function. next.done = true; return next; }; }; function values(iterable) { if (iterable) { var iteratorMethod = iterable[iteratorSymbol]; if (iteratorMethod) { return iteratorMethod.call(iterable); } if (typeof iterable.next === "function") { return iterable; } if (!isNaN(iterable.length)) { var i = -1, next = function next() { while (++i < iterable.length) { if (hasOwn.call(iterable, i)) { next.value = iterable[i]; next.done = false; return next; } } next.value = undefined; next.done = true; return next; }; return next.next = next; } } // Return an iterator with no values. return { next: doneResult }; } exports.values = values; function doneResult() { return { value: undefined, done: true }; } Context.prototype = { constructor: Context, reset: function(skipTempReset) { this.prev = 0; this.next = 0; // Resetting context._sent for legacy support of Babel's // function.sent implementation. this.sent = this._sent = undefined; this.done = false; this.delegate = null; this.method = "next"; this.arg = undefined; this.tryEntries.forEach(resetTryEntry); if (!skipTempReset) { for (var name in this) { // Not sure about the optimal order of these conditions: if (name.charAt(0) === "t" && hasOwn.call(this, name) && !isNaN(+name.slice(1))) { this[name] = undefined; } } } }, stop: function() { this.done = true; var rootEntry = this.tryEntries[0]; var rootRecord = rootEntry.completion; if (rootRecord.type === "throw") { throw rootRecord.arg; } return this.rval; }, dispatchException: function(exception) { if (this.done) { throw exception; } var context = this; function handle(loc, caught) { record.type = "throw"; record.arg = exception; context.next = loc; if (caught) { // If the dispatched exception was caught by a catch block, // then let that catch block handle the exception normally. context.method = "next"; context.arg = undefined; } return !! caught; } for (var i = this.tryEntries.length - 1; i >= 0; --i) { var entry = this.tryEntries[i]; var record = entry.completion; if (entry.tryLoc === "root") { // Exception thrown outside of any try block that could handle // it, so set the completion value of the entire function to // throw the exception. return handle("end"); } if (entry.tryLoc <= this.prev) { var hasCatch = hasOwn.call(entry, "catchLoc"); var hasFinally = hasOwn.call(entry, "finallyLoc"); if (hasCatch && hasFinally) { if (this.prev < entry.catchLoc) { return handle(entry.catchLoc, true); } else if (this.prev < entry.finallyLoc) { return handle(entry.finallyLoc); } } else if (hasCatch) { if (this.prev < entry.catchLoc) { return handle(entry.catchLoc, true); } } else if (hasFinally) { if (this.prev < entry.finallyLoc) { return handle(entry.finallyLoc); } } else { throw new Error("try statement without catch or finally"); } } } }, abrupt: function(type, arg) { for (var i = this.tryEntries.length - 1; i >= 0; --i) { var entry = this.tryEntries[i]; if (entry.tryLoc <= this.prev && hasOwn.call(entry, "finallyLoc") && this.prev < entry.finallyLoc) { var finallyEntry = entry; break; } } if (finallyEntry && (type === "break" || type === "continue") && finallyEntry.tryLoc <= arg && arg <= finallyEntry.finallyLoc) { // Ignore the finally entry if control is not jumping to a // location outside the try/catch block. finallyEntry = null; } var record = finallyEntry ? finallyEntry.completion : {}; record.type = type; record.arg = arg; if (finallyEntry) { this.method = "next"; this.next = finallyEntry.finallyLoc; return ContinueSentinel; } return this.complete(record); }, complete: function(record, afterLoc) { if (record.type === "throw") { throw record.arg; } if (record.type === "break" || record.type === "continue") { this.next = record.arg; } else if (record.type === "return") { this.rval = this.arg = record.arg; this.method = "return"; this.next = "end"; } else if (record.type === "normal" && afterLoc) { this.next = afterLoc; } return ContinueSentinel; }, finish: function(finallyLoc) { for (var i = this.tryEntries.length - 1; i >= 0; --i) { var entry = this.tryEntries[i]; if (entry.finallyLoc === finallyLoc) { this.complete(entry.completion, entry.afterLoc); resetTryEntry(entry); return ContinueSentinel; } } }, "catch": function(tryLoc) { for (var i = this.tryEntries.length - 1; i >= 0; --i) { var entry = this.tryEntries[i]; if (entry.tryLoc === tryLoc) { var record = entry.completion; if (record.type === "throw") { var thrown = record.arg; resetTryEntry(entry); } return thrown; } } // The context.catch method must only be called with a location // argument that corresponds to a known catch block. throw new Error("illegal catch attempt"); }, delegateYield: function(iterable, resultName, nextLoc) { this.delegate = { iterator: values(iterable), resultName: resultName, nextLoc: nextLoc }; if (this.method === "next") { // Deliberately forget the last sent value so that we don't // accidentally pass it on to the delegate. this.arg = undefined; } return ContinueSentinel; } }; // Regardless of whether this script is executing as a CommonJS module // or not, return the runtime object so that we can declare the variable // regeneratorRuntime in the outer scope, which allows this module to be // injected easily by `bin/regenerator --include-runtime script.js`. return exports; }( // If this script is executing as a CommonJS module, use module.exports // as the regeneratorRuntime namespace. Otherwise create a new empty // object. Either way, the resulting object will be used to initialize // the regeneratorRuntime variable at the top of this file. true ? module.exports : 0 )); try { regeneratorRuntime = runtime; } catch (accidentalStrictMode) { // This module should not be running in strict mode, so the above // assignment should always work unless something is misconfigured. Just // in case runtime.js accidentally runs in strict mode, we can escape // strict mode using a global Function call. This could conceivably fail // if a Content Security Policy forbids using Function, but in that case // the proper solution is to fix the accidental strict mode problem. If // you've misconfigured your bundler to force strict mode and applied a // CSP to forbid Function, and you're not willing to fix either of those // problems, please detail your unique predicament in a GitHub issue. Function("r", "regeneratorRuntime = r")(runtime); } /***/ }) }]); //# sourceMappingURL=555de94d3d45395fb64c.bundle.js.map What is RPA in Banking? Understanding Robotic Process Automation – PUPUK ORGANIK

What is RPA in Banking? Understanding Robotic Process Automation

Automation in Banking Hexanika Think Beyond Data

banking automation definition

So far, features from mobile check deposits to online account opening have set new standards for the radical advancements customers crave. Business process automation (BPA) in banking is redefining the very nature of the customer journey. Customer expectations have grown towards a digital-first mindset, which has expanded from customer-facing challenges into the bank’s back-end dated workflows. Daniel has 30 years as an experienced Senior Director specializing in Digital Innovation and Banking Transformations.

Five best practices to capture AI value – SiliconANGLE News

Five best practices to capture AI value.

Posted: Sat, 29 Jul 2023 07:00:00 GMT [source]

Automating processes involving unstructured documents requires a tool that incorporates artificial intelligence, along with a massive database for the AI technology to draw on. RPA reduces manual work and human error, automating mundane and repetitive tasks while freeing employees to focus on more valuable tasks. From the survey, 45% of respondents believe the top advantage of automation is a way to improve service quality and accuracy. Many traditional banking processes are conducted manually, which can slow down response and lead to errors. Automation can make it faster and easier to gather, sort, and analyze customer and industry data so that bankers can make faster, more informed decisions (the second-highest advantage listed at 42% of respondents). Automation can standardize processes and break down information and departmental silos.

Reduced Account Opening from 23 Days to 5 Minutes

On the back of further innovations and advancements such as integrations, mobile”cardless” access, and larger tablet interfaces, the next stage in the evolution of the ATMs may be “robo-banks” that can do what tellers do. We see a future where IA enables the banking industry to run from a truly digitized core and catch up with the levels of operational speed, risk prevention, and personalization customers are already benefiting from across other industries. Digital workers operate without breaks, enabling customer access to services at any time – even outside of regular business hours. This helps drive cost efficiency and build better customer journeys and relationships by actioning requests from them at any time they please. Explore the top 10 use cases of robotic process automation for various industries. RPA adoption often calls for enterprise-wide standardization efforts across targeted processes.

banking automation definition

While RPA software can help an enterprise grow, there are some obstacles, such as organizational culture, technical issues and scaling. We can start the project once we have high-level requirements for your RPA project. You should also provide all available documentation and assign a responsible person or an RPA committee to collaborate with us. Financial institutions demand a more data-driven and personalised approach for several reasons. We understand the landscape of your industry and the unique needs of the people you serve.

Automating Customer Service in Banking, Insurance and Financial Services Sectors

WOSA/XFS, now known as CEN XFS (or simply XFS), provides a common API for accessing and manipulating the various devices of an ATM. Digital transformation has long been an objective in the banking industry, but the great migration to online and digital, driven by COVID, and the increasing interest in automation among bank clients, have only reinforced its importance. Download the transaction file, log in to the core banking system, and upload the transaction report. Fetch the investment data of the customer such as saving bank account details, fixed deposits, credit cards, loans, etc., check in the case of any discrepancies and create the statement. Execute steps related to suspension, freeze, renewal, or reimpose process related to certificate of deposit in the core banking system. Convert the total of all these amounts to a standard currency (say USD) according to the current currency rate.

  • Credit and debit card processing facilitates customer account activity and maintains the integrity of their accounts to uphold the bank’s reputation for reliability.
  • In other scenarios, existing roles may be supported by robotics, which could help expedite timelines, improve productivity and reduce errors.
  • Learn how RPA can help financial institutions streamline their operations and increase efficiency.
  • So transformation must be performed by system integration specialists working in collaboration with banking technologists.

Intelligent automation offers several benefits to the banking industry, including improved efficiency and productivity, enhanced customer experience, cost savings, reduced errors and fraud, and real-time insights and decision-making. By automating processes, banks can reduce manual errors and increase productivity, resulting in cost savings. Intelligent automation can improve customer experience by providing faster response times and personalized services. Intelligent automation combines the strengths of humans and machines to perform repetitive, manual, and rule-based tasks while also providing insights and decision-making capabilities.

Loan management

Such a system can extract the necessary information and fill it into the SAR form. One option would be turning to robotic process automation RPA software provides pre-built automation solutions that can be added to your workflows with minimal effort involved.The three leading RPA vendors are UiPath, Automation Anywhere, and Workfusion. To fully leverage their technology, many banks choose to work with these vendors’ system integration partners.

https://www.metadialog.com/

Examples of IA include robotic process automation (RPA), which uses bots to perform repetitive, high-volume data processes, freeing employees to focus on higher-value tasks. And there’s intelligent capture, the heart of IA, which allows banks and credit unions to capture and classify documents and data. Process selection is a critical initial step in the implementation of Robotic Process Automation (RPA) within banks. It involves identifying and prioritizing specific business processes that are suitable for automation using RPA technology. The goal is to select repetitive, rule-based processes that will provide substantial benefits in terms of efficiency, accuracy, cost savings, and customer satisfaction.

Core banking systems

Banking automation behind the scenes has improved anti-money laundering efforts while freeing staff to spend more time attracting new business. Fourth, a growing number of financial organizations are turning to artificial intelligence systems to improve customer service. To retain consumers, banks have traditionally concentrated on providing a positive customer experience. In recent years, however, many customers have reported dissatisfaction with encounters that did not meet their expectations. Banking automation includes artificial intelligence skills that can predict what will happen next based on previous actions and respond accordingly. Manual processes and systems have no place in the digital era because they increase costs, require more time, and are prone to errors.

What’s the future of generative AI? An early view in 15 charts – McKinsey

What’s the future of generative AI? An early view in 15 charts.

Posted: Fri, 25 Aug 2023 07:00:00 GMT [source]

Banks are looking for new tools, made possible by advances in robotic process automation (RPA) and related technologies, to automate numerous operations without the need for broad coding experience. One Florida-based financial institution created a pay-by-phone workflow with Jack Henry’s business process automation solution. Their pay-by-phone process previously took about 40 minutes and often involved incorrectly filled-out forms, missing information, and maneuvering around three different departments. Since implementing the workflow, the institution has cut that time to five minutes and eliminated a third-party product, resulting in significant time and cost savings. Through business process automation in the banking industry, you can reduce or eliminate labor-intensive processes. To help you get started, we’ve put together seven tips for your financial institution.

Outdated Mobile Experiences

Intelligent automation is crucial in driving digital transformation in the banking industry. By automating processes, reducing costs, and enhancing efficiency, intelligent automation enables banks to provide better customer experiences, increase operational agility, and improve risk management. Increasing the coverage of online services ensures higher efficiency and better customer experience.

Ultimately, we will likely reach that reality someday, but it will likely be a while ahead yet. But with further product innovations and changes to the competitive market structure, human expertise may be required for new and more complex tasks. IA tracks and records transactions, generates accurate reports, and audits every action undertaken by digital workers.

🔮 The Future of Banking: Embracing Technology for Financial Advancement 🔮

An automated business strategy would help in a mid-to-large banking business setting by streamlining operations, which would boost employee productivity. For example, having one ATM machine could simplify withdrawals and deposits by ten bank workers at the counter. Banking automation is a method of automating the banking process to reduce human participation to a minimum.

How does automation affect banking operations?

As RPA empowers banks automate processes or frequently asked queries such as bank balance, account information, loan information, the turnaround time is significantly reduced which increases customer satisfaction. Banks use RPA to help customers access services quickly and efficiently.

Traders, advisors, and analysts rely on UiPath to supercharge their productivity and be the best at what they do. Address resource constraints by letting automation handle time-demanding operations, connect fragmented tech, and reduce friction across the trade lifecycle. Discover smarter self-service customer journeys, and equip contact center agents with data that dramatically lowers average handling times.

banking automation definition

Data is increasingly important as organisations automate more business processes to become a digital-first organisation. Our experts work with your organisation to develop a data migration strategy that can accelerate your digital journey and deliver business transformation based on industry experience. As a major cost center, Know Your Customer (KYC) is a key area of focus for savings but this cannot come at the expense of customer experience or meeting regulatory obligations. Intelligent automation merges Artificial Intelligence, Machine Learning, and related automation technologies to help companies streamline complex processes and achieve greater efficiency. Many enterprises are transforming their back-office operations with intelligent automation solutions. These solutions help organizations parse through vast amounts of unstructured data, reducing manual work and freeing up resources for enhanced decision-making.

banking automation definition

RPA enables CIOs and other decision makers to accelerate their digital transformation efforts and generate a higher return on investment (ROI) from their staff. Then they must use Excel to balance them against each other to find any missing transactions. These common banking reconciliations differ from financial reconciliations in the sense that they are related to individual business processes, and most often occur at the daily banking operations transaction-level of detail.

banking automation definition

Read more about https://www.metadialog.com/ here.

  • As more fintechs enter the market and consumer preferences shift, traditional retail banks face significant challenges in attracting and holding customers while remaining profitable.
  • After making a list, analyze how they impact the organization and the potential benefits of automation.
  • His team have a significant experience in Core Banking combined with a deep understanding of technology platforms and services.

What innovation is coming to banking 2023?

In 2023, we expect further development of biometric technologies, such as facial recognition and iris scanning, to replace traditional passwords and PINs. In addition, banks will use increasingly sophisticated analytical tools to detect suspicious activity and enhance anti-fraud efforts.

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