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@vonage/client-sdk

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The Client SDK is intended to provide a ready solution for developers to build Programmable Conversation applications across multiple Channels including: Messages, Voice, SIP, websockets, and App.

developer.vonage.com/client-sdk/overview

1,110 lines (1,055 loc) • 3.75 MB

JavaScript

'use strict'; Object.defineProperty(exports, '__esModule', { value: true }); require('webrtc-adapter'); var sdptransform = require('sdp-transform'); var socket_io = require('socket.io-client'); function _interopNamespaceDefault(e) { var n = Object.create(null); if (e) { Object.keys(e).forEach(function (k) { if (k !== 'default') { var d = Object.getOwnPropertyDescriptor(e, k); Object.defineProperty(n, k, d.get ? d : { enumerable: true, get: function () { return e[k]; } }); } }); } n.default = e; return Object.freeze(n); } var sdptransform__namespace = /*#__PURE__*/_interopNamespaceDefault(sdptransform); var socket_io__namespace = /*#__PURE__*/_interopNamespaceDefault(socket_io); /****************************************************************************** Copyright (c) Microsoft Corporation. Permission to use, copy, modify, and/or distribute this software for any purpose with or without fee is hereby granted. THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. ***************************************************************************** */ /* global Reflect, Promise, SuppressedError, Symbol, Iterator */ var extendStatics = function(d, b) { extendStatics = Object.setPrototypeOf || ({ __proto__: [] } instanceof Array && function (d, b) { d.__proto__ = b; }) || function (d, b) { for (var p in b) if (Object.prototype.hasOwnProperty.call(b, p)) d[p] = b[p]; }; return extendStatics(d, b); }; function __extends(d, b) { if (typeof b !== "function" && b !== null) throw new TypeError("Class extends value " + String(b) + " is not a constructor or null"); extendStatics(d, b); function __() { this.constructor = d; } d.prototype = b === null ? 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Math.max(len + relativeStart, 0) : Math.min(relativeStart, len); // Steps 9-10. var end = arguments[2]; var relativeEnd = end === undefined ? len : end >> 0; // Step 11. var finalValue = relativeEnd < 0 ? Math.max(len + relativeEnd, 0) : Math.min(relativeEnd, len); // Step 12. while (k < finalValue) { O[k] = value; k++; } ; // Step 13. return O; }}); } [Int8Array, Int16Array, Uint16Array, Int32Array, Float32Array, Float64Array].forEach(function (TypedArray) { if (typeof TypedArray.prototype.fill === 'undefined') { Object.defineProperty(TypedArray.prototype, 'fill', {value: Array.prototype.fill}); } }); if (typeof Math.clz32 === 'undefined') { Math.clz32 = function (log, LN2) { return function (x) { var asUint = x >>> 0; if (asUint === 0) { return 32; } return 31 - (log(asUint) / LN2 | 0) | 0; // the "| 0" acts like math.floor }; }(Math.log, Math.LN2); } if (typeof String.prototype.startsWith === 'undefined') { Object.defineProperty(String.prototype, 'startsWith', {value: function (searchString, position) { position = position || 0; return this.lastIndexOf(searchString, position) === position; }}); } //endregion (function (root, factory) { if (typeof undefined === 'function' && undefined.amd) undefined(['exports'], factory); else if ('object' === 'object') factory(module.exports); else root['kotlin-kotlin-stdlib'] = factory(typeof this['kotlin-kotlin-stdlib'] === 'undefined' ? {} : this['kotlin-kotlin-stdlib']); }(globalThis, function (_) { 'use strict'; //region block: imports var imul = Math.imul; var isView = ArrayBuffer.isView; var clz32 = Math.clz32; //endregion //region block: pre-declaration initMetadataForInterface(CharSequence, 'CharSequence'); initMetadataForClass(Number_0, 'Number'); initMetadataForObject(Unit, 'Unit'); initMetadataForClass(_no_name_provided__qut3iv); initMetadataForCompanion(Companion); initMetadataForClass(Char, 'Char'); initMetadataForInterface(Collection, 'Collection'); initMetadataForInterface(KtList, 'List', VOID, VOID, [Collection]); initMetadataForInterface(KtSet, 'Set', VOID, VOID, [Collection]); initMetadataForInterface(Entry, 'Entry'); initMetadataForInterface(KtMap, 'Map'); initMetadataForInterface(KtMutableList, 'MutableList', VOID, VOID, [KtList, Collection]); initMetadataForInterface(KtMutableSet, 'MutableSet', VOID, VOID, [KtSet, Collection]); initMetadataForInterface(KtMutableMap, 'MutableMap', VOID, VOID, [KtMap]); initMetadataForCompanion(Companion_0); initMetadataForClass(Enum, 'Enum'); initMetadataForCompanion(Companion_1); initMetadataForClass(Long, 'Long', VOID, Number_0); initMetadataForClass(arrayIterator$1); initMetadataForObject(ByteCompanionObject, 'ByteCompanionObject'); initMetadataForObject(ShortCompanionObject, 'ShortCompanionObject'); initMetadataForObject(IntCompanionObject, 'IntCompanionObject'); initMetadataForObject(FloatCompanionObject, 'FloatCompanionObject'); initMetadataForObject(DoubleCompanionObject, 'DoubleCompanionObject'); initMetadataForObject(StringCompanionObject, 'StringCompanionObject'); initMetadataForObject(BooleanCompanionObject, 'BooleanCompanionObject'); initMetadataForObject(Digit, 'Digit'); initMetadataForObject(Letter, 'Letter'); initMetadataForObject(OtherLowercase, 'OtherLowercase'); initMetadataForClass(AbstractCollection, 'AbstractCollection', VOID, VOID, [Collection]); initMetadataForClass(AbstractMutableCollection, 'AbstractMutableCollection', VOID, AbstractCollection, [AbstractCollection, Collection]); initMetadataForClass(IteratorImpl, 'IteratorImpl'); initMetadataForClass(AbstractMutableList, 'AbstractMutableList', VOID, AbstractMutableCollection, [AbstractMutableCollection, KtMutableList]); initMetadataForClass(AbstractMap, 'AbstractMap', VOID, VOID, [KtMap]); initMetadataForClass(AbstractMutableMap, 'AbstractMutableMap', VOID, AbstractMap, [AbstractMap, KtMutableMap]); initMetadataForClass(AbstractMutableSet, 'AbstractMutableSet', VOID, AbstractMutableCollection, [AbstractMutableCollection, KtMutableSet]); initMetadataForCompanion(Companion_2); initMetadataForClass(ArrayList, 'ArrayList', ArrayList_init_$Create$, AbstractMutableList, [AbstractMutableList, KtMutableList]); initMetadataForClass(HashMap, 'HashMap', HashMap_init_$Create$, AbstractMutableMap, [AbstractMutableMap, KtMutableMap]); initMetadataForClass(HashMapKeys, 'HashMapKeys', VOID, AbstractMutableSet, [KtMutableSet, AbstractMutableSet]); initMetadataForClass(HashMapValues, 'HashMapValues', VOID, AbstractMutableCollection, [Collection, AbstractMutableCollection]); initMetadataForClass(HashMapEntrySetBase, 'HashMapEntrySetBase', VOID, AbstractMutableSet, [KtMutableSet, AbstractMutableSet]); initMetadataForClass(HashMapEntrySet, 'HashMapEntrySet', VOID, HashMapEntrySetBase); initMetadataForClass(HashMapKeysDefault$iterator$1); initMetadataForClass(HashMapKeysDefault, 'HashMapKeysDefault', VOID, AbstractMutableSet); initMetadataForClass(HashMapValuesDefault$iterator$1); initMetadataForClass(HashMapValuesDefault, 'HashMapValuesDefault', VOID, AbstractMutableCollection); initMetadataForClass(HashSet, 'HashSet', HashSet_init_$Create$, AbstractMutableSet, [AbstractMutableSet, KtMutableSet]); initMetadataForCompanion(Companion_3); initMetadataForClass(Itr, 'Itr'); initMetadataForClass(KeysItr, 'KeysItr', VOID, Itr); initMetadataForClass(ValuesItr, 'ValuesItr', VOID, Itr); initMetadataForClass(EntriesItr, 'EntriesItr', VOID, Itr); initMetadataForClass(EntryRef, 'EntryRef', VOID, VOID, [Entry]); function containsAllEntries(m) { var tmp$ret$0; $l$block_0: { // Inline function 'kotlin.collections.all' call var tmp; if (isInterface(m, Collection)) { tmp = m.n(); } else { tmp = false; } if (tmp) { tmp$ret$0 = true; break $l$block_0; } var tmp0_iterator = m.i(); while (tmp0_iterator.j()) { var element = tmp0_iterator.k(); // Inline function 'kotlin.collections.InternalMap.containsAllEntries.<anonymous>' call // Inline function 'kotlin.js.unsafeCast' call // Inline function 'kotlin.js.asDynamic' call var entry = element; var tmp_0; if (!(entry == null) ? isInterface(entry, Entry) : false) { tmp_0 = this.n7(entry); } else { tmp_0 = false; } if (!tmp_0) { tmp$ret$0 = false; break $l$block_0; } } tmp$ret$0 = true; } return tmp$ret$0; } initMetadataForInterface(InternalMap, 'InternalMap'); initMetadataForClass(InternalHashMap, 'InternalHashMap', InternalHashMap_init_$Create$, VOID, [InternalMap]); initMetadataForObject(EmptyHolder, 'EmptyHolder'); initMetadataForClass(LinkedHashMap, 'LinkedHashMap', LinkedHashMap_init_$Create$, HashMap, [HashMap, KtMutableMap]); initMetadataForClass(LinkedHashSet, 'LinkedHashSet', LinkedHashSet_init_$Create$, HashSet, [HashSet, KtMutableSet]); initMetadataForInterface(Continuation, 'Continuation'); initMetadataForClass(InterceptedCoroutine, 'InterceptedCoroutine', VOID, VOID, [Continuation]); initMetadataForClass(CoroutineImpl, 'CoroutineImpl', VOID, InterceptedCoroutine, [InterceptedCoroutine, Continuation]); initMetadataForObject(CompletedContinuation, 'CompletedContinuation', VOID, VOID, [Continuation]); initMetadataForClass(Exception, 'Exception', Exception_init_$Create$, Error); initMetadataForClass(RuntimeException, 'RuntimeException', RuntimeException_init_$Create$, Exception); initMetadataForClass(IllegalArgumentException, 'IllegalArgumentException', IllegalArgumentException_init_$Create$, RuntimeException); initMetadataForClass(IndexOutOfBoundsException, 'IndexOutOfBoundsException', IndexOutOfBoundsException_init_$Create$, RuntimeException); initMetadataForClass(IllegalStateException, 'IllegalStateException', IllegalStateException_init_$Create$, RuntimeException); initMetadataForClass(UnsupportedOperationException, 'UnsupportedOperationException', UnsupportedOperationException_init_$Create$, RuntimeException); initMetadataForClass(NoSuchElementException, 'NoSuchElementException', NoSuchElementException_init_$Create$, RuntimeException); initMetadataForClass(Error_0, 'Error', Error_init_$Create$, Error); initMetadataForClass(AssertionError, 'AssertionError', AssertionError_init_$Create$, Error_0); initMetadataForClass(ConcurrentModificationException, 'ConcurrentModificationException', ConcurrentModificationException_init_$Create$, RuntimeException); initMetadataForClass(NumberFormatException, 'NumberFormatException', NumberFormatException_init_$Create$, IllegalArgumentException); initMetadataForClass(ArithmeticException, 'ArithmeticException', ArithmeticException_init_$Create$, RuntimeException); initMetadataForClass(ClassCastException, 'ClassCastException', ClassCastException_init_$Create$, RuntimeException); initMetadataForClass(NullPointerException, 'NullPointerException', NullPointerException_init_$Create$, RuntimeException); initMetadataForClass(NoWhenBranchMatchedException, 'NoWhenBranchMatchedException', NoWhenBranchMatchedException_init_$Create$, RuntimeException); initMetadataForClass(UninitializedPropertyAccessException, 'UninitializedPropertyAccessException', UninitializedPropertyAccessException_init_$Create$, RuntimeException); initMetadataForInterface(KClass, 'KClass'); initMetadataForClass(KClassImpl, 'KClassImpl', VOID, VOID, [KClass]); initMetadataForObject(NothingKClassImpl, 'NothingKClassImpl', VOID, KClassImpl); initMetadataForClass(ErrorKClass, 'ErrorKClass', ErrorKClass, VOID, [KClass]); initMetadataForClass(PrimitiveKClassImpl, 'PrimitiveKClassImpl', VOID, KClassImpl); initMetadataForClass(SimpleKClassImpl, 'SimpleKClassImpl', VOID, KClassImpl); initMetadataForInterface(KProperty1, 'KProperty1'); initMetadataForClass(KTypeImpl, 'KTypeImpl'); initMetadataForObject(PrimitiveClasses, 'PrimitiveClasses'); initMetadataForClass(CharacterCodingException, 'CharacterCodingException', CharacterCodingException_init_$Create$, Exception); initMetadataForClass(StringBuilder, 'StringBuilder', StringBuilder_init_$Create$_0, VOID, [CharSequence]); initMetadataForCompanion(Companion_4); initMetadataForClass(Regex, 'Regex'); initMetadataForClass(sam$kotlin_Comparator$0, 'sam$kotlin_Comparator$0'); initMetadataForClass(ExceptionTraceBuilder, 'ExceptionTraceBuilder', ExceptionTraceBuilder); initMetadataForClass(DurationUnit, 'DurationUnit', VOID, Enum); initMetadataForCompanion(Companion_5); initMetadataForClass(AbstractMap$keys$1$iterator$1); initMetadataForClass(AbstractMap$values$1$iterator$1); initMetadataForCompanion(Companion_6); initMetadataForClass(AbstractSet, 'AbstractSet', VOID, AbstractCollection, [AbstractCollection, KtSet]); initMetadataForClass(AbstractMap$keys$1, VOID, VOID, AbstractSet); initMetadataForClass(AbstractMap$values$1, VOID, VOID, AbstractCollection); initMetadataForCompanion(Companion_7); initMetadataForObject(EmptyList, 'EmptyList', VOID, VOID, [KtList]); initMetadataForObject(EmptyIterator, 'EmptyIterator'); initMetadataForClass(ArrayAsCollection, 'ArrayAsCollection', VOID, VOID, [Collection]); initMetadataForClass(IndexedValue, 'IndexedValue'); initMetadataForClass(IndexingIterable, 'IndexingIterable'); initMetadataForClass(IndexingIterator, 'IndexingIterator'); initMetadataForInterface(MapWithDefault, 'MapWithDefault', VOID, VOID, [KtMap]); initMetadataForObject(EmptyMap, 'EmptyMap', VOID, VOID, [KtMap]); initMetadataForClass(IntIterator, 'IntIterator'); initMetadataForClass(TransformingSequence$iterator$1); initMetadataForClass(TransformingSequence, 'TransformingSequence'); initMetadataForObject(EmptySet, 'EmptySet', VOID, VOID, [KtSet]); initMetadataForObject(Key, 'Key'); function releaseInterceptedContinuation(continuation) { } initMetadataForInterface(ContinuationInterceptor, 'ContinuationInterceptor'); initMetadataForObject(EmptyCoroutineContext, 'EmptyCoroutineContext'); initMetadataForClass(CoroutineSingletons, 'CoroutineSingletons', VOID, Enum); initMetadataForClass(Base64, 'Base64'); initMetadataForObject(Default, 'Default', VOID, Base64); initMetadataForClass(Random, 'Random'); initMetadataForObject(Default_0, 'Default', VOID, Random); initMetadataForCompanion(Companion_8); initMetadataForClass(XorWowRandom, 'XorWowRandom', VOID, Random); initMetadataForCompanion(Companion_9); initMetadataForClass(IntProgression, 'IntProgression'); initMetadataForClass(IntRange, 'IntRange', VOID, IntProgression); initMetadataForClass(IntProgressionIterator, 'IntProgressionIterator', VOID, IntIterator); initMetadataForCompanion(Companion_10); initMetadataForInterface(KTypeParameter, 'KTypeParameter'); initMetadataForClass(DelimitedRangesSequence$iterator$1); initMetadataForClass(DelimitedRangesSequence, 'DelimitedRangesSequence'); initMetadataForCompanion(Companion_11); initMetadataForClass(Duration, 'Duration'); initMetadataForClass(DeepRecursiveScope, 'DeepRecursiveScope', VOID, VOID, VOID, [1]); initMetadataForClass(DeepRecursiveFunction, 'DeepRecursiveFunction'); initMetadataForClass(DeepRecursiveScopeImpl, 'DeepRecursiveScopeImpl', VOID, DeepRecursiveScope, [DeepRecursiveScope, Continuation], [1]); initMetadataForClass(LazyThreadSafetyMode, 'LazyThreadSafetyMode', VOID, Enum); initMetadataForClass(UnsafeLazyImpl, 'UnsafeLazyImpl'); initMetadataForObject(UNINITIALIZED_VALUE, 'UNINITIALIZED_VALUE'); initMetadataForCompanion(Companion_12); initMetadataForClass(Failure, 'Failure'); initMetadataForClass(Result, 'Result'); initMetadataForClass(NotImplementedError, 'NotImplementedError', NotImplementedError, Error_0); initMetadataForClass(Pair, 'Pair'); initMetadataForClass(Triple, 'Triple'); initMetadataForCompanion(Companion_13); initMetadataForClass(UByte, 'UByte'); initMetadataForClass(Iterator, 'Iterator'); initMetadataForClass(UByteArray, 'UByteArray', VOID, VOID, [Collection]); initMetadataForCompanion(Companion_14); initMetadataForClass(UInt, 'UInt'); initMetadataForClass(Iterator_0, 'Iterator'); initMetadataForClass(UIntArray, 'UIntArray', VOID, VOID, [Collection]); initMetadataForCompanion(Companion_15); initMetadataForClass(ULong, 'ULong'); initMetadataForClass(Iterator_1, 'Iterator'); initMetadataForClass(ULongArray, 'ULongArray', VOID, VOID, [Collection]); initMetadataForCompanion(Companion_16); initMetadataForClass(UShort, 'UShort'); initMetadataForClass(Iterator_2, 'Iterator'); initMetadataForClass(UShortArray, 'UShortArray', VOID, VOID, [Collection]); //endregion function CharSequence() { } function Number_0() { } function Unit() { } protoOf(Unit).toString = function () { return 'kotlin.Unit'; }; var Unit_instance; function Unit_getInstance() { return Unit_instance; } function toList(_this__u8e3s4) { switch (_this__u8e3s4.length) { case 0: return emptyList(); case 1: return listOf(_this__u8e3s4[0]); default: return toMutableList(_this__u8e3s4); } } function withIndex(_this__u8e3s4) { return new IndexingIterable(withIndex$lambda(_this__u8e3s4)); } function get_indices(_this__u8e3s4) { return new IntRange(0, get_lastIndex(_this__u8e3s4)); } function get_indices_0(_this__u8e3s4) { return new IntRange(0, get_lastIndex_0(_this__u8e3s4)); } function contains(_this__u8e3s4, element) { return indexOf_0(_this__u8e3s4, element) >= 0; } function contains_0(_this__u8e3s4, element) { return indexOf_1(_this__u8e3s4, element) >= 0; } function contains_1(_this__u8e3s4, element) { return indexOf_2(_this__u8e3s4, element) >= 0; } function contains_2(_this__u8e3s4, element) { return indexOf_3(_this__u8e3s4, element) >= 0; } function indexOf(_this__u8e3s4, element) { if (element == null) { var inductionVariable = 0; var last = _this__u8e3s4.length - 1 | 0; if (inductionVariable <= last) do { var index = inductionVariable; inductionVariable = inductionVariable + 1 | 0; if (_this__u8e3s4[index] == null) { return index; } } while (inductionVariable <= last); } else { var inductionVariable_0 = 0; var last_0 = _this__u8e3s4.length - 1 | 0; if (inductionVariable_0 <= last_0) do { var index_0 = inductionVariable_0; inductionVariable_0 = inductionVariable_0 + 1 | 0; if (equals(element, _this__u8e3s4[index_0])) { return index_0; } } while (inductionVariable_0 <= last_0); } return -1; } function toSet(_this__u8e3s4) { switch (_this__u8e3s4.length) { case 0: return emptySet(); case 1: return setOf(_this__u8e3s4[0]); default: return toCollection(_this__u8e3s4, LinkedHashSet_init_$Create$_1(mapCapacity(_this__u8e3s4.length))); } } function single(_this__u8e3s4) { var tmp; switch (_this__u8e3s4.length) { case 0: throw NoSuchElementException_init_$Create$_0('Array is empty.'); case 1: tmp = _this__u8e3s4[0]; break; default: throw IllegalArgumentException_init_$Create$_0('Array has more than one element.'); } return tmp; } function toMutableList(_this__u8e3s4) { return ArrayList_init_$Create$_1(asCollection(_this__u8e3s4)); } function get_lastIndex(_this__u8e3s4) { return _this__u8e3s4.length - 1 | 0; } function get_lastIndex_0(_this__u8e3s4) { return _this__u8e3s4.length - 1 | 0; } function indexOf_0(_this__u8e3s4, element) { var inductionVariable = 0; var last = _this__u8e3s4.length - 1 | 0; if (inductionVariable <= last) do { var index = inductionVariable; inductionVariable = inductionVariable + 1 | 0; if (element.equals(_this__u8e3s4[index])) { return index; } } while (inductionVariable <= last); return -1; } function indexOf_1(_this__u8e3s4, element) { var inductionVariable = 0; var last = _this__u8e3s4.length - 1 | 0; if (inductionVariable <= last) do { var index = inductionVariable; inductionVariable = inductionVariable + 1 | 0; if (element === _this__u8e3s4[index]) { return index; } } while (inductionVariable <= last); return -1; } function indexOf_2(_this__u8e3s4, element) { var inductionVariable = 0; var last = _this__u8e3s4.length - 1 | 0; if (inductionVariable <= last) do { var index = inductionVariable; inductionVariable = inductionVariable + 1 | 0; if (element === _this__u8e3s4[index]) { return index; } } while (inductionVariable <= last); return -1; } function indexOf_3(_this__u8e3s4, element) { var inductionVariable = 0; var last = _this__u8e3s4.length - 1 | 0; if (inductionVariable <= last) do { var index = inductionVariable; inductionVariable = inductionVariable + 1 | 0; if (element === _this__u8e3s4[index]) { return index; } } while (inductionVariable <= last); return -1; } function toCollection(_this__u8e3s4, destination) { var inductionVariable = 0; var last = _this__u8e3s4.length; while (inductionVariable < last) { var item = _this__u8e3s4[inductionVariable]; inductionVariable = inductionVariable + 1 | 0; destination.d(item); } return destination; } function get_lastIndex_1(_this__u8e3s4) { return _this__u8e3s4.length - 1 | 0; } function contains_3(_this__u8e3s4, element) { return indexOf(_this__u8e3s4, element) >= 0; } function joinToString(_this__u8e3s4, separator, prefix, postfix, limit, truncated, transform) { separator = separator === VOID ? ', ' : separator; prefix = prefix === VOID ? '' : prefix; postfix = postfix === VOID ? '' : postfix; limit = limit === VOID ? -1 : limit; truncated = truncated === VOID ? '...' : truncated; transform = transform === VOID ? null : transform; return joinTo(_this__u8e3s4, StringBuilder_init_$Create$_0(), separator, prefix, postfix, limit, truncated, transform).toString(); } function joinTo(_this__u8e3s4, buffer, separator, prefix, postfix, limit, truncated, transform) { separator = separator === VOID ? ', ' : separator; prefix = prefix === VOID ? '' : prefix; postfix = postfix === VOID ? '' : postfix; limit = limit === VOID ? -1 : limit; truncated = truncated === VOID ? '...' : truncated; transform = transform === VOID ? null : transform; buffer.e(prefix); var count = 0; var inductionVariable = 0; var last = _this__u8e3s4.length; $l$loop: while (inductionVariable < last) { var element = _this__u8e3s4[inductionVariable]; inductionVariable = inductionVariable + 1 | 0; count = count + 1 | 0; if (count > 1) { buffer.e(separator); } if (limit < 0 || count <= limit) { appendElement(buffer, element, transform); } else break $l$loop; } if (limit >= 0 && count > limit) { buffer.e(truncated); } buffer.e(postfix); return buffer; } function reversed(_this__u8e3s4) { // Inline function 'kotlin.collections.isEmpty' call if (_this__u8e3s4.length === 0) return emptyList(); var list = toMutableList(_this__u8e3s4); reverse(list); return list; } function filterNotNull(_this__u8e3s4) { return filterNotNullTo(_this__u8e3s4, ArrayList_init_$Create$()); } function filterNotNullTo(_this__u8e3s4, destination) { var inductionVariable = 0; var last = _this__u8e3s4.length; while (inductionVariable < last) { var element = _this__u8e3s4[inductionVariable]; inductionVariable = inductionVariable + 1 | 0; if (!(element == null)) { destination.d(element); } } return destination; } function distinct(_this__u8e3s4) { return toList_0(toMutableSet(_this__u8e3s4)); } function zip(_this__u8e3s4, other) { // Inline function 'kotlin.collections.zip' call // Inline function 'kotlin.comparisons.minOf' call var a = _this__u8e3s4.length; var b = other.length; var size = Math.min(a, b); var list = ArrayList_init_$Create$_0(size); var inductionVariable = 0; if (inductionVariable < size) do { var i = inductionVariable; inductionVariable = inductionVariable + 1 | 0; // Inline function 'kotlin.collections.zip.<anonymous>' call var t1 = _this__u8e3s4[i]; var t2 = other[i]; var tmp$ret$1 = to(t1, t2); list.d(tmp$ret$1); } while (inductionVariable < size); return list; } function toMutableSet(_this__u8e3s4) { return toCollection(_this__u8e3s4, LinkedHashSet_init_$Create$_1(mapCapacity(_this__u8e3s4.length))); } function withIndex$lambda($this_withIndex) { return function () { return arrayIterator($this_withIndex); }; } function joinToString_0(_this__u8e3s4, separator, prefix, postfix, limit, truncated, transform) { separator = separator === VOID ? ', ' : separator; prefix = prefix === VOID ? '' : prefix; postfix = postfix === VOID ? '' : postfix; limit = limit === VOID ? -1 : limit; truncated = truncated === VOID ? '...' : truncated; transform = transform === VOID ? null : transform; return joinTo_0(_this__u8e3s4, StringBuilder_init_$Create$_0(), separator, prefix, postfix, limit, truncated, transform).toString(); } function joinTo_0(_this__u8e3s4, buffer, separator, prefix, postfix, limit, truncated, transform) { separator = separator === VOID ? ', ' : separator; prefix = prefix === VOID ? '' : prefix; postfix = postfix === VOID ? '' : postfix; limit = limit === VOID ? -1 : limit; truncated = truncated === VOID ? '...' : truncated; transform = transform === VOID ? null : transform; buffer.e(prefix); var count = 0; var tmp0_iterator = _this__u8e3s4.i(); $l$loop: while (tmp0_iterator.j()) { var element = tmp0_iterator.k(); count = count + 1 | 0; if (count > 1) { buffer.e(separator); } if (limit < 0 || count <= limit) { appendElement(buffer, element, transform); } else break $l$loop; } if (limit >= 0 && count > limit) { buffer.e(truncated); } buffer.e(postfix); return buffer; } function toHashSet(_this__u8e3s4) { return toCollection_0(_this__u8e3s4, HashSet_init_$Create$_1(mapCapacity(collectionSizeOrDefault(_this__u8e3s4, 12)))); } function toBooleanArray(_this__u8e3s4) { var result = booleanArray(_this__u8e3s4.l()); var index = 0; var tmp0_iterator = _this__u8e3s4.i(); while (tmp0_iterator.j()) { var element = tmp0_iterator.k(); var tmp1 = index; index = tmp1 + 1 | 0; result[tmp1] = element; } return result; } function toCollection_0(_this__u8e3s4, destination) { var tmp0_iterator = _this__u8e3s4.i(); while (tmp0_iterator.j()) { var item = tmp0_iterator.k(); destination.d(item); } return destination; } function toList_0(_this__u8e3s4) { if (isInterface(_this__u8e3s4, Collection)) { var tmp; switch (_this__u8e3s4.l()) { case 0: tmp = emptyList(); break; case 1: var tmp_0; if (isInterface(_this__u8e3s4, KtList)) { tmp_0 = _this__u8e3s4.m(0); } else { tmp_0 = _thi