Commit f0131599 authored by Spark's avatar Spark
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typescript client

parent ec4d4f56
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/*! *****************************************************************************
Copyright (c) Microsoft Corporation. All rights reserved.
Licensed under the Apache License, Version 2.0 (the "License"); you may not use
this file except in compliance with the License. You may obtain a copy of the
License at http://www.apache.org/licenses/LICENSE-2.0
THIS CODE IS PROVIDED ON AN *AS IS* BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
KIND, EITHER EXPRESS OR IMPLIED, INCLUDING WITHOUT LIMITATION ANY IMPLIED
WARRANTIES OR CONDITIONS OF TITLE, FITNESS FOR A PARTICULAR PURPOSE,
MERCHANTABLITY OR NON-INFRINGEMENT.
See the Apache Version 2.0 License for specific language governing permissions
and limitations under the License.
***************************************************************************** */
/// <reference no-default-lib="true"/>
/// <reference lib="es5" />
/// <reference lib="dom" />
/// <reference lib="webworker.importscripts" />
/// <reference lib="scripthost" />
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/*! *****************************************************************************
Copyright (c) Microsoft Corporation. All rights reserved.
Licensed under the Apache License, Version 2.0 (the "License"); you may not use
this file except in compliance with the License. You may obtain a copy of the
License at http://www.apache.org/licenses/LICENSE-2.0
THIS CODE IS PROVIDED ON AN *AS IS* BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
KIND, EITHER EXPRESS OR IMPLIED, INCLUDING WITHOUT LIMITATION ANY IMPLIED
WARRANTIES OR CONDITIONS OF TITLE, FITNESS FOR A PARTICULAR PURPOSE,
MERCHANTABLITY OR NON-INFRINGEMENT.
See the Apache Version 2.0 License for specific language governing permissions
and limitations under the License.
***************************************************************************** */
/// <reference no-default-lib="true"/>
/////////////////////////////
/// DOM Iterable APIs
/////////////////////////////
interface AudioParam {
setValueCurveAtTime(values: Iterable<number>, startTime: number, duration: number): AudioParam;
}
interface AudioParamMap extends ReadonlyMap<string, AudioParam> {
}
interface BaseAudioContext {
createIIRFilter(feedforward: Iterable<number>, feedback: Iterable<number>): IIRFilterNode;
createPeriodicWave(real: Iterable<number>, imag: Iterable<number>, constraints?: PeriodicWaveConstraints): PeriodicWave;
}
interface CSSRuleList {
[Symbol.iterator](): IterableIterator<CSSRule>;
}
interface CSSStyleDeclaration {
[Symbol.iterator](): IterableIterator<string>;
}
interface Cache {
addAll(requests: Iterable<RequestInfo>): Promise<void>;
}
interface CanvasPathDrawingStyles {
setLineDash(segments: Iterable<number>): void;
}
interface ClientRectList {
[Symbol.iterator](): IterableIterator<ClientRect>;
}
interface DOMRectList {
[Symbol.iterator](): IterableIterator<DOMRect>;
}
interface DOMStringList {
[Symbol.iterator](): IterableIterator<string>;
}
interface DOMTokenList {
[Symbol.iterator](): IterableIterator<string>;
entries(): IterableIterator<[number, string]>;
keys(): IterableIterator<number>;
values(): IterableIterator<string>;
}
interface DataTransferItemList {
[Symbol.iterator](): IterableIterator<DataTransferItem>;
}
interface FileList {
[Symbol.iterator](): IterableIterator<File>;
}
interface FormData {
[Symbol.iterator](): IterableIterator<[string, FormDataEntryValue]>;
/**
* Returns an array of key, value pairs for every entry in the list.
*/
entries(): IterableIterator<[string, FormDataEntryValue]>;
/**
* Returns a list of keys in the list.
*/
keys(): IterableIterator<string>;
/**
* Returns a list of values in the list.
*/
values(): IterableIterator<FormDataEntryValue>;
}
interface HTMLAllCollection {
[Symbol.iterator](): IterableIterator<Element>;
}
interface HTMLCollectionBase {
[Symbol.iterator](): IterableIterator<Element>;
}
interface HTMLCollectionOf<T extends Element> {
[Symbol.iterator](): IterableIterator<T>;
}
interface HTMLFormElement {
[Symbol.iterator](): IterableIterator<Element>;
}
interface HTMLSelectElement {
[Symbol.iterator](): IterableIterator<Element>;
}
interface Headers {
[Symbol.iterator](): IterableIterator<[string, string]>;
/**
* Returns an iterator allowing to go through all key/value pairs contained in this object.
*/
entries(): IterableIterator<[string, string]>;
/**
* Returns an iterator allowing to go through all keys of the key/value pairs contained in this object.
*/
keys(): IterableIterator<string>;
/**
* Returns an iterator allowing to go through all values of the key/value pairs contained in this object.
*/
values(): IterableIterator<string>;
}
interface IDBDatabase {
/**
* Returns a new transaction with the given mode ("readonly" or "readwrite") and scope which can be a single object store name or an array of names.
*/
transaction(storeNames: string | Iterable<string>, mode?: IDBTransactionMode): IDBTransaction;
}
interface IDBObjectStore {
/**
* Creates a new index in store with the given name, keyPath and options and returns a new IDBIndex. If the keyPath and options define constraints that cannot be satisfied with the data already in store the upgrade transaction will abort with a "ConstraintError" DOMException.
*
* Throws an "InvalidStateError" DOMException if not called within an upgrade transaction.
*/
createIndex(name: string, keyPath: string | Iterable<string>, options?: IDBIndexParameters): IDBIndex;
}
interface MediaKeyStatusMap {
[Symbol.iterator](): IterableIterator<[BufferSource, MediaKeyStatus]>;
entries(): IterableIterator<[BufferSource, MediaKeyStatus]>;
keys(): IterableIterator<BufferSource>;
values(): IterableIterator<MediaKeyStatus>;
}
interface MediaList {
[Symbol.iterator](): IterableIterator<string>;
}
interface MimeTypeArray {
[Symbol.iterator](): IterableIterator<MimeType>;
}
interface NamedNodeMap {
[Symbol.iterator](): IterableIterator<Attr>;
}
interface Navigator {
requestMediaKeySystemAccess(keySystem: string, supportedConfigurations: Iterable<MediaKeySystemConfiguration>): Promise<MediaKeySystemAccess>;
}
interface NodeList {
[Symbol.iterator](): IterableIterator<Node>;
/**
* Returns an array of key, value pairs for every entry in the list.
*/
entries(): IterableIterator<[number, Node]>;
/**
* Returns an list of keys in the list.
*/
keys(): IterableIterator<number>;
/**
* Returns an list of values in the list.
*/
values(): IterableIterator<Node>;
}
interface NodeListOf<TNode extends Node> {
[Symbol.iterator](): IterableIterator<TNode>;
/**
* Returns an array of key, value pairs for every entry in the list.
*/
entries(): IterableIterator<[number, TNode]>;
/**
* Returns an list of keys in the list.
*/
keys(): IterableIterator<number>;
/**
* Returns an list of values in the list.
*/
values(): IterableIterator<TNode>;
}
interface Plugin {
[Symbol.iterator](): IterableIterator<MimeType>;
}
interface PluginArray {
[Symbol.iterator](): IterableIterator<Plugin>;
}
interface RTCRtpTransceiver {
setCodecPreferences(codecs: Iterable<RTCRtpCodecCapability>): void;
}
interface RTCStatsReport extends ReadonlyMap<string, any> {
}
interface SVGLengthList {
[Symbol.iterator](): IterableIterator<SVGLength>;
}
interface SVGNumberList {
[Symbol.iterator](): IterableIterator<SVGNumber>;
}
interface SVGPointList {
[Symbol.iterator](): IterableIterator<DOMPoint>;
}
interface SVGStringList {
[Symbol.iterator](): IterableIterator<string>;
}
interface SourceBufferList {
[Symbol.iterator](): IterableIterator<SourceBuffer>;
}
interface SpeechGrammarList {
[Symbol.iterator](): IterableIterator<SpeechGrammar>;
}
interface SpeechRecognitionResult {
[Symbol.iterator](): IterableIterator<SpeechRecognitionAlternative>;
}
interface SpeechRecognitionResultList {
[Symbol.iterator](): IterableIterator<SpeechRecognitionResult>;
}
interface StyleSheetList {
[Symbol.iterator](): IterableIterator<CSSStyleSheet>;
}
interface TextTrackCueList {
[Symbol.iterator](): IterableIterator<TextTrackCue>;
}
interface TextTrackList {
[Symbol.iterator](): IterableIterator<TextTrack>;
}
interface TouchList {
[Symbol.iterator](): IterableIterator<Touch>;
}
interface URLSearchParams {
[Symbol.iterator](): IterableIterator<[string, string]>;
/**
* Returns an array of key, value pairs for every entry in the search params.
*/
entries(): IterableIterator<[string, string]>;
/**
* Returns a list of keys in the search params.
*/
keys(): IterableIterator<string>;
/**
* Returns a list of values in the search params.
*/
values(): IterableIterator<string>;
}
interface VRDisplay {
requestPresent(layers: Iterable<VRLayer>): Promise<void>;
}
interface WEBGL_draw_buffers {
drawBuffersWEBGL(buffers: Iterable<GLenum>): void;
}
interface WebGL2RenderingContextBase {
clearBufferfv(buffer: GLenum, drawbuffer: GLint, values: Iterable<GLfloat>, srcOffset?: GLuint): void;
clearBufferiv(buffer: GLenum, drawbuffer: GLint, values: Iterable<GLint>, srcOffset?: GLuint): void;
clearBufferuiv(buffer: GLenum, drawbuffer: GLint, values: Iterable<GLuint>, srcOffset?: GLuint): void;
drawBuffers(buffers: Iterable<GLenum>): void;
getActiveUniforms(program: WebGLProgram, uniformIndices: Iterable<GLuint>, pname: GLenum): any;
getUniformIndices(program: WebGLProgram, uniformNames: Iterable<string>): Iterable<GLuint> | null;
invalidateFramebuffer(target: GLenum, attachments: Iterable<GLenum>): void;
invalidateSubFramebuffer(target: GLenum, attachments: Iterable<GLenum>, x: GLint, y: GLint, width: GLsizei, height: GLsizei): void;
transformFeedbackVaryings(program: WebGLProgram, varyings: Iterable<string>, bufferMode: GLenum): void;
uniform1uiv(location: WebGLUniformLocation | null, data: Iterable<GLuint>, srcOffset?: GLuint, srcLength?: GLuint): void;
uniform2uiv(location: WebGLUniformLocation | null, data: Iterable<GLuint>, srcOffset?: GLuint, srcLength?: GLuint): void;
uniform3uiv(location: WebGLUniformLocation | null, data: Iterable<GLuint>, srcOffset?: GLuint, srcLength?: GLuint): void;
uniform4uiv(location: WebGLUniformLocation | null, data: Iterable<GLuint>, srcOffset?: GLuint, srcLength?: GLuint): void;
uniformMatrix2x3fv(location: WebGLUniformLocation | null, transpose: GLboolean, data: Iterable<GLfloat>, srcOffset?: GLuint, srcLength?: GLuint): void;
uniformMatrix2x4fv(location: WebGLUniformLocation | null, transpose: GLboolean, data: Iterable<GLfloat>, srcOffset?: GLuint, srcLength?: GLuint): void;
uniformMatrix3x2fv(location: WebGLUniformLocation | null, transpose: GLboolean, data: Iterable<GLfloat>, srcOffset?: GLuint, srcLength?: GLuint): void;
uniformMatrix3x4fv(location: WebGLUniformLocation | null, transpose: GLboolean, data: Iterable<GLfloat>, srcOffset?: GLuint, srcLength?: GLuint): void;
uniformMatrix4x2fv(location: WebGLUniformLocation | null, transpose: GLboolean, data: Iterable<GLfloat>, srcOffset?: GLuint, srcLength?: GLuint): void;
uniformMatrix4x3fv(location: WebGLUniformLocation | null, transpose: GLboolean, data: Iterable<GLfloat>, srcOffset?: GLuint, srcLength?: GLuint): void;
vertexAttribI4iv(index: GLuint, values: Iterable<GLint>): void;
vertexAttribI4uiv(index: GLuint, values: Iterable<GLuint>): void;
}
interface WebGL2RenderingContextOverloads {
uniform1fv(location: WebGLUniformLocation | null, data: Iterable<GLfloat>, srcOffset?: GLuint, srcLength?: GLuint): void;
uniform1iv(location: WebGLUniformLocation | null, data: Iterable<GLint>, srcOffset?: GLuint, srcLength?: GLuint): void;
uniform2fv(location: WebGLUniformLocation | null, data: Iterable<GLfloat>, srcOffset?: GLuint, srcLength?: GLuint): void;
uniform2iv(location: WebGLUniformLocation | null, data: Iterable<GLint>, srcOffset?: GLuint, srcLength?: GLuint): void;
uniform3fv(location: WebGLUniformLocation | null, data: Iterable<GLfloat>, srcOffset?: GLuint, srcLength?: GLuint): void;
uniform3iv(location: WebGLUniformLocation | null, data: Iterable<GLint>, srcOffset?: GLuint, srcLength?: GLuint): void;
uniform4fv(location: WebGLUniformLocation | null, data: Iterable<GLfloat>, srcOffset?: GLuint, srcLength?: GLuint): void;
uniform4iv(location: WebGLUniformLocation | null, data: Iterable<GLint>, srcOffset?: GLuint, srcLength?: GLuint): void;
uniformMatrix2fv(location: WebGLUniformLocation | null, transpose: GLboolean, data: Iterable<GLfloat>, srcOffset?: GLuint, srcLength?: GLuint): void;
uniformMatrix3fv(location: WebGLUniformLocation | null, transpose: GLboolean, data: Iterable<GLfloat>, srcOffset?: GLuint, srcLength?: GLuint): void;
uniformMatrix4fv(location: WebGLUniformLocation | null, transpose: GLboolean, data: Iterable<GLfloat>, srcOffset?: GLuint, srcLength?: GLuint): void;
}
interface WebGLRenderingContextBase {
vertexAttrib1fv(index: GLuint, values: Iterable<GLfloat>): void;
vertexAttrib2fv(index: GLuint, values: Iterable<GLfloat>): void;
vertexAttrib3fv(index: GLuint, values: Iterable<GLfloat>): void;
vertexAttrib4fv(index: GLuint, values: Iterable<GLfloat>): void;
}
interface WebGLRenderingContextOverloads {
uniform1fv(location: WebGLUniformLocation | null, v: Iterable<GLfloat>): void;
uniform1iv(location: WebGLUniformLocation | null, v: Iterable<GLint>): void;
uniform2fv(location: WebGLUniformLocation | null, v: Iterable<GLfloat>): void;
uniform2iv(location: WebGLUniformLocation | null, v: Iterable<GLint>): void;
uniform3fv(location: WebGLUniformLocation | null, v: Iterable<GLfloat>): void;
uniform3iv(location: WebGLUniformLocation | null, v: Iterable<GLint>): void;
uniform4fv(location: WebGLUniformLocation | null, v: Iterable<GLfloat>): void;
uniform4iv(location: WebGLUniformLocation | null, v: Iterable<GLint>): void;
uniformMatrix2fv(location: WebGLUniformLocation | null, transpose: GLboolean, value: Iterable<GLfloat>): void;
uniformMatrix3fv(location: WebGLUniformLocation | null, transpose: GLboolean, value: Iterable<GLfloat>): void;
uniformMatrix4fv(location: WebGLUniformLocation | null, transpose: GLboolean, value: Iterable<GLfloat>): void;
}
/*! *****************************************************************************
Copyright (c) Microsoft Corporation. All rights reserved.
Licensed under the Apache License, Version 2.0 (the "License"); you may not use
this file except in compliance with the License. You may obtain a copy of the
License at http://www.apache.org/licenses/LICENSE-2.0
THIS CODE IS PROVIDED ON AN *AS IS* BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
KIND, EITHER EXPRESS OR IMPLIED, INCLUDING WITHOUT LIMITATION ANY IMPLIED
WARRANTIES OR CONDITIONS OF TITLE, FITNESS FOR A PARTICULAR PURPOSE,
MERCHANTABLITY OR NON-INFRINGEMENT.
See the Apache Version 2.0 License for specific language governing permissions
and limitations under the License.
***************************************************************************** */
/// <reference no-default-lib="true"/>
interface Map<K, V> {
clear(): void;
delete(key: K): boolean;
forEach(callbackfn: (value: V, key: K, map: Map<K, V>) => void, thisArg?: any): void;
get(key: K): V | undefined;
has(key: K): boolean;
set(key: K, value: V): this;
readonly size: number;
}
interface MapConstructor {
new(): Map<any, any>;
new<K, V>(entries?: readonly (readonly [K, V])[] | null): Map<K, V>;
readonly prototype: Map<any, any>;
}
declare var Map: MapConstructor;
interface ReadonlyMap<K, V> {
forEach(callbackfn: (value: V, key: K, map: ReadonlyMap<K, V>) => void, thisArg?: any): void;
get(key: K): V | undefined;
has(key: K): boolean;
readonly size: number;
}
interface WeakMap<K extends object, V> {
delete(key: K): boolean;
get(key: K): V | undefined;
has(key: K): boolean;
set(key: K, value: V): this;
}
interface WeakMapConstructor {
new <K extends object = object, V = any>(entries?: readonly [K, V][] | null): WeakMap<K, V>;
readonly prototype: WeakMap<object, any>;
}
declare var WeakMap: WeakMapConstructor;
interface Set<T> {
add(value: T): this;
clear(): void;
delete(value: T): boolean;
forEach(callbackfn: (value: T, value2: T, set: Set<T>) => void, thisArg?: any): void;
has(value: T): boolean;
readonly size: number;
}
interface SetConstructor {
new <T = any>(values?: readonly T[] | null): Set<T>;
readonly prototype: Set<any>;
}
declare var Set: SetConstructor;
interface ReadonlySet<T> {
forEach(callbackfn: (value: T, value2: T, set: ReadonlySet<T>) => void, thisArg?: any): void;
has(value: T): boolean;
readonly size: number;
}
interface WeakSet<T extends object> {
add(value: T): this;
delete(value: T): boolean;
has(value: T): boolean;
}
interface WeakSetConstructor {
new <T extends object = object>(values?: readonly T[] | null): WeakSet<T>;
readonly prototype: WeakSet<object>;
}
declare var WeakSet: WeakSetConstructor;
/*! *****************************************************************************
Copyright (c) Microsoft Corporation. All rights reserved.
Licensed under the Apache License, Version 2.0 (the "License"); you may not use
this file except in compliance with the License. You may obtain a copy of the
License at http://www.apache.org/licenses/LICENSE-2.0
THIS CODE IS PROVIDED ON AN *AS IS* BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
KIND, EITHER EXPRESS OR IMPLIED, INCLUDING WITHOUT LIMITATION ANY IMPLIED
WARRANTIES OR CONDITIONS OF TITLE, FITNESS FOR A PARTICULAR PURPOSE,
MERCHANTABLITY OR NON-INFRINGEMENT.
See the Apache Version 2.0 License for specific language governing permissions
and limitations under the License.
***************************************************************************** */
/// <reference no-default-lib="true"/>
interface Array<T> {
/**
* Returns the value of the first element in the array where predicate is true, and undefined
* otherwise.
* @param predicate find calls predicate once for each element of the array, in ascending
* order, until it finds one where predicate returns true. If such an element is found, find
* immediately returns that element value. Otherwise, find returns undefined.
* @param thisArg If provided, it will be used as the this value for each invocation of
* predicate. If it is not provided, undefined is used instead.
*/
find<S extends T>(predicate: (this: void, value: T, index: number, obj: T[]) => value is S, thisArg?: any): S | undefined;
find(predicate: (value: T, index: number, obj: T[]) => unknown, thisArg?: any): T | undefined;
/**
* Returns the index of the first element in the array where predicate is true, and -1
* otherwise.
* @param predicate find calls predicate once for each element of the array, in ascending
* order, until it finds one where predicate returns true. If such an element is found,
* findIndex immediately returns that element index. Otherwise, findIndex returns -1.
* @param thisArg If provided, it will be used as the this value for each invocation of
* predicate. If it is not provided, undefined is used instead.
*/
findIndex(predicate: (value: T, index: number, obj: T[]) => unknown, thisArg?: any): number;
/**
* Returns the this object after filling the section identified by start and end with value
* @param value value to fill array section with
* @param start index to start filling the array at. If start is negative, it is treated as
* length+start where length is the length of the array.
* @param end index to stop filling the array at. If end is negative, it is treated as
* length+end.
*/
fill(value: T, start?: number, end?: number): this;
/**
* Returns the this object after copying a section of the array identified by start and end
* to the same array starting at position target
* @param target If target is negative, it is treated as length+target where length is the
* length of the array.
* @param start If start is negative, it is treated as length+start. If end is negative, it
* is treated as length+end.
* @param end If not specified, length of the this object is used as its default value.
*/
copyWithin(target: number, start: number, end?: number): this;
}
interface ArrayConstructor {
/**
* Creates an array from an array-like object.
* @param arrayLike An array-like object to convert to an array.
*/
from<T>(arrayLike: ArrayLike<T>): T[];
/**
* Creates an array from an iterable object.
* @param arrayLike An array-like object to convert to an array.
* @param mapfn A mapping function to call on every element of the array.
* @param thisArg Value of 'this' used to invoke the mapfn.
*/
from<T, U>(arrayLike: ArrayLike<T>, mapfn: (v: T, k: number) => U, thisArg?: any): U[];
/**
* Returns a new array from a set of elements.
* @param items A set of elements to include in the new array object.
*/
of<T>(...items: T[]): T[];
}
interface DateConstructor {
new (value: number | string | Date): Date;
}
interface Function {
/**
* Returns the name of the function. Function names are read-only and can not be changed.
*/
readonly name: string;
}
interface Math {
/**
* Returns the number of leading zero bits in the 32-bit binary representation of a number.
* @param x A numeric expression.
*/
clz32(x: number): number;
/**
* Returns the result of 32-bit multiplication of two numbers.
* @param x First number
* @param y Second number
*/
imul(x: number, y: number): number;
/**
* Returns the sign of the x, indicating whether x is positive, negative or zero.
* @param x The numeric expression to test
*/
sign(x: number): number;
/**
* Returns the base 10 logarithm of a number.
* @param x A numeric expression.
*/
log10(x: number): number;
/**
* Returns the base 2 logarithm of a number.
* @param x A numeric expression.
*/
log2(x: number): number;
/**
* Returns the natural logarithm of 1 + x.
* @param x A numeric expression.
*/
log1p(x: number): number;
/**
* Returns the result of (e^x - 1), which is an implementation-dependent approximation to
* subtracting 1 from the exponential function of x (e raised to the power of x, where e
* is the base of the natural logarithms).
* @param x A numeric expression.
*/
expm1(x: number): number;
/**
* Returns the hyperbolic cosine of a number.
* @param x A numeric expression that contains an angle measured in radians.
*/
cosh(x: number): number;
/**
* Returns the hyperbolic sine of a number.
* @param x A numeric expression that contains an angle measured in radians.
*/
sinh(x: number): number;
/**
* Returns the hyperbolic tangent of a number.
* @param x A numeric expression that contains an angle measured in radians.
*/
tanh(x: number): number;
/**
* Returns the inverse hyperbolic cosine of a number.
* @param x A numeric expression that contains an angle measured in radians.
*/
acosh(x: number): number;
/**
* Returns the inverse hyperbolic sine of a number.
* @param x A numeric expression that contains an angle measured in radians.
*/
asinh(x: number): number;
/**
* Returns the inverse hyperbolic tangent of a number.
* @param x A numeric expression that contains an angle measured in radians.
*/
atanh(x: number): number;
/**
* Returns the square root of the sum of squares of its arguments.
* @param values Values to compute the square root for.
* If no arguments are passed, the result is +0.
* If there is only one argument, the result is the absolute value.
* If any argument is +Infinity or -Infinity, the result is +Infinity.
* If any argument is NaN, the result is NaN.
* If all arguments are either +0 or −0, the result is +0.
*/
hypot(...values: number[]): number;
/**
* Returns the integral part of the a numeric expression, x, removing any fractional digits.
* If x is already an integer, the result is x.
* @param x A numeric expression.
*/
trunc(x: number): number;
/**
* Returns the nearest single precision float representation of a number.
* @param x A numeric expression.
*/
fround(x: number): number;
/**
* Returns an implementation-dependent approximation to the cube root of number.
* @param x A numeric expression.
*/
cbrt(x: number): number;
}
interface NumberConstructor {
/**
* The value of Number.EPSILON is the difference between 1 and the smallest value greater than 1
* that is representable as a Number value, which is approximately:
* 2.2204460492503130808472633361816 x 10‍−‍16.
*/
readonly EPSILON: number;
/**
* Returns true if passed value is finite.
* Unlike the global isFinite, Number.isFinite doesn't forcibly convert the parameter to a
* number. Only finite values of the type number, result in true.
* @param number A numeric value.
*/
isFinite(number: unknown): boolean;
/**
* Returns true if the value passed is an integer, false otherwise.
* @param number A numeric value.
*/
isInteger(number: unknown): boolean;
/**
* Returns a Boolean value that indicates whether a value is the reserved value NaN (not a
* number). Unlike the global isNaN(), Number.isNaN() doesn't forcefully convert the parameter
* to a number. Only values of the type number, that are also NaN, result in true.
* @param number A numeric value.
*/
isNaN(number: unknown): boolean;
/**
* Returns true if the value passed is a safe integer.
* @param number A numeric value.
*/
isSafeInteger(number: unknown): boolean;
/**
* The value of the largest integer n such that n and n + 1 are both exactly representable as
* a Number value.
* The value of Number.MAX_SAFE_INTEGER is 9007199254740991 2^53 − 1.
*/
readonly MAX_SAFE_INTEGER: number;
/**
* The value of the smallest integer n such that n and n − 1 are both exactly representable as
* a Number value.
* The value of Number.MIN_SAFE_INTEGER is −9007199254740991 (−(2^53 − 1)).
*/
readonly MIN_SAFE_INTEGER: number;
/**
* Converts a string to a floating-point number.
* @param string A string that contains a floating-point number.
*/
parseFloat(string: string): number;
/**
* Converts A string to an integer.
* @param string A string to convert into a number.
* @param radix A value between 2 and 36 that specifies the base of the number in `string`.
* If this argument is not supplied, strings with a prefix of '0x' are considered hexadecimal.
* All other strings are considered decimal.
*/
parseInt(string: string, radix?: number): number;
}
interface ObjectConstructor {
/**
* Copy the values of all of the enumerable own properties from one or more source objects to a
* target object. Returns the target object.
* @param target The target object to copy to.
* @param source The source object from which to copy properties.
*/
assign<T, U>(target: T, source: U): T & U;
/**
* Copy the values of all of the enumerable own properties from one or more source objects to a
* target object. Returns the target object.
* @param target The target object to copy to.
* @param source1 The first source object from which to copy properties.
* @param source2 The second source object from which to copy properties.
*/
assign<T, U, V>(target: T, source1: U, source2: V): T & U & V;
/**
* Copy the values of all of the enumerable own properties from one or more source objects to a
* target object. Returns the target object.
* @param target The target object to copy to.
* @param source1 The first source object from which to copy properties.
* @param source2 The second source object from which to copy properties.
* @param source3 The third source object from which to copy properties.
*/
assign<T, U, V, W>(target: T, source1: U, source2: V, source3: W): T & U & V & W;
/**
* Copy the values of all of the enumerable own properties from one or more source objects to a
* target object. Returns the target object.
* @param target The target object to copy to.
* @param sources One or more source objects from which to copy properties
*/
assign(target: object, ...sources: any[]): any;
/**
* Returns an array of all symbol properties found directly on object o.
* @param o Object to retrieve the symbols from.
*/
getOwnPropertySymbols(o: any): symbol[];
/**
* Returns the names of the enumerable string properties and methods of an object.
* @param o Object that contains the properties and methods. This can be an object that you created or an existing Document Object Model (DOM) object.
*/
keys(o: {}): string[];
/**
* Returns true if the values are the same value, false otherwise.
* @param value1 The first value.
* @param value2 The second value.
*/
is(value1: any, value2: any): boolean;
/**
* Sets the prototype of a specified object o to object proto or null. Returns the object o.
* @param o The object to change its prototype.
* @param proto The value of the new prototype or null.
*/
setPrototypeOf(o: any, proto: object | null): any;
}
interface ReadonlyArray<T> {
/**
* Returns the value of the first element in the array where predicate is true, and undefined
* otherwise.
* @param predicate find calls predicate once for each element of the array, in ascending
* order, until it finds one where predicate returns true. If such an element is found, find
* immediately returns that element value. Otherwise, find returns undefined.
* @param thisArg If provided, it will be used as the this value for each invocation of
* predicate. If it is not provided, undefined is used instead.
*/
find<S extends T>(predicate: (this: void, value: T, index: number, obj: readonly T[]) => value is S, thisArg?: any): S | undefined;
find(predicate: (value: T, index: number, obj: readonly T[]) => unknown, thisArg?: any): T | undefined;
/**
* Returns the index of the first element in the array where predicate is true, and -1
* otherwise.
* @param predicate find calls predicate once for each element of the array, in ascending
* order, until it finds one where predicate returns true. If such an element is found,
* findIndex immediately returns that element index. Otherwise, findIndex returns -1.
* @param thisArg If provided, it will be used as the this value for each invocation of
* predicate. If it is not provided, undefined is used instead.
*/
findIndex(predicate: (value: T, index: number, obj: readonly T[]) => unknown, thisArg?: any): number;
}
interface RegExp {
/**
* Returns a string indicating the flags of the regular expression in question. This field is read-only.
* The characters in this string are sequenced and concatenated in the following order:
*
* - "g" for global
* - "i" for ignoreCase
* - "m" for multiline
* - "u" for unicode
* - "y" for sticky
*
* If no flags are set, the value is the empty string.
*/
readonly flags: string;
/**
* Returns a Boolean value indicating the state of the sticky flag (y) used with a regular
* expression. Default is false. Read-only.
*/
readonly sticky: boolean;
/**
* Returns a Boolean value indicating the state of the Unicode flag (u) used with a regular
* expression. Default is false. Read-only.
*/
readonly unicode: boolean;
}
interface RegExpConstructor {
new (pattern: RegExp | string, flags?: string): RegExp;
(pattern: RegExp | string, flags?: string): RegExp;
}
interface String {
/**
* Returns a nonnegative integer Number less than 1114112 (0x110000) that is the code point
* value of the UTF-16 encoded code point starting at the string element at position pos in
* the String resulting from converting this object to a String.
* If there is no element at that position, the result is undefined.
* If a valid UTF-16 surrogate pair does not begin at pos, the result is the code unit at pos.
*/
codePointAt(pos: number): number | undefined;
/**
* Returns true if searchString appears as a substring of the result of converting this
* object to a String, at one or more positions that are
* greater than or equal to position; otherwise, returns false.
* @param searchString search string
* @param position If position is undefined, 0 is assumed, so as to search all of the String.
*/
includes(searchString: string, position?: number): boolean;
/**
* Returns true if the sequence of elements of searchString converted to a String is the
* same as the corresponding elements of this object (converted to a String) starting at
* endPosition – length(this). Otherwise returns false.
*/
endsWith(searchString: string, endPosition?: number): boolean;
/**
* Returns the String value result of normalizing the string into the normalization form
* named by form as specified in Unicode Standard Annex #15, Unicode Normalization Forms.
* @param form Applicable values: "NFC", "NFD", "NFKC", or "NFKD", If not specified default
* is "NFC"
*/
normalize(form: "NFC" | "NFD" | "NFKC" | "NFKD"): string;
/**
* Returns the String value result of normalizing the string into the normalization form
* named by form as specified in Unicode Standard Annex #15, Unicode Normalization Forms.
* @param form Applicable values: "NFC", "NFD", "NFKC", or "NFKD", If not specified default
* is "NFC"
*/
normalize(form?: string): string;
/**
* Returns a String value that is made from count copies appended together. If count is 0,
* the empty string is returned.
* @param count number of copies to append
*/
repeat(count: number): string;
/**
* Returns true if the sequence of elements of searchString converted to a String is the
* same as the corresponding elements of this object (converted to a String) starting at
* position. Otherwise returns false.
*/
startsWith(searchString: string, position?: number): boolean;
/**
* Returns an `<a>` HTML anchor element and sets the name attribute to the text value
* @param name
*/
anchor(name: string): string;
/** Returns a `<big>` HTML element */
big(): string;
/** Returns a `<blink>` HTML element */
blink(): string;
/** Returns a `<b>` HTML element */
bold(): string;
/** Returns a `<tt>` HTML element */
fixed(): string;
/** Returns a `<font>` HTML element and sets the color attribute value */
fontcolor(color: string): string;
/** Returns a `<font>` HTML element and sets the size attribute value */
fontsize(size: number): string;
/** Returns a `<font>` HTML element and sets the size attribute value */
fontsize(size: string): string;
/** Returns an `<i>` HTML element */
italics(): string;
/** Returns an `<a>` HTML element and sets the href attribute value */
link(url: string): string;
/** Returns a `<small>` HTML element */
small(): string;
/** Returns a `<strike>` HTML element */
strike(): string;
/** Returns a `<sub>` HTML element */
sub(): string;
/** Returns a `<sup>` HTML element */
sup(): string;
}
interface StringConstructor {
/**
* Return the String value whose elements are, in order, the elements in the List elements.
* If length is 0, the empty string is returned.
*/
fromCodePoint(...codePoints: number[]): string;
/**
* String.raw is intended for use as a tag function of a Tagged Template String. When called
* as such the first argument will be a well formed template call site object and the rest
* parameter will contain the substitution values.
* @param template A well-formed template string call site representation.
* @param substitutions A set of substitution values.
*/
raw(template: TemplateStringsArray, ...substitutions: any[]): string;
}
/*! *****************************************************************************
Copyright (c) Microsoft Corporation. All rights reserved.
Licensed under the Apache License, Version 2.0 (the "License"); you may not use
this file except in compliance with the License. You may obtain a copy of the
License at http://www.apache.org/licenses/LICENSE-2.0
THIS CODE IS PROVIDED ON AN *AS IS* BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
KIND, EITHER EXPRESS OR IMPLIED, INCLUDING WITHOUT LIMITATION ANY IMPLIED
WARRANTIES OR CONDITIONS OF TITLE, FITNESS FOR A PARTICULAR PURPOSE,
MERCHANTABLITY OR NON-INFRINGEMENT.
See the Apache Version 2.0 License for specific language governing permissions
and limitations under the License.
***************************************************************************** */
/// <reference no-default-lib="true"/>
/// <reference lib="es5" />
/// <reference lib="es2015.core" />
/// <reference lib="es2015.collection" />
/// <reference lib="es2015.iterable" />
/// <reference lib="es2015.generator" />
/// <reference lib="es2015.promise" />
/// <reference lib="es2015.proxy" />
/// <reference lib="es2015.reflect" />
/// <reference lib="es2015.symbol" />
/// <reference lib="es2015.symbol.wellknown" />
/*! *****************************************************************************
Copyright (c) Microsoft Corporation. All rights reserved.
Licensed under the Apache License, Version 2.0 (the "License"); you may not use
this file except in compliance with the License. You may obtain a copy of the
License at http://www.apache.org/licenses/LICENSE-2.0
THIS CODE IS PROVIDED ON AN *AS IS* BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
KIND, EITHER EXPRESS OR IMPLIED, INCLUDING WITHOUT LIMITATION ANY IMPLIED
WARRANTIES OR CONDITIONS OF TITLE, FITNESS FOR A PARTICULAR PURPOSE,
MERCHANTABLITY OR NON-INFRINGEMENT.
See the Apache Version 2.0 License for specific language governing permissions
and limitations under the License.
***************************************************************************** */
/// <reference no-default-lib="true"/>
/// <reference lib="es2015.iterable" />
interface Generator<T = unknown, TReturn = any, TNext = unknown> extends Iterator<T, TReturn, TNext> {
// NOTE: 'next' is defined using a tuple to ensure we report the correct assignability errors in all places.
next(...args: [] | [TNext]): IteratorResult<T, TReturn>;
return(value: TReturn): IteratorResult<T, TReturn>;
throw(e: any): IteratorResult<T, TReturn>;
[Symbol.iterator](): Generator<T, TReturn, TNext>;
}
interface GeneratorFunction {
/**
* Creates a new Generator object.
* @param args A list of arguments the function accepts.
*/
new (...args: any[]): Generator;
/**
* Creates a new Generator object.
* @param args A list of arguments the function accepts.
*/
(...args: any[]): Generator;
/**
* The length of the arguments.
*/
readonly length: number;
/**
* Returns the name of the function.
*/
readonly name: string;
/**
* A reference to the prototype.
*/
readonly prototype: Generator;
}
interface GeneratorFunctionConstructor {
/**
* Creates a new Generator function.
* @param args A list of arguments the function accepts.
*/
new (...args: string[]): GeneratorFunction;
/**
* Creates a new Generator function.
* @param args A list of arguments the function accepts.
*/
(...args: string[]): GeneratorFunction;
/**
* The length of the arguments.
*/
readonly length: number;
/**
* Returns the name of the function.
*/
readonly name: string;
/**
* A reference to the prototype.
*/
readonly prototype: GeneratorFunction;
}
/*! *****************************************************************************
Copyright (c) Microsoft Corporation. All rights reserved.
Licensed under the Apache License, Version 2.0 (the "License"); you may not use
this file except in compliance with the License. You may obtain a copy of the
License at http://www.apache.org/licenses/LICENSE-2.0
THIS CODE IS PROVIDED ON AN *AS IS* BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
KIND, EITHER EXPRESS OR IMPLIED, INCLUDING WITHOUT LIMITATION ANY IMPLIED
WARRANTIES OR CONDITIONS OF TITLE, FITNESS FOR A PARTICULAR PURPOSE,
MERCHANTABLITY OR NON-INFRINGEMENT.
See the Apache Version 2.0 License for specific language governing permissions
and limitations under the License.
***************************************************************************** */
/// <reference no-default-lib="true"/>
/// <reference lib="es2015.symbol" />
interface SymbolConstructor {
/**
* A method that returns the default iterator for an object. Called by the semantics of the
* for-of statement.
*/
readonly iterator: unique symbol;
}
interface IteratorYieldResult<TYield> {
done?: false;
value: TYield;
}
interface IteratorReturnResult<TReturn> {
done: true;
value: TReturn;
}
type IteratorResult<T, TReturn = any> = IteratorYieldResult<T> | IteratorReturnResult<TReturn>;
interface Iterator<T, TReturn = any, TNext = undefined> {
// NOTE: 'next' is defined using a tuple to ensure we report the correct assignability errors in all places.
next(...args: [] | [TNext]): IteratorResult<T, TReturn>;
return?(value?: TReturn): IteratorResult<T, TReturn>;
throw?(e?: any): IteratorResult<T, TReturn>;
}
interface Iterable<T> {
[Symbol.iterator](): Iterator<T>;
}
interface IterableIterator<T> extends Iterator<T> {
[Symbol.iterator](): IterableIterator<T>;
}
interface Array<T> {
/** Iterator */
[Symbol.iterator](): IterableIterator<T>;
/**
* Returns an iterable of key, value pairs for every entry in the array
*/
entries(): IterableIterator<[number, T]>;
/**
* Returns an iterable of keys in the array
*/
keys(): IterableIterator<number>;
/**
* Returns an iterable of values in the array
*/
values(): IterableIterator<T>;
}
interface ArrayConstructor {
/**
* Creates an array from an iterable object.
* @param iterable An iterable object to convert to an array.
*/
from<T>(iterable: Iterable<T> | ArrayLike<T>): T[];
/**
* Creates an array from an iterable object.
* @param iterable An iterable object to convert to an array.
* @param mapfn A mapping function to call on every element of the array.
* @param thisArg Value of 'this' used to invoke the mapfn.
*/
from<T, U>(iterable: Iterable<T> | ArrayLike<T>, mapfn: (v: T, k: number) => U, thisArg?: any): U[];
}
interface ReadonlyArray<T> {
/** Iterator of values in the array. */
[Symbol.iterator](): IterableIterator<T>;
/**
* Returns an iterable of key, value pairs for every entry in the array
*/
entries(): IterableIterator<[number, T]>;
/**
* Returns an iterable of keys in the array
*/
keys(): IterableIterator<number>;
/**
* Returns an iterable of values in the array
*/
values(): IterableIterator<T>;
}
interface IArguments {
/** Iterator */
[Symbol.iterator](): IterableIterator<any>;
}
interface Map<K, V> {
/** Returns an iterable of entries in the map. */
[Symbol.iterator](): IterableIterator<[K, V]>;
/**
* Returns an iterable of key, value pairs for every entry in the map.
*/
entries(): IterableIterator<[K, V]>;
/**
* Returns an iterable of keys in the map
*/
keys(): IterableIterator<K>;
/**
* Returns an iterable of values in the map
*/
values(): IterableIterator<V>;
}
interface ReadonlyMap<K, V> {
/** Returns an iterable of entries in the map. */
[Symbol.iterator](): IterableIterator<[K, V]>;
/**
* Returns an iterable of key, value pairs for every entry in the map.
*/
entries(): IterableIterator<[K, V]>;
/**
* Returns an iterable of keys in the map
*/
keys(): IterableIterator<K>;
/**
* Returns an iterable of values in the map
*/
values(): IterableIterator<V>;
}
interface MapConstructor {
new <K, V>(iterable: Iterable<readonly [K, V]>): Map<K, V>;
}
interface WeakMap<K extends object, V> { }
interface WeakMapConstructor {
new <K extends object, V>(iterable: Iterable<[K, V]>): WeakMap<K, V>;
}
interface Set<T> {
/** Iterates over values in the set. */
[Symbol.iterator](): IterableIterator<T>;
/**
* Returns an iterable of [v,v] pairs for every value `v` in the set.
*/
entries(): IterableIterator<[T, T]>;
/**
* Despite its name, returns an iterable of the values in the set.
*/
keys(): IterableIterator<T>;
/**
* Returns an iterable of values in the set.
*/
values(): IterableIterator<T>;
}
interface ReadonlySet<T> {
/** Iterates over values in the set. */
[Symbol.iterator](): IterableIterator<T>;
/**
* Returns an iterable of [v,v] pairs for every value `v` in the set.
*/
entries(): IterableIterator<[T, T]>;
/**
* Despite its name, returns an iterable of the values in the set.
*/
keys(): IterableIterator<T>;
/**
* Returns an iterable of values in the set.
*/
values(): IterableIterator<T>;
}
interface SetConstructor {
new <T>(iterable?: Iterable<T> | null): Set<T>;
}
interface WeakSet<T extends object> { }
interface WeakSetConstructor {
new <T extends object = object>(iterable: Iterable<T>): WeakSet<T>;
}
interface Promise<T> { }
interface PromiseConstructor {
/**
* Creates a Promise that is resolved with an array of results when all of the provided Promises
* resolve, or rejected when any Promise is rejected.
* @param values An iterable of Promises.
* @returns A new Promise.
*/
all<T>(values: Iterable<T | PromiseLike<T>>): Promise<T[]>;
/**
* Creates a Promise that is resolved or rejected when any of the provided Promises are resolved
* or rejected.
* @param values An iterable of Promises.
* @returns A new Promise.
*/
race<T>(values: Iterable<T>): Promise<T extends PromiseLike<infer U> ? U : T>;
/**
* Creates a Promise that is resolved or rejected when any of the provided Promises are resolved
* or rejected.
* @param values An iterable of Promises.
* @returns A new Promise.
*/
race<T>(values: Iterable<T | PromiseLike<T>>): Promise<T>;
}
interface String {
/** Iterator */
[Symbol.iterator](): IterableIterator<string>;
}
interface Int8Array {
[Symbol.iterator](): IterableIterator<number>;
/**
* Returns an array of key, value pairs for every entry in the array
*/
entries(): IterableIterator<[number, number]>;
/**
* Returns an list of keys in the array
*/
keys(): IterableIterator<number>;
/**
* Returns an list of values in the array
*/
values(): IterableIterator<number>;
}
interface Int8ArrayConstructor {
new (elements: Iterable<number>): Int8Array;
/**
* Creates an array from an array-like or iterable object.
* @param arrayLike An array-like or iterable object to convert to an array.
* @param mapfn A mapping function to call on every element of the array.
* @param thisArg Value of 'this' used to invoke the mapfn.
*/
from(arrayLike: Iterable<number>, mapfn?: (v: number, k: number) => number, thisArg?: any): Int8Array;
}
interface Uint8Array {
[Symbol.iterator](): IterableIterator<number>;
/**
* Returns an array of key, value pairs for every entry in the array
*/
entries(): IterableIterator<[number, number]>;
/**
* Returns an list of keys in the array
*/
keys(): IterableIterator<number>;
/**
* Returns an list of values in the array
*/
values(): IterableIterator<number>;
}
interface Uint8ArrayConstructor {
new (elements: Iterable<number>): Uint8Array;
/**
* Creates an array from an array-like or iterable object.
* @param arrayLike An array-like or iterable object to convert to an array.
* @param mapfn A mapping function to call on every element of the array.
* @param thisArg Value of 'this' used to invoke the mapfn.
*/
from(arrayLike: Iterable<number>, mapfn?: (v: number, k: number) => number, thisArg?: any): Uint8Array;
}
interface Uint8ClampedArray {
[Symbol.iterator](): IterableIterator<number>;
/**
* Returns an array of key, value pairs for every entry in the array
*/
entries(): IterableIterator<[number, number]>;
/**
* Returns an list of keys in the array
*/
keys(): IterableIterator<number>;
/**
* Returns an list of values in the array
*/
values(): IterableIterator<number>;
}
interface Uint8ClampedArrayConstructor {
new (elements: Iterable<number>): Uint8ClampedArray;
/**
* Creates an array from an array-like or iterable object.
* @param arrayLike An array-like or iterable object to convert to an array.
* @param mapfn A mapping function to call on every element of the array.
* @param thisArg Value of 'this' used to invoke the mapfn.
*/
from(arrayLike: Iterable<number>, mapfn?: (v: number, k: number) => number, thisArg?: any): Uint8ClampedArray;
}
interface Int16Array {
[Symbol.iterator](): IterableIterator<number>;
/**
* Returns an array of key, value pairs for every entry in the array
*/
entries(): IterableIterator<[number, number]>;
/**
* Returns an list of keys in the array
*/
keys(): IterableIterator<number>;
/**
* Returns an list of values in the array
*/
values(): IterableIterator<number>;
}
interface Int16ArrayConstructor {
new (elements: Iterable<number>): Int16Array;
/**
* Creates an array from an array-like or iterable object.
* @param arrayLike An array-like or iterable object to convert to an array.
* @param mapfn A mapping function to call on every element of the array.
* @param thisArg Value of 'this' used to invoke the mapfn.
*/
from(arrayLike: Iterable<number>, mapfn?: (v: number, k: number) => number, thisArg?: any): Int16Array;
}
interface Uint16Array {
[Symbol.iterator](): IterableIterator<number>;
/**
* Returns an array of key, value pairs for every entry in the array
*/
entries(): IterableIterator<[number, number]>;
/**
* Returns an list of keys in the array
*/
keys(): IterableIterator<number>;
/**
* Returns an list of values in the array
*/
values(): IterableIterator<number>;
}
interface Uint16ArrayConstructor {
new (elements: Iterable<number>): Uint16Array;
/**
* Creates an array from an array-like or iterable object.
* @param arrayLike An array-like or iterable object to convert to an array.
* @param mapfn A mapping function to call on every element of the array.
* @param thisArg Value of 'this' used to invoke the mapfn.
*/
from(arrayLike: Iterable<number>, mapfn?: (v: number, k: number) => number, thisArg?: any): Uint16Array;
}
interface Int32Array {
[Symbol.iterator](): IterableIterator<number>;
/**
* Returns an array of key, value pairs for every entry in the array
*/
entries(): IterableIterator<[number, number]>;
/**
* Returns an list of keys in the array
*/
keys(): IterableIterator<number>;
/**
* Returns an list of values in the array
*/
values(): IterableIterator<number>;
}
interface Int32ArrayConstructor {
new (elements: Iterable<number>): Int32Array;
/**
* Creates an array from an array-like or iterable object.
* @param arrayLike An array-like or iterable object to convert to an array.
* @param mapfn A mapping function to call on every element of the array.
* @param thisArg Value of 'this' used to invoke the mapfn.
*/
from(arrayLike: Iterable<number>, mapfn?: (v: number, k: number) => number, thisArg?: any): Int32Array;
}
interface Uint32Array {
[Symbol.iterator](): IterableIterator<number>;
/**
* Returns an array of key, value pairs for every entry in the array
*/
entries(): IterableIterator<[number, number]>;
/**
* Returns an list of keys in the array
*/
keys(): IterableIterator<number>;
/**
* Returns an list of values in the array
*/
values(): IterableIterator<number>;
}
interface Uint32ArrayConstructor {
new (elements: Iterable<number>): Uint32Array;
/**
* Creates an array from an array-like or iterable object.
* @param arrayLike An array-like or iterable object to convert to an array.
* @param mapfn A mapping function to call on every element of the array.
* @param thisArg Value of 'this' used to invoke the mapfn.
*/
from(arrayLike: Iterable<number>, mapfn?: (v: number, k: number) => number, thisArg?: any): Uint32Array;
}
interface Float32Array {
[Symbol.iterator](): IterableIterator<number>;
/**
* Returns an array of key, value pairs for every entry in the array
*/
entries(): IterableIterator<[number, number]>;
/**
* Returns an list of keys in the array
*/
keys(): IterableIterator<number>;
/**
* Returns an list of values in the array
*/
values(): IterableIterator<number>;
}
interface Float32ArrayConstructor {
new (elements: Iterable<number>): Float32Array;
/**
* Creates an array from an array-like or iterable object.
* @param arrayLike An array-like or iterable object to convert to an array.
* @param mapfn A mapping function to call on every element of the array.
* @param thisArg Value of 'this' used to invoke the mapfn.
*/
from(arrayLike: Iterable<number>, mapfn?: (v: number, k: number) => number, thisArg?: any): Float32Array;
}
interface Float64Array {
[Symbol.iterator](): IterableIterator<number>;
/**
* Returns an array of key, value pairs for every entry in the array
*/
entries(): IterableIterator<[number, number]>;
/**
* Returns an list of keys in the array
*/
keys(): IterableIterator<number>;
/**
* Returns an list of values in the array
*/
values(): IterableIterator<number>;
}
interface Float64ArrayConstructor {
new (elements: Iterable<number>): Float64Array;
/**
* Creates an array from an array-like or iterable object.
* @param arrayLike An array-like or iterable object to convert to an array.
* @param mapfn A mapping function to call on every element of the array.
* @param thisArg Value of 'this' used to invoke the mapfn.
*/
from(arrayLike: Iterable<number>, mapfn?: (v: number, k: number) => number, thisArg?: any): Float64Array;
}
/*! *****************************************************************************
Copyright (c) Microsoft Corporation. All rights reserved.
Licensed under the Apache License, Version 2.0 (the "License"); you may not use
this file except in compliance with the License. You may obtain a copy of the
License at http://www.apache.org/licenses/LICENSE-2.0
THIS CODE IS PROVIDED ON AN *AS IS* BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
KIND, EITHER EXPRESS OR IMPLIED, INCLUDING WITHOUT LIMITATION ANY IMPLIED
WARRANTIES OR CONDITIONS OF TITLE, FITNESS FOR A PARTICULAR PURPOSE,
MERCHANTABLITY OR NON-INFRINGEMENT.
See the Apache Version 2.0 License for specific language governing permissions
and limitations under the License.
***************************************************************************** */
/// <reference no-default-lib="true"/>
interface PromiseConstructor {
/**
* A reference to the prototype.
*/
readonly prototype: Promise<any>;
/**
* Creates a new Promise.
* @param executor A callback used to initialize the promise. This callback is passed two arguments:
* a resolve callback used to resolve the promise with a value or the result of another promise,
* and a reject callback used to reject the promise with a provided reason or error.
*/
new <T>(executor: (resolve: (value: T | PromiseLike<T>) => void, reject: (reason?: any) => void) => void): Promise<T>;
/**
* Creates a Promise that is resolved with an array of results when all of the provided Promises
* resolve, or rejected when any Promise is rejected.
* @param values An array of Promises.
* @returns A new Promise.
*/
all<T1, T2, T3, T4, T5, T6, T7, T8, T9, T10>(values: readonly [T1 | PromiseLike<T1>, T2 | PromiseLike<T2>, T3 | PromiseLike<T3>, T4 | PromiseLike<T4>, T5 | PromiseLike<T5>, T6 | PromiseLike<T6>, T7 | PromiseLike<T7>, T8 | PromiseLike<T8>, T9 | PromiseLike<T9>, T10 | PromiseLike<T10>]): Promise<[T1, T2, T3, T4, T5, T6, T7, T8, T9, T10]>;
/**
* Creates a Promise that is resolved with an array of results when all of the provided Promises
* resolve, or rejected when any Promise is rejected.
* @param values An array of Promises.
* @returns A new Promise.
*/
all<T1, T2, T3, T4, T5, T6, T7, T8, T9>(values: readonly [T1 | PromiseLike<T1>, T2 | PromiseLike<T2>, T3 | PromiseLike<T3>, T4 | PromiseLike<T4>, T5 | PromiseLike<T5>, T6 | PromiseLike<T6>, T7 | PromiseLike<T7>, T8 | PromiseLike<T8>, T9 | PromiseLike<T9>]): Promise<[T1, T2, T3, T4, T5, T6, T7, T8, T9]>;
/**
* Creates a Promise that is resolved with an array of results when all of the provided Promises
* resolve, or rejected when any Promise is rejected.
* @param values An array of Promises.
* @returns A new Promise.
*/
all<T1, T2, T3, T4, T5, T6, T7, T8>(values: readonly [T1 | PromiseLike<T1>, T2 | PromiseLike<T2>, T3 | PromiseLike<T3>, T4 | PromiseLike<T4>, T5 | PromiseLike<T5>, T6 | PromiseLike<T6>, T7 | PromiseLike<T7>, T8 | PromiseLike<T8>]): Promise<[T1, T2, T3, T4, T5, T6, T7, T8]>;
/**
* Creates a Promise that is resolved with an array of results when all of the provided Promises
* resolve, or rejected when any Promise is rejected.
* @param values An array of Promises.
* @returns A new Promise.
*/
all<T1, T2, T3, T4, T5, T6, T7>(values: readonly [T1 | PromiseLike<T1>, T2 | PromiseLike<T2>, T3 | PromiseLike<T3>, T4 | PromiseLike<T4>, T5 | PromiseLike<T5>, T6 | PromiseLike<T6>, T7 | PromiseLike<T7>]): Promise<[T1, T2, T3, T4, T5, T6, T7]>;
/**
* Creates a Promise that is resolved with an array of results when all of the provided Promises
* resolve, or rejected when any Promise is rejected.
* @param values An array of Promises.
* @returns A new Promise.
*/
all<T1, T2, T3, T4, T5, T6>(values: readonly [T1 | PromiseLike<T1>, T2 | PromiseLike<T2>, T3 | PromiseLike<T3>, T4 | PromiseLike<T4>, T5 | PromiseLike<T5>, T6 | PromiseLike<T6>]): Promise<[T1, T2, T3, T4, T5, T6]>;
/**
* Creates a Promise that is resolved with an array of results when all of the provided Promises
* resolve, or rejected when any Promise is rejected.
* @param values An array of Promises.
* @returns A new Promise.
*/
all<T1, T2, T3, T4, T5>(values: readonly [T1 | PromiseLike<T1>, T2 | PromiseLike<T2>, T3 | PromiseLike<T3>, T4 | PromiseLike<T4>, T5 | PromiseLike<T5>]): Promise<[T1, T2, T3, T4, T5]>;
/**
* Creates a Promise that is resolved with an array of results when all of the provided Promises
* resolve, or rejected when any Promise is rejected.
* @param values An array of Promises.
* @returns A new Promise.
*/
all<T1, T2, T3, T4>(values: readonly [T1 | PromiseLike<T1>, T2 | PromiseLike<T2>, T3 | PromiseLike<T3>, T4 | PromiseLike<T4>]): Promise<[T1, T2, T3, T4]>;
/**
* Creates a Promise that is resolved with an array of results when all of the provided Promises
* resolve, or rejected when any Promise is rejected.
* @param values An array of Promises.
* @returns A new Promise.
*/
all<T1, T2, T3>(values: readonly [T1 | PromiseLike<T1>, T2 | PromiseLike<T2>, T3 | PromiseLike<T3>]): Promise<[T1, T2, T3]>;
/**
* Creates a Promise that is resolved with an array of results when all of the provided Promises
* resolve, or rejected when any Promise is rejected.
* @param values An array of Promises.
* @returns A new Promise.
*/
all<T1, T2>(values: readonly [T1 | PromiseLike<T1>, T2 | PromiseLike<T2>]): Promise<[T1, T2]>;
/**
* Creates a Promise that is resolved with an array of results when all of the provided Promises
* resolve, or rejected when any Promise is rejected.
* @param values An array of Promises.
* @returns A new Promise.
*/
all<T>(values: readonly (T | PromiseLike<T>)[]): Promise<T[]>;
// see: lib.es2015.iterable.d.ts
// all<T>(values: Iterable<T | PromiseLike<T>>): Promise<T[]>;
/**
* Creates a Promise that is resolved or rejected when any of the provided Promises are resolved
* or rejected.
* @param values An array of Promises.
* @returns A new Promise.
*/
race<T>(values: readonly T[]): Promise<T extends PromiseLike<infer U> ? U : T>;
// see: lib.es2015.iterable.d.ts
// race<T>(values: Iterable<T>): Promise<T extends PromiseLike<infer U> ? U : T>;
/**
* Creates a new rejected promise for the provided reason.
* @param reason The reason the promise was rejected.
* @returns A new rejected Promise.
*/
reject<T = never>(reason?: any): Promise<T>;
/**
* Creates a new resolved promise.
* @returns A resolved promise.
*/
resolve(): Promise<void>;
/**
* Creates a new resolved promise for the provided value.
* @param value A promise.
* @returns A promise whose internal state matches the provided promise.
*/
resolve<T>(value: T | PromiseLike<T>): Promise<T>;
}
declare var Promise: PromiseConstructor;
/*! *****************************************************************************
Copyright (c) Microsoft Corporation. All rights reserved.
Licensed under the Apache License, Version 2.0 (the "License"); you may not use
this file except in compliance with the License. You may obtain a copy of the
License at http://www.apache.org/licenses/LICENSE-2.0
THIS CODE IS PROVIDED ON AN *AS IS* BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
KIND, EITHER EXPRESS OR IMPLIED, INCLUDING WITHOUT LIMITATION ANY IMPLIED
WARRANTIES OR CONDITIONS OF TITLE, FITNESS FOR A PARTICULAR PURPOSE,
MERCHANTABLITY OR NON-INFRINGEMENT.
See the Apache Version 2.0 License for specific language governing permissions
and limitations under the License.
***************************************************************************** */
/// <reference no-default-lib="true"/>
interface ProxyHandler<T extends object> {
apply?(target: T, thisArg: any, argArray: any[]): any;
construct?(target: T, argArray: any[], newTarget: Function): object;
defineProperty?(target: T, p: string | symbol, attributes: PropertyDescriptor): boolean;
deleteProperty?(target: T, p: string | symbol): boolean;
get?(target: T, p: string | symbol, receiver: any): any;
getOwnPropertyDescriptor?(target: T, p: string | symbol): PropertyDescriptor | undefined;
getPrototypeOf?(target: T): object | null;
has?(target: T, p: string | symbol): boolean;
isExtensible?(target: T): boolean;
ownKeys?(target: T): ArrayLike<string | symbol>;
preventExtensions?(target: T): boolean;
set?(target: T, p: string | symbol, value: any, receiver: any): boolean;
setPrototypeOf?(target: T, v: object | null): boolean;
}
interface ProxyConstructor {
revocable<T extends object>(target: T, handler: ProxyHandler<T>): { proxy: T; revoke: () => void; };
new <T extends object>(target: T, handler: ProxyHandler<T>): T;
}
declare var Proxy: ProxyConstructor;
/*! *****************************************************************************
Copyright (c) Microsoft Corporation. All rights reserved.
Licensed under the Apache License, Version 2.0 (the "License"); you may not use
this file except in compliance with the License. You may obtain a copy of the
License at http://www.apache.org/licenses/LICENSE-2.0
THIS CODE IS PROVIDED ON AN *AS IS* BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
KIND, EITHER EXPRESS OR IMPLIED, INCLUDING WITHOUT LIMITATION ANY IMPLIED
WARRANTIES OR CONDITIONS OF TITLE, FITNESS FOR A PARTICULAR PURPOSE,
MERCHANTABLITY OR NON-INFRINGEMENT.
See the Apache Version 2.0 License for specific language governing permissions
and limitations under the License.
***************************************************************************** */
/// <reference no-default-lib="true"/>
declare namespace Reflect {
/**
* Calls the function with the specified object as the this value
* and the elements of specified array as the arguments.
* @param target The function to call.
* @param thisArgument The object to be used as the this object.
* @param argumentsList An array of argument values to be passed to the function.
*/
function apply(target: Function, thisArgument: any, argumentsList: ArrayLike<any>): any;
/**
* Constructs the target with the elements of specified array as the arguments
* and the specified constructor as the `new.target` value.
* @param target The constructor to invoke.
* @param argumentsList An array of argument values to be passed to the constructor.
* @param newTarget The constructor to be used as the `new.target` object.
*/
function construct(target: Function, argumentsList: ArrayLike<any>, newTarget?: Function): any;
/**
* Adds a property to an object, or modifies attributes of an existing property.
* @param target Object on which to add or modify the property. This can be a native JavaScript object
* (that is, a user-defined object or a built in object) or a DOM object.
* @param propertyKey The property name.
* @param attributes Descriptor for the property. It can be for a data property or an accessor property.
*/
function defineProperty(target: object, propertyKey: PropertyKey, attributes: PropertyDescriptor): boolean;
/**
* Removes a property from an object, equivalent to `delete target[propertyKey]`,
* except it won't throw if `target[propertyKey]` is non-configurable.
* @param target Object from which to remove the own property.
* @param propertyKey The property name.
*/
function deleteProperty(target: object, propertyKey: PropertyKey): boolean;
/**
* Gets the property of target, equivalent to `target[propertyKey]` when `receiver === target`.
* @param target Object that contains the property on itself or in its prototype chain.
* @param propertyKey The property name.
* @param receiver The reference to use as the `this` value in the getter function,
* if `target[propertyKey]` is an accessor property.
*/
function get(target: object, propertyKey: PropertyKey, receiver?: any): any;
/**
* Gets the own property descriptor of the specified object.
* An own property descriptor is one that is defined directly on the object and is not inherited from the object's prototype.
* @param target Object that contains the property.
* @param propertyKey The property name.
*/
function getOwnPropertyDescriptor(target: object, propertyKey: PropertyKey): PropertyDescriptor | undefined;
/**
* Returns the prototype of an object.
* @param target The object that references the prototype.
*/
function getPrototypeOf(target: object): object | null;
/**
* Equivalent to `propertyKey in target`.
* @param target Object that contains the property on itself or in its prototype chain.
* @param propertyKey Name of the property.
*/
function has(target: object, propertyKey: PropertyKey): boolean;
/**
* Returns a value that indicates whether new properties can be added to an object.
* @param target Object to test.
*/
function isExtensible(target: object): boolean;
/**
* Returns the string and symbol keys of the own properties of an object. The own properties of an object
* are those that are defined directly on that object, and are not inherited from the object's prototype.
* @param target Object that contains the own properties.
*/
function ownKeys(target: object): (string | symbol)[];
/**
* Prevents the addition of new properties to an object.
* @param target Object to make non-extensible.
* @return Whether the object has been made non-extensible.
*/
function preventExtensions(target: object): boolean;
/**
* Sets the property of target, equivalent to `target[propertyKey] = value` when `receiver === target`.
* @param target Object that contains the property on itself or in its prototype chain.
* @param propertyKey Name of the property.
* @param receiver The reference to use as the `this` value in the setter function,
* if `target[propertyKey]` is an accessor property.
*/
function set(target: object, propertyKey: PropertyKey, value: any, receiver?: any): boolean;
/**
* Sets the prototype of a specified object o to object proto or null.
* @param target The object to change its prototype.
* @param proto The value of the new prototype or null.
* @return Whether setting the prototype was successful.
*/
function setPrototypeOf(target: object, proto: object | null): boolean;
}
/*! *****************************************************************************
Copyright (c) Microsoft Corporation. All rights reserved.
Licensed under the Apache License, Version 2.0 (the "License"); you may not use
this file except in compliance with the License. You may obtain a copy of the
License at http://www.apache.org/licenses/LICENSE-2.0
THIS CODE IS PROVIDED ON AN *AS IS* BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
KIND, EITHER EXPRESS OR IMPLIED, INCLUDING WITHOUT LIMITATION ANY IMPLIED
WARRANTIES OR CONDITIONS OF TITLE, FITNESS FOR A PARTICULAR PURPOSE,
MERCHANTABLITY OR NON-INFRINGEMENT.
See the Apache Version 2.0 License for specific language governing permissions
and limitations under the License.
***************************************************************************** */
/// <reference no-default-lib="true"/>
interface SymbolConstructor {
/**
* A reference to the prototype.
*/
readonly prototype: Symbol;
/**
* Returns a new unique Symbol value.
* @param description Description of the new Symbol object.
*/
(description?: string | number): symbol;
/**
* Returns a Symbol object from the global symbol registry matching the given key if found.
* Otherwise, returns a new symbol with this key.
* @param key key to search for.
*/
for(key: string): symbol;
/**
* Returns a key from the global symbol registry matching the given Symbol if found.
* Otherwise, returns a undefined.
* @param sym Symbol to find the key for.
*/
keyFor(sym: symbol): string | undefined;
}
declare var Symbol: SymbolConstructor;
\ No newline at end of file
/*! *****************************************************************************
Copyright (c) Microsoft Corporation. All rights reserved.
Licensed under the Apache License, Version 2.0 (the "License"); you may not use
this file except in compliance with the License. You may obtain a copy of the
License at http://www.apache.org/licenses/LICENSE-2.0
THIS CODE IS PROVIDED ON AN *AS IS* BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
KIND, EITHER EXPRESS OR IMPLIED, INCLUDING WITHOUT LIMITATION ANY IMPLIED
WARRANTIES OR CONDITIONS OF TITLE, FITNESS FOR A PARTICULAR PURPOSE,
MERCHANTABLITY OR NON-INFRINGEMENT.
See the Apache Version 2.0 License for specific language governing permissions
and limitations under the License.
***************************************************************************** */
/// <reference no-default-lib="true"/>
/// <reference lib="es2015.symbol" />
interface SymbolConstructor {
/**
* A method that determines if a constructor object recognizes an object as one of the
* constructor’s instances. Called by the semantics of the instanceof operator.
*/
readonly hasInstance: unique symbol;
/**
* A Boolean value that if true indicates that an object should flatten to its array elements
* by Array.prototype.concat.
*/
readonly isConcatSpreadable: unique symbol;
/**
* A regular expression method that matches the regular expression against a string. Called
* by the String.prototype.match method.
*/
readonly match: unique symbol;
/**
* A regular expression method that replaces matched substrings of a string. Called by the
* String.prototype.replace method.
*/
readonly replace: unique symbol;
/**
* A regular expression method that returns the index within a string that matches the
* regular expression. Called by the String.prototype.search method.
*/
readonly search: unique symbol;
/**
* A function valued property that is the constructor function that is used to create
* derived objects.
*/
readonly species: unique symbol;
/**
* A regular expression method that splits a string at the indices that match the regular
* expression. Called by the String.prototype.split method.
*/
readonly split: unique symbol;
/**
* A method that converts an object to a corresponding primitive value.
* Called by the ToPrimitive abstract operation.
*/
readonly toPrimitive: unique symbol;
/**
* A String value that is used in the creation of the default string description of an object.
* Called by the built-in method Object.prototype.toString.
*/
readonly toStringTag: unique symbol;
/**
* An Object whose own property names are property names that are excluded from the 'with'
* environment bindings of the associated objects.
*/
readonly unscopables: unique symbol;
}
interface Symbol {
/**
* Converts a Symbol object to a symbol.
*/
[Symbol.toPrimitive](hint: string): symbol;
readonly [Symbol.toStringTag]: string;
}
interface Array<T> {
/**
* Returns an object whose properties have the value 'true'
* when they will be absent when used in a 'with' statement.
*/
[Symbol.unscopables](): {
copyWithin: boolean;
entries: boolean;
fill: boolean;
find: boolean;
findIndex: boolean;
keys: boolean;
values: boolean;
};
}
interface Date {
/**
* Converts a Date object to a string.
*/
[Symbol.toPrimitive](hint: "default"): string;
/**
* Converts a Date object to a string.
*/
[Symbol.toPrimitive](hint: "string"): string;
/**
* Converts a Date object to a number.
*/
[Symbol.toPrimitive](hint: "number"): number;
/**
* Converts a Date object to a string or number.
*
* @param hint The strings "number", "string", or "default" to specify what primitive to return.
*
* @throws {TypeError} If 'hint' was given something other than "number", "string", or "default".
* @returns A number if 'hint' was "number", a string if 'hint' was "string" or "default".
*/
[Symbol.toPrimitive](hint: string): string | number;
}
interface Map<K, V> {
readonly [Symbol.toStringTag]: string;
}
interface WeakMap<K extends object, V> {
readonly [Symbol.toStringTag]: string;
}
interface Set<T> {
readonly [Symbol.toStringTag]: string;
}
interface WeakSet<T extends object> {
readonly [Symbol.toStringTag]: string;
}
interface JSON {
readonly [Symbol.toStringTag]: string;
}
interface Function {
/**
* Determines whether the given value inherits from this function if this function was used
* as a constructor function.
*
* A constructor function can control which objects are recognized as its instances by
* 'instanceof' by overriding this method.
*/
[Symbol.hasInstance](value: any): boolean;
}
interface GeneratorFunction {
readonly [Symbol.toStringTag]: string;
}
interface Math {
readonly [Symbol.toStringTag]: string;
}
interface Promise<T> {
readonly [Symbol.toStringTag]: string;
}
interface PromiseConstructor {
readonly [Symbol.species]: PromiseConstructor;
}
interface RegExp {
/**
* Matches a string with this regular expression, and returns an array containing the results of
* that search.
* @param string A string to search within.
*/
[Symbol.match](string: string): RegExpMatchArray | null;
/**
* Replaces text in a string, using this regular expression.
* @param string A String object or string literal whose contents matching against
* this regular expression will be replaced
* @param replaceValue A String object or string literal containing the text to replace for every
* successful match of this regular expression.
*/
[Symbol.replace](string: string, replaceValue: string): string;
/**
* Replaces text in a string, using this regular expression.
* @param string A String object or string literal whose contents matching against
* this regular expression will be replaced
* @param replacer A function that returns the replacement text.
*/
[Symbol.replace](string: string, replacer: (substring: string, ...args: any[]) => string): string;
/**
* Finds the position beginning first substring match in a regular expression search
* using this regular expression.
*
* @param string The string to search within.
*/
[Symbol.search](string: string): number;
/**
* Returns an array of substrings that were delimited by strings in the original input that
* match against this regular expression.
*
* If the regular expression contains capturing parentheses, then each time this
* regular expression matches, the results (including any undefined results) of the
* capturing parentheses are spliced.
*
* @param string string value to split
* @param limit if not undefined, the output array is truncated so that it contains no more
* than 'limit' elements.
*/
[Symbol.split](string: string, limit?: number): string[];
}
interface RegExpConstructor {
readonly [Symbol.species]: RegExpConstructor;
}
interface String {
/**
* Matches a string or an object that supports being matched against, and returns an array
* containing the results of that search, or null if no matches are found.
* @param matcher An object that supports being matched against.
*/
match(matcher: { [Symbol.match](string: string): RegExpMatchArray | null; }): RegExpMatchArray | null;
/**
* Replaces text in a string, using an object that supports replacement within a string.
* @param searchValue A object can search for and replace matches within a string.
* @param replaceValue A string containing the text to replace for every successful match of searchValue in this string.
*/
replace(searchValue: { [Symbol.replace](string: string, replaceValue: string): string; }, replaceValue: string): string;
/**
* Replaces text in a string, using an object that supports replacement within a string.
* @param searchValue A object can search for and replace matches within a string.
* @param replacer A function that returns the replacement text.
*/
replace(searchValue: { [Symbol.replace](string: string, replacer: (substring: string, ...args: any[]) => string): string; }, replacer: (substring: string, ...args: any[]) => string): string;
/**
* Finds the first substring match in a regular expression search.
* @param searcher An object which supports searching within a string.
*/
search(searcher: { [Symbol.search](string: string): number; }): number;
/**
* Split a string into substrings using the specified separator and return them as an array.
* @param splitter An object that can split a string.
* @param limit A value used to limit the number of elements returned in the array.
*/
split(splitter: { [Symbol.split](string: string, limit?: number): string[]; }, limit?: number): string[];
}
interface ArrayBuffer {
readonly [Symbol.toStringTag]: string;
}
interface DataView {
readonly [Symbol.toStringTag]: string;
}
interface Int8Array {
readonly [Symbol.toStringTag]: "Int8Array";
}
interface Uint8Array {
readonly [Symbol.toStringTag]: "Uint8Array";
}
interface Uint8ClampedArray {
readonly [Symbol.toStringTag]: "Uint8ClampedArray";
}
interface Int16Array {
readonly [Symbol.toStringTag]: "Int16Array";
}
interface Uint16Array {
readonly [Symbol.toStringTag]: "Uint16Array";
}
interface Int32Array {
readonly [Symbol.toStringTag]: "Int32Array";
}
interface Uint32Array {
readonly [Symbol.toStringTag]: "Uint32Array";
}
interface Float32Array {
readonly [Symbol.toStringTag]: "Float32Array";
}
interface Float64Array {
readonly [Symbol.toStringTag]: "Float64Array";
}
interface ArrayConstructor {
readonly [Symbol.species]: ArrayConstructor;
}
interface MapConstructor {
readonly [Symbol.species]: MapConstructor;
}
interface SetConstructor {
readonly [Symbol.species]: SetConstructor;
}
interface ArrayBufferConstructor {
readonly [Symbol.species]: ArrayBufferConstructor;
}
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